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R5F56514EDFB#10

R5F56514EDFB#10

  • 厂商:

    RENESAS(瑞萨)

  • 封装:

    LQFP144

  • 描述:

    IC MCU 32BIT 512KB FLSH 144LFQFP

  • 数据手册
  • 价格&库存
R5F56514EDFB#10 数据手册
Features Datasheet RX65N Group, RX651 Group R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Renesas MCUs 120-MHz 32-bit RX MCU, on-chip FPU, 240 DMIPS, up to 2-MB flash memory (supportive of the dual bank function), 640-KB SRAM, various communications interfaces including Ethernet MAC, SD host interface (optional), SD slave interface (optional), quad SPI, and CAN, 12-bit A/D converter, RTC, Encryption functions (optional), CMOS camera interface, Graphic-LCD controller, 2D drawing engine Features PLQP0176KB-A 24 × 24 mm, 0.5-mm pitch PLQP0144KA-B 20 × 20 mm, 0.5-mm pitch PLQP0100KB-B 14 × 14 mm, 0.5-mm pitch PLQP0064KB-C 10 × 10 mm, 0.5-mm pitch ■ 32-bit RXv2 CPU core  Max. operating frequency: 120 MHz Capable of 240 DMIPS in operation at 120 MHz  Single precision 32-bit IEEE-754 floating point  Two types of multiply-and-accumulation unit (between memories and between registers)  32-bit multiplier (fastest instruction execution takes one CPU clock cycle)  Divider (fastest instruction execution takes two CPU clock cycles)  Fast interrupt  CISC Harvard architecture with 5-stage pipeline  Variable-length instructions: Ultra-compact code  Supports the memory protection unit (MPU)  JTAG and FINE (one-line) debugging interfaces ■ Low-power design and architecture  Operation from a single 2.7- to 3.6-V supply  Low power consumption: A product that supports all peripheral functions draws only 0.19 mA/MHz (Typ.).  RTC is capable of operation from a dedicated power supply.  Four low-power modes ■ On-chip code flash memory  Supports versions with up to 2 Mbytes of ROM  No wait cycles at up to 50 MHz or when the ROM cache is hit, onewait state at up to 100 MHz, two-wait state at above 100 MHz  User code is programmable by on-board or off-board programming.  Programming/erasing as background operations (BGOs)  A dual-bank structure allows exchanging the start-up bank. ■ On-chip data flash memory  32 Kbytes, reprogrammable up to 100,000 times  Programming/erasing as background operations (BGOs) ■ On-chip SRAM, no wait states  256K/640 Kbytes of SRAM (no wait states)  8 Kbytes of standby RAM (backup on deep software standby) ■ Data transfer     DMACAa: 8 channels DTCb: 1 channel EXDMAC: 2 channels DMAC for the Ethernet controller: 1 channel ■ Reset and supply management  Power-on reset (POR)  Low voltage detection (LVD) with voltage settings ■ Clock functions  External crystal resonator or internal PLL for operation at 8 to 24 MHz  Internal 240-kHz LOCO and HOCO selectable from 16, 18, and 20 MHz  120-kHz clock for the IWDTa ■ Real-time clock  Adjustment functions (30 seconds, leap year, and error)  Real-time clock counting and binary counting modes are selectable  Time capture function (for capturing times in response to event-signal input) ■ Independent watchdog timer  120-kHz (1/2 LOCO frequency) clock operation ■ Useful functions for IEC60730 compliance  Oscillation-stoppage detection, frequency measurement, CRCA, IWDTa, self-diagnostic function for the A/D converter, etc.  Register write protection function can protect values in important registers against overwriting. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 PTLG0177KA-A 8 × 8 mm, 0.5-mm pitch PTLG0145KA-A 7 × 7 mm, 0.5-mm pitch PTLG0100JA-A 7 × 7 mm, 0.65-mm pitch PLBG0176GA-A 13 × 13mm, 0.8-mm pitch PTBG0064KB-A 4.5 × 4.5mm, 0.5-mm pitch ■ Various communications interfaces  Ethernet MAC (1 channel)  PHY layer (1 channel) for host/function or OTG controller (1 channel) with full-speed USB 2.0 transfer  CAN (compliant with ISO11898-1), incorporating 32 mailboxes (up to 2 channels)  SCIg and SCIh with multiple functionalities (up to 11 channels) Choose from among asynchronous mode, clock-synchronous mode, smart-card interface mode, simplified SPI, simplified I2C, and extended serial mode.  SCIi with 16-byte transmission and reception FIFOs (up to 2 channels)  I2C bus interface for transfer at up to 1 Mbps (up to 3 channels)  Four-wire QSPI (1 channel) in addition to RSPIc (3 channels)  Parallel data capture unit (PDC) for the CMOS camera interface  Graphic-LCD controller (GLCDC)  2D drawing engine (DRW2D)  SD host interface (optional: 1 channel) with a 1- or 4-bit SD bus for use with SD memory or SDIO  SD slave interface (optional: 1 channel) with a 1- or 4-bit SD bus for use with SD host interface  MMCIF with 1-, 4-, or 8-bit transfer bus width ■ External address space  Buses for full-speed data transfer (max. operating frequency of 60 MHz)  8 CS areas  8-, 16-, or 32-bit bus space is selectable per area  Independent SDRAM area (128 Mbytes) ■ Up to 25 extended-function timers  16-bit TPUa, MTU3a  8-bit TMRa (4 channels), 16-bit CMT (4 channels), 32-bit CMTW (2 channels) ■ 12-bit A/D converter  Two 12-bit units (8 channels for unit 0; 21 channels for unit 1)  Self diagnosis, detection of analog input disconnection ■ 12-bit D/A converter: 2 channels ■ Temperature sensor for measuring temperature within the chip ■ Encryption functions (optional)  AES (key lengths: 128, 192, and 256 bits)  Trusted Secure IP (TSIP) ■ Up to 136 pins for general I/O ports  5-V tolerance, open drain, input pull-up, switchable driving ability ■ Operating temp. range  D-version: –40C to +85C  G-version: –40C to +105C Page 1 of 246 RX65N Group, RX651 Group 1. Overview 1. Overview 1.1 Outline of Specifications Table 1.1 lists the specifications in outline, and Table 1.2 give a comparison of the functions of products in different packages. Table 1.1 is an outline of maximum specifications, and the peripheral modules and the number of channels of the modules differ depending on the number of pins on the package and the capacity of the code flash memory. For details, see Table 1.2, Code Flash Memory Capacity and Comparison of Functions for Different Packages. Table 1.1 Outline of Specifications (1/10) Classification Module/Function Description CPU CPU  Maximum operating frequency: 120 MHz  32-bit RX CPU (RXv2)  Minimum instruction execution time: One instruction per state (cycle of the system clock)  Address space: 4-Gbyte linear  Register set of the CPU General purpose: Sixteen 32-bit registers Control: Ten 32-bit registers Accumulator: Two 72-bit registers  Basic instructions: 75  Floating-point instructions: 11  DSP instructions: 23  Addressing modes: 11  Data arrangement Instructions: Little endian Data: Selectable as little endian or big endian  On-chip 32-bit multiplier: 32 × 32 → 64 bits  On-chip divider: 32 / 32 → 32 bits  Barrel shifter: 32 bits FPU  Single precision (32-bit) floating point  Data types and floating-point exceptions in conformance with the IEEE754 standard Code flash memory  Capacity: 512 Kbytes/768 Kbytes/1 Mbyte/1.5 Mbytes/2 Mbytes  50 MHz  No-wait cycle access 100 MHz  1-wait cycle access 100 MHz  2-wait cycle access  Instructions hitting the ROM cache or operand = 120 MHz: No-wait access  On-board programming: Four types  Off-board programming (parallel programmer mode)  Instructions are executable only for the program stored in the TM target area by using the Trusted Memory (TM) function and protection against data reading is realized.  A dual-bank structure allows programming during reading or exchanging the start-up areas Data flash memory  Capacity: 32 Kbytes  Programming/erasing: 100,000 times Unique ID  16-byte unique ID for the device RAM  Capacity: 256 Kbytes (Products with 1 Mbyte of code flash memory or less) RAM: 256 Kbytes  Capacity: 640 Kbytes (Products with at least 1.5 Mbytes of code flash memory) RAM: 256 Kbytes Expansion RAM: 384 Kbytes  120 MHz, no-wait access Standby RAM  Capacity: 8 Kbytes  Operation synchronized with PCLKB: Up to 60 MHz, two-cycle access Memory R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 2 of 246 RX65N Group, RX651 Group Table 1.1 Outline of Specifications (2/10) Classification Module/Function Description  Operating modes by the mode-setting pins at the time of release from the reset state Single-chip mode Boot mode (for the SCI interface) Boot mode (for the USB interface) Boot mode (for the FINE interface)  Selection of operating mode by register setting Single-chip mode On-chip ROM disabled extended mode On-chip ROM enabled extended mode  Endian selectable Operating modes Clock 1. Overview Clock generation circuit  Main clock oscillator, sub clock oscillator, low-speed/high-speed on-chip oscillator, PLL frequency synthesizer, and IWDT-dedicated on-chip oscillator  The peripheral module clocks can be set to frequencies above that of the system clock.  Main-clock oscillation stoppage detection  Separate frequency-division and multiplication settings for the system clock (ICLK), peripheral module clocks (PCLKA, PCLKB, PCLKC, PCLKD), flash-IF clock (FCLK) and external bus clock (BCLK) The CPU and other bus masters run in synchronization with the system clock (ICLK): Up to 120 MHz Peripheral modules of MTU3, RSPI, SCIi, ETHERC, EDMAC, AES, GLCDC, and DRW2D run in synchronization with PCLKA, which operates at up to 120 MHz. Other peripheral modules run in synchronization with PCLKB: Up to 60 MHz ADCLK in the S12AD (unit 0) runs in synchronization with PCLKC: Up to 60 MHz ADCLK in the S12AD (unit 1) runs in synchronization with PCLKD: Up to 60 MHz Flash IF run in synchronization with the flash-IF clock (FCLK): Up to 60 MHz Devices connected to the external bus run in synchronization with the external bus clock (BCLK): Up to 60 MHz  Multiplication is possible with using the high-speed on-chip oscillator (HOCO) as a reference clock of the PLL circuit Reset Nine types of reset  RES# pin reset: Generated when the RES# pin is driven low.  Power-on reset: Generated when the RES# pin is driven high and VCC = AVCC0 = AVCC1 rises.  Voltage-monitoring 0 reset: Generated when VCC = AVCC0 = AVCC1 falls.  Voltage-monitoring 1 reset: Generated when VCC = AVCC0 = AVCC1 falls.  Voltage-monitoring 2 reset: Generated when VCC = AVCC0 = AVCC1 falls.  Deep software standby reset: Generated in response to an interrupt to trigger release from deep software standby.  Independent watchdog timer reset: Generated when the independent watchdog timer underflows, or a refresh error occurs.  Watchdog timer reset: Generated when the watchdog timer underflows, or a refresh error occurs.  Software reset: Generated by register setting. Power-on reset If the RES# pin is at the high level when power is supplied, an internal reset is generated. After VCC = AVCC0 = AVCC1 has exceeded the voltage detection level and the specified period has elapsed, the reset is cancelled. Voltage detection circuit (LVDA) Monitors the voltage being input to the VCC = AVCC0 = AVCC1 pins and generates an internal reset or interrupt.  Voltage detection circuit 0 Capable of generating an internal reset The option-setting memory can be used to select enabling or disabling of the reset. Voltage detection level: Selectable from three different levels (2.94 V, 2.87 V, 2.80 V)  Voltage detection circuits 1 and 2 Voltage detection level: Selectable from three different levels (2.99 V, 2.92 V, 2.85 V) Digital filtering (1/2, 1/4, 1/8, and 1/16 LOCO frequency) Capable of generating an internal reset  Two types of timing are selectable for release from reset An internal interrupt can be requested.  Detection of voltage rising above and falling below thresholds is selectable.  Maskable or non-maskable interrupt is selectable Voltage detection monitoring Event linking R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 3 of 246 RX65N Group, RX651 Group Table 1.1 1. Overview Outline of Specifications (3/10) Classification Module/Function Description Low power consumption Low power consumption function  Module stop function  Four low power consumption modes Sleep mode, all-module clock stop mode, software standby mode, and deep software standby mode Battery backup function  When the voltage on the VCC pin drops, battery power from the VBATT pin is supplied to keep the real-time clock (RTC) operating. Interrupt controller (ICUB)       Interrupt Peripheral function interrupts: 262 sources External interrupts: 16 (pins IRQ0 to IRQ15) Software interrupts: 2 sources Non-maskable interrupts: 7 sources Sixteen levels specifiable for the order of priority Method of interrupt source selection: The interrupt vectors consist of 256 vectors (128 sources are fixed. The remaining 128 vectors are selected from among the other 123 sources.) External bus extension  The external address space can be divided into eight areas (CS0 to CS7), each with independent control of access settings. Capacity of each area: 16 Mbytes (CS0 to CS7) A chip-select signal (CS0# to CS7#) can be output for each area. Each area is specifiable as an 8-, 16-, or 32-bit bus space. The data arrangement in each area is selectable as little or big endian (only for data).  SDRAM interface connectable  Bus format: Separate bus, multiplex bus  Wait control  Write buffer facility DMA DMA controller (DMACAa)  8 channels  Three transfer modes: Normal transfer, repeat transfer, and block transfer  Activation sources: Software trigger, external interrupts, and interrupt requests from peripheral functions EXDMA controller (EXDMACa)  2 channels Four transfer modes: Normal transfer, repeat transfer, block transfer, and cluster transfer  Single-address transfer enabled with the EDACKn signal  Request sources: Software trigger, external DMA requests (EDREQn), and interrupt requests from peripheral functions Data transfer controller (DTCb)  Three transfer modes: Normal transfer, repeat transfer, and block transfer  Request sources: External interrupts and interrupt requests from peripheral functions  Sequence transfer R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 4 of 246 RX65N Group, RX651 Group Table 1.1 1. Overview Outline of Specifications (4/10) Classification Module/Function Description I/O ports Programmable I/O ports  I/O ports for the 177-pin TFLGA, 176-pin LFBGA, and 176-pin LFQFP I/O pins: 136 Input pin: 1 Pull-up resistors: 136 Open-drain outputs: 136 5-V tolerance: 19  I/O ports for the 145-pin TFLGA and 144-pin LFQFP I/O pins: 111 Input pin: 1 Pull-up resistors: 111 Open-drain outputs: 111 5-V tolerance: 18  I/O ports for the 100-pin TFLGA and 100-pin LFQFP I/O pins: 78 Input pin: 1 Pull-up resistors: 78 Open-drain outputs: 78 5-V tolerance: 17  I/O ports for the 64-pin TFBGA I/O pins: 41 Input pin: 1 Pull-up resistors: 41 Open-drain outputs: 41 5-V tolerance: 8  I/O ports for the 64-pin LFQFP I/O pins: 42 Input pin: 1 Pull-up resistors: 42 Open-drain outputs: 42 5-V tolerance: 8 Event link controller (ELC) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019  Event signals such as interrupt request signals can be interlinked with the operation of functions such as timer counting, eliminating the need for intervention by the CPU to control the functions.  83 internal event signals can be freely combined for interlinked operation with connected functions.  Event signals from peripheral modules can be used to change the states of output pins (of ports B and E).  Changes in the states of pins (of ports B and E) being used as inputs can be interlinked with the operation of peripheral modules. Page 5 of 246 RX65N Group, RX651 Group Table 1.1 1. Overview Outline of Specifications (5/10) Classification Module/Function Description Timers 16-bit timer pulse unit (TPUa)           (16 bits × 6 channels) × 1 unit Maximum of 16 pulse-input/output possible Select from among seven or eight counter-input clock signals for each channel Input capture/output compare function Output of PWM waveforms in up to 15 phases in PWM mode Support for buffered operation, phase-counting mode (two phase encoder input) and cascade-connected operation (32 bits × 2 channels) depending on the channel. PPG output trigger can be generated Capable of generating conversion start triggers for the A/D converters Digital filtering of signals from the input capture pins Event linking by the ELC Multifunction timer pulse unit (MTU3a)  9 channels (16 bits × 8 channels, 32 bits × 1 channel)  Maximum of 28 pulse-input/output and 3 pulse-input possible  Select from among 14 counter-input clock signals for each channel (PCLKA/1, PCLKA/ 2, PCLKA/4, PCLKA/8, PCLKA/16, PCLK/A32, PCLKA/64, PCLKA/256, PCLKA/1024, MTCLKA, MTCLKB, MTCLKC, MTCLKD, MTIOC1A) 14 of the signals are available for channel 0, 11 are available for channels 1, 3, 4, 6 to 8, 12 are available for channel 2, and 10 are available for channel 5.  Input capture function  39 output compare/input capture registers  Counter clear operation (synchronous clearing by compare match/input capture)  Simultaneous writing to multiple timer counters (TCNT)  Simultaneous register input/output by synchronous counter operation  Buffered operation  Support for cascade-connected operation  43 interrupt sources  Automatic transfer of register data  Pulse output mode Toggle/PWM/complementary PWM/reset-synchronized PWM  Complementary PWM output mode Outputs non-overlapping waveforms for controlling 3-phase inverters Automatic specification of dead times PWM duty cycle: Selectable as any value from 0% to 100% Delay can be applied to requests for A/D conversion. Non-generation of interrupt requests at peak or trough values of counters can be selected. Double buffer configuration  Reset synchronous PWM mode Three phases of positive and negative PWM waveforms can be output with desired duty cycles.  Phase-counting mode: 16-bit mode (channels 1 and 2); 32-bit mode (channels 1 and 2)  Counter functionality for dead-time compensation  Generation of triggers for A/D converter conversion  A/D converter start triggers can be skipped  Digital filter function for signals on the input capture and external counter clock pins  PPG output trigger can be generated  Event linking by the ELC Port output enable 3 (POE3a)  Control of the high-impedance state of the MTU3 waveform output pins  5 pins for input from signal sources: POE0#, POE4#, POE8#, POE10#, POE11#  Initiation on detection of short-circuited outputs (detection of simultaneous PWM output to the active level)  Initiation by oscillation-stoppage detection or software  Additional programming of output control target pins is enabled Programmable pulse generator (PPG)  (4 bits × 4 groups) × 2 units  Pulse output with the MTU3 or TPU output as a trigger  Maximum of 32 pulse-output possible R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 6 of 246 RX65N Group, RX651 Group Table 1.1 1. Overview Outline of Specifications (6/10) Classification Module/Function Description Timers 8-bit timers (TMRb)  (8 bits × 2 channels) × 2 units  Select from among seven internal clock signals (PCLKB/1, PCLKB/2, PCLKB/8, PCLKB/32, PCLKB/64, PCLKB/1024, PCLKB/8192) and one external clock signal  Capable of output of pulse trains with desired duty cycles or of PWM signals  The 2 channels of each unit can be cascaded to create a 16-bit timer  Generation of triggers for A/D converter conversion  Capable of generating baud-rate clocks for SCI5, SCI6, and SCI12  Event linking by the ELC Compare match timer (CMT)  (16 bits × 2 channels) × 2 units  Select from among four internal clock signals (PCLKB/8, PCLKB/32, PCLKB/128, PCLKB/512)  Event linking by the ELC Compare match timer W (CMTW)  (32 bits × 1 channel) × 2 units  Compare-match, input-capture input, and output-comparison output are available.  Select from among four internal clock signals (PCLKB/8, PCLKB/32, PCLKB/128, PCLKB/512)  Interrupt requests can be output in response to compare-match, input-capture, and output-comparison events.  Event linking by the ELC Realtime clock (RTCd)*4        Clock sources: Main clock, sub clock Selection of the 32-bit binary count in time count/second unit possible Clock and calendar functions Interrupt sources: Alarm interrupt, periodic interrupt, and carry interrupt Battery backup operation Time-capture facility for three values Event linking by the ELC Watchdog timer (WDTA)  14 bits × 1 channel  Select from among 6 counter-input clock signals (PCLKB/4, PCLKB/64, PCLKB/128, PCLKB/512, PCLKB/2048, PCLKB/8192) Communication function Independent watchdog timer (IWDTa)  14 bits × 1 channel  Counter-input clock: IWDT-dedicated on-chip oscillator  Dedicated clock/1, dedicated clock/16, dedicated clock/32, dedicated clock/64, dedicated clock/128, dedicated clock/256  Window function: The positions where the window starts and ends are specifiable (the window defines the timing with which refreshing is enabled and disabled).  Event linking by the ELC Ethernet controller (ETHERC)     DMA controller for Ethernet controller (EDMACa)  Alleviation of CPU load by the descriptor control method  Transmission FIFO: 2 Kbytes; Reception FIFO: 2 Kbytes USB 2.0 FS host/ function module (USBb)         R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Input and output of Ethernet/IEEE 802.3 frames Transfer at 10 or 100 Mbps Full- and half-duplex modes MII (Media Independent Interface) or RMII (Reduced Media Independent Interface) as defined in IEEE 802.3u  Detection of Magic PacketsTM*1 or output of a “wake-on-LAN” signal (WOL)  Compliance with flow control as defined in IEEE 802.3x standards Includes a UDC (USB Device Controller) and transceiver for USB 2.0 FS One port Compliance with the USB 2.0 specification Transfer rate: Full speed (12 Mbps), low speed (1.5 Mbps) (host only) Both self-powered mode and bus-powered mode are supported OTG (On the Go) operation is possible (low-speed is not supported) Incorporates 2 Kbytes of RAM as a transfer buffer External pull-up and pull-down resistors are not required Page 7 of 246 RX65N Group, RX651 Group Table 1.1 1. Overview Outline of Specifications (7/10) Classification Module/Function Description Communication function Serial communications interfaces (SCIg, SCIh, SCIi)  13 channels (SCIg: 10 channels + SCIh: 1 channel + SCIi: 2 channels)  SCIg, SCIh, SCIi Serial communications modes: Asynchronous, clock synchronous, and smart-card interface Multi-processor function On-chip baud rate generator allows selection of the desired bit rate Choice of LSB-first or MSB-first transfer Start-bit detection: Level or edge detection is selectable. Simple I2C Simple SPI 9-bit transfer mode Bit rate modulation Double-speed mode  SCIg, SCIh Average transfer rate clock can be input from TMR timers for SCI5, SCI6, and SCI12 Event linking by the ELC (only on channel 5)  SCIh Supports the serial communications protocol, which contains the start frame and information frame Supports the LIN format  SCIi Data can be transmitted or received in sequence by the 16-byte FIFO buffers of the transmission and reception unit I2C bus interface (RIICa)  3 channels (only channel 0 can be used in fast-mode plus) Communication formats I2C bus format/SMBus format Supports the multi-master Max. transfer rate: 1 Mbps (channel 0)  Event linking by the ELC CAN module (CAN)  2 channels  Compliance with the ISO11898-1 specification (standard frame and extended frame)  32 mailboxes per channel Serial peripheral interface (RSPIc)  3 channels  RSPI transfer facility Using the MOSI (master out, slave in), MISO (master in, slave out), SSL (slave select), and RSPCK (RSPI clock) signals enables serial transfer through SPI operation (four lines) or clock-synchronous operation (three lines) Capable of handling serial transfer as a master or slave  Data formats Switching between MSB first and LSB first The number of bits in each transfer can be changed to any number of bits from 8 to 16, or to 20, 24, or 32 bits. 128-bit buffers for transmission and reception Up to four frames can be transmitted or received in a single transfer operation (with each frame having up to 32 bits) Transit/receive data can be swapped in byte units  Buffered structure Double buffers for both transmission and reception  RSPCK can be stopped with the receive buffer full for master reception.  Event linking by the ELC Quad serial peripheral interface (QSPI)  1 channel  Connectable with serial flash memory equipped with multiple input and output lines (i.e. for single, dual, or quad operation)  Programmable bit length and selectable active sense and phase of the clock signal  Sequential execution of transfer  LSB or MSB first is selectable R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 8 of 246 RX65N Group, RX651 Group Table 1.1 1. Overview Outline of Specifications (8/10) Classification Module/Function Description SD host interface (SDHI)*3       1 channel Transfer speed: Supports high-speed mode (25 MB/s) and default speed mode (12.5 MB/s) One interface for SD memory and I/O cards (supporting 1- and 4-bit SD buses) SD specifications Part 1: Physical Layer Specification Ver. 3.01 compliant (DDR not supported) Part E1: SDIO Specification Ver. 3.00 Error checking: CRC7 for commands and CRC16 for data Interrupt requests: Card access interrupt, SDIO access interrupt, card detection interrupt, SD buffer access interrupt DMA transfer requests: SD_BUF write and SD_BUF read Support for card detection and write protection SD slave interface (SDSI)*3       1 channel Compliant with the SDIO Card Specification Ver.2.00 (CSA is not supported) 1-bit SD/4-bit SD/SPI mode SDIO Proprietary command is supported SD/SPI Mandatory command is supported Interrupt requests: 6 MMC host interface (MMCIF)       Parallel data capture unit (PDC)  1 channel  Acquisition of synchronization through external 8-bit horizontal and vertical synchronization signals  Setting of the image size when clipping of the output for a one-frame image is required Graphic-LCD controller (GLCDC)     1 channel Various data formats and LCD panels are supported Superposition of 3 planes (single-color background, graphic 1, graphic 2) 32- and 16-bpp graphics data and 8-, 4-, and 1-bit CLUT data formats are supported 2D drawing engine (DRW2D)     1 channel Vector drawing (straight lines, triangles, and circles) Bit blitting (with support for filling, copying, stretching, and rotation) Bus master function for input and output of frame buffer data 32-, 16-, and 8-bit pixel graphics data are supported Bus master function for input of texture data Input of texture data (32, 24, 16, 8, 4, 2, or 1 bit) are supported. Run length encoding is supported A CLUT is installed and index data can be converted into color data Two rendering modes are supported (register mode and display list mode) Performance counting Interrupts in response to completion of rendering and processing of the display list   1 channel Transfer speed: Data transfer mode (30 MB/s), backward compatible mode (25 MB/s) Compliant with JEDEC STANDARD JESD84-A441 (DDR is not supported) Interface for Multimedia Cards (MMCs) Device buses: Support for 1-, 4-, and 8-bit MMC buses Interrupt requests: Card detection interrupt, error/timeout interrupt, normal operation interrupt, MMCIF buffer access interrupt  DMA transfer requests: CE_DATA write and CE_DATA read  Support for card detection, boot operation, high priority interrupt (HPI)     R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 9 of 246 RX65N Group, RX651 Group Table 1.1 Classification 1. Overview Outline of Specifications (9/10) Module/Function Description 12-bit A/D converter (S12ADFa)  12 bits × 2 units (unit 0: 8 channels; unit 1: 21 channels)  12-bit resolution (switchable between 8, 10, and 12 bits)  Conversion time 0.48 μs per channel (for 12-bit conversion) 0.45 μs per channel (for 10-bit conversion) 0.42 μs per channel (for 8-bit conversion)  Operating mode Scan mode (single scan mode, continuous scan mode, or 3 group scan mode) Group priority control (only for 3 group scan mode)  Sample-and-hold function Common sample-and-hold circuit included In addition, channel-dedicated sample-and-hold function (3 channels: in unit 0 only) included  Sampling variable Sampling time can be set up for each channel.  Digital comparison Method: Comparison to detect voltages above or below thresholds and window comparison Measurement: Comparison of two results of conversion or comparison of a value in the comparison register and a result of conversion  Self-diagnostic function The self-diagnostic function internally generates three analog input voltages (unit 0: VREFL0, VREFH0 × 1/2, VREFH0; unit 1: AVSS1, AVCC1 × 1/2, AVCC1)  Double trigger mode (A/D conversion data duplicated)  Detection of analog input disconnection  Three ways to start A/D conversion Software trigger, timer (MTU3, TMR, TPU) trigger, external trigger  Event linking by the ELC 12-bit D/A converter (R12DA)  2 channels  12-bit resolution  Output voltage: 0.2 V to AVCC1 – 0.2 V (buffered output), 0 V to AVCC1 (unbuffered output)  Buffered output or unbuffered output can be selected.  Event linking by the ELC Temperature sensor  1 channel  Relative precision: ± 1°C  The voltage of the temperature is converted into a digital value by the 12-bit A/D converter (unit 1). Safety Memory protection unit (MPU)  Protection area: Eight areas (max.) can be specified in the range from 0000 0000h to FFFF FFFFh.  Minimum protection unit: 16 bytes  Reading from, writing to, and enabling the execution access can be specified for each area.  An access exception occurs when the detected access is not in the permitted area. Trusted Memory (TM) Function  Programs in the TM target area in the code flash memory are protected against reading  Instruction fetching by the CPU is the only form of access to these areas when the TM function is enabled. Register write protection function  Protects important registers from being overwritten for in case a program runs out of control. CRC calculator (CRCA)  Generation of CRC codes for 8-/32-bit data 8-bit data Selectable from the following three polynomials X8 + X2 + X + 1, X16 + X15 + X2 + 1, X16 + X12 + X5 + 1 32-bit data Selectable from the following two polynomials X32 + X26 + X23 + X22 + X16+ X12 + X11 + X10 + X8+ X7 + X5 + X4 + X2+ X + 1, X32 + X28 + X27 + X26 + X25 + X23 + X22 + X20 + X19 + X18 + X14 + X13 + X11 + X10 + X9 + X8 + X6 + 1  Generation of CRC codes for use with LSB-first or MSB-first communications is selectable Main clock oscillation stop detection  Main clock oscillation stop detection: Available R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 10 of 246 RX65N Group, RX651 Group Table 1.1 1. Overview Outline of Specifications (10/10) Classification Module/Function Description Safety Clock frequency accuracy measurement circuit (CAC)  Monitors the clock output from the main clock oscillator, sub-clock oscillator, low- and high-speed on-chip oscillators, IWDT-dedicated on-chip oscillator, and PCLKB, and generates interrupts when the setting range is exceeded. Data operation circuit (DOC)  The function to compare, add, or subtract 16-bit data AESa*2  Key lengths: 128, 192, and 256 bits  Support for CFB, OFB, and CMAC operating modes  Speed of calculations: 128-bit key length in 22 cycles 192-bit key length in 26 cycles 256-bit key length in 30 cycles  Compliant with FIPS PUB 197 True random number generator (RNG)*2  Length of random numbers: 16 bits  Generation of random-number-generated interrupts after a number is generated  Random number generation time: 1.9 ms (typ) Trusted Secure IP (TSIP)*2  Security algorithm Common key encryption: AES (compliant with NIST FIPS PUB 197), 3DES, ARC4 Non-common key encryption: RSA  Other features TRNG (true-random number generator) Hash value generation: SHA1, SHA224, SHA256, GHASH Prevention from illicit copying of a key Encryption function Operating frequency Up to 120 MHz Power supply voltage VCC = AVCC0 = AVCC1 = VCC_USB = 2.7 to 3.6 V, 2.7  VREFH0  AVCC0, VBATT = 2.0 to 3.6 V Operating temperature D-version: –40 to +85°C G-version: –40 to +105°C*5 Package 177-pin TFLGA (PTLG0177KA-A) 176-pin LFBGA (PLBG0176GA-A) 176-pin LFQFP (PLQP0176KB-A) 145-pin TFLGA (PTLG0145KA-A) 144-pin LFQFP (PLQP0144KA-B) 100-pin TFLGA (PTLG0100JA-A) 100-pin LFQFP (PLQP0100KB-B) 64-pin TFBGA (PTBG0064KB-A) 64-pin LFQFP (PLQP0064KB-C) Debugging interface JTAG and FINE interfaces PacketTM Note 1. Magic is a registered trademark of Advanced Micro Devices, Inc. Note 2. The product part number differs according to whether or not the MCU includes the encryption function. Note 3. The product part number differs according to whether or not the MCU includes an SDHI (SD host interface)/SDSI (SD slave interface) (products with 1 Mbyte of code flash memory or less). Note 4. When the realtime clock is not used, initialize the registers in the time clock according to description in section 31.6.7, Initialization Procedure When the Realtime Clock is Not to be Used in the User’s Manual: Hardware. Note 5. Please contact us if you are using a G-version product. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 11 of 246 RX65N Group, RX651 Group Table 1.2 1. Overview Code Flash Memory Capacity and Comparison of Functions for Different Packages (1/2) Products Package 145 Pins, 144 Pins Functions Code Flash Memory Products with 1 Mbyte of code flash memory or less Code Flash Memory Capacity 100 Pins 64 Pins Not available Available BGO function Not available Available Not available 32 Kbytes 256 Kbytes 640 Kbytes (256 Kbytes + 384 Kbytes of expansion RAM) External bus width Not available 16/8 bits Available Not available 32/16/8 bits Ch. 0 to 7 Data transfer controller Available Ch. 0 and 1 Not available 16-bit timer pulse unit Ch. 0 to 5 Multi-function timer pulse unit 3 Ch. 0 to 8 Port output enable 3 Available Programmable pulse generator Ch. 0 and 1 Not available 8-bit timers Ch. 0 to 3 Compare match timer Ch. 0 to 3 Compare match timer W Not available 16/8 bits Available DMA controller EXDMA controller Not available Ch. 0 and 1 Not available Ch. 0 and 1 Not available Ch. 0 and 1 Realtime clock Available Watchdog timer Available Independent watchdog timer Communication function 145 Pins, 144 Pins Dual bank function SDRAM area controller Timers 177 Pins, 176 Pins 1.5 Mbytes/2 Mbytes RAM DMA 64 Pins 512 Kbytes/768 Kbytes /1 Mbyte Data Flash Memory External bus 100 Pins Products with at least 1.5 Mbytes of code flash memory Available Ethernet controller Ch. 0 (only for RX65N group) Not available Ch. 0 (only for RX65N group) Not available DMA Controller for the Ethernet Controller Ch. 0 (only for RX65N group) Not available Ch. 0 (only for RX65N group) Not available Ch. 0 Ch. 0*1 Ch. 0 Ch. 0*1 USB 2.0 FS host/function module Serial communications interfaces (SCIg) Ch. 0 to 9 Ch. 0 to 3, 5, 6, 8 and 9 Ch. 1 to 3, 5, 8 and 9 Ch. 0 to 9 Serial communications interfaces (SCIh) Ch. 12 Serial communications interfaces (SCIi) Ch. 10 and 11 I2C bus interfaces Serial peripheral interface CAN module Ch. 0 and 2 Ch. 0 to 2 Ch. 0 and 2 Ch. 0 and 1 Ch. 0 to 2 Ch. 0 and 1 Ch. 0 and 1 Not available Ch. 0 and 1 Not available Available Not available Ch. 0 SD host interface R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Ch. 1 to 3, 5, 8 and 9 Ch. 0 to 2 Quad serial peripheral interface SD slave interface Ch. 0 to 3, 5, 6, 8 and 9 Available Available Not available Page 12 of 246 RX65N Group, RX651 Group Table 1.2 1. Overview Code Flash Memory Capacity and Comparison of Functions for Different Packages (2/2) Products Package 145 Pins, 144 Pins Functions Communication function MMC host interface Parallel data capture unit Graphics Products with 1 Mbyte of code flash memory or less 100 Pins Available Available 64 Pins Products with at least 1.5 Mbytes of code flash memory 177 Pins, 176 Pins Not available Not available 100 Pins Available 64 Pins Not available Available Not available Graphic-LCD controller Not available Available Not available 2D drawing engine Not available Available Not available 12-bit A/D converter AN000 to AN000 to AN000 to 007 (unit 007 003 0: 8 (unit 0: 8 (unit 0: 4 channels) channels) channels) AN100 to AN100 to AN106, 120 113 107, 110 (unit 1: (unit 1: to 113 21 14 (unit 1: 6 channels) channels) channels) 12-bit D/A converter Ch. 0 and 1 Ch. 1*2 AN000 to 007 (unit 0: 8 channels) AN100 to 120 (unit 1: 21 channels) AN000 to AN000 to 007 003 (unit 0: 8 (unit 0: 4 channels) channels) AN100 to AN106, 113 107, 110 (unit 1: to 113 14 (unit 1: 6 channels) channels) Ch. 0 and 1 Ch. 1*2 Temperature sensor Available CRC calculator Available Data operation circuit Available Clock frequency accuracy measurement circuit Encryption 145 Pins, 144 Pins Available AES Available*3 Incorporated in the Trusted Secure IP RNG Available*3 Incorporated in the Trusted Secure IP Not available Available Trusted Secure IP Event link controller Off-board programming (parallel programmer mode) Available Available Not available Available Not available Note 1. Only supports the function controller. Note 2. Not provided on the 64-pin TFBGA. Note 3. Regarding the public release of this module, an exchange of non-disclosure agreement is necessary. For details, contact your Renesas sales agency. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 13 of 246 RX65N Group, RX651 Group 1.2 1. Overview List of Products Table 1.3 is a list of products, and Figure 1.1 shows how to read the product part no. Table 1.3 List of Products (1/9) Group Part No. Package Code Flash Memory RAM Capacity Capacity (byte(s)) (byte(s)) RX65N (D version) R5F565NEDDFC PLQP0176KB-A 2M Data Flash Memory Operating Capacity Frequency Encryption (byte(s)) (Max.) Module SDHI/SDSI 640 K 32 K 120 MHz Dual bank Operating temperature (°C) Not available Available Available –40 to +85 R5F565NEHDFC PLQP0176KB-A 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565NCDDFC PLQP0176KB-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NCHDFC PLQP0176KB-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565NEDDFB PLQP0144KA-B 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NEHDFB PLQP0144KA-B 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565NCDDFB PLQP0144KA-B 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NCHDFB PLQP0144KA-B 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565N9ADFB PLQP0144KA-B 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N9BDFB PLQP0144KA-B 1M 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N9EDFB PLQP0144KA-B 1M 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N9FDFB PLQP0144KA-B 1M 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565N7ADFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N7BDFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N7EDFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N7FDFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565N4ADFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N4BDFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N4EDFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N4FDFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565NEDDFP PLQP0100KB-B 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NEHDFP PLQP0100KB-B 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565NCDDFP PLQP0100KB-B 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NCHDFP PLQP0100KB-B 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565N9ADFP PLQP0100KB-B 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N9BDFP PLQP0100KB-B 1M 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N9EDFP PLQP0100KB-B 1M 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N9FDFP PLQP0100KB-B 1M 256 K Not included 120 MHz Available Available Not available –40 to +85 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 14 of 246 RX65N Group, RX651 Group Table 1.3 1. Overview List of Products (2/9) Group Part No. Package Code Flash Memory RAM Capacity Capacity (byte(s)) (byte(s)) RX65N (D version) R5F565N7ADFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N7BDFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N7EDFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N7FDFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565N4ADFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N4BDFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N4EDFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N4FDFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565NEDDBG PLBG0176GA-A 2 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NEHDBG PLBG0176GA-A 2 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565NCDDBG PLBG0176GA-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NCHDBG PLBG0176GA-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565NEDDLC PTLG0177KA-A 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NEHDLC PTLG0177KA-A 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565NCDDLC PTLG0177KA-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NCHDLC PTLG0177KA-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565NEDDLK PTLG0145KA-A 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NEHDLK PTLG0145KA-A 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565NCDDLK PTLG0145KA-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NCHDLK PTLG0145KA-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565N9ADLK PTLG0145KA-A 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N9BDLK PTLG0145KA-A 1M 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N9EDLK PTLG0145KA-A 1M 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N9FDLK PTLG0145KA-A 1M 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565N7ADLK PTLG0145KA-A 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N7BDLK PTLG0145KA-A 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N7EDLK PTLG0145KA-A 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N7FDLK PTLG0145KA-A 768 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565N4ADLK PTLG0145KA-A 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N4BDLK PTLG0145KA-A 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Data Flash Memory Operating Capacity Frequency Encryption (byte(s)) (Max.) Module SDHI/SDSI Dual bank Operating temperature (°C) Page 15 of 246 RX65N Group, RX651 Group Table 1.3 1. Overview List of Products (3/9) Group Part No. Package Code Flash Memory RAM Capacity Capacity (byte(s)) (byte(s)) RX65N (D version) R5F565N4EDLK PTLG0145KA-A 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N4FDLK PTLG0145KA-A 512 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565NEDDLJ PTLG0100JA-A 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NEHDLJ PTLG0100JA-A 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565NCDDLJ PTLG0100JA-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F565NCHDLJ PTLG0100JA-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F565N9ADLJ PTLG0100JA-A 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N9BDLJ PTLG0100JA-A 1M 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N9EDLJ PTLG0100JA-A 1M 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N9FDLJ PTLG0100JA-A 1M 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565N7ADLJ PTLG0100JA-A 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N7BDLJ PTLG0100JA-A 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N7EDLJ PTLG0100JA-A 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N7FDLJ PTLG0100JA-A 768 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565N4ADLJ PTLG0100JA-A 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F565N4BDLJ PTLG0100JA-A 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F565N4EDLJ PTLG0100JA-A 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F565N4FDLJ PTLG0100JA-A 512 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F565NEDGFC PLQP0176KB-A 2M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F565NEHGFC PLQP0176KB-A 2M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F565NCDGFC PLQP0176KB-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F565NCHGFC PLQP0176KB-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F565NEDGFB PLQP0144KA-B 2M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F565NEHGFB PLQP0144KA-B 2M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F565NCDGFB PLQP0144KA-B 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F565NCHGFB PLQP0144KA-B 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F565N9AGFB PLQP0144KA-B 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F565N9BGFB PLQP0144KA-B 1M 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F565N9EGFB PLQP0144KA-B 1M 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F565N9FGFB PLQP0144KA-B 1M 256 K Not included 120 MHz Available Available Not available –40 to +105 RX65N (G version) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Data Flash Memory Operating Capacity Frequency Encryption (byte(s)) (Max.) Module SDHI/SDSI Dual bank Operating temperature (°C) Page 16 of 246 RX65N Group, RX651 Group Table 1.3 1. Overview List of Products (4/9) Group Part No. Package Code Flash Memory RAM Capacity Capacity (byte(s)) (byte(s)) RX65N (G version) R5F565N7AGFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F565N7BGFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F565N7EGFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F565N7FGFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Available Available Not available –40 to +105 R5F565N4AGFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F565N4BGFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F565N4EGFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F565N4FGFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Available Available Not available –40 to +105 R5F565NEDGFP PLQP0100KB-B 2M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F565NEHGFP PLQP0100KB-B 2M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F565NCDGFP PLQP0100KB-B 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F565NCHGFP PLQP0100KB-B 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F565N9AGFP PLQP0100KB-B 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F565N9BGFP PLQP0100KB-B 1M 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F565N9EGFP PLQP0100KB-B 1M 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F565N9FGFP PLQP0100KB-B 1M 256 K Not included 120 MHz Available Available Not available –40 to +105 R5F565N7AGFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F565N7BGFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F565N7EGFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F565N7FGFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Available Available Not available –40 to +105 R5F565N4AGFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F565N4BGFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F565N4EGFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F565N4FGFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Available Available Not available –40 to +105 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Data Flash Memory Operating Capacity Frequency Encryption (byte(s)) (Max.) Module SDHI/SDSI Dual bank Operating temperature (°C) Page 17 of 246 RX65N Group, RX651 Group Table 1.3 1. Overview List of Products (5/9) Group Part No. Package Code Flash Memory RAM Capacity Capacity (byte(s)) (byte(s)) Dual bank Operating temperature (°C) RX651 (D version) R5F5651EDDFC PLQP0176KB-A 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651EHDFC PLQP0176KB-A 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F5651CDDFC PLQP0176KB-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651CHDFC PLQP0176KB-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F5651EDDFB PLQP0144KA-B 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651EHDFB PLQP0144KA-B 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F5651CDDFB PLQP0144KA-B 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651CHDFB PLQP0144KA-B 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F56519ADFB PLQP0144KA-B 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56519BDFB PLQP0144KA-B 1M 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F56519EDFB PLQP0144KA-B 1M 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56519FDFB PLQP0144KA-B 1M 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F56517ADFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56517BDFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F56517EDFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56517FDFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F56514ADFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56514BDFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F56514EDFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56514FDFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F5651EDDFP PLQP0100KB-B 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651EHDFP PLQP0100KB-B 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F5651CDDFP PLQP0100KB-B 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651CHDFP PLQP0100KB-B 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F56519ADFP PLQP0100KB-B 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56519BDFP PLQP0100KB-B 1M 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F56519EDFP PLQP0100KB-B 1M 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56519FDFP PLQP0100KB-B 1M 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F56517ADFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56517BDFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Data Flash Memory Operating Capacity Frequency Encryption (byte(s)) (Max.) Module SDHI/SDSI Page 18 of 246 RX65N Group, RX651 Group Table 1.3 1. Overview List of Products (6/9) Group Part No. Package Code Flash Memory RAM Capacity Capacity (byte(s)) (byte(s)) RX651 (D version) R5F56517EDFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56517FDFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F56514ADFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56514BDFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F56514EDFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56514FDFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F5651EDDFM PLQP0064KB-C 2M 640 K 32 K 120 MHz Not available Available*1 Available –40 to +85 R5F5651EHDFM PLQP0064KB-C 2M 640 K 32 K 120 MHz Available Available*1 Available –40 to +85 R5F5651CDDFM PLQP0064KB-C 1.5 M 640 K 32 K 120 MHz Not available Available*1 Available –40 to +85 R5F5651CHDFM PLQP0064KB-C 1.5 M 640 K 32 K 120 MHz Available Available*1 Available –40 to +85 R5F56519BDFM PLQP0064KB-C 1M 256 K Not included 120 MHz Not available Available*1 Not available –40 to +85 R5F56519FDFM PLQP0064KB-C 1M 256 K Not included 120 MHz Available Available*1 Not available –40 to +85 R5F56517BDFM PLQP0064KB-C 768 K 256 K Not included 120 MHz Not available Available*1 Not available –40 to +85 R5F56517FDFM PLQP0064KB-C 768 K 256 K Not included 120 MHz Available Available*1 Not available –40 to +85 R5F56514BDFM PLQP0064KB-C 512 K 256 K Not included 120 MHz Not available Available*1 Not available –40 to +85 R5F56514FDFM PLQP0064KB-C 512 K 256 K Not included 120 MHz Available Available*1 Not available –40 to +85 R5F5651EDDBG PLBG0176GA-A 2 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651EHDBG PLBG0176GA-A 2 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F5651CDDBG PLBG0176GA-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651CHDBG PLBG0176GA-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 Available –40 to +85 Data Flash Memory Operating Capacity Frequency Encryption (byte(s)) (Max.) Module SDHI/SDSI Dual bank Operating temperature (°C) R5F5651EDDBP PTBG0064KB-A 2M 640 K 32 K 120 MHz Not available Available*1 R5F5651EHDBP PTBG0064KB-A 2M 640 K 32 K 120 MHz Available Available*1 Available –40 to +85 R5F5651CDDBP PTBG0064KB-A 1.5 M 640 K 32 K 120 MHz Not available Available*1 Available –40 to +85 R5F5651CHDBP PTBG0064KB-A 1.5 M 640 K 32 K 120 MHz Available Available*1 Available –40 to +85 R5F56519BDBP PTBG0064KB-A 1M 256 K Not included 120 MHz Not available Available*1 Not available –40 to +85 R5F56519FDBP PTBG0064KB-A 1M 256 K Not included 120 MHz Available Available*1 Not available –40 to +85 R5F56517BDBP PTBG0064KB-A 768 K 256 K Not included 120 MHz Not available Available*1 Not available –40 to +85 R5F56517FDBP PTBG0064KB-A 768 K 256 K Not included 120 MHz Available Available*1 Not available –40 to +85 R5F56514BDBP PTBG0064KB-A 512 K 256 K Not included 120 MHz Not available Available*1 Not available –40 to +85 R5F56514FDBP PTBG0064KB-A 512 K 256 K Not included 120 MHz Available Available*1 Not available –40 to +85 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 19 of 246 RX65N Group, RX651 Group Table 1.3 1. Overview List of Products (7/9) Group Part No. Package Code Flash Memory RAM Capacity Capacity (byte(s)) (byte(s)) Dual bank Operating temperature (°C) RX651 (D version) R5F5651EDDLC PTLG0177KA-A 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651EHDLC PTLG0177KA-A 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F5651CDDLC PTLG0177KA-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651CHDLC PTLG0177KA-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F5651EDDLK PTLG0145KA-A 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651EHDLK PTLG0145KA-A 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F5651CDDLK PTLG0145KA-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651CHDLK PTLG0145KA-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F56519ADLK PTLG0145KA-A 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56519BDLK PTLG0145KA-A 1M 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F56519EDLK PTLG0145KA-A 1M 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56519FDLK PTLG0145KA-A 1M 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F56517ADLK PTLG0145KA-A 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56517BDLK PTLG0145KA-A 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F56517EDLK PTLG0145KA-A 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56517FDLK PTLG0145KA-A 768 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F56514ADLK PTLG0145KA-A 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56514BDLK PTLG0145KA-A 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F56514EDLK PTLG0145KA-A 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56514FDLK PTLG0145KA-A 512 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F5651EDDLJ PTLG0100JA-A 2M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651EHDLJ PTLG0100JA-A 2M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F5651CDDLJ PTLG0100JA-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +85 R5F5651CHDLJ PTLG0100JA-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +85 R5F56519ADLJ PTLG0100JA-A 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56519BDLJ PTLG0100JA-A 1M 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F56519EDLJ PTLG0100JA-A 1M 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56519FDLJ PTLG0100JA-A 1M 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F56517ADLJ PTLG0100JA-A 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56517BDLJ PTLG0100JA-A 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Data Flash Memory Operating Capacity Frequency Encryption (byte(s)) (Max.) Module SDHI/SDSI Page 20 of 246 RX65N Group, RX651 Group Table 1.3 1. Overview List of Products (8/9) Group Part No. Package Code Flash Memory RAM Capacity Capacity (byte(s)) (byte(s)) RX651 (D version) R5F56517EDLJ PTLG0100JA-A 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56517FDLJ PTLG0100JA-A 768 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F56514ADLJ PTLG0100JA-A 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +85 R5F56514BDLJ PTLG0100JA-A 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +85 R5F56514EDLJ PTLG0100JA-A 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +85 R5F56514FDLJ PTLG0100JA-A 512 K 256 K Not included 120 MHz Available Available Not available –40 to +85 R5F5651EDGFC PLQP0176KB-A 2M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F5651EHGFC PLQP0176KB-A 2M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F5651CDGFC PLQP0176KB-A 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F5651CHGFC PLQP0176KB-A 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F5651EDGFB PLQP0144KA-B 2M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F5651EHGFB PLQP0144KA-B 2M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F5651CDGFB PLQP0144KA-B 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F5651CHGFB PLQP0144KA-B 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F56519AGFB PLQP0144KA-B 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F56519BGFB PLQP0144KA-B 1M 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F56519EGFB PLQP0144KA-B 1M 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F56519FGFB PLQP0144KA-B 1M 256 K Not included 120 MHz Available Available Not available –40 to +105 R5F56517AGFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F56517BGFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F56517EGFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F56517FGFB PLQP0144KA-B 768 K 256 K Not included 120 MHz Available Available Not available –40 to +105 R5F56514AGFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F56514BGFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F56514EGFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F56514FGFB PLQP0144KA-B 512 K 256 K Not included 120 MHz Available Available Not available –40 to +105 R5F5651EDGFP PLQP0100KB-B 2M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F5651EHGFP PLQP0100KB-B 2M 640 K 32 K 120 MHz Available Available Available –40 to +105 R5F5651CDGFP PLQP0100KB-B 1.5 M 640 K 32 K 120 MHz Not available Available Available –40 to +105 R5F5651CHGFP PLQP0100KB-B 1.5 M 640 K 32 K 120 MHz Available Available Available –40 to +105 RX651 (G version) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Data Flash Memory Operating Capacity Frequency Encryption (byte(s)) (Max.) Module SDHI/SDSI Dual bank Operating temperature (°C) Page 21 of 246 RX65N Group, RX651 Group Table 1.3 1. Overview List of Products (9/9) Group Part No. Package Code Flash Memory RAM Capacity Capacity (byte(s)) (byte(s)) RX651 (G version) R5F56519AGFP PLQP0100KB-B 1M 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F56519BGFP PLQP0100KB-B 1M 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F56519EGFP PLQP0100KB-B 1M 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F56519FGFP PLQP0100KB-B 1M 256 K Not included 120 MHz Available Available Not available –40 to +105 R5F56517AGFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F56517BGFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F56517EGFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F56517FGFP PLQP0100KB-B 768 K 256 K Not included 120 MHz Available Available Not available –40 to +105 R5F56514AGFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Not available Not available Not available –40 to +105 R5F56514BGFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Not available Available Not available –40 to +105 R5F56514EGFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Available Not available Not available –40 to +105 R5F56514FGFP PLQP0100KB-B 512 K 256 K Not included 120 MHz Available Available Not available –40 to +105 R5F5651EDGFM PLQP0064KB-C 2M 640 K 32 K 120 MHz Not available Available*1 Available –40 to +105 R5F5651EHGFM PLQP0064KB-C 2M 640 K 32 K 120 MHz Available Available*1 Available –40 to +105 R5F5651CDGFM PLQP0064KB-C 1.5 M 640 K 32 K 120 MHz Not available Available*1 Available –40 to +105 R5F5651CHGFM PLQP0064KB-C 1.5 M 640 K 32 K 120 MHz Available Available*1 Available –40 to +105 Not available –40 to +105 Data Flash Memory Operating Capacity Frequency Encryption (byte(s)) (Max.) Module SDHI/SDSI Dual bank Operating temperature (°C) R5F56519BGFM PLQP0064KB-C 1M 256 K Not included 120 MHz Not available Available*1 R5F56519FGFM PLQP0064KB-C 1M 256 K Not included 120 MHz Available Available*1 Not available –40 to +105 R5F56517BGFM PLQP0064KB-C 768 K 256 K Not included 120 MHz Not available Available*1 Not available –40 to +105 R5F56517FGFM PLQP0064KB-C 768 K 256 K Not included 120 MHz Available Available*1 Not available –40 to +105 R5F56514BGFM PLQP0064KB-C 512 K 256 K Not included 120 MHz Not available Available*1 Not available –40 to +105 R5F56514FGFM PLQP0064KB-C 512 K 256 K Not included 120 MHz Available Available*1 Not available –40 to +105 Note 1. Only SDHI is available. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 22 of 246 RX65N Group, RX651 Group R 5 F 5 6 5 1. Overview N E H D F C Package type, number of pins, and pin pitch FC: LFQFP/176/0.50 BG: LFBGA/176/0.80 LC: TFLGA/177/0.50 FB: LFQFP/144/0.50 LK: TFLGA/145/0.50 FP: LFQFP/100/0.50 LJ: TFLGA/100/0.65 FM: LFQFP/64/0.50 BP: TFBGA/64/0.50 D: Operating peripheral temperature: –40 to +85°C G: Operating peripheral temperature: –40 to +105°C A: Encryption module not included, SDHI/SDSI module not included, dual-bank structure not supported B: Encryption module not included, SDHI/SDSI module included, dual-bank structure not supported D: Encryption module not included, SDHI/SDSI module included, dual-bank structure E: Encryption module included, SDHI/SDSI module not included, dual-bank structure not supported F: Encryption module included, SDHI/SDSI module included, dual-bank structure not supported H: Encryption module included, SDHI/SDSI module included, dual-bank structure Code flash memory, RAM, and data flash memory capacity 4: 512 Kbytes/256 Kbytes/Not included 7: 768 Kbytes/256 Kbytes/Not included 9: 1 Mbyte/256 Kbytes/Not included C: 1.5 Mbytes/640 Kbytes/32 Kbytes E: 2 Mbytes/640 Kbytes/32 Kbytes Group name 5N: RX65N Group 51: RX651 Group Series name RX600 Series Type of memory F: Flash memory version Renesas MCU Renesas semiconductor product Figure 1.1 How to Read the Product Part Number R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 23 of 246 RX65N Group, RX651 Group 1.3 1. Overview Block Diagram Figure 1.2 shows a block diagram. Encryption functions*1 Standby RAM AESa QSPI RNG SDHI*1 Trusted Secure IP MMCIF PDC WDTA IWDTa Data Flash ELC SCIi × 2 channels CAC DOC MTU3a × 9 channels CRCA ETHERC × 1 channel SCIg × 10 channels EDMACa × 1 channel SDSI*1 GLCDC DRW2D Extended RAM SCIh × 1 channel USBb × 1 port CAN × 2 channels Port 1 TPUa × 6 channels (unit 0) Port 2 PPG (unit 0) Port 3 PPG (unit 1) TMRb × 2 channels (unit 0) Internal main bus 2 Operand bus MPU Clock generation circuit Port 5 Port 6 CMT × 2 channels (unit 1) Port 7 CMTW × 1 channel (unit 1) DTCb Port 4 CMT × 2 channels (unit 0) CMTW × 1 channel (unit 0) RTCd Port 8 Port 9 RIICa × 3 channels Port A 12-bit A/D converter × 8 channels (unit 0) Port B 12-bit A/D converter × 21 channels (unit 1) Port C DMACAa × 8 channels Internal main bus 1 Instruction bus RX CPU ICUB Port 0 POE3a TMRb × 2 channels (unit 1) RAM ROM Internal peripheral buses 1 to 6 RSPIc × 3 channels 12-bit D/A converter × 2 channels Temperature sensor EXDMACa Port D Port E Port F BSC External bus Port G Port J ETHERC: Ethernet controller EDMACa: DMA controller for ethernet controller ICUB: Interrupt controller DTCb Data transfer controller DMACAa: DMA controller EXDMACa: EXDMA controller BSC: Bus controller WDTA: Watchdog timer IWDTa: Independent watchdog timer CRCA: CRC (cyclic redundancy check) calculator SCIg, SCIh, SCIi: Serial communications interface USBb: USB2.0 FS host/function module RSPIc: Serial peripheral interface MPU: Memory protection unit QSPI: Quad serial peripheral interface SDHI: SD host interface*1 SDSI: SD slave interface*1 MMCIF: MMC host interface PDC: Parallel data capture unit CAN: CAN module MTU3a: Multi-function timer pulse unit 3 POE3a: Port output enable 3 TPUa: 16-bit timer pulse unit PPG: Programmable pulse generator TMRb: 8-bit timer CMT: Compare match timer CMTW: Compare match timer W RTCd: Realtime clock RIICa: I2C bus interface DOC: Data operation circuit CAC: Clock frequency accuracy measurement circuit AESa: AES*1 RNG: True random number generator*1 GLCDC: Graphic-LCD controller DRW2D: 2D drawing engine Trusted Secure IP: Encryption engine*1 Note 1. Optional Figure 1.2 Block Diagram R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 24 of 246 RX65N Group, RX651 Group 1.4 1. Overview Pin Functions Table 1.4 lists the pin functions. Table 1.4 Pin Functions (1/8) Classifications Pin Name I/O Description Digital power supply VCC Input Power supply pin. Connect this pin to the system power supply. Connect the pin to VSS via a 0.1-μF multilayer ceramic capacitor. The capacitor should be placed close to the pin. VCL Input Connect this pin to VSS via a 0.22-μF multilayer ceramic capacitor. The capacitor should be placed close to the pin. VSS Input Ground pin. Connect it to the system power supply (0 V). VBATT Input Backup power pin XTAL Output Pins for a crystal resonator. An external clock signal can be input through the EXTAL pin. Clock EXTAL Input BCLK Output Outputs the external bus clock for external devices. SDCLK Output Outputs the SDRAM-dedicated clock. Input/output pins for the sub clock oscillator. Connect a crystal resonator between XCOUT and XCIN. XCOUT Output XCIN Input Clock frequency accuracy measurement CACREF Input Reference clock input pin for the clock frequency accuracy measurement circuit Operating mode control MD Input Pin for setting the operating mode. The signal level on this pin must not be changed during operation. UB Input USB boot mode enable pin UPSEL Input Selects the power supply method in USB boot mode. The low level selects self-powered mode and the high level selects bus-powered mode. RES# Input Reset signal input pin. This LSI enters the reset state when this signal goes low. EMLE Input Input pin for the on-chip emulator enable signal. When the onchip emulator is used, this pin should be driven high. When not used, it should be driven low. BSCANP Input Boundary scan enable pin. Boundary scan is enabled when this pin goes high. When not used, it should be driven low. FINED I/O Fine interface pin TRST# Input TMS Input On-chip emulator or boundary scan pins. When the EMLE pin is driven high, these pins are dedicated for the on-chip emulator. TDI Input TCK Input TDO Output TRCLK Output This pin outputs the clock for synchronization with the trace data. TRSYNC TRSYNC1 Output These pins indicate that output from the TRDATA0 to TRDATA7 pins is valid. TRDATA0 TRDATA1 TRDATA2 TRDATA3 TRDATA4 TRDATA5 TRDATA6 TRDATA7 Output These pins output the trace information. Address bus A0 to A23 Output Output pins for the address Data bus D0 to D31 I/O Input and output pins for the bidirectional data bus System control On-chip emulator R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 25 of 246 RX65N Group, RX651 Group Table 1.4 1. Overview Pin Functions (2/8) Classifications Pin Name I/O Description Multiplexed bus A0/D0 to A15/D15 I/O Address/data multiplexed bus Bus control RD# Output Strobe signal which indicates that reading from the external bus interface space is in progress WR# Output Strobe signal which indicates that writing to the external bus interface space is in progress, in 1-write strobe mode WR0# to WR3# Output Strobe signals which indicate that either group of data bus pins (D7 to D0, D15 to D8, D23 to D16 and D31 to D24) is valid in writing to the external bus interface space, in byte strobe mode BC0# to BC3# Output Strobe signals which indicate that either group of data bus pins (D7 to D0, D15 to D8, D23 to D16 and D31 to D24) is valid in access to the external bus interface space, in 1-write strobe mode ALE Output Address latch signal when address/data multiplexed bus is selected WAIT# Input Input pin for wait request signals in access to the external space CS0# to CS7# Output Select signals for CS areas CKE Output SDRAM clock enable signal SDCS# Output SDRAM chip select signal RAS# Output SDRAM row address strobe signal CAS# Output SDRAM column address strove signal WE# Output SDRAM write enable pin DQM0 to DQM3 Output SDRAM I/O data mask enable signals EDREQ0, EDREQ1 Input External DMA transfer request pins EDACK0, EDACK1 Output Single address transfer acknowledge signals NMI Input Non-maskable interrupt request pin IRQ0 to IRQ15, IRQ0-DS to IRQ15-DS Input Maskable interrupt request pins MTIOC0A, MTIOC0B, MTIOC0C, MTIOC0D I/O The TGRA0 to TGRD0 input capture input/output compare output/PWM output pins MTIOC1A, MTIOC1B I/O The TGRA1 and TGRB1 input capture input/output compare output/PWM output pins MTIOC2A, MTIOC2B I/O The TGRA2 and TGRB2 input capture input/output compare output/PWM output pins MTIOC3A, MTIOC3B, MTIOC3C, MTIOC3D I/O The TGRA3 to TGRD3 input capture input/output compare output/PWM output pins MTIOC4A, MTIOC4B, MTIOC4C, MTIOC4D I/O The TGRA4 to TGRD4 input capture input/output compare output/PWM output pins MTIC5U, MTIC5V, MTIC5W Input The TGRU5, TGRV5, and TGRW5 input capture input/dead time compensation input pins MTIOC6A, MTIOC6B, MTIOC6C, MTIOC6D I/O The TGRA6 to TGRD6 input capture input/output compare output/PWM output pins MTIOC7A, MTIOC7B, MTIOC7C, MTIOC7D I/O The TGRA7 to TGRD7 input capture input/output compare output/PWM output pins MTIOC8A, MTIOC8B, MTIOC8C, MTIOC8D I/O The TGRA8 to TGRD8 input capture input/output compare output/PWM output pins MTCLKA, MTCLKB, MTCLKC, MTCLKD Input Input pins for external clock signals or for phase counting mode clock signals POE0#, POE4#, POE8#, POE10#, POE11# Input Input pins for request signals to place the MTU in the high impedance state EXDMA controller Interrupt Multi-function timer pulse unit 3 Port output enable 3 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 26 of 246 RX65N Group, RX651 Group Table 1.4 1. Overview Pin Functions (3/8) Classifications Pin Name I/O Description 16-bit timer pulse unit TIOCA0, TIOCB0, TIOCC0, TIOCD0 I/O The TGRA0 to TGRD0 input capture input/output compare output/PWM output pins TIOCA1, TIOCB1 I/O The TGRA1 and TGRB1 input capture input/output compare output/PWM output pins TIOCA2, TIOCB2 I/O The TGRA2 and TGRB2 input capture input/output compare output/PWM output pins TIOCA3, TIOCB3, TIOCC3, TIOCD3 I/O The TGRA3 to TGRD3 input capture input/output compare output/PWM output pins TIOCA4, TIOCB4 I/O The TGRA4 and TGRB4 input capture input/output compare output/PWM output pins TIOCA5, TIOCB5 I/O The TGRA5 and TGRB5 input capture input/output compare output/PWM output pins TCLKA, TCLKB, TCLKC, TCLKD Input Input pins for external clock signals or for phase counting mode clock signals Programmable pulse generator PO0 to PO31 Output Output pins for the pulse signals 8-bit timer TMO0 to TMO3 Output Compare match output pins TMCI0 to TMCI3 Input Input pins for external clocks to be input to the counter TMRI0 to TMRI3 Input Input pins for the counter reset Compare match timer W TIC0 to TIC3 Input Input pins for CMTW TOC0 to TOC3 Output Output pins for CMTW Serial communications interface (SCIg)  Asynchronous mode/clock synchronous mode SCK0 to SCK9 I/O Input/output pins for the clock RXD0 to RXD9 Input Input pins for received data TXD0 to TXD9 Output Output pins for transmitted data CTS0# to CTS9# Input Input pins for controlling the start of transmission and reception RTS0# to RTS9# Output Output pins for controlling the start of transmission and reception SSCL0 to SSCL9 I/O Input/output pins for the I2C clock SSDA0 to SSDA9 I/O Input/output pins for the I2C data SCK0 to SCK9 I/O Input/output pins for the clock SMISO0 to SMISO9 I/O Input/output pins for slave transmission of data  Simple I2C mode  Simple SPI mode SMOSI0 to SMOSI9 I/O Input/output pins for master transmission of data SS0# to SS9# Input Chip-select input pins R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 27 of 246 RX65N Group, RX651 Group Table 1.4 1. Overview Pin Functions (4/8) Classifications Pin Name I/O Description Serial communications interface (SCIh)  Asynchronous mode/clock synchronous mode SCK12 I/O Input/output pin for the clock RXD12 Input Input pin for received data TXD12 Output Output pin for transmitted data CTS12# Input Input pin for controlling the start of transmission and reception RTS12# Output Output pin for controlling the start of transmission and reception SSCL12 I/O Input/output pin for the I2C clock SSDA12 I/O Input/output pin for the I2C data  Simple I2C mode  Simple SPI mode SCK12 I/O Input/output pin for the clock SMISO12 I/O Input/output pin for slave transmission of data SMOSI12 I/O Input/output pin for master transmission of data SS12# Input Chip-select input pin RXDX12 Input Input pin for received data TXDX12 Output Output pin for transmitted data SIOX12 I/O Input/output pin for received or transmitted data  Extended serial mode Serial communications interface (SCIi)  Asynchronous mode/clock synchronous mode SCK10 and SCK11 I/O Input/output pin for the clock RXD10 and RXD11 Input Input pin for received data TXD10 and TXD11 Output Output pin for transmitted data CTS10# and CTS11# Input Input pin for controlling the start of transmission and reception RTS10# and RTS11# Output Output pin for controlling the start of transmission and reception SSCL10 and SSCL11 I/O Input/output pin for the I2C clock SSDA10 and SSDA11 I/O Input/output pin for the I2C data SCK10 and SCK11 I/O Input/output pin for the clock SMISO10 and SMISO11 I/O Input/output pin for slave transmission of data SMOSI10 and SMOSI11 I/O Input/output pin for master transmission of data SS10# and SS11# Input Chip-select input pin SCL0[FM+], SCL1, SCL2, SCL2-DS I/O Input/output pins for clocks. Bus can be directly driven by the N-channel open drain SDA0[FM+], SDA1, SDA2, SDA2-DS I/O Input/output pins for data. Bus can be directly driven by the N-channel open drain  Simple I 2C mode  Simple SPI mode I2C bus interface R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 28 of 246 RX65N Group, RX651 Group Table 1.4 1. Overview Pin Functions (5/8) Classifications Pin Name I/O Description Ethernet controller REF50CK0 Input 50-MHz reference clocks. These pins input reference signals for transmission/reception timings in RMII mode. RMII0_CRS_DV Input Indicate that there are carrier detection signals and valid receive data on RMII0_RXD1 and RMII0_RXD0 in RMII mode. RMII0_TXD0, RMII0_TXD1 Output 2-bit transmit data in RMII mode RMII0_RXD0, RMII0_RXD1 Input 2-bit receive data in RMII mode USB 2.0 host/function module CAN module RMII0_TXD_EN Output Output pins for data transmit enable signals in RMII mode RMII0_RX_ER Input Indicate an error has occurred during reception of data in RMII mode. ET0_CRS Input Carrier detection/data reception enable pins ET0_RX_DV Input Indicate that there are valid receive data on ET0_ERXD3 to ET0_ERXD0. ET0_EXOUT Output General-purpose external output pins ET0_LINKSTA Input Input link status from the PHY-LSI. ET0_ETXD0 to ET0_ETXD3 Output 4 bits of MII transmit data ET0_ERXD0 to ET0_ERXD3 Input 4 bits of MII receive data ET0_TX_EN Output Transmit enable pins. Function as signals indicating that transmit data is ready on ET0_ETXD3 to ET0_ETXD0. ET0_TX_ER Output Transmit error pins. Function as signals notifying the PHY-LSI of an error during transmission. ET0_RX_ER Input Receive error pins. Function as signals to recognize an error during reception. ET0_TX_CLK Input Transmit clock pins. These pins input reference signals for output timings from ET0_TX_EN, ET0_ETXD3 to ET0_ETXD0, and ET0_TX_ER. ET0_RX_CLK Input Receive clock pins. These pins input reference signals for input timings to ET0_RX_DV, ET0_ERXD3 to ET0_ERXD0, and ET0_RX_ER. ET0_COL Input Input collision detection signals. ET0_WOL Output Receive Magic packets. ET0_MDC Output Output reference clock signals for information transfer via ET0_MDIO. ET0_MDIO I/O Input or output bidirectional signals for exchange of management information between this MCU and the PHY-LSI. VCC_USB Input Power supply pin VSS_USB Input Ground pin USB0_DP I/O Input or output USB transceiver D+ data. USB0_DM I/O Input or output USB transceiver D- data. USB0_EXICEN Output Connect to the OTG power IC. USB0_ID Input Connect to the OTG power IC. USB0_VBUSEN Output USB VBUS power enable pins USB0_OVRCURA/ USB0_OVRCURB Input USB overcurrent pins USB0_VBUS Input USB cable connection/disconnection detection input pin CRX0, CRX1, CRX1-DS Input Input pins CTX0, CTX1 Output Output pins R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 29 of 246 RX65N Group, RX651 Group Table 1.4 1. Overview Pin Functions (6/8) Classifications Pin Name I/O Description Serial peripheral interface RSPCKA-A/RSPCKA-B/ RSPCKB-A/RSPCKB-B/ RSPCKC-A/RSPCKC-B I/O Clock input/output pins MOSIA-A/MOSIA-B/ MOSIB-A/MOSIB-B/ MOSIC-A/MOSIC-B I/O Input or output data output from the master MISOA-A/MISOA-B/ MISOB-A/MISOB-B/ MISOC-A/MISOC-B I/O Input or output data output from the slave SSLA0-A/SSLA0-B/ SSLB0-A/SSLB0-B/ SSLC0-A/SSLC0-B I/O Input or output pins for slave selection SSLA1-A/SSLA1-B/ SSLB1-A/SSLB1-B/ SSLC1-A/SSLC1-B, SSLA2-A/SSLA2-B/ SSLB2-A/SSLB2-B/ SSLC2-A/SSLC2-B, SSLA3-A/SSLA3-B/ SSLB3-A/SSLB3-B/ SSLC3-A/SSLC3-B Output Output pins for slave selection QSPCLK-A/QSPCLK-B Output QSPI clock output pins QSSL-A/QSSL-B Output QSPI slave output pins QMO-A/QMO-B, QIO0-A/QIO0-B I/O Master transmit data/data 0 QMI-A/QMI-B, QIO1-A/QIO1-B I/O Master input data/data 1 QIO2-A/QIO2-B, QIO3-A/QIO3-B I/O Data 2, data 3 MMC_CLK-A/ MMC_CLK-B Output MMC clock pins MMC_CMD-A/ MMC_CMD-B I/O Command/response pins MMC_D7-A/MMC_D7-B to MMC_D0-A/MMC_D0-B I/O Transmit data/receive data MMC_CD-A/MMC_CD-B Input Card detection pins MMC_RES#-A/MMC_RES#-B Output MMC reset output pins SDHI_CLK-A/SDHI_CLK-B/ SDHI_CLK-C Output SD clock output pins SDHI_CMD-A/SDHI_CMD-B/ SDHI_CMD-C I/O SD command output, response input signal pins SDHI_D3-A/SDHI_D3-B/ SDHI_D3-C to SDHI_D0-A/ SDHI_D0-B/SDHI_D0-C I/O SD data bus pins Quad serial peripheral interface MMC host interface SD host interface SD slave interface SDHI_CD Input SD card detection pin SDHI_WP Input SD write-protect signal SDSI_CLK-A/SDSI_CLK-B Input SD clock input pins SDSI_CMD-A/SDSI_CMD-B I/O SD command input, response output signal pins SDSI_D3-A/SDSI_D3-B, SDSI_D2-A/SDSI_D2-B, SDSI_D1-A/SDSI_D1-B, SDSI_D0-A/SDSI_D0-B I/O SD data bus pins R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 30 of 246 RX65N Group, RX651 Group Table 1.4 1. Overview Pin Functions (7/8) Classifications Pin Name I/O Description Parallel data capture unit PIXCLK Input Image transfer clock pin Graphic-LCD controller Realtime clock 12-bit A/D converter VSYNC Input Vertical synchronization signal pin HSYNC Input Horizontal synchronization signal pin PIXD0 to PIXD7 Input 8-bit image data pins PCKO Output Output pin for dot clock LCD_CLK-A, LCD_CLK-B Output Panel clock output pins LCD_TCON3-A/ LCD_TCON3-B to LCD_TCON0-A/ LCD_TCON0-B Output Control signal output pins LCD_DATA23-A/ LCD_DATA23-B to LCD_DATA0-A/ LCD_DATA0-B Output LCD signal output pins LCD_EXTCLK-A, LCD_EXTCLK-B Input Panel clock source input pins RTCOUT Output Output pin for 1-Hz/64-Hz clock RTCIC0 to RTCIC2 Input Time capture event input pins AN000 to AN007, AN100 to AN120 Input Input pins for the analog signals to be processed by the A/D converter ADTRG0#, ADTRG1# Input Input pins for the external trigger signals that start the A/D conversion ANEX0 Output Extended analog output pin ANEX1 Input Extended analog input pin 12-bit D/A converter DA0, DA1 Output Output pins for the analog signals to be processed by the D/A converter Analog power supply AVCC0 Input Analog voltage supply pin for the 12-bit A/D converter (unit 0). Connect this pin to a branch from the VCC power supply. Connect the pin to AVSS0 via a 0.1-μF multilayer ceramic capacitor. The capacitor should be placed close to the pin. AVSS0 Input Analog ground pin for the 12-bit A/D converter (unit 0). Connect this pin to a branch from the VSS ground power supply. Connect the pin to AVCC0 via a 0.1-μF multilayer ceramic capacitor. The capacitor should be placed close to the pin. VREFH0 Input Analog reference voltage supply pin for the 12-bit A/D converter (unit 0). Connect this pin to VCC if the 12-bit A/D converter is not to be used. VREFL0 Input Analog reference ground pin for the 12-bit A/D converter (unit 0). Connect this pin to VSS if the 12-bit A/D converter is not to be used. AVCC1 Input Analog voltage supply and reference voltage supply pin for the 12-bit A/D converter (unit 1) and D/A converter. This pin also supplies the analog voltage to the temperature sensor. Connect this pin to a branch from the VCC power supply. Connect the pin to AVSS1 via a 0.1-μF multilayer ceramic capacitor. The capacitor should be placed close to the pin. AVSS1 Input Analog voltage supply and reference voltage supply pin for the 12-bit A/D converter (unit 1) and D/A converter. This pin also supplies the analog ground voltage to the temperature sensor. Connect this pin to a branch from the VSS ground power supply. Connect the pin to AVCC1 via a 0.1-μF multilayer ceramic capacitor. The capacitor should be placed close to the pin. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 31 of 246 RX65N Group, RX651 Group Table 1.4 1. Overview Pin Functions (8/8) Classifications Pin Name I/O Description I/O ports P00 to P03, P05, P07 I/O 6-bit input/output pins P10 to P17 I/O 8-bit input/output pins P20 to P27 I/O 8-bit input/output pins P30 to P37 I/O 8-bit input/output pins (P35: input pin) P40 to P47 I/O 8-bit input/output pins P50 to P57 I/O 8-bit input/output pins P60 to P67 I/O 8-bit input/output pins P70 to P77 I/O 8-bit input/output pins P80 to P87 I/O 8-bit input/output pins P90 to P97 I/O 8-bit input/output pins Note: PA0 to PA7 I/O 8-bit input/output pins PB0 to PB7 I/O 8-bit input/output pins PC0 to PC7 I/O 8-bit input/output pins PD0 to PD7 I/O 8-bit input/output pins PE0 to PE7 I/O 8-bit input/output pins PF0 to PF5 I/O 6-bit input/output pins PG0 to PG7 I/O 8-bit input/output pins PJ0 to PJ3, PJ5 I/O 5-bit input/output pins Note the following regarding pin names. For details, see section 1.5, Pin Assignments. - When a letter “-A”, “-B”, etc. to indicate group membership is appended to the pin name, each pin is recommended to use in combination with the pins in the same group. All RSPI, QSPI, SDHI, MMC, GLCDC AC timings are measured in combination with the pins in the same group. - When the pin functions have “-DS” appended to their names, they can also be used as triggers for release from deep software standby. - RIIC pin functions that have [FM+] appended to their names support fast-mode plus. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 32 of 246 RX65N Group, RX651 Group 1.5 1. Overview Pin Assignments Figure 1.3 to Figure 1.11 show the pin assignments. Table 1.5 to Table 1.12 show the lists of pins and pin functions. A B C D E F G H J K L M N P R 15 PE2 PE3 P70 P65 P67 VSS VCC PG7 PA6 PB0 P72 PB4 VSS VCC PC1 15 14 PE1 PE0 VSS PE7 PG3 PA0 PA1 PA2 PA7 VCC PB1 PB5 P73 P75 P74 14 13 P63 P64 PE4 VCC PG2 PG4 PG6 PA3 VSS P71 PB3 PB7 PC0 PC2 P76 13 12 P60 VSS P62 PE5 PE6 P66 PG5 PA4 PA5 PB2 PB6 P77 PC3 PC4 P80 12 11 PD6 PG1 VCC P61 P81 P82 PC6 VCC 11 10 P97 PD4 PG0 PD7 PC5 PC7 P83 VSS 10 9 VCC P96 PD3 PD5 P50 P51 P52 P53 9 8 P94 PD1 PD2 VSS P55 P54 P10 P11 8 7 VSS P92 PD0 P95 P85 P84 P57 P56 7 6 VCC P91 P90 P93 PJ1 PJ0 VSS_ USB USB0_ DP 6 5 P46 P47 P45 P44 NC PJ2 P12 VCC_ USB USB0_ DM 5 4 P42 P41 P43 P00 VSS BSCANP PF4 P35 PF3 PF1 P25 P86 P15 P14 P13 4 3 VREFL0 P40 VREFH0 P03 PF5 PJ3 MD/ FINED RES# P34 PF2 PF0 P24 P22 P87 P16 3 2 AVCC0 P07 AVCC1 P02 EMLE VCL XCOUT VSS VCC P32 P30 P26 P23 P17 P20 2 1 AVSS0 P05 AVSS1 P01 PJ5 VBATT XCIN XTAL EXTAL P33 P31 P27 VCC VSS P21 1 B C D E F G H J K L M N P R A Note: Figure 1.3 RX65N Group, RX651 Group PTLG0177KA-A (177-Pin TFLGA) (Upper Perspective View) This figure indicates the power supply pins and I/O port pins. For the pin configuration, see Table 1.5, List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA). Pin Assignment (177-Pin TFLGA) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 33 of 246 RX65N Group, RX651 Group 1. Overview A B C D E F G H J K L M N P R 15 PE2 PE3 P70 P65 P67 VSS VCC PG7 PA6 PB0 P72 PB4 VSS VCC PC1 15 14 PE1 PE0 VSS PE7 PG3 PA0 PA1 PA2 PA7 VCC PB1 PB5 P73 P75 P74 14 13 P63 P64 PE4 VCC PG2 PG4 PG6 PA3 VSS P71 PB3 PB7 PC0 PC2 P76 13 12 P60 VSS P62 PE5 PE6 P66 PG5 PA4 PA5 PB2 PB6 P77 PC3 PC4 P80 12 11 PD6 PG1 VCC P61 P81 P82 PC6 VCC 11 10 P97 PD4 PG0 PD7 PC5 PC7 P83 VSS 10 9 VCC P96 PD3 PD5 P50 P51 P52 P53 9 8 P94 PD1 PD2 VSS P55 P54 P10 P11 8 7 VSS P92 PD0 P95 P85 P84 P57 P56 7 6 VCC P91 P90 P93 PJ1 PJ0 VSS_ USB USB0_ DP 6 5 P46 P47 P45 P44 PJ2 P12 VCC_ USB USB0_ DM 5 4 P42 P41 P43 P00 VSS BSCANP PF4 P35 PF3 PF1 P25 P86 P15 P14 P13 4 3 VREFL0 P40 VREFH0 P03 PF5 PJ3 MD/ FINED RES# P34 PF2 PF0 P24 P22 P87 P16 3 2 AVCC0 P07 AVCC1 P02 EMLE VCL XCOUT VSS VCC P32 P30 P26 P23 P17 P20 2 1 AVSS0 P05 AVSS1 P01 PJ5 VBATT XCIN XTAL EXTAL P33 P31 P27 VCC VSS P21 1 B C D E F G H J K L M N P R A Note: Figure 1.4 RX65N Group, RX651 Group PTBG0176GA-A (176-Pin LFBGA) (Upper Perspective View) This figure indicates the power supply pins and I/O port pins. For the pin configuration, see Table 1.5, List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA). Pin Assignment (176-Pin LFBGA) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 34 of 246 1. Overview PE2 PE1 PE0 P64 P63 P62 P61 VSS P60 VCC PD7 PG1 PD6 PG0 PD5 PD4 P97 PD3 VSS P96 VCC PD2 P95 PD1 P94 PD0 P93 P92 P91 VSS P90 VCC P47 P46 P45 P44 P43 P42 P41 VREFL0 P40 VREFH0 AVCC0 P07 133 Note: This figure indicates the power supply pins and I/O port pins. For the pin configuration, see Table 1.6, List of Pin and Pin Functions (176-Pin LFQFP). 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 PE3 PE4 PE5 VSS P70 VCC PE6 PE7 P65 PG2 P66 PG3 P67 PG4 PA0 VSS PG5 VCC PA1 PG6 PA2 PG7 PA3 PA4 PA5 PA6 PA7 VSS PB0 VCC P71 P72 PB1 PB2 PB3 PB4 PB5 PB6 PB7 P73 VSS PC0 VCC PC1 RX65N Group, RX651 Group 88 134 87 135 86 136 85 137 84 138 83 139 82 140 81 141 80 142 79 143 78 144 77 145 76 146 75 147 74 148 73 149 72 150 71 151 70 RX65N Group, RX651 Group PLQP0176KB-A (176-pin LFQFP) (Top view) 152 153 154 155 156 157 158 159 69 68 67 66 65 64 63 62 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 AVSS0 P05 AVCC1 P03 AVSS1 P02 P01 P00 PF5 EMLE PJ5 VSS PJ3 VCL VBATT NC PF4 MD/FINED XCIN XCOUT RES# P37/XTAL VSS P36/EXTAL VCC P35 P34 P33 P32 PF3 PF2 P31 P30 PF1 PF0 P27 P26 P25 VCC P24 VSS P23 P22 P21 18 45 17 46 176 16 47 175 15 48 174 14 49 173 13 50 172 12 51 171 11 52 170 10 53 169 9 54 168 8 55 167 7 56 166 6 57 165 5 58 164 4 59 163 3 60 162 2 61 161 1 160 P74 P75 PC2 P76 P77 PC3 PC4 P80 P81 P82 PC5 PC6 PC7 VCC P83 VSS P50 P51 P52 P53 P10 P11 P54 P55 P56 P57 P84 P85 PJ0 PJ1 PJ2 VSS_USB USB0_DP USB0_DM VCC_USB P12 P13 P14 P15 P86 P16 P87 P17 P20 Figure 1.5 Pin Assignment (176-Pin LFQFP) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 35 of 246 RX65N Group, RX651 Group 1. Overview A B C D E F G H J K L M N 13 PE3 PE4 VSS PE6 P67 PA2 PA4 PA7 PB1 PB5 VSS VCC P74 13 12 PE1 PE2 P70 PE5 P65 PA1 VCC PB0 PB2 PB6 P73 PC1 P75 12 11 P62 P61 PE0 VCC P66 VSS PA6 P71 PB4 PB7 PC2 PC0 PC3 11 10 VSS VCC P63 PE7 PA0 PA3 PA5 P72 PB3 P76 PC4 P77 P82 10 9 PD6 PD4 PD7 P64 P80 PC5 P81 PC7 9 8 PD2 PD0 PD3 P60 VCC P83 PC6 VSS 8 7 P92 P91 PD1 PD5 P51 P52 P50 P55 7 6 P90 P47 VSS P93 P53 P56 VSS_ USB USB0_ DP 6 5 P45 P43 P46 VCC P44 P54 P13 VCC_ USB USB0_ DM 5 4 P42 VREFL0 P41 P01 EMLE VBATT BSCANP P35 P30 P15 P24 P12 P14 4 3 P40 P05 VREFH0 P03 PJ5 PJ3 MD/ FINED VSS P32 P31 P16 P86 P87 3 2 P07 AVCC0 P02 PF5 VCL XCOUT RES# VCC P33 P26 P23 P17 P20 2 1 AVSS0 AVCC1 AVSS1 P00 VSS XCIN XTAL EXTAL P34 P27 P25 P22 P21 1 A B C D E F G H J K L M N Note: Figure 1.6 RX65N Group, RX651 Group PTLG0145KA-A (145-Pin TFLGA) (Upper Perspective View) This figure indicates the power supply pins and I/O port pins. For the pin configuration, see Table 1.7, List of Pin and Pin Functions (145-Pin TFLGA). Pin Assignment (145-Pin TFLGA) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 36 of 246 PA4 VCC PA5 PA6 PA7 PB0 P71 P72 PB1 PB2 PB3 PB4 PB5 PB6 PB7 P73 VSS PC0 VCC PC1 92 91 90 89 88 87 85 83 81 79 77 76 75 74 73 PA3 VSS 94 78 PA1 PA2 96 80 PA0 97 82 P66 P67 99 84 P65 100 86 PE7 101 93 PE6 102 95 P70 VCC 104 98 PE5 VSS 103 PE4 106 105 PE3 107 1. Overview 108 RX65N Group, RX651 Group PE2 109 72 P74 PE1 110 71 P75 PE0 111 70 PC2 P64 112 69 P76 P63 113 68 P62 114 67 P77 PC3 P61 VSS 115 66 PC4 116 65 P80 P60 117 64 P81 VCC 118 63 P82 PD7 119 62 PC5 PD6 120 61 PC6 PD5 121 60 PC7 PD4 122 59 PD3 123 58 VCC P83 PD2 124 57 PD1 PD0 125 P93 127 P92 128 P91 129 VSS 130 P90 VCC 131 56 VSS P50 55 P51 54 P52 53 P53 52 P54 51 P55 50 P56 132 49 VSS_USB P47 133 48 P46 134 47 USB0_DP USB0_DM P45 135 46 VCC_USB P44 136 45 P12 P43 137 44 P13 P42 138 43 P14 P41 VREFL0 139 42 P15 140 41 P86 P40 VREFH0 AVCC0 141 40 P16 142 39 143 38 P87 P17 P07 144 37 P20 Note: Figure 1.7 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 P37/XTAL VSS P36/EXTAL VCC P35 P34 P33 P32 P31 P30 P27 P26 P25 P24 P23 P22 P21 16 19 15 MD/FINED 18 13 PJ3 VCL VBATT 17 12 VSS XCIN 11 PJ5 XCOUT RES# 10 9 PF5 EMLE 5 AVSS1 P02 8 4 P03 7 3 AVCC1 P01 P00 2 P05 6 1 AVSS0 14 RX65N Group, RX651 Group PLQP0144KA-B (144-pin LFQFP) (Top view) 126 This figure indicates the power supply pins and I/O port pins. For the pin configuration, see Table 1.8, List of Pin and Pin Functions (144-Pin LFQFP). Pin Assignment (144-Pin LFQFP) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 37 of 246 RX65N Group, RX651 Group 1. Overview RX65N Group, RX651 Group PTLG0100JA-A (100-Pin TFLGA) (Upper Perspective View) A B C D E F G H J K 10 PE2 PE3 PE4 PA0 PA3 VSS VCC PB7 PC1 PC2 10 9 PE1 PD7 PE5 PA1 PA5 PA7 PB1 PB6 PC0 PC3 9 8 PE0 PD6 PD5 PE7 PA4 PB0 PB4 PC6 PC4 PC5 8 7 PD4 PD3 PD2 PE6 PA6 PB2 PB5 PC7 P50 P51 7 6 PD0 PD1 P47 P46 PA2 PB3 P52 P54 VCC_ USB USB0_ DP 6 5 P43 P44 P42 P45 P41 P12 P53 P55 VSS_ USB USB0_ DM 5 4 VREFL0 P40 VREFH0 VBATT P34 P32 P27 P15 P13 P14 4 3 P07 AVCC0 PJ3 MD/ FINED RES# P35 P30 P16 P17 P20 3 2 AVCC1 AVSS0 AVSS1 XCOUT VSS VCC P31 P25 P21 P22 2 1 P05 EMLE VCL XCIN XTAL EXTAL P33 P26 P24 P23 1 A B C D E F G H J K Note: Figure 1.8 This figure indicates the power supply pins and I/O port pins. For the pin configuration, see Table 1.9, List of Pin and Pin Functions (100-Pin TFLGA). Pin Assignment (100-Pin TFLGA) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 38 of 246 PE3 PE4 PE5 PE6 PE7 PA0 PA1 PA2 PA3 PA4 PA5 PA6 PA7 VSS PB0 VCC PB1 PB2 PB3 PB4 PB5 PB6 PB7 PC0 PC1 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 PE2 76 50 PE1 77 49 PC2 PC3 PE0 78 48 PC4 PD7 79 47 PC5 PD6 80 46 PC6 PD5 81 45 PC7 PD4 82 44 P50 PD3 83 43 P51 PD2 84 42 P52 PD1 85 41 P53 PD0 86 40 P54 P47 87 39 P55 P46 88 38 VSS_USB P45 89 37 USB0_DP P44 90 36 USB0_DM P43 91 35 VCC_USB P42 92 34 P12 P41 93 33 P13 VREFL0 94 32 P14 P40 95 31 P15 VREFH0 96 30 P16 AVCC0 97 29 P17 P07 98 28 P20 AVSS0 99 27 P21 P05 100 26 P22 Note: Figure 1.9 1. Overview 75 RX65N Group, RX651 Group 14 15 16 17 18 19 20 21 22 23 24 25 VCC P35 P34 P33 P32 P31 P30 P27 P26 P25 P24 P23 9 XCOUT 13 8 XCIN P36/EXTAL 7 MD/FINED 12 6 VBATT VSS 5 VCL 11 4 PJ3 P37/XTAL 3 AVSS1 10 2 EMLE RES# 1 AVCC1 RX65N Group, RX651 Group PLQP0100KB-B (100-pin LFQFP) (Top view) This figure indicates the power supply pins and I/O port pins. For the pin configuration, see Table 1.10, List of Pin and Pin Functions (100-Pin LFQFP). Pin Assignment (100-Pin LFQFP) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 39 of 246 RX65N Group, RX651 Group 1. Overview RX651 Group PTBG0064KB-A (64-Pin TFBGA) (Upper Perspective View) A B C D E F G H 8 PE2 PE6 PE7 PA4 VSS PB5 PC0 PC1 8 7 PE0 PE1 PA1 PA2 VCC PB6 PC5 PC4 7 6 PD7 PD6 PD5 PA6 PA7 PB7 PC7 PC6 6 5 PD2 PD3 PD4 P43 BSCANP P53 VSS_USB USB0_DP 5 4 VREFL0 P42 P41 P40 P13 P12 VCC_USB USB0_DM 4 3 VREFH0 AVCC0 MD/FINED RES# P34 P35 P30 P16 3 2 AVSS0 AVSS1 VBATT XCOUT VSS VCC P31 P17 2 1 AVCC1 EMLE VCL XCIN XTAL EXTAL P27 P26 1 A B C D E F G H Note: Figure 1.10 This figure indicates the power supply pins and I/O port pins. For the pin configuration, see Table 1.11, List of Pin and Pin Functions (64-Pin TFBGA). Pin Assignment (64-Pin TFBGA) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 40 of 246 Note: Figure 1.11 PE1 PE2 PE6 PE7 PA1 PA2 PA4 PA6 PA7 VSS VCC PB5 PB6 PB7 PC0 PC1 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 1. Overview 48 RX65N Group, RX651 Group PE0 49 32 PC4 PD7 50 31 PC5 PD6 51 30 PC6 PD5 52 29 PC7 PD4 53 28 P53 PD3 54 27 VSS_USB PD2 55 26 USB0_DP P43 56 25 USB0_DM P42 57 24 VCC_USB P41 58 23 P12 VREFL0 59 22 P13 P40 60 21 P16 VREFH0 61 20 P17 AVCC0 62 19 P27 AVSS0 63 18 P26 P05 64 17 P31 14 15 16 P35 P34 P30 9 RES# 13 8 XCOUT VCC 7 XCIN 12 6 MD/FINED P36/EXTAL 5 VBATT 11 4 VCL VSS 3 AVSS1 10 2 EMLE P37/XTAL 1 AVCC1 RX651 Group PLQP0064KB-C (64-pin LFQFP) (Top view) This figure indicates the power supply pins and I/O port pins. For the pin configuration, see Table 1.12, List of Pin and Pin Functions (64-Pin LFQFP). Pin Assignment (64-Pin LFQFP) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 41 of 246 RX65N Group, RX651 Group Table 1.5 1. Overview List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA) (1/8) Pin Number 177-Pin TFLGA 176-Pin LFBGA Power Supply Clock System Control A1 AVSS0 A2 AVCC0 A3 VREFL0 I/O Port Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC Interrupt A/D D/A A4 P42 IRQ10DS AN002 A5 P46 IRQ14DS AN006 IRQ6 AN106 A6 VCC A7 VSS A8 P94 D20/A20 P97 D23/A23 A11 PD6 D6[A6/D6] A12 P60 CS0# A13 P63 CAS#/ D2[A2/D2]/ CS3# A14 PE1 A15 PE2 B1 B2 A9 VCC A10 TRSYNC1 MTIC5V/ MTIOC8A/ POE4# SSLC2-A QMO-B/QIO0-B/ SDHI_D0-B/ MMC_D0-B LCD_DA TA18-B D9[A9/D9]/ D1[A1/D1] MTIOC4C/ MTIOC3B/ PO18 TXD12/ SMOSI12/ SSDA12/ TXDX12/ SIOX12/SSLB2B MMC_D5-B LCD_DA TA15-B D10[A10/ D10]/D2[A2/ D2] MTIOC4A/ PO23/TIC3 RXD12/ SMISO12/ SSCL12/ RXDX12/SSLB3B MMC_D6-B LCD_DA TA14-B ANEX1 IRQ7-DS AN100 P05 IRQ13 DA1 P07 IRQ15 ADTRG0 # B3 P40 IRQ8-DS AN000 B4 P41 IRQ9-DS AN001 B5 P47 IRQ15DS AN007 B6 P91 D17/A17 SCK7 AN115 B7 P92 D18/A18 POE4# RXD7/SMISO7/ SSCL7 AN116 B8 PD1 D1[A1/D1] MTIOC4B/ POE0# MOSIC-A/CTX0 P96 D22/A22 PD4 D4[A4/D4] MTIOC8B/ POE11# SSLC0-A PG1 D25 B13 P64 WE#/D3[A3/ D3]/CS4# B14 PE0 D8[A8/D8]/ D0[A0/D0] MTIOC3D SCK12/SSLB1-B B9 TRDATA5 B10 B11 TRDATA7 B12 VSS R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 LCD_DA TA23-B IRQ1 AN109 QSSL-B/ SDHI_CMD-B/ MMC_CMD-B LCD_DA TA20-B IRQ4 AN112 MMC_D4-B LCD_DA TA16-B ANEX0 Page 42 of 246 RX65N Group, RX651 Group Table 1.5 1. Overview List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA) (2/8) Pin Number 177-Pin TFLGA 176-Pin LFBGA Power Supply Clock System Control B15 I/O Port PE3 C1 AVSS1 C2 AVCC1 C3 VREFH0 Timer Communication Memory Interface Camera Interface Bus EXDMAC SDRAMC (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) D11[A11/ D11]/D3[A3/ D3] MTIOC4B/ PO26/TOC3/ POE8# ET0_ERXD3/ CTS12#/ RTS12#/SS12# MMC_D7-B GLCDC Interrupt LCD_DA TA13-B A/D D/A AN101 C4 P43 IRQ11DS AN003 C5 P45 IRQ13DS AN005 C6 P90 D16/A16 C7 PD0 D0[A0/D0] POE4# C8 PD2 D2[A2/D2] MTIOC4D/TIC2 MISOC-A/CRX0 C9 PD3 D3[A3/D3] MTIOC8D/ TOC2/POE8# RSPCKC-A PG0 D24 C12 P62 RAS#/ D1[A1/D1]/ CS2# C13 PE4 D12[A12/ D12]/D4[A4/ D4] MTIOC4D/ MTIOC1A/ PO28 ET0_ERXD2/ SSLB0-B C15 P70 SDCLK D1 P01 TMCI0 RXD6/SMISO6/ SSCL6 IRQ9 AN119 D2 P02 TMCI1 SCK6 IRQ10 AN120 D3 P03 IRQ11 DA0 D4 P00 IRQ8 AN118 D5 P44 IRQ12DS AN004 D6 P93 D19/A19 P95 D21/A21 D9 PD5 D10 C10 TRDATA6 C11 VCC C14 TXD7/SMOSI7/ SSDA7 AN114 LCD_EX TCLK-B IRQ0 AN108 QIO2-B/SDHI_D2B/MMC_D2-B LCD_DA TA22-B IRQ2 AN110 QIO3-B/SDHI_D3B/MMC_D3-B LCD_DA TA21-B IRQ3 AN111 LCD_DA TA12-B AN102 VSS TMRI0 TXD6/SMOSI6/ SSDA6 POE0# CTS7#/RTS7#/ SS7# D5[A5/D5] MTIC5W/ MTIOC8C/ POE10# SSLC1-A QSPCLK-B/ SDHI_CLK-B/ MMC_CLK-B LCD_DA TA19-B IRQ5 AN113 PD7 D7[A7/D7] MTIC5U/ POE0# SSLC3-A QMI-B/QIO1-B/ SDHI_D1-B/ MMC_D1-B LCD_DA TA17-B IRQ7 AN107 D11 P61 SDCS#/ D0[A0/D0]/ CS1# D12 PE5 D13[A13/ D13]/D5[A5/ D5] MTIOC4C/ MTIOC2B ET0_RX_CLK/ REF50CK0/ RSPCKB-B LCD_DA TA11-B IRQ5 AN103 D7 TRDATA4 D8 VSS D13 AN117 VCC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 43 of 246 RX65N Group, RX651 Group Table 1.5 1. Overview List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA) (3/8) Pin Number 177-Pin TFLGA 176-Pin LFBGA Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC D14 PE7 D15[A15/ D15]/D7[A7/ D7] D15 P65 CKE/CS5# E1 PJ5 E2 E5 *1 E14 TRDATA1 E15 F1 VBATT F2 VCL F3 (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC Interrupt A/D D/A SDHI_WP/ MMC_RES#-B LCD_DA TA9-B IRQ7 AN105 MTIOC6A/ TOC1 MISOB-B POE8# CTS2#/RTS2#/ SS2# IRQ4 PE6 D14[A14/ D14]/D6[A6/ D6] PG2 D26 MTIOC6C/TIC1 PG3 D27 P67 DQM1/CS7# MTIOC7C PJ3 EDACK1 MTIOC3C P66 DQM0/CS6# MTIOC7D PG4 D28 PA0 DQM2/ BC0#/A0 MOSIB-B SDHI_CD/ MMC_CD-B LCD_DA TA10-B IRQ6 AN104 IRQ15 ET0_EXOUT/ CTS6#/RTS6#/ SS6#/CTS0#/ RTS0#/SS0# BSCANP F12 TRSYNC F14 MTIOC4A/ MTIOC6D/ TIOCA0/PO16/ CACREF ET0_TX_EN/ RMII0_TXD_EN/ SSLA1-B LCD_DA TA8-B MTIOC0B/ MTCLKC/ MTIOC7B/ TIOCB0/PO17 ET0_WOL/ SCK5/SSLA2-B LCD_DA TA7-B VSS G1 XCIN G2 XCOUT G3 MD/FINED G4 TRST# PF4 G12 TRCLK PG5 D29 G13 TRDATA2 PG6 D30 PA1 DQM3/A1 G14 G15 VCC H1 XTAL H2 VSS H3 RES# H4 UPSEL H12 (ETHERC, SCI, RSPI, RIIC, CAN, USB) NC TRDATA0 F15 (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) VSS E13 F13 Memory Interface Camera Interface PF5 E12 F4 Communication EMLE E3 E4 Timer IRQ11 P37 P35 PA4 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 NMI A4 MTIC5U/ MTCLKA/ TIOCA1/ TMRI0/PO20 ET0_MDC/TXD5/ SMOSI5/SSDA5/ SSLA0-B LCD_DA TA4-B IRQ5-DS Page 44 of 246 RX65N Group, RX651 Group Table 1.5 1. Overview List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA) (4/8) Pin Number 177-Pin TFLGA 176-Pin LFBGA Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) I/O Port Bus EXDMAC SDRAMC H13 PA3 A3 MTIOC0D/ MTCLKD/ TIOCD0/ TCLKB/PO19 H14 PA2 A2 TRDATA3 PG7 D31 J1 EXTAL P36 J2 VCC H15 Power Supply Clock System Control Timer J3 J4 P34 TMS J12 GLCDC Interrupt ET0_MDIO/ RXD5/SMISO5/ SSCL5 LCD_DA TA5-B IRQ6-DS MTIOC7A/ PO18 RXD5/SMISO5/ SSCL5/SSLA3-B LCD_DA TA6-B MTIOC0A/ TMCI3/PO12/ POE10# ET0_LINKSTA/ SCK6/SCK0 IRQ4 PF3 PA5 A5 MTIOC6B/ TIOCB1/PO21 ET0_LINKSTA/ RSPCKA-B LCD_DA TA3-B J14 PA7 A7 TIOCB2/PO23 ET0_WOL/ MISOA-B LCD_DA TA1-B J15 PA6 A6 MTIC5V/ MTCLKB/ TIOCA2/ TMCI3/PO22/ POE10# ET0_EXOUT/ CTS5#/RTS5#/ SS5#/MOSIA-B LCD_DA TA2-B K1 P33 EDREQ1 MTIOC0D/ TIOCD0/ TMRI3/PO11/ POE4#/ POE11# RXD6/SMISO6/ SSCL6/RXD0/ SMISO0/SSCL0/ CRX0 PCKO IRQ3-DS K2 P32 MTIOC0C/ TIOCC0/ TMO3/PO10/ RTCIC2/ RTCOUT/ POE0#/ POE10# TXD6/SMOSI6/ SSDA6/TXD0/ SMOSI0/SSDA0/ CTX0/ USB0_VBUSEN VSYNC IRQ2-DS J13 VSS K3 TDI PF2 RXD1/SMISO1/ SSCL1 K4 TCK PF1 SCK1 K12 PB2 A10 P71 A18/CS1# K15 PB0 A8 L1 L2 K13 K14 L3 A/D D/A TIOCC3/ TCLKC/PO26 ET0_RX_CLK/ REF50CK0/ CTS4#/RTS4#/ SS4#/CTS6#/ RTS6#/SS6# SDSI_D2-B LCD_TC ON2-B ET0_MDIO VCC TDO MTIC5W/ TIOCA3/PO24 ET0_ERXD1/ RMII0_RXD1/ RXD4/SMISO4/ SSCL4/RXD6/ SMISO6/SSCL6 P31 MTIOC4D/ TMCI2/PO9/ RTCIC1 CTS1#/RTS1#/ SS1#/SSLB0-A IRQ1-DS P30 MTIOC4B/ TMRI3/PO8/ RTCIC0/ POE8# RXD1/SMISO1/ SSCL1/MISOB-A IRQ0-DS PF0 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 LCD_DA TA0-B IRQ12 TXD1/SMOSI1/ SSDA1 Page 45 of 246 RX65N Group, RX651 Group Table 1.5 1. Overview List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA) (5/8) Pin Number 177-Pin TFLGA 176-Pin LFBGA Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC L4 P25 CS5#/ EDACK1 MTIOC4C/ MTCLKB/ TIOCA4/PO5 RXD3/SMISO3/ SSCL3 SDHI_CD/HSYNC L12 PB6 A14 MTIOC3D/ TIOCA5/PO30 ET0_ETXD1/ RMII0_TXD1/ RXD9/SMISO9/ SSCL9/ SMISO11/ SSCL11/RXD11 SDSI_D0-B L13 PB3 A11 MTIOC0A/ MTIOC4A/ TIOCD3/ TCLKD/TMO0/ PO27/POE11# ET0_RX_ER/ RMII0_RX_ER/ SCK4/SCK6 SDSI_D3-B L14 PB1 A9 MTIOC0C/ MTIOC4C/ TIOCB3/ TMCI0/PO25 ET0_ERXD0/ RMII0_RXD0/ TXD4/SMOSI4/ SSDA4/TXD6/ SMOSI6/SSDA6 LCD_TC ON3-B L15 P72 A19/CS2# ET0_MDC LCD_DA TA23-A M1 P27 CS7# MTIOC2B/ TMCI3/PO7 SCK1/RSPCKBA M2 P26 CS6# MTIOC2A/ TMO1/PO6 TXD1/SMOSI1/ SSDA1/CTS3#/ RTS3#/SS3#/ MOSIB-A M3 P24 CS4#/ EDREQ1 MTIOC4A/ MTCLKA/ TIOCB4/ TMRI1/PO4 SCK3/ USB0_VBUSEN SDHI_WP/PIXCLK M4 P86 MTIOC4D/ TIOCA0 SMISO10/ SSCL10/RXD10 PIXD1 M5 PJ2 M6 PJ1 MTIOC6A M7 P85 MTIOC6C/ TIOCC0 M8 P55 D0[A0/D0]/ EDREQ0/ WAIT# M9 P50 WR0#/WR# M10 PC5 D3[A3/D3]/ A21/CS2#/ WAIT# MTIOC3B/ MTCLKD/ TMRI2/PO29 ET0_ETXD2/ SCK8/SCK10/ RSPCKA-A MMC_D5-A LCD_DA TA11-A M11 P81 EDACK0 MTIOC3D/ PO27 ET0_ETXD0/ RMII0_TXD0/ SMISO10/ SSCL10/RXD10 QIO3-A/SDHI_CD/ MMC_D3-A LCD_DA TA13-A M12 P77 CS7# PO23 ET0_RX_ER/ RMII0_RX_ER/ SMOSI11/ SSDA11/TXD11 QSPCLK-A/ SDHI_CLK-A/ SDSI_CLK-A/ MMC_CLK-A LCD_DA TA17-A M13 PB7 A15 MTIOC3B/ TIOCB5/PO31 ET0_CRS/ RMII0_CRS_DV/ TXD9/SMOSI9/ SSDA9/ SMOSI11/ SSDA11/TXD11 SDSI_D1-B R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 MTIOC4D/ TMO3 Interrupt A/D D/A ADTRG0 # LCD_TC ON1-B TXD8/SMOSI8/ SSDA8/SSLC3-B LCD_TC ON2-A RXD8/SMISO8/ SSCL8/SSLC2-B LCD_TC ON3-A IRQ4-DS LCD_DA TA1-A ET0_EXOUT/ TXD7/SMOSI7/ SSDA7/MISOCB/CRX1 LCD_DA TA5-A IRQ10 TXD2/SMOSI2/ SSDA2/SSLB1-A Page 46 of 246 RX65N Group, RX651 Group Table 1.5 1. Overview List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA) (6/8) Pin Number 177-Pin TFLGA 176-Pin LFBGA Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) I/O Port Bus EXDMAC SDRAMC M14 PB5 A13 MTIOC2A/ MTIOC1B/ TIOCB4/ TMRI1/PO29/ POE4# ET0_ETXD0/ RMII0_TXD0/ SCK9/SCK11 SDSI_CLK-B LCD_CL K-B M15 PB4 A12 TIOCA4/PO28 ET0_TX_EN/ RMII0_TXD_EN/ CTS9#/RTS9#/ SS9#/SS11#/ CTS11#/RTS11# SDSI_CMD-B LCD_TC ON0-B N2 P23 EDACK0 MTIOC3D/ MTCLKD/ TIOCD3/PO3 TXD3/SMOSI3/ SSDA3/CTS0#/ RTS0#/SS0# SDHI_D1-C/PIXD7 N3 P22 EDREQ0 MTIOC3B/ MTCLKC/ TIOCC3/ TMO0/PO2 SCK0/ USB0_OVRCUR B SDHI_D0-C/PIXD6 N4 P15 MTIOC0B/ MTCLKB/ TIOCB2/ TCLKB/TMCI2/ PO13 RXD1/SMISO1/ SSCL1/SCK3/ CRX1-DS PIXD0 N5 P12 MTIC5U/ TMCI1 RXD2/SMISO2/ SSCL2/ SCL0[FM+] LCD_TC ON1-A N6 PJ0 MTIOC6B SCK8/SSLC1-B LCD_DA TA0-A N7 P84 MTIOC6D N8 P54 D1[A1/D1]/ EDACK0/ ALE N9 P51 WR1#/ BC1#/ WAIT# PC7 A23/CS0# MTIOC3A/ MTCLKB/ TMO2/PO31/ TOC0/ CACREF ET0_COL/TXD8/ SMOSI8/SSDA8/ SMOSI10/ SSDA10/TXD10/ MISOA-A MMC_D7-A LCD_DA TA9-A N11 P82 EDREQ1 MTIOC4A/ PO28 ET0_ETXD1/ RMII0_TXD1/ SMOSI10/ SSDA10/TXD10 MMC_D4-A LCD_DA TA12-A N12 PC3 A19 MTIOC4D/ TCLKB/PO24 ET0_TX_ER/ TXD5/SMOSI5/ SSDA5 QMO-A/QIO0-A/ SDHI_D0-A/ SDSI_D0-A/ MMC_D0-A LCD_DA TA16-A N13 PC0 A16 MTIOC3C/ TCLKC/PO17 ET0_ERXD3/ CTS5#/RTS5#/ SS5#/SSLA1-A N14 P73 CS3# PO16 ET0_WOL MTIOC3A/ MTIOC3B/ MTIOC4B/ TIOCB0/ TCLKD/TMO1/ PO15/POE8# SCK1/TXD3/ SMOSI3/SSDA3/ SDA2-DS N1 N10 Power Supply Clock System Control Timer Interrupt A/D D/A VCC UB N15 VSS P1 VSS P2 GLCDC P17 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 WR3#/BC3# MTIOC4B/ TMCI1 IRQ5 IRQ2 LCD_DA TA2-A LCD_DA TA6-A ET0_LINKSTA/ CTS2#/RTS2#/ SS2#/MOSIC-B/ CTX1 SCK2/SSLB2-A IRQ14 IRQ14 LCD_EX TCLK-A SDHI_D3-C/PIXD3 IRQ7 ADTRG1 # Page 47 of 246 RX65N Group, RX651 Group Table 1.5 1. Overview List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA) (7/8) Pin Number 177-Pin TFLGA 176-Pin LFBGA Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC Interrupt IRQ4 P3 P87 MTIOC4C/ TIOCA2 SMOSI10/ SSDA10/TXD10 P4 P14 MTIOC3A/ MTCLKA/ TIOCB5/ TCLKA/TMRI2/ PO15 CTS1#/RTS1#/ SS1#/CTX1/ USB0_OVRCUR A LCD_CL K-A RXD7/SMISO7/ SSCL7/SSLC0-B LCD_DA TA3-A P5 VCC_USB P6 VSS_USB SDHI_D2-C/PIXD2 P7 P57 P8 P10 ALE P9 P52 RD# P10 P83 EDACK1 MTIOC4C ET0_CRS/ RMII0_CRS_DV/ SCK10/SS10#/ CTS10# P11 PC6 D2[A2/D2]/ A22/CS1# MTIOC3C/ MTCLKA/ TMCI2/PO30/ TIC0 ET0_ETXD3/ RXD8/SMISO8/ SSCL8/ SMISO10/ SSCL10/RXD10/ MOSIA-A MMC_D6-A LCD_DA TA10-A P12 PC4 A20/CS3# MTIOC3D/ MTCLKC/ TMCI1/PO25/ POE0# ET0_TX_CLK/ SCK5/CTS8#/ RTS8#/SS8#/ SS10#/CTS10#/ RTS10#/SSLA0A QMI-A/QIO1-A/ SDHI_D1-A/ SDSI_D1-A/ MMC_D1-A LCD_DA TA15-A P13 PC2 A18 MTIOC4B/ TCLKA/PO21 ET0_RX_DV/ RXD5/SMISO5/ SSCL5/SSLA3-A SDHI_D3-A/ SDSI_D3-A/ MMC_CD-A LCD_DA TA19-A P14 P75 CS5# PO20 ET0_ERXD0/ RMII0_RXD0/ SCK11/RTS11# SDHI_D2-A/ SDSI_D2-A/ MMC_RES#-A LCD_DA TA20-A P15 A/D D/A MTIC5W/ TMRI3 IRQ0 RXD2/SMISO2/ SSCL2/SSLB3-A LCD_DA TA8-A IRQ13 VCC R1 P21 MTIOC1B/ MTIOC4A/ TIOCA3/ TMCI0/PO1 RXD0/SMISO0/ SSCL0/SCL1/ USB0_EXICEN SDHI_CLK-C/ PIXD5 IRQ9 R2 P20 MTIOC1A/ TIOCB3/ TMRI0/PO0 TXD0/SMOSI0/ SSDA0/SDA1/ USB0_ID SDHI_CMD-C/ PIXD4 IRQ8 R3 P16 MTIOC3C/ MTIOC3D/ TIOCB1/ TCLKC/TMO2/ PO14/RTCOUT TXD1/SMOSI1/ SSDA1/RXD3/ SMISO3/SSCL3/ SCL2-DS/ USB0_VBUSEN/ USB0_VBUS/ USB0_OVRCUR B R4 P13 MTIOC0B/ TIOCA5/TMO3/ PO13 TXD2/SMOSI2/ SSDA2/ SDA0[FM+] WR2#/BC2# R5 LCD_TC ON0-A IRQ6 ADTRG0 # IRQ3 ADTRG1 # USB0_DM R6 USB0_DP R7 P56 R8 P11 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 EDACK1 MTIOC3C/ TIOCA1 SCK7/RSPCKCB LCD_DA TA4-A MTIC5V/TMCI3 SCK2 LCD_DA TA7-A IRQ1 Page 48 of 246 RX65N Group, RX651 Group Table 1.5 1. Overview List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA) (8/8) Pin Number 177-Pin TFLGA 176-Pin LFBGA Power Supply Clock System Control Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC I/O Port Bus EXDMAC SDRAMC P53*2 BCLK R12 P80 EDREQ0 MTIOC3B/ PO26 ET0_TX_EN/ RMII0_TXD_EN/ SCK10/RTS10# QIO2-A/SDHI_WP/ MMC_D2-A LCD_DA TA14-A R13 P76 CS6# PO22 ET0_RX_CLK/ REF50CK0/ SMISO11/ SSCL11/RXD11 QSSL-A/ SDHI_CMD-A/ SDSI_CMD-A/ MMC_CMD-A LCD_DA TA18-A R14 P74 A20/CS4# PO19 ET0_ERXD1/ RMII0_RXD1/ SS11#/CTS11# LCD_DA TA21-A R15 PC1 A17 MTIOC3A/ TCLKD/PO18 ET0_ERXD2/ SCK5/SSLA2-A LCD_DA TA22-A R9 R10 VSS R11 VCC Interrupt A/D D/A IRQ12 Note 1. The 176-pin LFBGA does not include the E5 pin. Note 2. P53 is multiplexed with the BCLK pin function, so cannot be used as an I/O port pin when the external bus is enabled. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 49 of 246 RX65N Group, RX651 Group Table 1.6 1. Overview List of Pin and Pin Functions (176-Pin LFQFP) (1/8) Pin Number 176-Pin LFQFP 1 Power Supply Clock System Control Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) Interrupt A/D D/A P05 IRQ13 DA1 P03 IRQ11 DA0 I/O Port GLCDC AVCC1 4 5 Communication AVSS0 2 3 Bus EXDMAC SDRAMC Timer AVSS1 6 P02 TMCI1 SCK6 IRQ10 AN120 7 P01 TMCI0 RXD6/SMISO6/ SSCL6 IRQ9 AN119 8 P00 TMRI0 TXD6/SMOSI6/ SSDA6 IRQ8 AN118 9 10 PF5 11 12 IRQ4 EMLE PJ5 POE8# CTS2#/RTS2#/ SS2# MTIOC3C ET0_EXOUT/ CTS6#/RTS6#/ SS6#/CTS0#/ RTS0#/SS0# MTIOC0A/ TMCI3/PO12/ POE10# ET0_LINKSTA/ SCK6/SCK0 MTIOC0D/ TIOCD0/ TMRI3/PO11/ POE4#/ POE11# RXD6/SMISO6/ SSCL6/RXD0/ SMISO0/SSCL0/ CRX0 PCKO IRQ3-DS MTIOC0C/ TIOCC0/ TMO3/PO10/ RTCIC2/ RTCOUT/ POE0#/ POE10# TXD6/SMOSI6/ SSDA6/TXD0/ SMOSI0/SSDA0/ CTX0/ USB0_VBUSEN VSYNC IRQ2-DS VSS 13 PJ3 14 VCL 15 VBATT 16 NC 17 TRST# 18 MD/FINED 19 XCIN 20 XCOUT 21 RES# 22 XTAL 23 VSS 24 EXTAL 25 VCC 26 UPSEL EDACK1 PF4 P37 P36 P35 27 P34 28 P33 29 P32 30 TMS PF3 31 TDI PF2 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 NMI EDREQ1 IRQ4 RXD1/SMISO1/ SSCL1 Page 50 of 246 RX65N Group, RX651 Group Table 1.6 1. Overview List of Pin and Pin Functions (176-Pin LFQFP) (2/8) Pin Number 176-Pin LFQFP Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC Interrupt 32 P31 MTIOC4D/ TMCI2/PO9/ RTCIC1 CTS1#/RTS1#/ SS1#/SSLB0-A IRQ1-DS 33 P30 MTIOC4B/ TMRI3/PO8/ RTCIC0/ POE8# RXD1/SMISO1/ SSCL1/MISOB-A IRQ0-DS 34 TCK PF1 SCK1 35 TDO PF0 TXD1/SMOSI1/ SSDA1 A/D D/A 36 P27 CS7# MTIOC2B/ TMCI3/PO7 SCK1/RSPCKBA 37 P26 CS6# MTIOC2A/ TMO1/PO6 TXD1/SMOSI1/ SSDA1/CTS3#/ RTS3#/SS3#/ MOSIB-A 38 P25 CS5#/ EDACK1 MTIOC4C/ MTCLKB/ TIOCA4/PO5 RXD3/SMISO3/ SSCL3 SDHI_CD/HSYNC P24 CS4#/ EDREQ1 MTIOC4A/ MTCLKA/ TIOCB4/ TMRI1/PO4 SCK3/ USB0_VBUSEN SDHI_WP/PIXCLK 42 P23 EDACK0 MTIOC3D/ MTCLKD/ TIOCD3/PO3 TXD3/SMOSI3/ SSDA3/CTS0#/ RTS0#/SS0# SDHI_D1-C/PIXD7 43 P22 EDREQ0 MTIOC3B/ MTCLKC/ TIOCC3/ TMO0/PO2 SCK0/ USB0_OVRCUR B SDHI_D0-C/PIXD6 44 P21 MTIOC1B/ MTIOC4A/ TIOCA3/ TMCI0/PO1 RXD0/SMISO0/ SSCL0/SCL1/ USB0_EXICEN SDHI_CLK-C/ PIXD5 IRQ9 45 P20 MTIOC1A/ TIOCB3/ TMRI0/PO0 TXD0/SMOSI0/ SSDA0/SDA1/ USB0_ID SDHI_CMD-C/ PIXD4 IRQ8 46 P17 MTIOC3A/ MTIOC3B/ MTIOC4B/ TIOCB0/ TCLKD/TMO1/ PO15/POE8# SCK1/TXD3/ SMOSI3/SSDA3/ SDA2-DS SDHI_D3-C/PIXD3 IRQ7 ADTRG1 # 47 P87 MTIOC4C/ TIOCA2 SMOSI10/ SSDA10/TXD10 SDHI_D2-C/PIXD2 48 P16 MTIOC3C/ MTIOC3D/ TIOCB1/ TCLKC/TMO2/ PO14/RTCOUT TXD1/SMOSI1/ SSDA1/RXD3/ SMISO3/SSCL3/ SCL2-DS/ USB0_VBUSEN/ USB0_VBUS/ USB0_OVRCUR B IRQ6 ADTRG0 # 49 P86 MTIOC4D/ TIOCA0 SMISO10/ SSCL10/RXD10 PIXD1 50 P15 MTIOC0B/ MTCLKB/ TIOCB2/ TCLKB/TMCI2/ PO13 RXD1/SMISO1/ SSCL1/SCK3/ CRX1-DS PIXD0 39 VCC 40 41 ADTRG0 # VSS R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 IRQ5 Page 51 of 246 RX65N Group, RX651 Group Table 1.6 1. Overview List of Pin and Pin Functions (176-Pin LFQFP) (3/8) Pin Number 176-Pin LFQFP Power Supply Clock System Control I/O Port 51 P14 52 P13 53 P12 54 Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) Interrupt MTIOC3A/ MTCLKA/ TIOCB5/ TCLKA/TMRI2/ PO15 CTS1#/RTS1#/ SS1#/CTX1/ USB0_OVRCUR A LCD_CL K-A IRQ4 WR2#/BC2# MTIOC0B/ TIOCA5/TMO3/ PO13 TXD2/SMOSI2/ SSDA2/ SDA0[FM+] LCD_TC ON0-A IRQ3 WR3#/ BC3# MTIC5U/ TMCI1 RXD2/SMISO2/ SSCL2/ SCL0[FM+] LCD_TC ON1-A IRQ2 USB0_DM 56 USB0_DP ADTRG1 # VSS_USB 58 PJ2 TXD8/SMOSI8/ SSDA8/SSLC3-B LCD_TC ON2-A 59 PJ1 MTIOC6A RXD8/SMISO8/ SSCL8/SSLC2-B LCD_TC ON3-A 60 PJ0 MTIOC6B SCK8/SSLC1-B LCD_DA TA0-A 61 P85 MTIOC6C/ TIOCC0 LCD_DA TA1-A 62 P84 MTIOC6D LCD_DA TA2-A 63 P57 64 P56 EDACK1 65 P55 66 P54 67 P11 68 P10 ALE 69 P53*1 BCLK 70 P52 RD# RXD2/SMISO2/ SSCL2/SSLB3-A 71 P51 WR1#/ BC1#/ WAIT# SCK2/SSLB2-A 72 P50 WR0#/WR# TXD2/SMOSI2/ SSDA2/SSLB1-A 73 A/D D/A VCC_USB 55 57 GLCDC RXD7/SMISO7/ SSCL7/SSLC0-B LCD_DA TA3-A MTIOC3C/ TIOCA1 SCK7/RSPCKCB LCD_DA TA4-A D0[A0/D0]/ EDREQ0/ WAIT# MTIOC4D/ TMO3 ET0_EXOUT/ TXD7/SMOSI7/ SSDA7/MISOCB/CRX1 LCD_DA TA5-A D1[A1/D1]/ EDACK0/ ALE MTIOC4B/ TMCI1 ET0_LINKSTA/ CTS2#/RTS2#/ SS2#/MOSIC-B/ CTX1 LCD_DA TA6-A MTIC5V/TMCI3 SCK2 LCD_DA TA7-A MTIC5W/ TMRI3 IRQ10 IRQ1 IRQ0 VSS R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 52 of 246 RX65N Group, RX651 Group Table 1.6 1. Overview List of Pin and Pin Functions (176-Pin LFQFP) (4/8) Pin Number Timer Communication Memory Interface Camera Interface I/O Port Bus EXDMAC SDRAMC (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) P83 EDACK1 MTIOC4C ET0_CRS/ RMII0_CRS_DV/ SCK10/SS10#/ CTS10# PC7 A23/CS0# MTIOC3A/ MTCLKB/ TMO2/PO31/ TOC0/ CACREF ET0_COL/TXD8/ SMOSI8/SSDA8/ SMOSI10/ SSDA10/TXD10/ MISOA-A MMC_D7-A LCD_DA TA9-A IRQ14 77 PC6 D2[A2/D2]/ A22/CS1# MTIOC3C/ MTCLKA/ TMCI2/PO30/ TIC0 ET0_ETXD3/ RXD8/SMISO8/ SSCL8/ SMISO10/ SSCL10/RXD10/ MOSIA-A MMC_D6-A LCD_DA TA10-A IRQ13 78 PC5 D3[A3/D3]/ A21/CS2#/ WAIT# MTIOC3B/ MTCLKD/ TMRI2/PO29 ET0_ETXD2/ SCK8/SCK10/ RSPCKA-A MMC_D5-A LCD_DA TA11-A 79 P82 EDREQ1 MTIOC4A/ PO28 ET0_ETXD1/ RMII0_TXD1/ SMOSI10/ SSDA10/TXD10 MMC_D4-A LCD_DA TA12-A 80 P81 EDACK0 MTIOC3D/ PO27 ET0_ETXD0/ RMII0_TXD0/ SMISO10/ SSCL10/RXD10 QIO3-A/SDHI_CD/ MMC_D3-A LCD_DA TA13-A 81 P80 EDREQ0 MTIOC3B/ PO26 ET0_TX_EN/ RMII0_TXD_EN/ SCK10/RTS10# QIO2-A/SDHI_WP/ MMC_D2-A LCD_DA TA14-A 82 PC4 A20/CS3# MTIOC3D/ MTCLKC/ TMCI1/PO25/ POE0# ET0_TX_CLK/ SCK5/CTS8#/ RTS8#/SS8#/ SS10#/CTS10#/ RTS10#/SSLA0A QMI-A/QIO1-A/ SDHI_D1-A/ SDSI_D1-A/ MMC_D1-A LCD_DA TA15-A 83 PC3 A19 MTIOC4D/ TCLKB/PO24 ET0_TX_ER/ TXD5/SMOSI5/ SSDA5 QMO-A/QIO0-A/ SDHI_D0-A/ SDSI_D0-A/ MMC_D0-A LCD_DA TA16-A 84 P77 CS7# PO23 ET0_RX_ER/ RMII0_RX_ER/ SMOSI11/ SSDA11/TXD11 QSPCLK-A/ SDHI_CLK-A/ SDSI_CLK-A/ MMC_CLK-A LCD_DA TA17-A 85 P76 CS6# PO22 ET0_RX_CLK/ REF50CK0/ SMISO11/ SSCL11/RXD11 QSSL-A/ SDHI_CMD-A/ SDSI_CMD-A/ MMC_CMD-A LCD_DA TA18-A 86 PC2 A18 MTIOC4B/ TCLKA/PO21 ET0_RX_DV/ RXD5/SMISO5/ SSCL5/SSLA3-A SDHI_D3-A/ SDSI_D3-A/ MMC_CD-A LCD_DA TA19-A 87 P75 CS5# PO20 ET0_ERXD0/ RMII0_RXD0/ SCK11/RTS11# SDHI_D2-A/ SDSI_D2-A/ MMC_RES#-A LCD_DA TA20-A 88 P74 A20/CS4# PO19 ET0_ERXD1/ RMII0_RXD1/ SS11#/CTS11# LCD_DA TA21-A 89 PC1 A17 MTIOC3A/ TCLKD/PO18 ET0_ERXD2/ SCK5/SSLA2-A LCD_DA TA22-A PC0 A16 MTIOC3C/ TCLKC/PO17 ET0_ERXD3/ CTS5#/RTS5#/ SS5#/SSLA1-A 176-Pin LFQFP Power Supply Clock System Control 74 75 VCC 76 UB 90 91 GLCDC Interrupt A/D D/A LCD_DA TA8-A IRQ12 VCC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 IRQ14 Page 53 of 246 RX65N Group, RX651 Group Table 1.6 1. Overview List of Pin and Pin Functions (176-Pin LFQFP) (5/8) Pin Number Timer Communication Memory Interface Camera Interface I/O Port Bus EXDMAC SDRAMC (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) 93 P73 CS3# PO16 ET0_WOL 94 PB7 A15 MTIOC3B/ TIOCB5/PO31 ET0_CRS/ RMII0_CRS_DV/ TXD9/SMOSI9/ SSDA9/ SMOSI11/ SSDA11/TXD11 SDSI_D1-B 95 PB6 A14 MTIOC3D/ TIOCA5/PO30 ET0_ETXD1/ RMII0_TXD1/ RXD9/SMISO9/ SSCL9/ SMISO11/ SSCL11/RXD11 SDSI_D0-B 96 PB5 A13 MTIOC2A/ MTIOC1B/ TIOCB4/ TMRI1/PO29/ POE4# ET0_ETXD0/ RMII0_TXD0/ SCK9/SCK11 SDSI_CLK-B LCD_CL K-B 97 PB4 A12 TIOCA4/PO28 ET0_TX_EN/ RMII0_TXD_EN/ CTS9#/RTS9#/ SS9#/SS11#/ CTS11#/RTS11# SDSI_CMD-B LCD_TC ON0-B 98 PB3 A11 MTIOC0A/ MTIOC4A/ TIOCD3/ TCLKD/TMO0/ PO27/POE11# ET0_RX_ER/ RMII0_RX_ER/ SCK4/SCK6 SDSI_D3-B LCD_TC ON1-B 99 PB2 A10 TIOCC3/ TCLKC/PO26 ET0_RX_CLK/ REF50CK0/ CTS4#/RTS4#/ SS4#/CTS6#/ RTS6#/SS6# SDSI_D2-B LCD_TC ON2-B 100 PB1 A9 MTIOC0C/ MTIOC4C/ TIOCB3/ TMCI0/PO25 ET0_ERXD0/ RMII0_RXD0/ TXD4/SMOSI4/ SSDA4/TXD6/ SMOSI6/SSDA6 LCD_TC ON3-B 101 P72 A19/CS2# ET0_MDC LCD_DA TA23-A P71 A18/CS1# ET0_MDIO PB0 A8 MTIC5W/ TIOCA3/PO24 ET0_ERXD1/ RMII0_RXD1/ RXD4/SMISO4/ SSCL4/RXD6/ SMISO6/SSCL6 LCD_DA TA0-B 106 PA7 A7 TIOCB2/PO23 ET0_WOL/ MISOA-B LCD_DA TA1-B 107 PA6 A6 MTIC5V/ MTCLKB/ TIOCA2/ TMCI3/PO22/ POE10# ET0_EXOUT/ CTS5#/RTS5#/ SS5#/MOSIA-B LCD_DA TA2-B 108 PA5 A5 MTIOC6B/ TIOCB1/PO21 ET0_LINKSTA/ RSPCKA-B LCD_DA TA3-B 176-Pin LFQFP 92 Power Supply Clock System Control A/D D/A LCD_EX TCLK-A IRQ4-DS VCC 104 105 Interrupt VSS 102 103 GLCDC IRQ12 VSS R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 54 of 246 RX65N Group, RX651 Group Table 1.6 1. Overview List of Pin and Pin Functions (176-Pin LFQFP) (6/8) Pin Number Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) I/O Port Bus EXDMAC SDRAMC 109 PA4 A4 MTIC5U/ MTCLKA/ TIOCA1/ TMRI0/PO20 110 PA3 A3 PG7 D31 PA2 A2 PG6 D30 PA1 DQM3/A1 PG5 D29 PA0 DQM2/ BC0#/A0 TRSYNC PG4 D28 P67 DQM1/CS7# TRDATA1 PG3 D27 P66 DQM0/CS6# PG2 D26 176-Pin LFQFP 111 Power Supply Clock System Control Timer TRDATA3 112 113 TRDATA2 114 115 VCC 116 TRCLK 117 VSS 118 119 120 121 122 123 TRDATA0 GLCDC Interrupt ET0_MDC/TXD5/ SMOSI5/SSDA5/ SSLA0-B LCD_DA TA4-B IRQ5-DS MTIOC0D/ MTCLKD/ TIOCD0/ TCLKB/PO19 ET0_MDIO/ RXD5/SMISO5/ SSCL5 LCD_DA TA5-B IRQ6-DS MTIOC7A/ PO18 RXD5/SMISO5/ SSCL5/SSLA3-B LCD_DA TA6-B MTIOC0B/ MTCLKC/ MTIOC7B/ TIOCB0/PO17 ET0_WOL/ SCK5/SSLA2-B LCD_DA TA7-B MTIOC4A/ MTIOC6D/ TIOCA0/PO16/ CACREF ET0_TX_EN/ RMII0_TXD_EN/ SSLA1-B LCD_DA TA8-B MTIOC7C A/D D/A IRQ11 IRQ15 MTIOC7D 124 P65 CKE/CS5# 125 PE7 D15[A15/ D15]/D7[A7/ D7] MTIOC6A/ TOC1 MISOB-B SDHI_WP/ MMC_RES#-B LCD_DA TA9-B IRQ7 AN105 126 PE6 D14[A14/ D14]/D6[A6/ D6] MTIOC6C/TIC1 MOSIB-B SDHI_CD/ MMC_CD-B LCD_DA TA10-B IRQ6 AN104 P70 SDCLK 130 PE5 D13[A13/ D13]/D5[A5/ D5] MTIOC4C/ MTIOC2B ET0_RX_CLK/ REF50CK0/ RSPCKB-B LCD_DA TA11-B IRQ5 AN103 131 PE4 D12[A12/ D12]/D4[A4/ D4] MTIOC4D/ MTIOC1A/ PO28 ET0_ERXD2/ SSLB0-B LCD_DA TA12-B AN102 132 PE3 D11[A11/ D11]/D3[A3/ D3] MTIOC4B/ PO26/TOC3/ POE8# ET0_ERXD3/ CTS12#/ RTS12#/SS12# MMC_D7-B LCD_DA TA13-B AN101 133 PE2 D10[A10/ D10]/D2[A2/ D2] MTIOC4A/ PO23/TIC3 RXD12/ SMISO12/ SSCL12/ RXDX12/SSLB3B MMC_D6-B LCD_DA TA14-B 127 VCC 128 129 VSS R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 IRQ7-DS AN100 Page 55 of 246 RX65N Group, RX651 Group Table 1.6 1. Overview List of Pin and Pin Functions (176-Pin LFQFP) (7/8) Pin Number 176-Pin LFQFP Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC Interrupt A/D D/A 134 PE1 D9[A9/D9]/ D1[A1/D1] MTIOC4C/ MTIOC3B/ PO18 TXD12/ SMOSI12/ SSDA12/ TXDX12/ SIOX12/SSLB2B MMC_D5-B LCD_DA TA15-B ANEX1 135 PE0 D8[A8/D8]/ D0[A0/D0] MTIOC3D SCK12/SSLB1-B MMC_D4-B LCD_DA TA16-B ANEX0 136 P64 WE#/D3[A3/ D3]/CS4# 137 P63 CAS#/ D2[A2/D2]/ CS3# 138 P62 RAS#/ D1[A1/D1]/ CS2# 139 P61 SDCS#/ D0[A0/D0]/ CS1# P60 CS0# PD7 D7[A7/D7] MTIC5U/ POE0# SSLC3-A QMI-B/QIO1-B/ SDHI_D1-B/ MMC_D1-B LCD_DA TA17-B IRQ7 AN107 PG1 D25 PD6 D6[A6/D6] MTIC5V/ MTIOC8A/ POE4# SSLC2-A QMO-B/QIO0-B/ SDHI_D0-B/ MMC_D0-B LCD_DA TA18-B IRQ6 AN106 PG0 D24 147 PD5 D5[A5/D5] MTIC5W/ MTIOC8C/ POE10# SSLC1-A QSPCLK-B/ SDHI_CLK-B/ MMC_CLK-B LCD_DA TA19-B IRQ5 AN113 148 PD4 D4[A4/D4] MTIOC8B/ POE11# SSLC0-A QSSL-B/ SDHI_CMD-B/ MMC_CMD-B LCD_DA TA20-B IRQ4 AN112 P97 D23/A23 PD3 D3[A3/D3] MTIOC8D/ TOC2/POE8# RSPCKC-A QIO3-B/SDHI_D3B/MMC_D3-B LCD_DA TA21-B IRQ3 AN111 P96 D22/A22 PD2 D2[A2/D2] MTIOC4D/TIC2 MISOC-A/CRX0 QIO2-B/SDHI_D2B/MMC_D2-B LCD_DA TA22-B IRQ2 AN110 P95 D21/A21 156 PD1 D1[A1/D1] MTIOC4B/ POE0# MOSIC-A/CTX0 LCD_DA TA23-B IRQ1 AN109 157 P94 D20/A20 158 PD0 D0[A0/D0] POE4# LCD_EX TCLK-B IRQ0 AN108 159 P93 D19/A19 POE0# 140 VSS 141 142 VCC 143 144 TRDATA7 145 146 149 TRDATA6 TRSYNC1 150 151 VSS 152 TRDATA5 153 VCC 154 155 TRDATA4 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 CTS7#/RTS7#/ SS7# AN117 Page 56 of 246 RX65N Group, RX651 Group Table 1.6 1. Overview List of Pin and Pin Functions (176-Pin LFQFP) (8/8) Pin Number Timer Communication Memory Interface Camera Interface I/O Port Bus EXDMAC SDRAMC (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) 160 P92 D18/A18 POE4# 161 P91 P90 176-Pin LFQFP 162 Power Supply Clock System Control Interrupt A/D D/A RXD7/SMISO7/ SSCL7 AN116 D17/A17 SCK7 AN115 D16/A16 TXD7/SMOSI7/ SSDA7 AN114 VSS 163 164 GLCDC VCC 165 P47 IRQ15DS AN007 166 P46 IRQ14DS AN006 167 P45 IRQ13DS AN005 168 P44 IRQ12DS AN004 169 P43 IRQ11DS AN003 170 P42 IRQ10DS AN002 171 P41 IRQ9-DS AN001 P40 IRQ8-DS AN000 P07 IRQ15 ADTRG0 # 172 VREFL0 173 174 VREFH0 175 AVCC0 176 Note 1. P53 is multiplexed with the BCLK pin function, so cannot be used as an I/O port pin when the external bus is enabled. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 57 of 246 RX65N Group, RX651 Group Table 1.7 1. Overview List of Pin and Pin Functions (145-Pin TFLGA) (1/7) Pin Number 145-Pin TFLGA A1 Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC Interrupt A/D D/A AVSS0 A2 P07 IRQ15 ADTRG0 # A3 P40 IRQ8-DS AN000 A4 P42 IRQ10DS AN002 A5 P45 IRQ13DS AN005 A6 P90 A16 A7 P92 A18 A8 PD2 A9 TXD7/SMOSI7/ SSDA7 AN114 POE4# RXD7/SMISO7/ SSCL7 AN116 D2[A2/D2] MTIOC4D/TIC2 MISOC-A/CRX0 QIO2-B/SDHI_D2B/MMC_D2-B LCD_DA TA22-B*1 IRQ2 AN110 PD6 D6[A6/D6] MTIC5V/ MTIOC8A/ POE4# SSLC2-A QMO-B/QIO0-B/ SDHI_D0-B/ MMC_D0-B LCD_DA TA18-B*1 IRQ6 AN106 A11 P62 RAS#/ D1[A1/D1]*1/ CS2# A12 PE1 D9[A9/D9]/ D1[A1/D1]*1 MTIOC4C/ MTIOC3B/ PO18 TXD12/ SMOSI12/ SSDA12/ TXDX12/ SIOX12/SSLB2B MMC_D5-B LCD_DA TA15-B*1 ANEX1 A13 PE3 D11[A11/ D11]/D3[A3/ D3]*1 MTIOC4B/ PO26/TOC3/ POE8# ET0_ERXD3/ CTS12#/ RTS12#/SS12# MMC_D7-B LCD_DA TA13-B*1 AN101 A10 VSS B1 AVCC1 B2 AVCC0 B3 P05 IRQ13 DA1 B5 P43 IRQ11DS AN003 B6 P47 IRQ15DS AN007 B7 P91 A17 B8 PD0 D0[A0/D0] POE4# B9 PD4 D4[A4/D4] MTIOC8B/ POE11# SSLC0-A B11 P61 SDCS#/ D0[A0/D0]*1/ CS1# B12 PE2 D10[A10/ D10]/D2[A2/ D2]*1 MTIOC4A/ PO23/TIC3 RXD12/ SMISO12/ SSCL12/ RXDX12/SSLB3B B4 B10 VREFL0 SCK7 AN115 LCD_EX TCLK-B *1 IRQ0 AN108 QSSL-B/ SDHI_CMD-B/ MMC_CMD-B LCD_DA TA20-B*1 IRQ4 AN112 MMC_D6-B LCD_DA TA14-B*1 IRQ7-DS AN100 VCC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 58 of 246 RX65N Group, RX651 Group Table 1.7 1. Overview List of Pin and Pin Functions (145-Pin TFLGA) (2/7) Pin Number 145-Pin TFLGA Power Supply Clock System Control B13 C1 PE4 Communication Memory Interface Camera Interface Bus EXDMAC SDRAMC (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) D12[A12/ D12]/D4[A4/ D4]*1 MTIOC4D/ MTIOC1A/ PO28 ET0_ERXD2/ SSLB0-B TMCI1 SCK6 GLCDC Interrupt LCD_DA TA12-B*1 A/D D/A AN102 AVSS1 C2 C3 I/O Port Timer P02 IRQ10 AN120 VREFH0 C4 P41 IRQ9-DS AN001 C5 P46 IRQ14DS AN006 LCD_DA TA23-B*1 IRQ1 AN109 C6 VSS C7 PD1 D1[A1/D1] MTIOC4B/ POE0# MOSIC-A/CTX0 C8 PD3 D3[A3/D3] MTIOC8D/ TOC2/POE8# RSPCKC-A QIO3-B/SDHI_D3B/MMC_D3-B LCD_DA TA21-B*1 IRQ3 AN111 C9 PD7 D7[A7/D7] MTIC5U/ POE0# SSLC3-A QMI-B/QIO1-B/ SDHI_D1-B/ MMC_D1-B LCD_DA TA17-B*1 IRQ7 AN107 C10 P63 CAS#/ D2[A2/D2]*1/ CS3# C11 PE0 D8[A8/D8]/ D0[A0/D0]*1 MTIOC3D SCK12/SSLB1-B MMC_D4-B LCD_DA TA16-B*1 P70 SDCLK TMRI0 TXD6/SMOSI6/ SSDA6 C12 C13 ANEX0 VSS D1 P00 D2 PF5 IRQ4 D3 P03 IRQ11 DA0 D4 P01 IRQ9 AN119 D5 TMCI0 RXD6/SMISO6/ SSCL6 IRQ8 AN118 VCC D6 P93 A19 POE0# CTS7#/RTS7#/ SS7# D7 PD5 D5[A5/D5] MTIC5W/ MTIOC8C/ POE10# SSLC1-A QSPCLK-B/ SDHI_CLK-B/ MMC_CLK-B LCD_DA TA19-B*1 IRQ5 AN113 D8 P60 CS0# D9 P64 WE#/D3[A3/ D3]*1/CS4# D10 PE7 D15[A15/ D15]/D7[A7/ D7]*1 MTIOC6A/ TOC1 MISOB-B SDHI_WP/ MMC_RES#-B LCD_DA TA9-B*1 IRQ7 AN105 D12 PE5 D13[A13/ D13]/D5[A5/ D5]*1 MTIOC4C/ MTIOC2B ET0_RX_CLK/ REF50CK0/ RSPCKB-B LCD_DA TA11-B*1 IRQ5 AN103 D13 PE6 D14[A14/ D14]/D6[A6/ D6]*1 MTIOC6C/TIC1 MOSIB-B LCD_DA TA10-B*1 IRQ6 AN104 POE8# CTS2#/RTS2#/ SS2# D11 VCC E1 VSS E2 VCL E3 AN117 PJ5 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 SDHI_CD/ MMC_CD-B Page 59 of 246 RX65N Group, RX651 Group Table 1.7 1. Overview List of Pin and Pin Functions (145-Pin TFLGA) (3/7) Pin Number 145-Pin TFLGA E4 Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC Interrupt EMLE E5 P44 E10 PA0 BC0#/A0 MTIOC4A/ MTIOC6D/ TIOCA0/PO16/ CACREF E11 P66 DQM0/CS6# MTIOC7D E12 P65 CKE/CS5# E13 P67 DQM1/CS7# MTIOC7C PJ3 EDACK1 MTIOC3C ET0_EXOUT/ CTS6#/RTS6#/ SS6#/CTS0#/ RTS0#/SS0# PA3 A3 MTIOC0D/ MTCLKD/ TIOCD0/ TCLKB/PO19 ET0_MDIO/ RXD5/SMISO5/ SSCL5 LCD_DA TA5-B*1 IRQ6-DS F12 PA1 A1 MTIOC0B/ MTCLKC/ MTIOC7B/ TIOCB0/PO17 ET0_WOL/ SCK5/SSLA2-B LCD_DA TA7-B*1 IRQ11 F13 PA2 A2 MTIOC7A/ PO18 RXD5/SMISO5/ SSCL5/SSLA3-B LCD_DA TA6-B*1 F1 XCIN F2 XCOUT F3 F4 IRQ12DS ET0_TX_EN/ RMII0_TXD_EN/ SSLA1-B LCD_DA TA8-B*1 IRQ15 VSS G1 XTAL G2 RES# G3 MD/FINED G4 BSCANP P37 G10 PA5 A5 MTIOC6B/ TIOCB1/PO21 ET0_LINKSTA/ RSPCKA-B LCD_DA TA3-B*1 G11 PA6 A6 MTIC5V/ MTCLKB/ TIOCA2/ TMCI3/PO22/ POE10# ET0_EXOUT/ CTS5#/RTS5#/ SS5#/MOSIA-B LCD_DA TA2-B*1 PA4 A4 MTIC5U/ MTCLKA/ TIOCA1/ TMRI0/PO20 ET0_MDC/TXD5/ SMOSI5/SSDA5/ SSLA0-B LCD_DA TA4-B*1 G12 AN004 VBATT F10 F11 A/D D/A VCC G13 H1 EXTAL H2 VCC H3 VSS H4 UPSEL IRQ5-DS P36 P35 NMI H10 P72 A19/CS2# ET0_MDC H11 P71 A18/CS1# ET0_MDIO R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 60 of 246 RX65N Group, RX651 Group Table 1.7 1. Overview List of Pin and Pin Functions (145-Pin TFLGA) (4/7) Pin Number Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) I/O Port Bus EXDMAC SDRAMC H12 PB0 A8 MTIC5W/ TIOCA3/PO24 H13 PA7 A7 145-Pin TFLGA J1 Power Supply Clock System Control Timer TRST# P34 Interrupt ET0_ERXD1/ RMII0_RXD1/ RXD4/SMISO4/ SSCL4/RXD6/ SMISO6/SSCL6 LCD_DA TA0-B*1 IRQ12 TIOCB2/PO23 ET0_WOL/ MISOA-B LCD_DA TA1-B*1 MTIOC0A/ TMCI3/PO12/ POE10# ET0_LINKSTA/ SCK6/SCK0 MTIOC0D/ TIOCD0/ TMRI3/PO11/ POE4#/ POE11# RXD6/SMISO6/ SSCL6/RXD0/ SMISO0/SSCL0/ CRX0 PCKO IRQ3-DS VSYNC IRQ2-DS J2 P33 J3 P32 MTIOC0C/ TIOCC0/ TMO3/PO10/ RTCIC2/ RTCOUT/ POE0#/ POE10# TXD6/SMOSI6/ SSDA6/TXD0/ SMOSI0/SSDA0/ CTX0/ USB0_VBUSEN P30 MTIOC4B/ TMRI3/PO8/ RTCIC0/ POE8# RXD1/SMISO1/ SSCL1/MISOB-A J4 TDI EDREQ1 GLCDC IRQ4 IRQ0-DS J10 PB3 A11 MTIOC0A/ MTIOC4A/ TIOCD3/ TCLKD/TMO0/ PO27/POE11# ET0_RX_ER/ RMII0_RX_ER/ SCK4/SCK6 SDSI_D3-B LCD_TC ON1-B*1 J11 PB4 A12 TIOCA4/PO28 ET0_TX_EN/ RMII0_TXD_EN/ CTS9#/RTS9#/ SS9#/SS11#/ CTS11#/RTS11# SDSI_CMD-B LCD_TC ON0-B*1 J12 PB2 A10 TIOCC3/ TCLKC/PO26 ET0_RX_CLK/ REF50CK0/ CTS4#/RTS4#/ SS4#/CTS6#/ RTS6#/SS6# SDSI_D2-B LCD_TC ON2-B*1 J13 PB1 A9 MTIOC0C/ MTIOC4C/ TIOCB3/ TMCI0/PO25 ET0_ERXD0/ RMII0_RXD0/ TXD4/SMOSI4/ SSDA4/TXD6/ SMOSI6/SSDA6 K1 TCK P27 CS7# MTIOC2B/ TMCI3/PO7 SCK1/RSPCKBA K2 TDO P26 CS6# MTIOC2A/ TMO1/PO6 TXD1/SMOSI1/ SSDA1/CTS3#/ RTS3#/SS3#/ MOSIB-A K3 TMS P31 MTIOC4D/ TMCI2/PO9/ RTCIC1 CTS1#/RTS1#/ SS1#/SSLB0-A P15 MTIOC0B/ MTCLKB/ TIOCB2/ TCLKB/TMCI2/ PO13 RXD1/SMISO1/ SSCL1/SCK3/ CRX1-DS MTIOC4B/ TMCI1 ET0_LINKSTA/ CTS2#/RTS2#/ SS2#/CTX1 K4 K5 K6 TRDATA2 P54 ALE/ D1[A1/D1]*1/ EDACK0 P53*2 BCLK R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 A/D D/A LCD_TC ON3-B*1 IRQ4-DS IRQ1-DS PIXD0 IRQ5 Page 61 of 246 RX65N Group, RX651 Group Table 1.7 1. Overview List of Pin and Pin Functions (145-Pin TFLGA) (5/7) Pin Number 145-Pin TFLGA Power Supply Clock System Control K7 I/O Port Bus EXDMAC SDRAMC P51 WR1#/ BC1#/ WAIT# Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) VCC K9 TRDATA0 P80 EDREQ0 MTIOC3B/ PO26 ET0_TX_EN/ RMII0_TXD_EN/ SCK10/RTS10# QIO2-A/SDHI_WP/ MMC_D2-A K10 TRDATA6 P76 CS6# PO22 ET0_RX_CLK/ REF50CK0/ SMISO11/ SSCL11/RXD11 QSSL-A/ SDHI_CMD-A/ SDSI_CMD-A/ MMC_CMD-A K11 PB7 A15 MTIOC3B/ TIOCB5/PO31 ET0_CRS/ RMII0_CRS_DV/ TXD9/SMOSI9/ SSDA9/ SMOSI11/ SSDA11/TXD11 SDSI_D1-B K12 PB6 A14 MTIOC3D/ TIOCA5/PO30 ET0_ETXD1/ RMII0_TXD1/ RXD9/SMISO9/ SSCL9/ SMISO11/ SSCL11/RXD11 SDSI_D0-B K13 PB5 A13 MTIOC2A/ MTIOC1B/ TIOCB4/ TMRI1/PO29/ POE4# ET0_ETXD0/ RMII0_TXD0/ SCK9/SCK11 SDSI_CLK-B L1 P25 CS5#/ EDACK1 MTIOC4C/ MTCLKB/ TIOCA4/PO5 RXD3/SMISO3/ SSCL3 SDHI_CD*1/ HSYNC L2 P23 EDACK0 MTIOC3D/ MTCLKD/ TIOCD3/PO3 TXD3/SMOSI3/ SSDA3/CTS0#/ RTS0#/SS0# SDHI_D1-C*1/ PIXD7 L3 P16 MTIOC3C/ MTIOC3D/ TIOCB1/ TCLKC/TMO2/ PO14/RTCOUT TXD1/SMOSI1/ SSDA1/RXD3/ SMISO3/SSCL3/ SCL2-DS/ USB0_VBUSEN/ USB0_VBUS/ USB0_OVRCUR B L4 P24 MTIOC4A/ MTCLKA/ TIOCB4/ TMRI1/PO4 SCK3/ USB0_VBUSEN L5 P13 MTIOC0B/ TIOCA5/TMO3/ PO13 TXD2/SMOSI2/ SSDA2/ SDA0[FM+] L6 P56 EDACK1 MTIOC3C/ TIOCA1 SCK7*1 L7 P52 RD# P83 EDACK1 MTIOC4C ET0_CRS/ RMII0_CRS_DV/ SCK10/SS10#/ CTS10# L9 PC5 D3[A3/D3]*1/ A21/CS2#/ WAIT# MTIOC3B/ MTCLKD/ TMRI2/PO29 ET0_ETXD2/ SCK8/SCK10/ RSPCKA-A MMC_D5-A L10 PC4 A20/CS3# MTIOC3D/ MTCLKC/ TMCI1/PO25/ POE0# ET0_TX_CLK/ SCK5/CTS8#/ RTS8#/SS8#/ SS10#/CTS10#/ RTS10#/SSLA0A QMI-A/QIO1-A/ SDHI_D1-A/ SDSI_D1-A/ MMC_D1-A L8 TRCLK R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Interrupt A/D D/A SCK2/SSLB2-A K8 CS4#/ EDREQ1 GLCDC LCD_CL K-B*1 ADTRG0 # IRQ6 ADTRG0 # IRQ3 ADTRG1 # SDHI_WP*1/ PIXCLK RXD2/SMISO2/ SSCL2/SSLB3-A Page 62 of 246 RX65N Group, RX651 Group Table 1.7 1. Overview List of Pin and Pin Functions (145-Pin TFLGA) (6/7) Pin Number Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) SDHI_D3-A/ SDSI_D3-A/ MMC_CD-A I/O Port Bus EXDMAC SDRAMC PC2 A18 MTIOC4B/ TCLKA/PO21 ET0_RX_DV/ RXD5/SMISO5/ SSCL5/SSLA3-A P73 CS3# PO16 ET0_WOL M1 P22 EDREQ0 MTIOC3B/ MTCLKC/ TIOCC3/ TMO0/PO2 SCK0/ USB0_OVRCUR B SDHI_D0-C*1/ PIXD6 M2 P17 MTIOC3A/ MTIOC3B/ MTIOC4B/ TIOCB0/ TCLKD/TMO1/ PO15/POE8# SCK1/TXD3/ SMOSI3/SSDA3/ SDA2-DS SDHI_D3-C*1/ PIXD3 M3 P86 MTIOC4D/ TIOCA0 SMISO10/ SSCL10/RXD10 PIXD1 M4 P12 TMCI1 RXD2/SMISO2/ SSCL2/ SCL0[FM+] 145-Pin TFLGA Power Supply Clock System Control Timer L11 L12 TRDATA4 L13 VSS M5 VCC_USB M6 VSS_USB GLCDC Interrupt IRQ7 ADTRG1 # IRQ2 M7 P50 WR0#/WR# M8 PC6 D2[A2/D2]*1/ A22/CS1# MTIOC3C/ MTCLKA/ TMCI2/PO30/ TIC0 ET0_ETXD3/ RXD8/SMISO8/ SSCL8/ SMISO10/ SSCL10/RXD10/ MOSIA-A MMC_D6-A TXD2/SMOSI2/ SSDA2/SSLB1-A IRQ13 M9 TRDATA1 P81 EDACK0 MTIOC3D/ PO27 ET0_ETXD0/ RMII0_TXD0/ SMISO10/ SSCL10/RXD10 QIO3-A/SDHI_CD/ MMC_D3-A M10 TRDATA7 P77 CS7# PO23 ET0_RX_ER/ RMII0_RX_ER/ SMOSI11/ SSDA11/TXD11 QSPCLK-A/ SDHI_CLK-A/ SDSI_CLK-A/ MMC_CLK-A M11 PC0 A16 MTIOC3C/ TCLKC/PO17 ET0_ERXD3/ CTS5#/RTS5#/ SS5#/SSLA1-A IRQ14 M12 PC1 A17 MTIOC3A/ TCLKD/PO18 ET0_ERXD2/ SCK5/SSLA2-A IRQ12 M13 A/D D/A VCC N1 P21 MTIOC1B/ MTIOC4A/ TIOCA3/ TMCI0/PO1 RXD0/SMISO0/ SSCL0/SCL1*1/ USB0_EXICEN SDHI_CLK-C*1/ PIXD5 IRQ9 N2 P20 MTIOC1A/ TIOCB3/ TMRI0/PO0 TXD0/SMOSI0/ SSDA0/SDA1*1/ USB0_ID SDHI_CMD-C*1/ PIXD4 IRQ8 N3 P87 MTIOC4C/ TIOCA2 SMOSI10/ SSDA10/TXD10 SDHI_D2-C*1/ PIXD2 N4 P14 MTIOC3A/ MTCLKA/ TIOCB5/ TCLKA/TMRI2/ PO15 CTS1#/RTS1#/ SS1#/CTX1/ USB0_OVRCUR A N5 USB0_DM N6 USB0_DP R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 IRQ4 Page 63 of 246 RX65N Group, RX651 Group Table 1.7 1. Overview List of Pin and Pin Functions (145-Pin TFLGA) (7/7) Pin Number Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) Power Supply Clock System Control I/O Port N7 TRDATA3 P55 D0[A0/D0]*1/ WAIT#/ EDREQ0 MTIOC4D/ TMO3 ET0_EXOUT/ TXD7*1/ SMOSI7*1/ SSDA7*1/CRX1 N8 VSS N9 UB PC7 A23/CS0# MTIOC3A/ MTCLKB/ TMO2/PO31/ TOC0/ CACREF ET0_COL/TXD8/ SMOSI8/SSDA8/ SMOSI10/ SSDA10/TXD10/ MISOA-A MMC_D7-A N10 TRSYNC P82 EDREQ1 MTIOC4A/ PO28 ET0_ETXD1/ RMII0_TXD1/ SMOSI10/ SSDA10/TXD10 MMC_D4-A PC3 A19 MTIOC4D/ TCLKB/PO24 ET0_TX_ER/ TXD5/SMOSI5/ SSDA5 QMO-A/QIO0-A/ SDHI_D0-A/ SDSI_D0-A/ MMC_D0-A SDHI_D2-A/ SDSI_D2-A/ MMC_RES#-A 145-Pin TFLGA N11 Bus EXDMAC SDRAMC Timer N12 TRSYNC1 P75 CS5# PO20 ET0_ERXD0/ RMII0_RXD0/ SCK11/RTS11# N13 TRDATA5 P74 A20/CS4# PO19 ET0_ERXD1/ RMII0_RXD1/ SS11#/CTS11# GLCDC Interrupt A/D D/A IRQ10 IRQ14 Note 1. These pins are only enabled for products with 2 or 1.5 Mbytes of code flash memory. Note 2. P53 is multiplexed with the BCLK pin function, so cannot be used as an I/O port pin when the external bus is enabled. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 64 of 246 RX65N Group, RX651 Group Table 1.8 1. Overview List of Pin and Pin Functions (144-Pin LFQFP) (1/7) Pin Number 144-Pin LFQFP 1 Power Supply Clock System Control Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) Interrupt A/D D/A P05 IRQ13 DA1 P03 IRQ11 DA0 I/O Port GLCDC AVCC1 4 5 Communication AVSS0 2 3 Bus EXDMAC SDRAMC Timer AVSS1 6 P02 TMCI1 SCK6 IRQ10 AN120 7 P01 TMCI0 RXD6/SMISO6/ SSCL6 IRQ9 AN119 8 P00 TMRI0 TXD6/SMOSI6/ SSDA6 IRQ8 AN118 9 10 PF5 11 12 IRQ4 EMLE PJ5 POE8# CTS2#/RTS2#/ SS2# MTIOC3C ET0_EXOUT/ CTS6#/RTS6#/ SS6#/CTS0#/ RTS0#/SS0# VSS 13 PJ3 14 VCL 15 VBATT 16 MD/FINED 17 XCIN 18 XCOUT 19 RES# 20 XTAL 21 VSS EDACK1 P37 22 EXTAL 23 VCC P36 24 UPSEL P35 25 TRST# P34 NMI EDREQ1 MTIOC0A/ TMCI3/PO12/ POE10# ET0_LINKSTA/ SCK6/SCK0 MTIOC0D/ TIOCD0/ TMRI3/PO11/ POE4#/ POE11# RXD6/SMISO6/ SSCL6/RXD0/ SMISO0/SSCL0/ CRX0 PCKO IRQ3-DS VSYNC IRQ2-DS 26 P33 27 P32 MTIOC0C/ TIOCC0/ TMO3/PO10/ RTCIC2/ RTCOUT/ POE0#/ POE10# TXD6/SMOSI6/ SSDA6/TXD0/ SMOSI0/SSDA0/ CTX0/ USB0_VBUSEN IRQ4 28 TMS P31 MTIOC4D/ TMCI2/PO9/ RTCIC1 CTS1#/RTS1#/ SS1#/SSLB0-A IRQ1-DS 29 TDI P30 MTIOC4B/ TMRI3/PO8/ RTCIC0/ POE8# RXD1/SMISO1/ SSCL1/MISOB-A IRQ0-DS R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 65 of 246 RX65N Group, RX651 Group Table 1.8 1. Overview List of Pin and Pin Functions (144-Pin LFQFP) (2/7) Pin Number Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC 30 TCK P27 CS7# MTIOC2B/ TMCI3/PO7 SCK1/RSPCKBA 31 TDO P26 CS6# MTIOC2A/ TMO1/PO6 TXD1/SMOSI1/ SSDA1/CTS3#/ RTS3#/SS3#/ MOSIB-A 32 P25 CS5#/ EDACK1 MTIOC4C/ MTCLKB/ TIOCA4/PO5 RXD3/SMISO3/ SSCL3 SDHI_CD*1/ HSYNC 33 P24 CS4#/ EDREQ1 MTIOC4A/ MTCLKA/ TIOCB4/ TMRI1/PO4 SCK3/ USB0_VBUSEN SDHI_WP*1/ PIXCLK 34 P23 EDACK0 MTIOC3D/ MTCLKD/ TIOCD3/PO3 TXD3/SMOSI3/ SSDA3/CTS0#/ RTS0#/SS0# SDHI_D1-C*1/ PIXD7 35 P22 EDREQ0 MTIOC3B/ MTCLKC/ TIOCC3/ TMO0/PO2 SCK0/ USB0_OVRCUR B SDHI_D0-C*1/ PIXD6 36 P21 MTIOC1B/ MTIOC4A/ TIOCA3/ TMCI0/PO1 RXD0/SMISO0/ SSCL0/SCL1*1/ USB0_EXICEN SDHI_CLK-C*1/ PIXD5 IRQ9 37 P20 MTIOC1A/ TIOCB3/ TMRI0/PO0 TXD0/SMOSI0/ SSDA0/SDA1*1/ USB0_ID SDHI_CMD-C*1/ PIXD4 IRQ8 38 P17 MTIOC3A/ MTIOC3B/ MTIOC4B/ TIOCB0/ TCLKD/TMO1/ PO15/POE8# SCK1/TXD3/ SMOSI3/SSDA3/ SDA2-DS SDHI_D3-C*1/ PIXD3 IRQ7 ADTRG1 # 39 P87 MTIOC4C/ TIOCA2 SMOSI10/ SSDA10/TXD10 SDHI_D2-C*1/ PIXD2 40 P16 MTIOC3C/ MTIOC3D/ TIOCB1/ TCLKC/TMO2/ PO14/RTCOUT TXD1/SMOSI1/ SSDA1/RXD3/ SMISO3/SSCL3/ SCL2-DS/ USB0_VBUSEN/ USB0_VBUS/ USB0_OVRCUR B IRQ6 ADTRG0 # 41 P86 MTIOC4D/ TIOCA0 SMISO10/ SSCL10/RXD10 PIXD1 42 P15 MTIOC0B/ MTCLKB/ TIOCB2/ TCLKB/TMCI2/ PO13 RXD1/SMISO1/ SSCL1/SCK3/ CRX1-DS PIXD0 43 P14 MTIOC3A/ MTCLKA/ TIOCB5/ TCLKA/TMRI2/ PO15 CTS1#/RTS1#/ SS1#/CTX1/ USB0_OVRCUR A IRQ4 44 P13 MTIOC0B/ TIOCA5/TMO3/ PO13 TXD2/SMOSI2/ SSDA2/ SDA0[FM+] IRQ3 45 P12 TMCI1 RXD2/SMISO2/ SSCL2/ SCL0[FM+] IRQ2 144-Pin LFQFP 46 GLCDC Interrupt A/D D/A ADTRG0 # IRQ5 ADTRG1 # VCC_USB 47 USB0_DM 48 USB0_DP R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 66 of 246 RX65N Group, RX651 Group Table 1.8 1. Overview List of Pin and Pin Functions (144-Pin LFQFP) (3/7) Pin Number 144-Pin LFQFP 49 Power Supply Clock System Control Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) I/O Port Bus EXDMAC SDRAMC P56 EDACK1 MTIOC3C/ TIOCA1 SCK7*1 GLCDC Interrupt VSS_USB 50 51 TRDATA3 P55 D0[A0/D0]*1/ WAIT#/ EDREQ0 MTIOC4D/ TMO3 ET0_EXOUT/ TXD7*1/ SMOSI7*1/ SSDA7*1/CRX1 52 TRDATA2 P54 ALE/D1[A1/ D1]*1/ EDACK0 MTIOC4B/ TMCI1 ET0_LINKSTA/ CTS2#/RTS2#/ SS2#/CTX1 53 P53*2 BCLK 54 P52 RD# RXD2/SMISO2/ SSCL2/SSLB3-A 55 P51 WR1#/ BC1#/ WAIT# SCK2/SSLB2-A 56 P50 WR0#/WR# TXD2/SMOSI2/ SSDA2/SSLB1-A P83 EDACK1 MTIOC4C ET0_CRS/ RMII0_CRS_DV/ SCK10/SS10#/ CTS10# PC7 A23/CS0# MTIOC3A/ MTCLKB/ TMO2/PO31/ TOC0/ CACREF ET0_COL/TXD8/ SMOSI8/SSDA8/ SMOSI10/ SSDA10/TXD10/ MISOA-A MMC_D7-A IRQ14 61 PC6 D2[A2/D2]*1/ A22/CS1# MTIOC3C/ MTCLKA/ TMCI2/PO30/ TIC0 ET0_ETXD3/ RXD8/SMISO8/ SSCL8/ SMISO10/ SSCL10/RXD10/ MOSIA-A MMC_D6-A IRQ13 62 PC5 D3[A3/D3]*1/ A21/CS2#/ WAIT# MTIOC3B/ MTCLKD/ TMRI2/PO29 ET0_ETXD2/ SCK8/SCK10/ RSPCKA-A MMC_D5-A 57 VSS 58 TRCLK 59 VCC 60 UB IRQ10 63 TRSYNC P82 EDREQ1 MTIOC4A/ PO28 ET0_ETXD1/ RMII0_TXD1/ SMOSI10/ SSDA10/TXD10 MMC_D4-A 64 TRDATA1 P81 EDACK0 MTIOC3D/ PO27 ET0_ETXD0/ RMII0_TXD0/ SMISO10/ SSCL10/RXD10 QIO3-A/SDHI_CD/ MMC_D3-A 65 TRDATA0 P80 EDREQ0 MTIOC3B/ PO26 ET0_TX_EN/ RMII0_TXD_EN/ SCK10/RTS10# QIO2-A/SDHI_WP/ MMC_D2-A 66 PC4 A20/CS3# MTIOC3D/ MTCLKC/ TMCI1/PO25/ POE0# ET0_TX_CLK/ SCK5/CTS8#/ RTS8#/SS8#/ SS10#/CTS10#/ RTS10#/SSLA0A QMI-A/QIO1-A/ SDHI_D1-A/ SDSI_D1-A/ MMC_D1-A 67 PC3 A19 MTIOC4D/ TCLKB/PO24 ET0_TX_ER/ TXD5/SMOSI5/ SSDA5 QMO-A/QIO0-A/ SDHI_D0-A/ SDSI_D0-A/ MMC_D0-A P77 CS7# PO23 ET0_RX_ER/ RMII0_RX_ER/ SMOSI11/ SSDA11/TXD11 QSPCLK-A/ SDHI_CLK-A/ SDSI_CLK-A/ MMC_CLK-A 68 A/D D/A TRDATA7 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 67 of 246 RX65N Group, RX651 Group Table 1.8 1. Overview List of Pin and Pin Functions (144-Pin LFQFP) (4/7) Pin Number 144-Pin LFQFP 69 Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC TRDATA6 P76 CS6# PO22 ET0_RX_CLK/ REF50CK0/ SMISO11/ SSCL11/RXD11 QSSL-A/ SDHI_CMD-A/ SDSI_CMD-A/ MMC_CMD-A PC2 A18 MTIOC4B/ TCLKA/PO21 ET0_RX_DV/ RXD5/SMISO5/ SSCL5/SSLA3-A SDHI_D3-A/ SDSI_D3-A/ MMC_CD-A SDHI_D2-A/ SDSI_D2-A/ MMC_RES#-A 70 GLCDC Interrupt 71 TRSYNC1 P75 CS5# PO20 ET0_ERXD0/ RMII0_RXD0/ SCK11/RTS11# 72 TRDATA5 P74 A20/CS4# PO19 ET0_ERXD1/ RMII0_RXD1/ SS11#/CTS11# PC1 A17 MTIOC3A/ TCLKD/PO18 ET0_ERXD2/ SCK5/SSLA2-A IRQ12 PC0 A16 MTIOC3C/ TCLKC/PO17 ET0_ERXD3/ CTS5#/RTS5#/ SS5#/SSLA1-A IRQ14 P73 CS3# PO16 ET0_WOL 78 PB7 A15 MTIOC3B/ TIOCB5/PO31 ET0_CRS/ RMII0_CRS_DV/ TXD9/SMOSI9/ SSDA9/ SMOSI11/ SSDA11/TXD11 SDSI_D1-B 79 PB6 A14 MTIOC3D/ TIOCA5/PO30 ET0_ETXD1/ RMII0_TXD1/ RXD9/SMISO9/ SSCL9/ SMISO11/ SSCL11/RXD11 SDSI_D0-B 80 PB5 A13 MTIOC2A/ MTIOC1B/ TIOCB4/ TMRI1/PO29/ POE4# ET0_ETXD0/ RMII0_TXD0/ SCK9/SCK11 SDSI_CLK-B LCD_CL K-B*1 81 PB4 A12 TIOCA4/PO28 ET0_TX_EN/ RMII0_TXD_EN/ CTS9#/RTS9#/ SS9#/SS11#/ CTS11#/RTS11# SDSI_CMD-B LCD_TC ON0-B*1 82 PB3 A11 MTIOC0A/ MTIOC4A/ TIOCD3/ TCLKD/TMO0/ PO27/POE11# ET0_RX_ER/ RMII0_RX_ER/ SCK4/SCK6 SDSI_D3-B LCD_TC ON1-B*1 83 PB2 A10 TIOCC3/ TCLKC/PO26 ET0_RX_CLK/ REF50CK0/ CTS4#/RTS4#/ SS4#/CTS6#/ RTS6#/SS6# SDSI_D2-B LCD_TC ON2-B*1 84 PB1 A9 MTIOC0C/ MTIOC4C/ TIOCB3/ TMCI0/PO25 ET0_ERXD0/ RMII0_RXD0/ TXD4/SMOSI4/ SSDA4/TXD6/ SMOSI6/SSDA6 85 P72 A19/CS2# ET0_MDC 86 P71 A18/CS1# ET0_MDIO 73 74 A/D D/A VCC 75 76 VSS 77 TRDATA4 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 LCD_TC ON3-B*1 IRQ4-DS Page 68 of 246 RX65N Group, RX651 Group Table 1.8 1. Overview List of Pin and Pin Functions (144-Pin LFQFP) (5/7) Pin Number Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) I/O Port Bus EXDMAC SDRAMC 87 PB0 A8 MTIC5W/ TIOCA3/PO24 88 PA7 A7 89 PA6 90 144-Pin LFQFP Power Supply Clock System Control Timer A/D D/A GLCDC Interrupt ET0_ERXD1/ RMII0_RXD1/ RXD4/SMISO4/ SSCL4/RXD6/ SMISO6/SSCL6 LCD_DA TA0-B*1 IRQ12 TIOCB2/PO23 ET0_WOL/ MISOA-B LCD_DA TA1-B*1 A6 MTIC5V/ MTCLKB/ TIOCA2/ TMCI3/PO22/ POE10# ET0_EXOUT/ CTS5#/RTS5#/ SS5#/MOSIA-B LCD_DA TA2-B*1 PA5 A5 MTIOC6B/ TIOCB1/PO21 ET0_LINKSTA/ RSPCKA-B LCD_DA TA3-B*1 PA4 A4 MTIC5U/ MTCLKA/ TIOCA1/ TMRI0/PO20 ET0_MDC/TXD5/ SMOSI5/SSDA5/ SSLA0-B LCD_DA TA4-B*1 IRQ5-DS 94 PA3 A3 MTIOC0D/ MTCLKD/ TIOCD0/ TCLKB/PO19 ET0_MDIO/ RXD5/SMISO5/ SSCL5 LCD_DA TA5-B*1 IRQ6-DS 95 PA2 A2 MTIOC7A/ PO18 RXD5/SMISO5/ SSCL5/SSLA3-B LCD_DA TA6-B*1 96 PA1 A1 MTIOC0B/ MTCLKC/ MTIOC7B/ TIOCB0/PO17 ET0_WOL/ SCK5/SSLA2-B LCD_DA TA7-B*1 97 PA0 BC0#/A0 MTIOC4A/ MTIOC6D/ TIOCA0/PO16/ CACREF ET0_TX_EN/ RMII0_TXD_EN/ SSLA1-B LCD_DA TA8-B*1 98 P67 DQM1/CS7# MTIOC7C 99 P66 DQM0/CS6# MTIOC7D 100 P65 CKE/CS5# 101 PE7 D15[A15/ D15]/D7[A7/ D7]*1 MTIOC6A/ TOC1 MISOB-B SDHI_WP/ MMC_RES#-B LCD_DA TA9-B*1 IRQ7 AN105 102 PE6 D14[A14/ D14]/D6[A6/ D6]*1 MTIOC6C/TIC1 MOSIB-B SDHI_CD/ MMC_CD-B LCD_DA TA10-B*1 IRQ6 AN104 P70 SDCLK 106 PE5 D13[A13/ D13]/D5[A5/ D5]*1 MTIOC4C/ MTIOC2B ET0_RX_CLK/ REF50CK0/ RSPCKB-B LCD_DA TA11-B*1 IRQ5 AN103 107 PE4 D12[A12/ D12]/D4[A4/ D4]*1 MTIOC4D/ MTIOC1A/ PO28 ET0_ERXD2/ SSLB0-B LCD_DA TA12-B*1 AN102 108 PE3 D11[A11/ D11]/D3[A3/ D3]*1 MTIOC4B/ PO26/TOC3/ POE8# ET0_ERXD3/ CTS12#/ RTS12#/SS12# MMC_D7-B LCD_DA TA13-B*1 AN101 109 PE2 D10[A10/ D10]/D2[A2/ D2]*1 MTIOC4A/ PO23/TIC3 RXD12/ SMISO12/ SSCL12/ RXDX12/SSLB3B MMC_D6-B LCD_DA TA14-B*1 91 VCC 92 93 103 VSS IRQ15 VCC 104 105 IRQ11 VSS R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 IRQ7-DS AN100 Page 69 of 246 RX65N Group, RX651 Group Table 1.8 1. Overview List of Pin and Pin Functions (144-Pin LFQFP) (6/7) Pin Number 144-Pin LFQFP Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC Interrupt A/D D/A 110 PE1 D9[A9/D9]/ D1[A1/D1]*1 MTIOC4C/ MTIOC3B/ PO18 TXD12/ SMOSI12/ SSDA12/ TXDX12/ SIOX12/SSLB2B MMC_D5-B LCD_DA TA15-B*1 ANEX1 111 PE0 D8[A8/D8]/ D0[A0/D0]*1 MTIOC3D SCK12/SSLB1-B MMC_D4-B LCD_DA TA16-B*1 ANEX0 112 P64 WE#/D3[A3/ D3]*1/CS4# 113 P63 CAS#/ D2[A2/D2]*1/ CS3# 114 P62 RAS#/ D1[A1/D1]*1/ CS2# 115 P61 SDCS#/ D0[A0/D0]*1/ CS1# P60 CS0# 119 PD7 D7[A7/D7] MTIC5U/ POE0# SSLC3-A QMI-B/QIO1-B/ SDHI_D1-B/ MMC_D1-B LCD_DA TA17-B*1 IRQ7 AN107 120 PD6 D6[A6/D6] MTIC5V/ MTIOC8A/ POE4# SSLC2-A QMO-B/QIO0-B/ SDHI_D0-B/ MMC_D0-B LCD_DA TA18-B*1 IRQ6 AN106 121 PD5 D5[A5/D5] MTIC5W/ MTIOC8C/ POE10# SSLC1-A QSPCLK-B/ SDHI_CLK-B/ MMC_CLK-B LCD_DA TA19-B*1 IRQ5 AN113 122 PD4 D4[A4/D4] MTIOC8B/ POE11# SSLC0-A QSSL-B/ SDHI_CMD-B/ MMC_CMD-B LCD_DA TA20-B*1 IRQ4 AN112 123 PD3 D3[A3/D3] MTIOC8D/ TOC2/POE8# RSPCKC-A QIO3-B/SDHI_D3B/MMC_D3-B LCD_DA TA21-B*1 IRQ3 AN111 124 PD2 D2[A2/D2] MTIOC4D/TIC2 MISOC-A/CRX0 QIO2-B/SDHI_D2B/MMC_D2-B LCD_DA TA22-B*1 IRQ2 AN110 125 PD1 D1[A1/D1] MTIOC4B/ POE0# MOSIC-A/CTX0 LCD_DA TA23-B*1 IRQ1 AN109 126 PD0 D0[A0/D0] POE4# LCD_EX TCLK-B *1 IRQ0 AN108 127 P93 A19 POE0# CTS7#/RTS7#/ SS7# AN117 128 P92 A18 POE4# RXD7/SMISO7/ SSCL7 AN116 P91 A17 SCK7 AN115 P90 A16 TXD7/SMOSI7/ SSDA7 AN114 116 VSS 117 118 VCC 129 130 VSS 131 132 VCC 133 P47 IRQ15DS AN007 134 P46 IRQ14DS AN006 135 P45 IRQ13DS AN005 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 70 of 246 RX65N Group, RX651 Group Table 1.8 1. Overview List of Pin and Pin Functions (144-Pin LFQFP) (7/7) Pin Number 144-Pin LFQFP Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF, PDC) GLCDC Interrupt A/D D/A 136 P44 IRQ12DS AN004 137 P43 IRQ11DS AN003 138 P42 IRQ10DS AN002 139 P41 IRQ9-DS AN001 P40 IRQ8-DS AN000 P07 IRQ15 ADTRG0 # 140 VREFL0 141 142 VREFH0 143 AVCC0 144 Note 1. These pins are only enabled for products with 2 or 1.5 Mbytes of code flash memory. Note 2. P53 is multiplexed with the BCLK pin function, so cannot be used as an I/O port pin when the external bus is enabled. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 71 of 246 RX65N Group, RX651 Group Table 1.9 1. Overview List of Pin and Pin Functions (100-Pin TFLGA) (1/5) Pin Number 100-Pin TFLGA Power Supply Clock System Control Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF) Interrupt A/D D/A P05 IRQ13 DA1 P07 IRQ15 ADTRG0 # A5 P43 IRQ11DS AN003 A6 PD0 D0[A0/D0] POE4# LCD_EX TCLK-B *1 IRQ0 AN108 A7 PD4 D4[A4/D4] MTIOC8B/ POE11# SSLC0-A QSSL-B/ SDHI_CMD-B/ MMC_CMD-B LCD_DA TA20-B*1 IRQ4 AN112 A8 PE0 D8[A8/D8]/ D0[A0/D0]*1 MTIOC3D SCK12/SSLB1-B MMC_D4-B LCD_DA TA16-B*1 ANEX0 A9 PE1 D9[A9/D9]/ D1[A1/D1]*1 MTIOC4C/ MTIOC3B/ PO18 TXD12/ SMOSI12/ SSDA12/ TXDX12/ SIOX12/SSLB2B MMC_D5-B LCD_DA TA15-B*1 ANEX1 A10 PE2 D10[A10/ D10]/D2[A2/ D2]*1 MTIOC4A/ PO23/TIC3 RXD12/ SMISO12/ SSCL12/ RXDX12/SSLB3B MMC_D6-B LCD_DA TA14-B*1 A1 A2 GLCDC AVCC1 A3 A4 I/O Port VREFL0 B1 EMLE B2 AVSS0 B3 AVCC0 IRQ7-DS AN100 B4 P40 IRQ8-DS AN000 B5 P44 IRQ12DS AN004 B6 PD1 D1[A1/D1] MTIOC4B/ POE0# MOSIC-A/CTX0 LCD_DA TA23-B*1 IRQ1 AN109 B7 PD3 D3[A3/D3] MTIOC8D/ TOC2/POE8# RSPCKC-A QIO3-B/SDHI_D3B/MMC_D3-B LCD_DA TA21-B*1 IRQ3 AN111 B8 PD6 D6[A6/D6] MTIC5V/ MTIOC8A/ POE4# SSLC2-A QMO-B/QIO0-B/ SDHI_D0-B/ MMC_D0-B LCD_DA TA18-B*1 IRQ6 AN106 B9 PD7 D7[A7/D7] MTIC5U/ POE0# SSLC3-A QMI-B/QIO1-B/ SDHI_D1-B/ MMC_D1-B LCD_DA TA17-B*1 IRQ7 AN107 B10 PE3 D11[A11/ D11]/D3[A3/ D3]*1 MTIOC4B/ PO26/TOC3/ POE8# ET0_ERXD3/ CTS12#/ RTS12#/SS12# MMC_D7-B LCD_DA TA13-B*1 PJ3 EDACK1 MTIOC3C ET0_EXOUT/ CTS6#/RTS6#/ SS6#/CTS0#/ RTS0#/SS0# C1 VCL C2 AVSS1 C3 C4 AN101 VREFH0 C5 P42 IRQ10DS AN002 C6 P47 IRQ15DS AN007 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 72 of 246 RX65N Group, RX651 Group Table 1.9 1. Overview List of Pin and Pin Functions (100-Pin TFLGA) (2/5) Pin Number Timer Communication Memory Interface Camera Interface I/O Port Bus EXDMAC SDRAMC (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF) GLCDC Interrupt A/D D/A C7 PD2 D2[A2/D2] MTIOC4D/TIC2 MISOC-A/CRX0 QIO2-B/SDHI_D2B/MMC_D2-B LCD_DA TA22-B*1 IRQ2 AN110 C8 PD5 D5[A5/D5] MTIC5W/ MTIOC8C/ POE10# SSLC1-A QSPCLK-B/ SDHI_CLK-B/ MMC_CLK-B LCD_DA TA19-B*1 IRQ5 AN113 C9 PE5 D13[A13/ D13]/D5[A5/ D5]*1 MTIOC4C/ MTIOC2B ET0_RX_CLK/ REF50CK0/ RSPCKB-B LCD_DA TA11-B*1 IRQ5 AN103 C10 PE4 D12[A12/ D12]/D4[A4/ D4]*1 MTIOC4D/ MTIOC1A/ PO28 ET0_ERXD2/ SSLB0-B LCD_DA TA12-B*1 100-Pin TFLGA Power Supply Clock System Control D1 XCIN D2 XCOUT D3 MD/FINED D4 VBATT AN102 D5 P45 IRQ13DS AN005 D6 P46 IRQ14DS AN006 D7 PE6 D14[A14/ D14]/D6[A6/ D6]*1 MTIOC6C/TIC1 MOSIB-B SDHI_CD/ MMC_CD-B LCD_DA TA10-B*1 IRQ6 AN104 D8 PE7 D15[A15/ D15]/D7[A7/ D7]*1 MTIOC6A/ TOC1 MISOB-B SDHI_WP/ MMC_RES#-B LCD_DA TA9-B*1 IRQ7 AN105 D9 PA1 A1 MTIOC0B/ MTCLKC/ MTIOC7B/ TIOCB0/PO17 ET0_WOL/ SCK5/SSLA2-B LCD_DA TA7-B*1 IRQ11 D10 PA0 BC0#/A0 MTIOC4A/ MTIOC6D/ TIOCA0/PO16/ CACREF ET0_TX_EN/ RMII0_TXD_EN/ SSLA1-B LCD_DA TA8-B*1 MTIOC0A/ TMCI3/PO12/ POE10# ET0_LINKSTA/ SCK6/SCK0 E1 XTAL E2 VSS E3 RES# E4 TRST# P37 P34 IRQ4 E5 P41 E6 PA2 A2 MTIOC7A/ PO18 RXD5/SMISO5/ SSCL5/SSLA3-B LCD_DA TA6-B*1 E7 PA6 A6 MTIC5V/ MTCLKB/ TIOCA2/ TMCI3/PO22/ POE10# ET0_EXOUT/ CTS5#/RTS5#/ SS5#/MOSIA-B LCD_DA TA2-B*1 E8 PA4 A4 MTIC5U/ MTCLKA/ TIOCA1/ TMRI0/PO20 ET0_MDC/TXD5/ SMOSI5/SSDA5/ SSLA0-B LCD_DA TA4-B*1 E9 PA5 A5 MTIOC6B/ TIOCB1/PO21 ET0_LINKSTA/ RSPCKA-B LCD_DA TA3-B*1 E10 PA3 A3 MTIOC0D/ MTCLKD/ TIOCD0/ TCLKB/PO19 ET0_MDIO/ RXD5/SMISO5/ SSCL5 LCD_DA TA5-B*1 F1 EXTAL IRQ9-DS AN001 IRQ5-DS IRQ6-DS P36 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 73 of 246 RX65N Group, RX651 Group Table 1.9 1. Overview List of Pin and Pin Functions (100-Pin TFLGA) (3/5) Pin Number 100-Pin TFLGA Power Supply Clock System Control F2 VCC F3 UPSEL I/O Port Bus EXDMAC SDRAMC Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF) GLCDC P35 Interrupt NMI F4 P32 MTIOC0C/ TIOCC0/ TMO3/PO10/ RTCIC2/ RTCOUT/ POE0#/ POE10# TXD6/SMOSI6/ SSDA6/TXD0/ SMOSI0/SSDA0/ CTX0/ USB0_VBUSEN IRQ2-DS F5 P12 TMCI1 RXD2/SMISO2/ SSCL2/ SCL0[FM+] IRQ2 F6 PB3 A11 MTIOC0A/ MTIOC4A/ TIOCD3/ TCLKD/TMO0/ PO27/POE11# ET0_RX_ER/ RMII0_RX_ER/ SCK6 SDSI_D3-B LCD_TC ON1-B*1 F7 PB2 A10 TIOCC3/ TCLKC/PO26 ET0_RX_CLK/ REF50CK0/ CTS6#/RTS6#/ SS6# SDSI_D2-B LCD_TC ON2-B*1 F8 PB0 A8 MTIC5W/ TIOCA3/PO24 ET0_ERXD1/ RMII0_RXD1/ RXD6/SMISO6/ SSCL6 LCD_DA TA0-B*1 F9 PA7 A7 TIOCB2/PO23 ET0_WOL/ MISOA-B LCD_DA TA1-B*1 P33 EDREQ1 MTIOC0D/ TIOCD0/ TMRI3/PO11/ POE4#/ POE11# RXD6/SMISO6/ SSCL6/RXD0/ SMISO0/SSCL0/ CRX0 IRQ3-DS F10 IRQ12 VSS G1 G2 TMS P31 MTIOC4D/ TMCI2/PO9/ RTCIC1 CTS1#/RTS1#/ SS1#/SSLB0-A IRQ1-DS G3 TDI P30 MTIOC4B/ TMRI3/PO8/ RTCIC0/ POE8# RXD1/SMISO1/ SSCL1/MISOB-A IRQ0-DS G4 TCK P27 CS7# MTIOC2B/ TMCI3/PO7 SCK1/RSPCKBA G5 P53*2 BCLK G6 P52 RD# G7 PB5 A13 MTIOC2A/ MTIOC1B/ TIOCB4/ TMRI1/PO29/ POE4# ET0_ETXD0/ RMII0_TXD0/ SCK9/SCK11 SDSI_CLK-B LCD_CL K-B*1 G8 PB4 A12 TIOCA4/PO28 ET0_TX_EN/ RMII0_TXD_EN/ CTS9#/RTS9#/ SS9#/SS11#/ CTS11#/RTS11# SDSI_CMD-B LCD_TC ON0-B*1 G9 PB1 A9 MTIOC0C/ MTIOC4C/ TIOCB3/ TMCI0/PO25 ET0_ERXD0/ RMII0_RXD0/ TXD6/SMOSI6/ SSDA6 G10 A/D D/A RXD2/SMISO2/ SSCL2/SSLB3-A LCD_TC ON3-B*1 IRQ4-DS VCC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 74 of 246 RX65N Group, RX651 Group Table 1.9 1. Overview List of Pin and Pin Functions (100-Pin TFLGA) (4/5) Pin Number Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF) Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC TDO P26 CS6# MTIOC2A/ TMO1/PO6 TXD1/SMOSI1/ SSDA1/CTS3#/ RTS3#/SS3#/ MOSIB-A H2 P25 CS5#/ EDACK1 MTIOC4C/ MTCLKB/ TIOCA4/PO5 RXD3/SMISO3/ SSCL3 H3 P16 MTIOC3C/ MTIOC3D/ TIOCB1/ TCLKC/TMO2/ PO14/RTCOUT TXD1/SMOSI1/ SSDA1/RXD3/ SMISO3/SSCL3/ SCL2-DS/ USB0_VBUSEN/ USB0_VBUS/ USB0_OVRCUR B IRQ6 H4 P15 MTIOC0B/ MTCLKB/ TIOCB2/ TCLKB/TMCI2/ PO13 RXD1/SMISO1/ SSCL1/SCK3/ CRX1-DS IRQ5 H5 P55 D0[A0/D0]*1/ WAIT#/ EDREQ0 MTIOC4D/ TMO3 ET0_EXOUT/ CRX1 IRQ10 H6 P54 ALE/D1[A1/ D1]*1/ EDACK0 MTIOC4B/ TMCI1 ET0_LINKSTA/ CTS2#/RTS2#/ SS2#/CTX1 PC7 A23/CS0# MTIOC3A/ MTCLKB/ TMO2/PO31/ TOC0/ CACREF ET0_COL/TXD8/ SMOSI8/SSDA8/ SMOSI10/ SSDA10/TXD10/ MISOA-A IRQ14 H8 PC6 D2[A2/D2]*1/ A22/CS1# MTIOC3C/ MTCLKA/ TMCI2/PO30/ TIC0 ET0_ETXD3/ RXD8/SMISO8/ SSCL8/ SMISO10/ SSCL10/RXD10/ MOSIA-A IRQ13 H9 PB6 A14 MTIOC3D/ TIOCA5/PO30 ET0_ETXD1/ RMII0_TXD1/ RXD9/SMISO9/ SSCL9/ SMISO11/ SSCL11/RXD11 SDSI_D0-B H10 PB7 A15 MTIOC3B/ TIOCB5/PO31 ET0_CRS/ RMII0_CRS_DV/ TXD9/SMOSI9/ SSDA9/ SMOSI11/ SSDA11/TXD11 SDSI_D1-B J1 P24 CS4#/ EDREQ1 MTIOC4A/ MTCLKA/ TIOCB4/ TMRI1/PO4 SCK3/ USB0_VBUSEN J2 P21 MTIOC1B/ MTIOC4A/ TIOCA3/ TMCI0/PO1 RXD0/SMISO0/ SSCL0/SCL1*1/ USB0_EXICEN IRQ9 J3 P17 MTIOC3A/ MTIOC3B/ MTIOC4B/ TIOCB0/ TCLKD/TMO1/ PO15/POE8# SCK1/TXD3/ SMOSI3/SSDA3/ SDA2-DS IRQ7 ADTRG1 # J4 P13 MTIOC0B/ TIOCA5/TMO3/ PO13 TXD2/SMOSI2/ SSDA2/ SDA0[FM+] IRQ3 ADTRG1 # 100-Pin TFLGA H1 H7 J5 UB GLCDC Interrupt A/D D/A ADTRG0 # ADTRG0 # VSS_USB R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 75 of 246 RX65N Group, RX651 Group Table 1.9 1. Overview List of Pin and Pin Functions (100-Pin TFLGA) (5/5) Pin Number Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF) I/O Port Bus EXDMAC SDRAMC J7 P50 WR0#/WR# J8 PC4 A20/CS3# MTIOC3D/ MTCLKC/ TMCI1/PO25/ POE0# ET0_TX_CLK/ SCK5/CTS8#/ RTS8#/SS8#/ SS10#/CTS10#/ RTS10#/SSLA0A J9 PC0 A16 MTIOC3C/ TCLKC/PO17 ET0_ERXD3/ CTS5#/RTS5#/ SS5#/SSLA1-A IRQ14 J10 PC1 A17 MTIOC3A/ TCLKD/PO18 ET0_ERXD2/ SCK5/SSLA2-A IRQ12 K1 P23 EDACK0 MTIOC3D/ MTCLKD/ TIOCD3/PO3 TXD3/SMOSI3/ SSDA3/CTS0#/ RTS0#/SS0# K2 P22 EDREQ0 MTIOC3B/ MTCLKC/ TIOCC3/ TMO0/PO2 SCK0/ USB0_OVRCUR B K3 P20 MTIOC1A/ TIOCB3/ TMRI0/PO0 TXD0/SMOSI0/ SSDA0/SDA1*1/ USB0_ID IRQ8 K4 P14 MTIOC3A/ MTCLKA/ TIOCB5/ TCLKA/TMRI2/ PO15 CTS1#/RTS1#/ SS1#/CTX1/ USB0_OVRCUR A IRQ4 100-Pin TFLGA J6 Power Supply Clock System Control Timer GLCDC Interrupt A/D D/A VCC_USB TXD2/SMOSI2/ SSDA2/SSLB1-A K5 USB0_DM K6 USB0_DP SCK2/SSLB2-A K7 P51 WR1#/ BC1#/ WAIT# K8 PC5 D3[A3/D3]*1/ A21/CS2#/ WAIT# MTIOC3B/ MTCLKD/ TMRI2/PO29 ET0_ETXD2/ SCK8/SCK10/ RSPCKA-A K9 PC3 A19 MTIOC4D/ TCLKB/PO24 ET0_TX_ER/ TXD5/SMOSI5/ SSDA5 K10 PC2 A18 MTIOC4B/ TCLKA/PO21 ET0_RX_DV/ RXD5/SMISO5/ SSCL5/SSLA3-A Note 1. These pins are only enabled for products with 2 or 1.5 Mbytes of code flash memory. Note 2. P53 is multiplexed with the BCLK pin function, so cannot be used as an I/O port pin when the external bus is enabled. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 76 of 246 RX65N Group, RX651 Group Table 1.10 1. Overview List of Pin and Pin Functions (100-Pin LFQFP) (1/5) Pin Number 100-Pin LFQFP Power Supply Clock System Control 1 AVCC1 2 EMLE 3 AVSS1 4 5 VCL 6 VBATT 7 MD/FINED 8 XCIN 9 XCOUT 10 RES# 11 XTAL 12 VSS 13 EXTAL 14 VCC Timer Communication Memory Interface Camera Interface I/O Port Bus EXDMAC SDRAMC (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF) PJ3 EDACK1 MTIOC3C ET0_EXOUT/ CTS6#/RTS6#/ SS6#/CTS0#/ RTS0#/SS0# MTIOC0A/ TMCI3/PO12/ POE10# ET0_LINKSTA/ SCK6/SCK0 IRQ4 MTIOC0D/ TIOCD0/ TMRI3/PO11/ POE4#/ POE11# RXD6/SMISO6/ SSCL6/RXD0/ SMISO0/SSCL0/ CRX0 IRQ3-DS GLCDC Interrupt A/D D/A P37 P36 15 UPSEL P35 16 TRST# P34 NMI 17 P33 EDREQ1 18 P32 MTIOC0C/ TIOCC0/ TMO3/PO10/ RTCIC2/ RTCOUT/ POE0#/ POE10# TXD6/SMOSI6/ SSDA6/TXD0/ SMOSI0/SSDA0/ CTX0/ USB0_VBUSEN IRQ2-DS 19 TMS P31 MTIOC4D/ TMCI2/PO9/ RTCIC1 CTS1#/RTS1#/ SS1#/SSLB0-A IRQ1-DS 20 TDI P30 MTIOC4B/ TMRI3/PO8/ RTCIC0/ POE8# RXD1/SMISO1/ SSCL1/MISOB-A IRQ0-DS 21 TCK P27 CS7# MTIOC2B/ TMCI3/PO7 SCK1/RSPCKBA 22 TDO P26 CS6# MTIOC2A/ TMO1/PO6 TXD1/SMOSI1/ SSDA1/CTS3#/ RTS3#/SS3#/ MOSIB-A 23 P25 CS5#/ EDACK1 MTIOC4C/ MTCLKB/ TIOCA4/PO5 RXD3/SMISO3/ SSCL3 24 P24 CS4#/ EDREQ1 MTIOC4A/ MTCLKA/ TIOCB4/ TMRI1/PO4 SCK3/ USB0_VBUSEN 25 P23 EDACK0 MTIOC3D/ MTCLKD/ TIOCD3/PO3 TXD3/SMOSI3/ SSDA3/CTS0#/ RTS0#/SS0# R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 ADTRG0 # Page 77 of 246 RX65N Group, RX651 Group Table 1.10 1. Overview List of Pin and Pin Functions (100-Pin LFQFP) (2/5) Pin Number I/O Port Bus EXDMAC SDRAMC 26 P22 EDREQ0 27 100-Pin LFQFP Power Supply Clock System Control Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF) GLCDC Interrupt A/D D/A MTIOC3B/ MTCLKC/ TIOCC3/ TMO0/PO2 SCK0/ USB0_OVRCUR B P21 MTIOC1B/ MTIOC4A/ TIOCA3/ TMCI0/PO1 RXD0/SMISO0/ SSCL0/SCL1*1/ USB0_EXICEN IRQ9 28 P20 MTIOC1A/ TIOCB3/ TMRI0/PO0 TXD0/SMOSI0/ SSDA0/SDA1*1/ USB0_ID IRQ8 29 P17 MTIOC3A/ MTIOC3B/ MTIOC4B/ TIOCB0/ TCLKD/TMO1/ PO15/POE8# SCK1/TXD3/ SMOSI3/SSDA3/ SDA2-DS IRQ7 ADTRG1 # 30 P16 MTIOC3C/ MTIOC3D/ TIOCB1/ TCLKC/TMO2/ PO14/RTCOUT TXD1/SMOSI1/ SSDA1/RXD3/ SMISO3/SSCL3/ SCL2-DS/ USB0_VBUSEN/ USB0_VBUS/ USB0_OVRCUR B IRQ6 ADTRG0 # 31 P15 MTIOC0B/ MTCLKB/ TIOCB2/ TCLKB/TMCI2/ PO13 RXD1/SMISO1/ SSCL1/SCK3/ CRX1-DS IRQ5 32 P14 MTIOC3A/ MTCLKA/ TIOCB5/ TCLKA/TMRI2/ PO15 CTS1#/RTS1#/ SS1#/CTX1/ USB0_OVRCUR A IRQ4 33 P13 MTIOC0B/ TIOCA5/TMO3/ PO13 TXD2/SMOSI2/ SSDA2/ SDA0[FM+] IRQ3 34 P12 TMCI1 RXD2/SMISO2/ SSCL2/ SCL0[FM+] IRQ2 35 VCC_USB 36 USB0_DM 37 USB0_DP 38 ADTRG1 # VSS_USB 39 P55 D0[A0/D0]*1/ WAIT#/ EDREQ0 MTIOC4D/ TMO3 ET0_EXOUT/ CRX1 40 P54 ALE/D1[A1/ D1]*1/ EDACK0 MTIOC4B/ TMCI1 ET0_LINKSTA/ CTS2#/RTS2#/ SS2#/CTX1 41 P53*2 BCLK 42 P52 RD# RXD2/SMISO2/ SSCL2/SSLB3-A 43 P51 WR1#/ BC1#/ WAIT# SCK2/SSLB2-A 44 P50 WR0#/WR# TXD2/SMOSI2/ SSDA2/SSLB1-A R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 IRQ10 Page 78 of 246 RX65N Group, RX651 Group Table 1.10 1. Overview List of Pin and Pin Functions (100-Pin LFQFP) (3/5) Pin Number Timer Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF) Power Supply Clock System Control I/O Port Bus EXDMAC SDRAMC UB PC7 A23/CS0# MTIOC3A/ MTCLKB/ TMO2/PO31/ TOC0/ CACREF ET0_COL/TXD8/ SMOSI8/SSDA8/ SMOSI10/ SSDA10/TXD10/ MISOA-A IRQ14 46 PC6 D2[A2/D2]*1/ A22/CS1# MTIOC3C/ MTCLKA/ TMCI2/PO30/ TIC0 ET0_ETXD3/ RXD8/SMISO8/ SSCL8/ SMISO10/ SSCL10/RXD10/ MOSIA-A IRQ13 47 PC5 D3[A3/D3]*1/ A21/CS2#/ WAIT# MTIOC3B/ MTCLKD/ TMRI2/PO29 ET0_ETXD2/ SCK8/SCK10/ RSPCKA-A 48 PC4 A20/CS3# MTIOC3D/ MTCLKC/ TMCI1/PO25/ POE0# ET0_TX_CLK/ SCK5/CTS8#/ RTS8#/SS8#/ SS10#/CTS10#/ RTS10#/SSLA0A 49 PC3 A19 MTIOC4D/ TCLKB/PO24 ET0_TX_ER/ TXD5/SMOSI5/ SSDA5 50 PC2 A18 MTIOC4B/ TCLKA/PO21 ET0_RX_DV/ RXD5/SMISO5/ SSCL5/SSLA3-A 51 PC1 A17 MTIOC3A/ TCLKD/PO18 ET0_ERXD2/ SCK5/SSLA2-A IRQ12 52 PC0 A16 MTIOC3C/ TCLKC/PO17 ET0_ERXD3/ CTS5#/RTS5#/ SS5#/SSLA1-A IRQ14 53 PB7 A15 MTIOC3B/ TIOCB5/PO31 ET0_CRS/ RMII0_CRS_DV/ TXD9/SMOSI9/ SSDA9/ SMOSI11/ SSDA11/TXD11 SDSI_D1-B 54 PB6 A14 MTIOC3D/ TIOCA5/PO30 ET0_ETXD1/ RMII0_TXD1/ RXD9/SMISO9/ SSCL9/ SMISO11/ SSCL11/RXD11 SDSI_D0-B 55 PB5 A13 MTIOC2A/ MTIOC1B/ TIOCB4/ TMRI1/PO29/ POE4# ET0_ETXD0/ RMII0_TXD0/ SCK9/SCK11 SDSI_CLK-B LCD_CL K-B*1 56 PB4 A12 TIOCA4/PO28 ET0_TX_EN/ RMII0_TXD_EN/ CTS9#/RTS9#/ SS9#/SS11#/ CTS11#/RTS11# SDSI_CMD-B LCD_TC ON0-B*1 57 PB3 A11 MTIOC0A/ MTIOC4A/ TIOCD3/ TCLKD/TMO0/ PO27/POE11# ET0_RX_ER/ RMII0_RX_ER/ SCK6 SDSI_D3-B LCD_TC ON1-B*1 58 PB2 A10 TIOCC3/ TCLKC/PO26 ET0_RX_CLK/ REF50CK0/ CTS6#/RTS6#/ SS6# SDSI_D2-B LCD_TC ON2-B*1 59 PB1 A9 MTIOC0C/ MTIOC4C/ TIOCB3/ TMCI0/PO25 ET0_ERXD0/ RMII0_RXD0/ TXD6/SMOSI6/ SSDA6 100-Pin LFQFP 45 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 GLCDC LCD_TC ON3-B*1 Interrupt A/D D/A IRQ4-DS Page 79 of 246 RX65N Group, RX651 Group Table 1.10 1. Overview List of Pin and Pin Functions (100-Pin LFQFP) (4/5) Pin Number Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF) I/O Port Bus EXDMAC SDRAMC PB0 A8 MTIC5W/ TIOCA3/PO24 63 PA7 A7 64 PA6 65 100-Pin LFQFP Power Supply Clock System Control Timer A/D D/A GLCDC Interrupt ET0_ERXD1/ RMII0_RXD1/ RXD6/SMISO6/ SSCL6 LCD_DA TA0-B*1 IRQ12 TIOCB2/PO23 ET0_WOL/ MISOA-B LCD_DA TA1-B*1 A6 MTIC5V/ MTCLKB/ TIOCA2/ TMCI3/PO22/ POE10# ET0_EXOUT/ CTS5#/RTS5#/ SS5#/MOSIA-B LCD_DA TA2-B*1 PA5 A5 MTIOC6B/ TIOCB1/PO21 ET0_LINKSTA/ RSPCKA-B LCD_DA TA3-B*1 66 PA4 A4 MTIC5U/ MTCLKA/ TIOCA1/ TMRI0/PO20 ET0_MDC/TXD5/ SMOSI5/SSDA5/ SSLA0-B LCD_DA TA4-B*1 IRQ5-DS 67 PA3 A3 MTIOC0D/ MTCLKD/ TIOCD0/ TCLKB/PO19 ET0_MDIO/ RXD5/SMISO5/ SSCL5 LCD_DA TA5-B*1 IRQ6-DS 68 PA2 A2 MTIOC7A/ PO18 RXD5/SMISO5/ SSCL5/SSLA3-B LCD_DA TA6-B*1 69 PA1 A1 MTIOC0B/ MTCLKC/ MTIOC7B/ TIOCB0/PO17 ET0_WOL/ SCK5/SSLA2-B LCD_DA TA7-B*1 70 PA0 BC0#/A0 MTIOC4A/ MTIOC6D/ TIOCA0/PO16/ CACREF ET0_TX_EN/ RMII0_TXD_EN/ SSLA1-B LCD_DA TA8-B*1 71 PE7 D15[A15/ D15]/D7[A7/ D7]*1 MTIOC6A/ TOC1 MISOB-B SDHI_WP/ MMC_RES#-B LCD_DA TA9-B*1 IRQ7 AN105 72 PE6 D14[A14/ D14]/D6[A6/ D6]*1 MTIOC6C/TIC1 MOSIB-B SDHI_CD/ MMC_CD-B LCD_DA TA10-B*1 IRQ6 AN104 73 PE5 D13[A13/ D13]/D5[A5/ D5]*1 MTIOC4C/ MTIOC2B ET0_RX_CLK/ REF50CK0/ RSPCKB-B LCD_DA TA11-B*1 IRQ5 AN103 74 PE4 D12[A12/ D12]/D4[A4/ D4]*1 MTIOC4D/ MTIOC1A/ PO28 ET0_ERXD2/ SSLB0-B LCD_DA TA12-B*1 AN102 75 PE3 D11[A11/ D11]/D3[A3/ D3]*1 MTIOC4B/ PO26/TOC3/ POE8# ET0_ERXD3/ CTS12#/ RTS12#/SS12# MMC_D7-B LCD_DA TA13-B*1 AN101 76 PE2 D10[A10/ D10]/D2[A2/ D2]*1 MTIOC4A/ PO23/TIC3 RXD12/ SMISO12/ SSCL12/ RXDX12/SSLB3B MMC_D6-B LCD_DA TA14-B*1 77 PE1 D9[A9/D9]/ D1[A1/D1]*1 MTIOC4C/ MTIOC3B/ PO18 TXD12/ SMOSI12/ SSDA12/ TXDX12/ SIOX12/SSLB2B MMC_D5-B LCD_DA TA15-B*1 ANEX1 78 PE0 D8[A8/D8]/ D0[A0/D0]*1 MTIOC3D SCK12/SSLB1-B MMC_D4-B LCD_DA TA16-B*1 ANEX0 60 VCC 61 62 VSS R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 IRQ11 IRQ7-DS AN100 Page 80 of 246 RX65N Group, RX651 Group Table 1.10 1. Overview List of Pin and Pin Functions (100-Pin LFQFP) (5/5) Pin Number Communication Memory Interface Camera Interface (MTU, TPU, TMR, PPG, RTC, CMTW, POE, CAC) (ETHERC, SCI, RSPI, RIIC, CAN, USB) (QSPI, SDHI, SDSI, MMCIF) I/O Port Bus EXDMAC SDRAMC 79 PD7 D7[A7/D7] MTIC5U/ POE0# SSLC3-A 80 PD6 D6[A6/D6] MTIC5V/ MTIOC8A/ POE4# 81 PD5 D5[A5/D5] 82 PD4 83 100-Pin LFQFP Power Supply Clock System Control Timer GLCDC Interrupt A/D D/A QMI-B/QIO1-B/ SDHI_D1-B/ MMC_D1-B LCD_DA TA17-B*1 IRQ7 AN107 SSLC2-A QMO-B/QIO0-B/ SDHI_D0-B/ MMC_D0-B LCD_DA TA18-B*1 IRQ6 AN106 MTIC5W/ MTIOC8C/ POE10# SSLC1-A QSPCLK-B/ SDHI_CLK-B/ MMC_CLK-B LCD_DA TA19-B*1 IRQ5 AN113 D4[A4/D4] MTIOC8B/ POE11# SSLC0-A QSSL-B/ SDHI_CMD-B/ MMC_CMD-B LCD_DA TA20-B*1 IRQ4 AN112 PD3 D3[A3/D3] MTIOC8D/ TOC2/POE8# RSPCKC-A QIO3-B/SDHI_D3B/MMC_D3-B LCD_DA TA21-B*1 IRQ3 AN111 84 PD2 D2[A2/D2] MTIOC4D/TIC2 MISOC-A/CRX0 QIO2-B/SDHI_D2B/MMC_D2-B LCD_DA TA22-B*1 IRQ2 AN110 85 PD1 D1[A1/D1] MTIOC4B/ POE0# MOSIC-A/CTX0 LCD_DA TA23-B*1 IRQ1 AN109 86 PD0 D0[A0/D0] POE4# LCD_EX TCLK-B *1 IRQ0 AN108 87 P47 IRQ15DS AN007 88 P46 IRQ14DS AN006 89 P45 IRQ13DS AN005 90 P44 IRQ12DS AN004 91 P43 IRQ11DS AN003 92 P42 IRQ10DS AN002 P41 IRQ9-DS AN001 P40 IRQ8-DS AN000 P07 IRQ15 ADTRG0 # P05 IRQ13 DA1 93 94 VREFL0 95 96 VREFH0 97 AVCC0 98 99 100 AVSS0 Note 1. These pins are only enabled for products with 2 or 1.5 Mbytes of code flash memory. Note 2. P53 is multiplexed with the BCLK pin function, so cannot be used as an I/O port pin when the external bus is enabled. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 81 of 246 RX65N Group, RX651 Group Table 1.11 1. Overview List of Pin and Pin Functions (64-Pin TFBGA) (1/2) Pin Number Timer Communication Memory Interface I/O Port (MTU, TPU, TMR, RTC, CMTW, POE, CAC) (SCI, RSPI, RIIC, USB) (QSPI, SDHI) Interrupt A/D D/A A5 PD2 MTIOC4D/TIC2 QIO2-B/SDHI_D2-B IRQ2 AN110 A6 PD7 MTIC5U/POE0# QMI-B/QIO1-B/ SDHI_D1-B IRQ7 AN107 A7 PE0 MTIOC3D SCK12 A8 PE2 MTIOC4A/TIC3 RXD12/SSCL12/ RXDX12 64-Pin TFBGA A1 Power Supply Clock System Control AVCC1 A2 AVSS0 A3 VREFH0 A4 VREFL0 B1 ANEX0 IRQ7-DS EMLE B2 AVSS1 B3 AVCC0 B4 P42 IRQ10-DS AN002 B5 PD3 MTIOC8D/TOC2/ POE8# QIO3-B/SDHI_D3-B IRQ3 AN111 B6 PD6 MTIC5V/MTIOC8A/ POE4# QMO-B/QIO0-B/ SDHI_D0-B IRQ6 AN106 B7 PE1 MTIOC4C/MTIOC3B B8 PE6 MTIOC6C/TIC1 SDHI_CD IRQ6 C1 VCL C2 VBATT C3 MD/FINED TXD12/SSDA12/ TXDX12/SIOX12 ANEX1 C4 P41 IRQ9-DS AN001 C5 PD4 MTIOC8B/POE11# QSSL-B/SDHI_CMDB IRQ4 AN112 C6 PD5 MTIC5W/MTIOC8C/ POE10# QSPCLK-B/ SDHI_CLK-B IRQ5 AN113 C7 PA1 MTIOC0B/MTCLKC/ MTIOC7B/TIOCB0 PE7 MTIOC6A/TOC1 C8 D1 XCIN D2 XCOUT D3 RES# D4 SCK5 SDHI_WP P40 D5 P43 D6 PA6 MTIC5V/MTCLKB/ TIOCA2/TMCI3/ POE10# CTS5#/RTS5#/SS5# D7 PA2 MTIOC7A RXD5/SMISO5/ SSCL5 D8 PA4 MTIC5U/MTCLKA/ TIOCA1/TMRI0 TXD5/SMOSI5/ SSDA5 E1 XTAL E2 VSS E3 TRST# E4 E5 IRQ11 IRQ7 IRQ8-DS AN000 IRQ11-DS AN003 IRQ5-DS P37 P34 MTIOC0A/TMCI3/ POE10# P13 MTIOC0B/TIOCA5/ TMO3 IRQ4 TXD2/SSDA2/ SDA0[FM+] IRQ3 ADTRG1# BSCANP R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 82 of 246 RX65N Group, RX651 Group Table 1.11 List of Pin and Pin Functions (64-Pin TFBGA) (2/2) Pin Number 64-Pin TFBGA 1. Overview Power Supply Clock System Control E6 E7 VCC E8 VSS F1 EXTAL F2 VCC F3 UPSEL Timer Communication Memory Interface I/O Port (MTU, TPU, TMR, RTC, CMTW, POE, CAC) (SCI, RSPI, RIIC, USB) (QSPI, SDHI) PA7 TIOCB2 Interrupt A/D D/A P36 P35 F4 P12 F5 P53 F6 NMI TMCI1 RXD2/SSCL2/ SCL0[FM+] PB7 MTIOC3B/TIOCB5 TXD9/SSDA9/ SSDA11/TXD11 F7 PB6 MTIOC3D/TIOCA5 RXD9/SSCL9/ SSCL11/RXD11 F8 PB5 MTIOC2A/MTIOC1B/ TIOCB4/TMRI1/ POE4# SCK9/SCK11 IRQ2 G1 TCK P27 MTIOC2B/TMCI3 SCK1/RSPCKB-A G2 TMS P31 MTIOC4D/TMCI2/ RTCIC1 CTS1#/RTS1#/SS1#/ SSLB0-A IRQ1-DS G3 TDI P30 MTIOC4B/TMRI3/ RTCIC0/POE8# RXD1/SMISO1/ SSCL1/MISOB-A IRQ0-DS G4 VCC_USB G5 VSS_USB G6 UB PC7 MTIOC3A/MTCLKB/ TMO2/TOC0/ CACREF TXD8/SMOSI8/ SSDA8/SMOSI10/ SSDA10/TXD10/ MISOA-A IRQ14 G7 PC5 MTIOC3B/MTCLKD/ TMRI2 SCK8/SCK10/ RSPCKA-A G8 PC0 MTIOC3C/TCLKC SSLA1-A P26 MTIOC2A/TMO1 TXD1/SMOSI1/ SSDA1/CTS3#/ RTS3#/MOSIB-A H2 P17 MTIOC3A/MTIOC3B/ MTIOC4B/TIOCB0/ TCLKD/TMO1/ POE8# SCK1/TXD3/SSDA3/ SDA2-DS IRQ7 ADTRG1# H3 P16 MTIOC3C/MTIOC3D/ TIOCB1/TCLKC/ TMO2/RTCOUT TXD1/SMOSI1/ SSDA1/RXD3/ SSCL3/SCL2-DS/ USB0_VBUS IRQ6 ADTRG0# H1 TDO H4 USB0_DM H5 USB0_DP H6 PC6 MTIOC3C/MTCLKA/ TMCI2/TIC0 RXD8/SMISO8/ SSCL8/SMISO10/ SSCL10/RXD10/ MOSIA-A H7 PC4 MTIOC3D/MTCLKC/ TMCI1/POE0# CTS8#/RTS8#/SS8#/ SS10#/CTS10#/ RTS10#/SSLA0-A H8 PC1 MTIOC3A/TCLKD SSLA2-A R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 IRQ14 IRQ13 IRQ12 Page 83 of 246 RX65N Group, RX651 Group Table 1.12 List of Pin and Pin Functions (64-Pin LFQFP) (1/2) Pin Number 64-Pin LFQFP 1. Overview Power Supply Clock System Control 1 AVCC1 2 EMLE 3 AVSS1 4 VCL 5 VBATT 6 MD/FINED 7 XCIN 8 XCOUT 9 RES# 10 XTAL 11 VSS 12 EXTAL 13 VCC I/O Port Timer Communication Memory Interface (MTU, TPU, TMR, RTC, CMTW, POE, CAC) (SCI, RSPI, RIIC, USB) (QSPI, SDHI) Interrupt A/D D/A P37 P36 14 UPSEL P35 15 TRST# P34 MTIOC0A/TMCI3/ POE10# NMI 16 TDI P30 MTIOC4B/TMRI3/ RTCIC0/POE8# RXD1/SMISO1/ SSCL1/MISOB-A IRQ0-DS 17 TMS P31 MTIOC4D/TMCI2/ RTCIC1 CTS1#/RTS1#/SS1#/ SSLB0-A IRQ1-DS 18 TDO P26 MTIOC2A/TMO1 TXD1/SMOSI1/ SSDA1/CTS3#/ RTS3#/MOSIB-A 19 TCK IRQ4 P27 MTIOC2B/TMCI3 SCK1/RSPCKB-A 20 P17 MTIOC3A/MTIOC3B/ MTIOC4B/TIOCB0/ TCLKD/TMO1/ POE8# SCK1/TXD3/SSDA3/ SDA2-DS IRQ7 ADTRG1# 21 P16 MTIOC3C/MTIOC3D/ TIOCB1/TCLKC/ TMO2/RTCOUT TXD1/SMOSI1/ SSDA1/RXD3/ SSCL3/SCL2-DS/ USB0_VBUS IRQ6 ADTRG0# 22 P13 MTIOC0B/TIOCA5/ TMO3 TXD2/SSDA2/ SDA0[FM+] IRQ3 ADTRG1# 23 P12 TMCI1 RXD2/SSCL2/ SCL0[FM+] IRQ2 24 VCC_USB 25 USB0_DM 26 USB0_DP 27 VSS_USB 28 29 P53 UB PC7 MTIOC3A/MTCLKB/ TMO2/TOC0/ CACREF TXD8/SMOSI8/ SSDA8/SMOSI10/ SSDA10/TXD10/ MISOA-A IRQ14 30 PC6 MTIOC3C/MTCLKA/ TMCI2/TIC0 RXD8/SMISO8/ SSCL8/SMISO10/ SSCL10/RXD10/ MOSIA-A IRQ13 31 PC5 MTIOC3B/MTCLKD/ TMRI2 SCK8/SCK10/ RSPCKA-A 32 PC4 MTIOC3D/MTCLKC/ TMCI1/POE0# CTS8#/RTS8#/SS8#/ SS10#/CTS10#/ RTS10#/SSLA0-A R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 84 of 246 RX65N Group, RX651 Group Table 1.12 1. Overview List of Pin and Pin Functions (64-Pin LFQFP) (2/2) Pin Number Timer Communication Memory Interface I/O Port (MTU, TPU, TMR, RTC, CMTW, POE, CAC) (SCI, RSPI, RIIC, USB) (QSPI, SDHI) 33 PC1 MTIOC3A/TCLKD SSLA2-A IRQ12 34 PC0 MTIOC3C/TCLKC SSLA1-A IRQ14 35 PB7 MTIOC3B/TIOCB5 TXD9/SSDA9/ SSDA11/TXD11 36 PB6 MTIOC3D/TIOCA5 RXD9/SSCL9/ SSCL11/RXD11 37 PB5 MTIOC2A/MTIOC1B/ TIOCB4/TMRI1/ POE4# SCK9/SCK11 64-Pin LFQFP Power Supply Clock System Control 38 VCC 39 VSS 40 PA7 TIOCB2 41 PA6 MTIC5V/MTCLKB/ TIOCA2/TMCI3/ POE10# CTS5#/RTS5#/SS5# 42 PA4 MTIC5U/MTCLKA/ TIOCA1/TMRI0 TXD5/SMOSI5/ SSDA5 43 PA2 MTIOC7A RXD5/SMISO5/ SSCL5 44 PA1 MTIOC0B/MTCLKC/ MTIOC7B/TIOCB0 SCK5 A/D D/A Interrupt IRQ5-DS IRQ11 45 PE7 MTIOC6A/TOC1 SDHI_WP IRQ7 46 PE6 MTIOC6C/TIC1 SDHI_CD IRQ6 47 PE2 MTIOC4A/TIC3 RXD12/SSCL12/ RXDX12 48 PE1 MTIOC4C/MTIOC3B TXD12/SSDA12/ TXDX12/SIOX12 ANEX1 49 PE0 MTIOC3D SCK12 ANEX0 50 PD7 MTIC5U/POE0# QMI-B/QIO1-B/ SDHI_D1-B IRQ7 AN107 51 PD6 MTIC5V/MTIOC8A/ POE4# QMO-B/QIO0-B/ SDHI_D0-B IRQ6 AN106 52 PD5 MTIC5W/MTIOC8C/ POE10# QSPCLK-B/ SDHI_CLK-B IRQ5 AN113 53 PD4 MTIOC8B/POE11# QSSL-B/SDHI_CMDB IRQ4 AN112 54 PD3 MTIOC8D/TOC2/ POE8# QIO3-B/SDHI_D3-B IRQ3 AN111 MTIOC4D/TIC2 QIO2-B/SDHI_D2-B IRQ7-DS 55 PD2 IRQ2 AN110 56 P43 IRQ11-DS AN003 57 P42 IRQ10-DS AN002 58 P41 IRQ9-DS AN001 P40 IRQ8-DS AN000 P05 IRQ13 DA1 59 VREFL0 60 61 VREFH0 62 AVCC0 63 AVSS0 64 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 85 of 246 RX65N Group, RX651 Group 2. 2. CPU CPU Figure 2.1 shows register set of the CPU. Control register General-purpose register b31 b0 R0 (SP) b31 *1 b0 ISP (Interrupt stack pointer) USP (User stack pointer) R1 R2 INTB (Interrupt table register) R3 R4 PC (Program counter) R5 PSW (Processor status word) R6 R7 BPC (Backup PC) R8 BPSW (Backup PSW) R9 R10 FINTV (Fast interrupt vector register) R11 FPSW (Floating-point status word) R12 R13 EXTB (Exception table register) R14 R15 DSP instruction register b71 b0 ACC0 (Accumulator 0) ACC1 (Accumulator 1) Note 1. The stack pointer (SP) can be the interrupt stack pointer (ISP) or user stack pointer (USP), according to the value of the U bit in the PSW. Figure 2.1 Register Set of the CPU R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 86 of 246 RX65N Group, RX651 Group 2.1 2. CPU General-Purpose Registers (R0 to R15) This CPU has sixteen 32-bit general-purpose registers (R0 to R15). R0 to R15 can be used as data registers or address registers. R0, a general-purpose register, also functions as the stack pointer (SP). The stack pointer is switched to operate as the interrupt stack pointer (ISP) or user stack pointer (USP) by the value of the stack pointer select bit (U) in the processor status word (PSW). 2.2 (1) Control Registers Interrupt Stack Pointer (ISP) / User Stack Pointer (USP) The stack pointer (SP) can be either of two types, the interrupt stack pointer (ISP) or the user stack pointer (USP). Whether the stack pointer operates as the ISP or USP depends on the value of the stack pointer select bit (U) in the processor status word (PSW). (2) Exception Table Register (EXTB) The exception table register (EXTB) specifies the address where the exception vector table starts. (3) Interrupt Table Register (INTB) The interrupt table register (INTB) specifies the address where the interrupt vector table starts. (4) Program Counter (PC) The program counter (PC) indicates the address of the instruction being executed. (5) Processor Status Word (PSW) The processor status word (PSW) indicates the results of instruction execution or the state of the CPU. (6) Backup PC (BPC) The backup PC (BPC) is provided to speed up response to interrupts. After a fast interrupt has been generated, the contents of the program counter (PC) are saved in the BPC register. (7) Backup PSW (BPSW) The backup PSW (BPSW) is provided to speed up response to interrupts. After a fast interrupt has been generated, the contents of the processor status word (PSW) are saved in the BPSW. The allocation of bits in the BPSW corresponds to that in the PSW. (8) Fast Interrupt Vector Register (FINTV) The fast interrupt vector register (FINTV) is provided to speed up response to interrupts. The FINTV register specifies a branch destination address when a fast interrupt has been generated. (9) Floating-Point Status Word (FPSW) The floating-point status word (FPSW) indicates the results of floating-point operations. When an exception handling enable bit (Ej) enables the exception handling (Ej = 1), the exception cause can be identified by checking the corresponding Cj flag in the exception handling routine. If the exception handling is masked (Ej = 0), the occurrence of exception can be checked by reading the Fj flag at the end of a series of processing. Once the Fj flag has been set to 1, this value is retained until it is cleared to 0 by software (j = X, U, Z, O, or V). R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 87 of 246 RX65N Group, RX651 Group 2.3 2. CPU Accumulator The accumulator (ACC0 or ACC1) is a 72-bit register used for DSP instructions. The accumulator is handled as a 96-bit register for reading and writing. At this time, when bits 95 to 72 of the accumulator are read, the value where the value of bit 71 is sign extended is read. Writing to bits 95 to 72 of the accumulator is ignored. ACC0 is also used for the multiply and multiply-and-accumulate instructions; EMUL, EMULU, FMUL, MUL, and RMPA, in which case the prior value in ACC0 is modified by execution of the instruction. Use the MVTACGU, MVTACHI, and MVTACLO instructions for writing to the accumulator. The MVTACGU, MVTACHI, and MVTACLO instructions write data to bits 95 to 64, the higher-order 32 bits (bits 63 to 32), and the lower-order 32 bits (bits 31 to 0), respectively. Use the MVFACGU, MVFACHI, MVFACMI, and MVFACLO instructions for reading data from the accumulator. The MVFACGU, MVFACHI, MVFACMI, and MVFACLO instructions read data from the guard bits (bits 95 to 64), higherorder 32 bits (bits 63 to 32), the middle 32 bits (bits 47 to 16), and the lower-order 32 bits (bits 31 to 0), respectively. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 88 of 246 RX65N Group, RX651 Group 3. Address Space 3.1 Address Space 3. Address Space This MCU has a 4-Gbyte address space, consisting of the range of addresses from 0000 0000h to FFFF FFFFh. That is, linear access to an address space of up to 4 Gbytes is possible, and this contains both program and data areas. Figure 3.1 shows the memory maps in the respective operating modes. Accessible areas will differ according to the operating mode and states of control bits. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 89 of 246 RX65N Group, RX651 Group 3. Address Space On-chip ROM enabled extended mode Single-chip mode*1 On-chip ROM disabled extended mode 0000 0000h On-chip RAM*5 0000 0000h On-chip RAM*5 0000 0000h On-chip RAM*5 0004 0000h Reserved area*2 Peripheral I/O registers Standby RAM Peripheral I/O registers 0004 0000h Reserved area*2 Peripheral I/O registers Standby RAM Peripheral I/O registers On-chip ROM (data flash memory)*5 0004 0000h Reserved area*2 Peripheral I/O registers Standby RAM Peripheral I/O registers 0008 0000h 000A 4000h 000A 6000h 0010 0000h 0010 8000h 0008 0000h 000A 4000h 000A 6000h 0010 0000h On-chip ROM (data flash memory)*5 0010 8000h Reserved area*2 007E 0000h 007F 0004h 007F C000h 0080 0000h 0086 0000h 0008 0000h 000A 4000h 000A 6000h 0010 0000h Reserved area*2 FACI command issuing area 007E 0000h Reserved area*2 007F 0004h Peripheral I/O registers 007F C000h 0080 0000h On-chip expansion RAM*5 Reserved area*2 FACI command issuing area Reserved area*2 Peripheral I/O registers 0080 0000h On-chip expansion RAM*5 0086 0000h Reserved area* Reserved area*2 0100 0000h 0100 0000h External address space (CS area) External address space (CS area) 0800 0000h Reserved area* 2 On-chip expansion RAM*5 0086 0000h 2 0800 0000h External address space (SDRAM area) 1000 0000h External address space (SDRAM area) 1000 0000h Reserved area*2 Reserved area*2 FF00 0000h FE7F 5D00h FE7F 5D80h FE7F 7D70h FE7F 7DA0h FFE0 0000h On-chip ROM (option-setting memory)*3 Reserved area*2 3 On-chip ROM (read only)* Reserved area*2 FE7F 5D00h FE7F 5D80h On-chip ROM (option-setting memory)*3 FE7F 7D70h FE7F 7DA0h On-chip ROM (read only)*3 Reserved area*2 FFE0 0000h On-chip ROM (code flash memory) *3, *4, *5 Reserved area*2 External address space (CS area) On-chip ROM (code flash memory)*3, *4, *5 FFFF FFFFh FFFF FFFFh FFFF FFFFh Note 1. Note 2. Note 3. Note 4. The address space in boot mode is the same as the address space in single-chip mode. Reserved areas should not be accessed. The access cycle is 1 cycle, 2 cycles, and 3 cycles while the ROMWT[1:0] bits are 00b, 01b, and 10b respectively. The on-chip ROM (code flash memory) can be used in linear mode, where the user area forms a single area, or in dual mode, where the user area is divided into two banks. For details, refer to section 59.2, Structure of Memory in section 59, Flash Memory in the User’s Manual: Hardware. Note 5. The capacities of the code flash memory, data flash memory, and RAM differ depending on the products. Code Flash Memory Data Flash Memory RAM Address Capacity 2 Mbytes Linear mode Dual mode (BANKSEL.BANKSWP[2:0] = 111b) Capacity Address Capacity Address FFE0 0000h to FFFF FFFFh bank 1: FFE0 0000h to FFEF FFFFh 32 Kbytes 0010 0000h to 0010 7FFFh 640 Kbytes 0000 0000h to 0003 FFFFh bank 0: FFF0 0000h to FFFF FFFFh 1.5 Mbytes FFE8 0000h to FFFF FFFFh bank 1: FFE4 0000h to FFEF FFFFh 0080 0000h to 0085 FFFFh 32 Kbytes 0010 0000h to 0010 7FFFh 640 Kbytes bank 0: FFF4 0000h to FFFF FFFFh Figure 3.1 0000 0000h to 0003 FFFFh 0080 0000h to 0085 FFFFh 1 Mbyte FFF0 0000h to FFFF FFFFh — — — 256 Kbytes 0000 0000h to 0003 FFFFh 768 Kbytes FFF4 0000h to FFFF FFFFh — — — 256 Kbytes 0000 0000h to 0003 FFFFh 512 Kbytes FFF8 0000h to FFFF FFFFh — — — 256 Kbytes 0000 0000h to 0003 FFFFh Memory Map in Each Operating Mode R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 90 of 246 RX65N Group, RX651 Group 3.2 3. Address Space External Address Space The external address space is divided into CS areas (CS0 to CS7) and SDRAM area (SDCS). The CS areas are divided into up to eight areas (CS0 to CS7), each corresponding to the CSn# signal output from a CSn# (n = 0 to 7) pin. Figure 3.2 shows the address ranges corresponding to the individual CS areas (CS0 to CS7) and SDRAM area (SDCS) in on-chip ROM disabled extended mode. 0000 0000h 0004 0000h 0008 0000h 000A 4000h 000A 6000h 0010 0000h 0100 0000h RAM *1 Reserved area Peripheral I/O registers Standby RAM Peripheral I/O registers CS7 (16 Mbytes) 01FF FFFFh 0200 0000h CS6 (16 Mbytes) Reserved area *1 02FF FFFFh 0300 0000h 0080 0000h CS5 (16 Mbytes) Expansion RAM*2 0086 0000h Reserved area *1 03FF FFFFh 0400 0000h 0100 0000h CS4 (16 Mbytes) External address space (CS area) 04FF FFFFh 0500 0000h CS3 (16 Mbytes) 0800 0000h External address space (SDRAM area) 05FF FFFFh 0600 0000h 1000 0000h CS2 (16 Mbytes) 06FF FFFFh 0700 0000h CS1 (16 Mbytes) 07FF FFFFh 0800 0000h Reserved area *1 SDCS (128 Mbytes) 0FFF FFFFh FF00 0000h FF00 0000h External address space (CS area) FFFF FFFFh *3 CS0 (16 Mbytes) FFFF FFFFh Note 1. Reserved areas should not be accessed. Note 2. This area is only included in products with at least 1.5 Mbytes of code flash memory. Note 3. The CS0 area is disabled in on-chip ROM enabled extended mode. In this mode, the address space for addresses above 1000 0000h is as shown in figure on this section, Memory Map in Each Operating Mode. Figure 3.2 Correspondence between External Address Spaces and CS Areas (In On-Chip ROM Disabled Extended Mode) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 91 of 246 RX65N Group, RX651 Group 4. 4. I/O Registers I/O Registers This section gives information on the on-chip I/O register addresses. The information is given as shown below. Notes on writing to registers are also given at the end. (1) I/O register addresses (address order)  Registers are listed from the lower allocation addresses.  Registers are classified according to module symbols.  The number of access cycles indicates the number of cycles based on the specified reference clock.  Among the internal I/O register area, addresses not listed in the list of registers are reserved. Reserved addresses must not be accessed. Do not access these addresses; otherwise, the operation when accessing these bits and subsequent operations cannot be guaranteed. (2) Notes on writing to I/O registers When writing to an I/O register, the CPU starts executing the subsequent instruction before completing I/O register write. This may cause the subsequent instruction to be executed before the post-update I/O register value is reflected on the operation. As described in the following examples, special care is required for the cases in which the subsequent instruction must be executed after the post-update I/O register value is actually reflected. [Examples of cases requiring special care]  The subsequent instruction must be executed while an interrupt request is disabled with the IENj bit in IERn of the ICU (interrupt request enable bit) set to 0.  A WAIT instruction is executed immediately after the preprocessing for causing a transition to the low power consumption state. In the above cases, after writing to an I/O register, wait until the write operation is completed using the following procedure and then execute the subsequent instruction. (a) Write to an I/O register. (b) Read the value from the I/O register to a general register. (c) Execute the operation using the value read. (d) Execute the subsequent instruction. [Instruction examples]  Byte-size I/O registers MOV.L #SFR_ADDR, R1 MOV.B #SFR_DATA, [R1] CMP [R1].UB, R1 ;; Next process  Word-size I/O registers MOV.L #SFR_ADDR, R1 MOV.W #SFR_DATA, [R1] CMP [R1].W, R1 ;; Next process R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 92 of 246 RX65N Group, RX651 Group 4. I/O Registers  Longword-size I/O registers MOV.L #SFR_ADDR, R1 MOV.L #SFR_DATA, [R1] CMP [R1].L, R1 ;; Next process If multiple registers are written to and a subsequent instruction should be executed after the write operations are entirely completed, only read the I/O register that was last written to and execute the operation using the value; it is not necessary to read or execute operation for all the registers that were written to. (3) Number of Access Cycles to I/O Registers For the number of I/O register access cycles, refer to Table 4.1, List of I/O Registers (Address Order). The number of access cycles to I/O registers is obtained by following equation.*1 Number of access cycles to I/O registers = Number of bus cycles for internal main bus 1 + Number of divided clock synchronization cycles + Number of bus cycles for internal peripheral busses 1 to 6 The number of bus cycles of internal peripheral bus 1 to 6 differs according to the register to be accessed. When peripheral functions connected to internal peripheral bus 2 to 6 or registers for the external bus control unit (except for bus error related registers) are accessed, the number of divided clock synchronization cycles is added. The number of divided clock synchronization cycles differs depending on the frequency ratio between ICLK and PCLK (or FCLK, BCLK) or bus access timing. In the peripheral function unit, when the frequency ratio of ICLK is equal to or greater than that of PCLK (or FCLK), the sum of the number of bus cycles for internal main bus 1 and the number of the divided clock synchronization cycles will be one cycle of PCLK (or FCLK) at a maximum. Therefore, one PCLK (or FCLK) has been added to the number of access states shown in Table 4.1. When the frequency ratio of ICLK is lower than that of PCLK (or FCLK), the subsequent bus access is started from the ICLK cycle following the completion of the access to the peripheral functions. Therefore, the access cycles are described on an ICLK basis. In the external bus control unit, the sum of the number of bus cycles for internal main bus 1 and the number of divided clock synchronization cycles will be one cycle of BCLK at a maximum. Therefore, one BCLK is added to the number of access cycles shown in Table 4.1. Note 1. This applies to the number of cycles when the access from the CPU does not conflict with the instruction fetching to the external memory or bus access from the different bus master (DMAC or DTC). (4) Notes on Sleep Mode and Mode Transitions During sleep mode or mode transitions, do not write to the registers related to system control (indicated by 'SYSTEM' in the Module Symbol column in Table 4.1, List of I/O Registers (Address Order)). (5) Restrictions in Relation to RMPA and String-Manipulation Instructions The allocation of data to be handled by RMPA or string-manipulation instructions to I/O registers is prohibited, and operation is not guaranteed if this restriction is not observed. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 93 of 246 RX65N Group, RX651 Group 4.1 Table 4.1 4. I/O Registers I/O Register Addresses (Address Order) List of I/O Registers (Address Order) (1 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Module Symbol Register Name Register Symbol 0008 0000h SYSTE M Mode Monitor Register MDMONR 16 16 3 ICLK Operating Modes 0008 0006h SYSTE M System Control Register 0 SYSCR0 16 16 3 ICLK Operating Modes 0008 0008h SYSTE M System Control Register 1 SYSCR1 16 16 3 ICLK Operating Modes 0008 000Ch SYSTE M Standby Control Register SBYCR 16 16 3 ICLK Low Power Consumpt ion 0008 0010h SYSTE M Module Stop Control Register A MSTPCRA 32 32 3 ICLK Low Power Consumpt ion 0008 0014h SYSTE M Module Stop Control Register B MSTPCRB 32 32 3 ICLK Low Power Consumpt ion 0008 0018h SYSTE M Module Stop Control Register C MSTPCRC 32 32 3 ICLK Low Power Consumpt ion 0008 001Ch SYSTE M Module Stop Control Register D MSTPCRD 32 32 3 ICLK Low Power Consumpt ion 0008 0020h SYSTE M System Clock Control Register SCKCR 32 32 3 ICLK Clock Generatio n Circuit 0008 0024h SYSTE M System Clock Control Register 2 SCKCR2 16 16 3 ICLK Clock Generatio n Circuit 0008 0026h SYSTE M System Clock Control Register 3 SCKCR3 16 16 3 ICLK Clock Generatio n Circuit 0008 0028h SYSTE M PLL Control Register PLLCR 16 16 3 ICLK Clock Generatio n Circuit 0008 002Ah SYSTE M PLL Control Register 2 PLLCR2 8 8 3 ICLK Clock Generatio n Circuit 0008 0030h SYSTE M External Bus Clock Control Register BCKCR 8 8 3 ICLK Clock Generatio n Circuit 0008 0032h SYSTE M Main Clock Oscillator Control Register MOSCCR 8 8 3 ICLK Clock Generatio n Circuit 0008 0033h SYSTE M Sub-Clock Oscillator Control Register SOSCCR 8 8 3 ICLK Clock Generatio n Circuit 0008 0034h SYSTE M Low-Speed On-Chip Oscillator Control Register LOCOCR 8 8 3 ICLK Clock Generatio n Circuit 0008 0035h SYSTE M IWDT-Dedicated On-Chip Oscillator Control Register ILOCOCR 8 8 3 ICLK Clock Generatio n Circuit 0008 0036h SYSTE M High-Speed On-Chip Oscillator Control Register HOCOCR 8 8 3 ICLK Clock Generatio n Circuit 0008 0037h SYSTE M High-Speed On-Chip Oscillator Control Register 2 HOCOCR2 8 8 3 ICLK Clock Generatio n Circuit 0008 003Ch SYSTE M Oscillation Stabilization Flag Register OSCOVFSR 8 8 3 ICLK Clock Generatio n Circuit Address R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 94 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (2 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Module Symbol Register Name Register Symbol 0008 0040h SYSTE M Oscillation Stop Detection Control Register OSTDCR 8 8 3 ICLK Clock Generatio n Circuit 0008 0041h SYSTE M Oscillation Stop Detection Status Register OSTDSR 8 8 3 ICLK Clock Generatio n Circuit 0008 00A0h SYSTE M Operating Power Control Register OPCCR 8 8 3 ICLK Low Power Consumpt ion 0008 00A1h SYSTE M Sleep Mode Return Clock Source Switching Register RSTCKCR 8 8 3 ICLK Low Power Consumpt ion 0008 00A2h SYSTE M Main Clock Oscillator Wait Control Register MOSCWTCR 8 8 3 ICLK Clock Generatio n Circuit 0008 00A3h SYSTE M Sub-Clock Oscillator Wait Control Register SOSCWTCR 8 8 3 ICLK Clock Generatio n Circuit 0008 00C0h SYSTE M Reset Status Register 2 RSTSR2 8 8 3 ICLK Resets 0008 00C2h SYSTE M Software Reset Register SWRR 16 16 3 ICLK Resets 0008 00E0h SYSTE M Voltage Monitoring 1 Circuit Control Register 1 LVD1CR1 8 8 3 ICLK LVDA 0008 00E1h SYSTE M Voltage Monitoring 1 Circuit Status Register LVD1SR 8 8 3 ICLK LVDA 0008 00E2h SYSTE M Voltage Monitoring 2 Circuit Control Register 1 LVD2CR1 8 8 3 ICLK LVDA 0008 00E3h SYSTE M Voltage Monitoring 2 Circuit Status Register LVD2SR 8 8 3 ICLK LVDA 0008 03FEh SYSTE M Protect Register PRCR 16 16 3 ICLK Register Write Protection Function 0008 1000h FLASH ROM Cache Enable Register ROMCE 16 16 2 ICLK Flash Address 0008 1004h FLASH ROM Cache Invalidate Register ROMCIV 16 16 2 ICLK Flash 0008 101Ch SYSTE M ROM Wait Cycle Setting Register ROMWT 8 8 2 ICLK Clock Generatio n Circuit 0008 1200h RAM RAM Operating Mode Control Register RAMMODE 8 8 2 ICLK RAM 0008 1201h RAM RAM Error Status Register RAMSTS 8 8 2 ICLK RAM 0008 1204h RAM RAM Protection Register RAMPRCR 8 8 2 ICLK RAM 0008 1208h RAM RAM Error Address Capture Register RAMECAD 32 32 2 ICLK RAM 0008 1240h RAM Expansion RAM Operating Mode Control Register EXRAMMOD E 8 8 2 ICLK RAM 0008 1241h RAM Expansion RAM Error Status Register EXRAMSTS 8 8 2 ICLK RAM 0008 1244h RAM Expansion RAM Protection Register EXRAMPRCR 8 8 2 ICLK RAM 0008 1248h RAM Expansion RAM Error Address Capture Register EXRAMECAD 32 32 2 ICLK RAM 0008 1300h BSC Bus Error Status Clear Register BERCLR 8 8 2 ICLK Buses 0008 1304h BSC Bus Error Monitoring Enable Register BEREN 8 8 2 ICLK Buses 0008 1308h BSC Bus Error Status Register 1 BERSR1 8 8 2 ICLK Buses 0008 130Ah BSC Bus Error Status Register 2 BERSR2 16 16 2 ICLK Buses 0008 1310h BSC Bus Priority Control Register BUSPRI 16 16 2 ICLK Buses 0008 2000h DMAC0 DMA Source Address Register DMSAR 32 32 2 ICLK DMACAa 0008 2004h DMAC0 DMA Destination Address Register DMDAR 32 32 2 ICLK DMACAa 0008 2008h DMAC0 DMA Transfer Count Register DMCRA 32 32 2 ICLK DMACAa 0008 200Ch DMAC0 DMA Block Transfer Count Register DMCRB 16 16 2 ICLK DMACAa 0008 2010h DMAC0 DMA Transfer Mode Register DMTMD 16 16 2 ICLK DMACAa 0008 2013h DMAC0 DMA Interrupt Setting Register DMINT 8 8 2 ICLK DMACAa R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 95 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (3 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 2014h DMAC0 DMA Address Mode Register DMAMD 16 16 2 ICLK DMACAa 0008 2018h DMAC0 DMA Offset Register DMOFR 32 32 2 ICLK DMACAa 0008 201Ch DMAC0 DMA Transfer Enable Register DMCNT 8 8 2 ICLK DMACAa 0008 201Dh DMAC0 DMA Software Start Register DMREQ 8 8 2 ICLK DMACAa 0008 201Eh DMAC0 DMA Status Register DMSTS 8 8 2 ICLK DMACAa 0008 201Fh DMAC0 DMA Request Source Flag Control Register DMCSL 8 8 2 ICLK DMACAa 0008 2040h DMAC1 DMA Source Address Register DMSAR 32 32 2 ICLK DMACAa 0008 2044h DMAC1 DMA Destination Address Register DMDAR 32 32 2 ICLK DMACAa 0008 2048h DMAC1 DMA Transfer Count Register DMCRA 32 32 2 ICLK DMACAa 0008 204Ch DMAC1 DMA Block Transfer Count Register DMCRB 16 16 2 ICLK DMACAa 0008 2050h DMAC1 DMA Transfer Mode Register DMTMD 16 16 2 ICLK DMACAa 0008 2053h DMAC1 DMA Interrupt Setting Register DMINT 8 8 2 ICLK DMACAa 0008 2054h DMAC1 DMA Address Mode Register DMAMD 16 16 2 ICLK DMACAa 0008 205Ch DMAC1 DMA Transfer Enable Register DMCNT 8 8 2 ICLK DMACAa 0008 205Dh DMAC1 DMA Software Start Register DMREQ 8 8 2 ICLK DMACAa 0008 205Eh DMAC1 DMA Status Register DMSTS 8 8 2 ICLK DMACAa 0008 205Fh DMAC1 DMA Request Source Flag Control Register DMCSL 8 8 2 ICLK DMACAa 0008 2080h DMAC2 DMA Source Address Register DMSAR 32 32 2 ICLK DMACAa 0008 2084h DMAC2 DMA Destination Address Register DMDAR 32 32 2 ICLK DMACAa 0008 2088h DMAC2 DMA Transfer Count Register DMCRA 32 32 2 ICLK DMACAa 0008 208Ch DMAC2 DMA Block Transfer Count Register DMCRB 16 16 2 ICLK DMACAa 0008 2090h DMAC2 DMA Transfer Mode Register DMTMD 16 16 2 ICLK DMACAa 0008 2093h DMAC2 DMA Interrupt Setting Register DMINT 8 8 2 ICLK DMACAa 0008 2094h DMAC2 DMA Address Mode Register DMAMD 16 16 2 ICLK DMACAa 0008 209Ch DMAC2 DMA Transfer Enable Register DMCNT 8 8 2 ICLK DMACAa 0008 209Dh DMAC2 DMA Software Start Register DMREQ 8 8 2 ICLK DMACAa 0008 209Eh DMAC2 DMA Status Register DMSTS 8 8 2 ICLK DMACAa 0008 209Fh DMAC2 DMA Request Source Flag Control Register DMCSL 8 8 2 ICLK DMACAa 0008 20C0h DMAC3 DMA Source Address Register DMSAR 32 32 2 ICLK DMACAa 0008 20C4h DMAC3 DMA Destination Address Register DMDAR 32 32 2 ICLK DMACAa 0008 20C8h DMAC3 DMA Transfer Count Register DMCRA 32 32 2 ICLK DMACAa 0008 20CCh DMAC3 DMA Block Transfer Count Register DMCRB 16 16 2 ICLK DMACAa 0008 20D0h DMAC3 DMA Transfer Mode Register DMTMD 16 16 2 ICLK DMACAa 0008 20D3h DMAC3 DMA Interrupt Setting Register DMINT 8 8 2 ICLK DMACAa 0008 20D4h DMAC3 DMA Address Mode Register DMAMD 16 16 2 ICLK DMACAa 0008 20DCh DMAC3 DMA Transfer Enable Register DMCNT 8 8 2 ICLK DMACAa 0008 20DDh DMAC3 DMA Software Start Register DMREQ 8 8 2 ICLK DMACAa 0008 20DEh DMAC3 DMA Status Register DMSTS 8 8 2 ICLK DMACAa 0008 20DFh DMAC3 DMA Request Source Flag Control Register DMCSL 8 8 2 ICLK DMACAa 0008 2100h DMAC4 DMA Source Address Register DMSAR 32 32 2 ICLK DMACAa 0008 2104h DMAC4 DMA Destination Address Register DMDAR 32 32 2 ICLK DMACAa 0008 2108h DMAC4 DMA Transfer Count Register DMCRA 32 32 2 ICLK DMACAa 0008 210Ch DMAC4 DMA Block Transfer Count Register DMCRB 16 16 2 ICLK DMACAa 0008 2110h DMAC4 DMA Transfer Mode Register DMTMD 16 16 2 ICLK DMACAa 0008 2113h DMAC4 DMA Interrupt Setting Register DMINT 8 8 2 ICLK DMACAa 0008 2114h DMAC4 DMA Address Mode Register DMAMD 16 16 2 ICLK DMACAa 0008 211Ch DMAC4 DMA Transfer Enable Register DMCNT 8 8 2 ICLK DMACAa 0008 211Dh DMAC4 DMA Software Start Register DMREQ 8 8 2 ICLK DMACAa 0008 211Eh DMAC4 DMA Status Register DMSTS 8 8 2 ICLK DMACAa 0008 211Fh DMAC4 DMA Request Source Flag Control Register DMCSL 8 8 2 ICLK DMACAa R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 96 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (4 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 2140h DMAC5 DMA Source Address Register DMSAR 32 32 2 ICLK DMACAa 0008 2144h DMAC5 DMA Destination Address Register DMDAR 32 32 2 ICLK DMACAa 0008 2148h DMAC5 DMA Transfer Count Register DMCRA 32 32 2 ICLK DMACAa 0008 214Ch DMAC5 DMA Block Transfer Count Register DMCRB 16 16 2 ICLK DMACAa 0008 2150h DMAC5 DMA Transfer Mode Register DMTMD 16 16 2 ICLK DMACAa 0008 2153h DMAC5 DMA Interrupt Setting Register DMINT 8 8 2 ICLK DMACAa 0008 2154h DMAC5 DMA Address Mode Register DMAMD 16 16 2 ICLK DMACAa 0008 215Ch DMAC5 DMA Transfer Enable Register DMCNT 8 8 2 ICLK DMACAa 0008 215Dh DMAC5 DMA Software Start Register DMREQ 8 8 2 ICLK DMACAa 0008 215Eh DMAC5 DMA Status Register DMSTS 8 8 2 ICLK DMACAa 0008 215Fh DMAC5 DMA Request Source Flag Control Register DMCSL 8 8 2 ICLK DMACAa 0008 2180h DMAC6 DMA Source Address Register DMSAR 32 32 2 ICLK DMACAa 0008 2184h DMAC6 DMA Destination Address Register DMDAR 32 32 2 ICLK DMACAa 0008 2188h DMAC6 DMA Transfer Count Register DMCRA 32 32 2 ICLK DMACAa 0008 218Ch DMAC6 DMA Block Transfer Count Register DMCRB 16 16 2 ICLK DMACAa 0008 2190h DMAC6 DMA Transfer Mode Register DMTMD 16 16 2 ICLK DMACAa 0008 2193h DMAC6 DMA Interrupt Setting Register DMINT 8 8 2 ICLK DMACAa 0008 2194h DMAC6 DMA Address Mode Register DMAMD 16 16 2 ICLK DMACAa 0008 219Ch DMAC6 DMA Transfer Enable Register DMCNT 8 8 2 ICLK DMACAa 0008 219Dh DMAC6 DMA Software Start Register DMREQ 8 8 2 ICLK DMACAa 0008 219Eh DMAC6 DMA Status Register DMSTS 8 8 2 ICLK DMACAa 0008 219Fh DMAC6 DMA Request Source Flag Control Register DMCSL 8 8 2 ICLK DMACAa 0008 21C0h DMAC7 DMA Source Address Register DMSAR 32 32 2 ICLK DMACAa 0008 21C4h DMAC7 DMA Destination Address Register DMDAR 32 32 2 ICLK DMACAa 0008 21C8h DMAC7 DMA Transfer Count Register DMCRA 32 32 2 ICLK DMACAa 0008 21CCh DMAC7 DMA Block Transfer Count Register DMCRB 16 16 2 ICLK DMACAa 0008 21D0h DMAC7 DMA Transfer Mode Register DMTMD 16 16 2 ICLK DMACAa 0008 21D3h DMAC7 DMA Interrupt Setting Register DMINT 8 8 2 ICLK DMACAa 0008 21D4h DMAC7 DMA Address Mode Register DMAMD 16 16 2 ICLK DMACAa 0008 21DCh DMAC7 DMA Transfer Enable Register DMCNT 8 8 2 ICLK DMACAa 0008 21DDh DMAC7 DMA Software Start Register DMREQ 8 8 2 ICLK DMACAa 0008 21DEh DMAC7 DMA Status Register DMSTS 8 8 2 ICLK DMACAa 0008 21DFh DMAC7 DMA Request Source Flag Control Register DMCSL 8 8 2 ICLK DMACAa 0008 2200h DMAC DMAC Module Start Register DMAST 8 8 2 ICLK DMACAa 0008 2204h DMAC DMAC74 Interrupt Status Monitor Register DMIST 8 8 2 ICLK DMACAa 0008 2400h DTC DTC Control Register DTCCR 8 8 2 ICLK DTCb 0008 2404h DTC DTC Vector Base Register DTCVBR 32 32 2 ICLK DTCb 0008 2408h DTC DTC Address Mode Register DTCADMOD 8 8 2 ICLK DTCb 0008 240Ch DTC DTC Module Start Register DTCST 8 8 2 ICLK DTCb 0008 240Eh DTC DTC Status Register DTCSTS 16 16 2 ICLK DTCb 0008 2410h DTC DTC Index Table Base Register DTCIBR 32 32 2 ICLK DTCb 0008 2414h DTC DTC Operation Register DTCOR 8 8 2 ICLK DTCb 0008 2416h DTC DTC Sequence Transfer Enable Register DTCSQE 16 16 2 ICLK DTCb 0008 2418h DTC DTC Address Displacement Register DTCDISP 32 32 2 ICLK DTCb 0008 2800h EXDMA EXDMA Source Address Register C0 EDMSAR 32 32 1, 2 BCLK EXDMAC a 0008 2804h EXDMA EXDMA Destination Address Register C0 EDMDAR 32 32 1, 2 BCLK EXDMAC a 0008 2808h EXDMA EXDMA Transfer Count Register C0 EDMCRA 32 32 1, 2 BCLK EXDMAC a R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 97 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (5 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Module Symbol Register Name Register Symbol 0008 280Ch EXDMA EXDMA Block Transfer Count Register C0 EDMCRB 16 16 1, 2 BCLK EXDMAC a 0008 2810h EXDMA EXDMA Transfer Mode Register C0 EDMTMD 16 16 1, 2 BCLK EXDMAC a 0008 2812h EXDMA EXDMA Output Setting Register C0 EDMOMD 8 8 1, 2 BCLK EXDMAC a 0008 2813h EXDMA EXDMA Interrupt Setting Register C0 EDMINT 8 8 1, 2 BCLK EXDMAC a 0008 2814h EXDMA EXDMA Address Mode Register C0 EDMAMD 32 32 1, 2 BCLK EXDMAC a 0008 2818h EXDMA EXDMA Offset Register C0 EDMOFR 32 32 1, 2 BCLK EXDMAC a 0008 281Ch EXDMA EXDMA Transfer Enable Register C0 EDMCNT 8 8 1, 2 BCLK EXDMAC a 0008 281Dh EXDMA EXDMA Software Start Register C0 EDMREQ 8 8 1, 2 BCLK EXDMAC a 0008 281Eh EXDMA EXDMA Status Register C0 EDMSTS 8 8 1, 2 BCLK EXDMAC a 0008 2820h EXDMA EXDMA External Request Sense Mode Register C0 EDMRMD 8 8 1, 2 BCLK EXDMAC a 0008 2821h EXDMA EXDMA External Request Flag Register C0 EDMERF 8 8 1, 2 BCLK EXDMAC a 0008 2822h EXDMA EXDMA Peripheral Request Flag Register C0 EDMPRF 8 8 1, 2 BCLK EXDMAC a 0008 2840h EXDMA EXDMA Source Address Register C1 EDMSAR 32 32 1, 2 BCLK EXDMAC a 0008 2844h EXDMA EXDMA Destination Address Register C1 EDMDAR 32 32 1, 2 BCLK EXDMAC a 0008 2848h EXDMA EXDMA Transfer Count Register C1 EDMCRA 32 32 1, 2 BCLK EXDMAC a 0008 284Ch EXDMA EXDMA Block Transfer Count Register C1 EDMCRB 16 16 1, 2 BCLK EXDMAC a 0008 2850h EXDMA EXDMA Transfer Mode Register C1 EDMTMD 16 16 1, 2 BCLK EXDMAC a 0008 2852h EXDMA EXDMA Output Setting Register C1 EDMOMD 8 8 1, 2 BCLK EXDMAC a 0008 2853h EXDMA EXDMA Interrupt Setting Register C1 EDMINT 8 8 1, 2 BCLK EXDMAC a 0008 2854h EXDMA EXDMA Address Mode Register C1 EDMAMD 32 32 1, 2 BCLK EXDMAC a 0008 285Ch EXDMA EXDMA Transfer Enable Register C1 EDMCNT 8 8 1, 2 BCLK EXDMAC a 0008 285Dh EXDMA EXDMA Software Start Register C1 EDMREQ 8 8 1, 2 BCLK EXDMAC a 0008 285Eh EXDMA EXDMA Status Register C1 EDMSTS 8 8 1, 2 BCLK EXDMAC a 0008 2860h EXDMA EXDMA External Request Sense Mode Register C1 EDMRMD 8 8 1, 2 BCLK EXDMAC a 0008 2861h EXDMA EXDMA External Request Flag Register C1 EDMERF 8 8 1, 2 BCLK EXDMAC a 0008 2862h EXDMA EXDMA Peripheral Request Flag Register C1 EDMPRF 8 8 1, 2 BCLK EXDMAC a 0008 2A00h EXDMA EXDMAC Module Start Register C EDMAST 8 8 1, 2 BCLK EXDMAC a 0008 2BE0h EXDMA Cluster Buffer Register 0 C CLSBR0 32 32 1, 2 BCLK EXDMAC a 0008 2BE4h EXDMA Cluster Buffer Register 1 C CLSBR1 32 32 1, 2 BCLK EXDMAC a 0008 2BE8h EXDMA Cluster Buffer Register 2 C CLSBR2 32 32 1, 2 BCLK EXDMAC a 0008 2BECh EXDMA Cluster Buffer Register 3 C CLSBR3 32 32 1, 2 BCLK EXDMAC a Address R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 98 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (6 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Module Symbol Register Name Register Symbol 0008 2BF0h EXDMA Cluster Buffer Register 4 C CLSBR4 32 32 1, 2 BCLK EXDMAC a 0008 2BF4h EXDMA Cluster Buffer Register 5 C CLSBR5 32 32 1, 2 BCLK EXDMAC a 0008 2BF8h EXDMA Cluster Buffer Register 6 C CLSBR6 32 32 1, 2 BCLK EXDMAC a 0008 2BFCh EXDMA Cluster Buffer Register 7 C CLSBR7 32 32 1, 2 BCLK EXDMAC a 0008 3002h BSC CS0 Mode Register CS0MOD 16 16 1, 2 BCLK Buses 0008 3004h BSC CS0 Wait Control Register 1 CS0WCR1 32 32 1, 2 BCLK Buses 0008 3008h BSC CS0 Wait Control Register 2 CS0WCR2 32 32 1, 2 BCLK Buses 0008 3012h BSC CS1 Mode Register CS1MOD 16 16 1, 2 BCLK Buses 0008 3014h BSC CS1 Wait Control Register 1 CS1WCR1 32 32 1, 2 BCLK Buses Address 0008 3018h BSC CS1 Wait Control Register 2 CS1WCR2 32 32 1, 2 BCLK Buses 0008 3022h BSC CS2 Mode Register CS2MOD 16 16 1, 2 BCLK Buses 0008 3024h BSC CS2 Wait Control Register 1 CS2WCR1 32 32 1, 2 BCLK Buses 0008 3028h BSC CS2 Wait Control Register 2 CS2WCR2 32 32 1, 2 BCLK Buses 0008 3032h BSC CS3 Mode Register CS3MOD 16 16 1, 2 BCLK Buses 0008 3034h BSC CS3 Wait Control Register 1 CS3WCR1 32 32 1, 2 BCLK Buses 0008 3038h BSC CS3 Wait Control Register 2 CS3WCR2 32 32 1, 2 BCLK Buses 0008 3042h BSC CS4 Mode Register CS4MOD 16 16 1, 2 BCLK Buses 0008 3044h BSC CS4 Wait Control Register 1 CS4WCR1 32 32 1, 2 BCLK Buses 0008 3048h BSC CS4 Wait Control Register 2 CS4WCR2 32 32 1, 2 BCLK Buses 0008 3052h BSC CS5 Mode Register CS5MOD 16 16 1, 2 BCLK Buses 0008 3054h BSC CS5 Wait Control Register 1 CS5WCR1 32 32 1, 2 BCLK Buses 0008 3058h BSC CS5 Wait Control Register 2 CS5WCR2 32 32 1, 2 BCLK Buses 0008 3062h BSC CS6 Mode Register CS6MOD 16 16 1, 2 BCLK Buses 0008 3064h BSC CS6 Wait Control Register 1 CS6WCR1 32 32 1, 2 BCLK Buses 0008 3068h BSC CS6 Wait Control Register 2 CS6WCR2 32 32 1, 2 BCLK Buses 0008 3072h BSC CS7 Mode Register CS7MOD 16 16 1, 2 BCLK Buses 0008 3074h BSC CS7 Wait Control Register 1 CS7WCR1 32 32 1, 2 BCLK Buses 0008 3078h BSC CS7 Wait Control Register 2 CS7WCR2 32 32 1, 2 BCLK Buses 0008 3802h BSC CS0 Control Register CS0CR 16 16 1, 2 BCLK Buses 0008 380Ah BSC CS0 Recovery Cycle Register CS0REC 16 16 1, 2 BCLK Buses 0008 3812h BSC CS1 Control Register CS1CR 16 16 1, 2 BCLK Buses 0008 381Ah BSC CS1 Recovery Cycle Register CS1REC 16 16 1, 2 BCLK Buses 0008 3822h BSC CS2 Control Register CS2CR 16 16 1, 2 BCLK Buses 0008 382Ah BSC CS2 Recovery Cycle Register CS2REC 16 16 1, 2 BCLK Buses 0008 3832h BSC CS3 Control Register CS3CR 16 16 1, 2 BCLK Buses 0008 383Ah BSC CS3 Recovery Cycle Register CS3REC 16 16 1, 2 BCLK Buses 0008 3842h BSC CS4 Control Register CS4CR 16 16 1, 2 BCLK Buses 0008 384Ah BSC CS4 Recovery Cycle Register CS4REC 16 16 1, 2 BCLK Buses 0008 3852h BSC CS5 Control Register CS5CR 16 16 1, 2 BCLK Buses 0008 385Ah BSC CS5 Recovery Cycle Register CS5REC 16 16 1, 2 BCLK Buses 0008 3862h BSC CS6 Control Register CS6CR 16 16 1, 2 BCLK Buses 0008 386Ah BSC CS6 Recovery Cycle Register CS6REC 16 16 1, 2 BCLK Buses 0008 3872h BSC CS7 Control Register CS7CR 16 16 1, 2 BCLK Buses 0008 387Ah BSC CS7 Recovery Cycle Register CS7REC 16 16 1, 2 BCLK Buses 0008 3880h BSC CS Recovery Cycle Insertion Enable Register CSRECEN 16 16 1, 2 BCLK Buses 0008 3C00h BSC SDC Control Register SDCCR 8 8 1, 2 BCLK Buses 0008 3C01h BSC SDC Mode Register SDCMOD 8 8 1, 2 BCLK Buses R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 99 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (7 / 60) Address Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 3C02h BSC SDRAM Access Mode Register SDAMOD 8 8 1, 2 BCLK Buses 0008 3C10h BSC SDRAM Self-Refresh Control Register SDSELF 8 8 1, 2 BCLK Buses 0008 3C14h BSC SDRAM Refresh Control Register SDRFCR 16 16 1, 2 BCLK Buses 0008 3C16h BSC SDRAM Auto-Refresh Control Register SDRFEN 8 8 1, 2 BCLK Buses 0008 3C20h BSC SDRAM Initialization Sequence Control Register SDICR 8 8 1, 2 BCLK Buses 0008 3C24h BSC SDRAM Initialization Register SDIR 16 16 1, 2 BCLK Buses 0008 3C40h BSC SDRAM Address Register SDADR 8 8 1, 2 BCLK Buses 0008 3C44h BSC SDRAM Timing Register SDTR 32 32 1, 2 BCLK Buses 0008 3C48h BSC SDRAM Mode Register SDMOD 16 16 1, 2 BCLK Buses 0008 3C50h BSC SDRAM Status Register SDSR 8 8 1, 2 BCLK Buses 0008 6400h MPU Region-0 Start Page Number Register RSPAGE0 32 32 1 ICLK MPU 0008 6404h MPU Region-0 End Page Number Register REPAGE0 32 32 1 ICLK MPU 0008 6408h MPU Region-1 Start Page Number Register RSPAGE1 32 32 1 ICLK MPU 0008 640Ch MPU Region-1 End Page Number Register REPAGE1 32 32 1 ICLK MPU 0008 6410h MPU Region-2 Start Page Number Register RSPAGE2 32 32 1 ICLK MPU 0008 6414h MPU Region-2 End Page Number Register REPAGE2 32 32 1 ICLK MPU 0008 6418h MPU Region-3 Start Page Number Register RSPAGE3 32 32 1 ICLK MPU 0008 641Ch MPU Region-3 End Page Number Register REPAGE3 32 32 1 ICLK MPU 0008 6420h MPU Region-4 Start Page Number Register RSPAGE4 32 32 1 ICLK MPU 0008 6424h MPU Region-4 End Page Number Register REPAGE4 32 32 1 ICLK MPU 0008 6428h MPU Region-5 Start Page Number Register RSPAGE5 32 32 1 ICLK MPU 0008 642Ch MPU Region-5 End Page Number Register REPAGE5 32 32 1 ICLK MPU 0008 6430h MPU Region-6 Start Page Number Register RSPAGE6 32 32 1 ICLK MPU 0008 6434h MPU Region-6 End Page Number Register REPAGE6 32 32 1 ICLK MPU 0008 6438h MPU Region-7 Start Page Number Register RSPAGE7 32 32 1 ICLK MPU 0008 643Ch MPU Region-7 End Page Number Register REPAGE7 32 32 1 ICLK MPU 0008 6500h MPU Memory-Protection Enable Register MPEN 32 32 1 ICLK MPU 0008 6504h MPU Background Access Control Register MPBAC 32 32 1 ICLK MPU 0008 6508h MPU Memory-Protection Error Status-Clearing Register MPECLR 32 32 1 ICLK MPU 0008 650Ch MPU Memory-Protection Error Status Register MPESTS 32 32 1 ICLK MPU 0008 6514h MPU Data Memory-Protection Error Address Register MPDEA 32 32 1 ICLK MPU 0008 6520h MPU Region Search Address Register MPSA 32 32 1 ICLK MPU 0008 6524h MPU Region Search Operation Register MPOPS 16 16 1 ICLK MPU 0008 6526h MPU Region Invalidation Operation Register MPOPI 16 16 1 ICLK MPU 0008 6528h MPU Instruction-Hit Region Register MHITI 32 32 1 ICLK MPU 0008 652Ch MPU Data-Hit Region Register MHITD 32 32 1 ICLK MPU 0008 7010h to ICU 0008 70FFh Interrupt Request Register 016 to Interrupt Request Register 255 IR016 to IR255 8 8 2 ICLK ICUB 0008 711Ah to ICU 0008 71FFh DTC Transfer Request Enable Register 026 to DTC Transfer Request Enable Register 255 DTCER026 to DTCER255 8 8 2 ICLK ICUB 0008 7202h to ICU 0008 721Fh Interrupt Request Enable Register 02 to Interrupt Request Enable Register 1F IER02 to IER1F 8 8 2 ICLK ICUB 0008 72E0h ICU Software Interrupt Generation Register SWINTR 8 8 2 ICLK ICUB 0008 72E1h ICU Software Interrupt 2 Generation Register SWINT2R 8 8 2 ICLK ICUB 0008 72F0h ICU 16 2 ICLK ICUB Fast Interrupt Set Register FIR 16 0008 7300h to ICU 0008 73FFh Interrupt Source Priority Register 000 to Interrupt Source Priority Register 255 IPR000 to IPR255 8 8 2 ICLK ICUB 0008 7400h ICU DMAC Trigger Select Register 0 DMRSR0 8 8 2 ICLK ICUB 0008 7404h ICU DMAC Trigger Select Register 1 DMRSR1 8 8 2 ICLK ICUB 0008 7408h ICU DMAC Trigger Select Register 2 DMRSR2 8 8 2 ICLK ICUB 0008 740Ch ICU DMAC Trigger Select Register 3 DMRSR3 8 8 2 ICLK ICUB R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 100 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (8 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 7410h ICU DMAC Trigger Select Register 4 DMRSR4 8 8 2 ICLK ICUB 0008 7414h ICU DMAC Trigger Select Register 5 DMRSR5 8 8 2 ICLK ICUB 0008 7418h ICU DMAC Trigger Select Register 6 DMRSR6 8 8 2 ICLK ICUB 0008 741Ch ICU DMAC Trigger Select Register 7 DMRSR7 8 8 2 ICLK ICUB 0008 7500h to ICU 0008 750Fh IRQ Control Register 0 to IRQ Control Register 15 IRQCR0 to IRQCR15 8 8 2 ICLK ICUB 0008 7520h ICU IRQ Pin Digital Filter Enable Register 0 IRQFLTE0 8 8 2 ICLK ICUB 0008 7521h ICU IRQ Pin Digital Filter Enable Register 1 IRQFLTE1 8 8 2 ICLK ICUB 0008 7528h ICU IRQ Pin Digital Filter Setting Register 0 IRQFLTC0 16 16 2 ICLK ICUB 0008 752Ah ICU IRQ Pin Digital Filter Setting Register 1 IRQFLTC1 16 16 2 ICLK ICUB 0008 7580h ICU Non-Maskable Interrupt Status Register NMISR 8 8 2 ICLK ICUB 0008 7581h ICU Non-Maskable Interrupt Enable Register NMIER 8 8 2 ICLK ICUB 0008 7582h ICU Non-Maskable Interrupt Status Clear Register NMICLR 8 8 2 ICLK ICUB 0008 7583h ICU NMI Pin Interrupt Control Register NMICR 8 8 2 ICLK ICUB 0008 7590h ICU NMI Pin Digital Filter Enable Register NMIFLTE 8 8 2 ICLK ICUB 0008 7594h ICU NMI Pin Digital Filter Setting Register NMIFLTC 8 8 2 ICLK ICUB 0008 7600h ICU Group BE0 Interrupt Request Register GRPBE0 32 32 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7630h ICU Group BL0 Interrupt Request Register GRPBL0 32 32 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7634h ICU Group BL1 Interrupt Request Register GRPBL1 32 32 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7638h ICU Group BL2 Interrupt Request Register GRPBL2 32 32 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7640h ICU Group BE0 Interrupt Request Enable Register GENBE0 32 32 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7670h ICU Group BL0 Interrupt Request Enable Register GENBL0 32 32 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7674h ICU Group BL1 Interrupt Request Enable Register GENBL1 32 32 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7678h ICU Group BL2 Interrupt Request Enable Register GENBL2 32 32 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7680h ICU Group BE0 Interrupt Clear Register GCRBE0 32 32 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7700h ICU Software Configurable Interrupt B Request Register 0 PIBR0 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7701h ICU Software Configurable Interrupt B Request Register 1 PIBR1 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7702h ICU Software Configurable Interrupt B Request Register 2 PIBR2 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7703h ICU Software Configurable Interrupt B Request Register 3 PIBR3 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7704h ICU Software Configurable Interrupt B Request Register 4 PIBR4 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7705h ICU Software Configurable Interrupt B Request Register 5 PIBR5 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7706h ICU Software Configurable Interrupt B Request Register 6 PIBR6 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7707h ICU Software Configurable Interrupt B Request Register 7 PIBR7 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7708h ICU Software Configurable Interrupt B Request Register 8 PIBR8 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7709h ICU Software Configurable Interrupt B Request Register 9 PIBR9 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 770Ah ICU Software Configurable Interrupt B Request Register A PIBRA 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 770Bh ICU Software Configurable Interrupt B Request Register B PIBRB 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7780h ICU Software Configurable Interrupt B Source Select Register X128 SLIBXR128 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7781h ICU Software Configurable Interrupt B Source Select Register X129 SLIBXR129 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7782h ICU Software Configurable Interrupt B Source Select Register X130 SLIBXR130 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 101 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (9 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 7783h ICU Software Configurable Interrupt B Source Select Register X131 SLIBXR131 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7784h ICU Software Configurable Interrupt B Source Select Register X132 SLIBXR132 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7785h ICU Software Configurable Interrupt B Source Select Register X133 SLIBXR133 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7786h ICU Software Configurable Interrupt B Source Select Register X134 SLIBXR134 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7787h ICU Software Configurable Interrupt B Source Select Register X135 SLIBXR135 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7788h ICU Software Configurable Interrupt B Source Select Register X136 SLIBXR136 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7789h ICU Software Configurable Interrupt B Source Select Register X137 SLIBXR137 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 778Ah ICU Software Configurable Interrupt B Source Select Register X138 SLIBXR138 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 778Bh ICU Software Configurable Interrupt B Source Select Register X139 SLIBXR139 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 778Ch ICU Software Configurable Interrupt B Source Select Register X140 SLIBXR140 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 778Dh ICU Software Configurable Interrupt B Source Select Register X141 SLIBXR141 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 778Eh ICU Software Configurable Interrupt B Source Select Register X142 SLIBXR142 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 778Fh ICU Software Configurable Interrupt B Source Select Register X143 SLIBXR143 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7790h ICU Software Configurable Interrupt B Source Select Register 144 SLIBR144 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7791h ICU Software Configurable Interrupt B Source Select Register 145 SLIBR145 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7792h ICU Software Configurable Interrupt B Source Select Register 146 SLIBR146 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7793h ICU Software Configurable Interrupt B Source Select Register 147 SLIBR147 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7794h ICU Software Configurable Interrupt B Source Select Register 148 SLIBR148 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7795h ICU Software Configurable Interrupt B Source Select Register 149 SLIBR149 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7796h ICU Software Configurable Interrupt B Source Select Register 150 SLIBR150 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7797h ICU Software Configurable Interrupt B Source Select Register 151 SLIBR151 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7798h ICU Software Configurable Interrupt B Source Select Register 152 SLIBR152 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7799h ICU Software Configurable Interrupt B Source Select Register 153 SLIBR153 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 779Ah ICU Software Configurable Interrupt B Source Select Register 154 SLIBR154 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 779Bh ICU Software Configurable Interrupt B Source Select Register 155 SLIBR155 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 779Ch ICU Software Configurable Interrupt B Source Select Register 156 SLIBR156 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 779Dh ICU Software Configurable Interrupt B Source Select Register 157 SLIBR157 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 779Eh ICU Software Configurable Interrupt B Source Select Register 158 SLIBR158 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 779Fh ICU Software Configurable Interrupt B Source Select Register 159 SLIBR159 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77A0h ICU Software Configurable Interrupt B Source Select Register 160 SLIBR160 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77A1h ICU Software Configurable Interrupt B Source Select Register 161 SLIBR161 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 102 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (10 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 77A2h ICU Software Configurable Interrupt B Source Select Register 162 SLIBR162 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77A3h ICU Software Configurable Interrupt B Source Select Register 163 SLIBR163 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77A4h ICU Software Configurable Interrupt B Source Select Register 164 SLIBR164 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77A5h ICU Software Configurable Interrupt B Source Select Register 165 SLIBR165 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77A6h ICU Software Configurable Interrupt B Source Select Register 166 SLIBR166 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77A7h ICU Software Configurable Interrupt B Source Select Register 167 SLIBR167 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77A8h ICU Software Configurable Interrupt B Source Select Register 168 SLIBR168 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77A9h ICU Software Configurable Interrupt B Source Select Register 169 SLIBR169 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77AAh ICU Software Configurable Interrupt B Source Select Register 170 SLIBR170 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77ABh ICU Software Configurable Interrupt B Source Select Register 171 SLIBR171 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77ACh ICU Software Configurable Interrupt B Source Select Register 172 SLIBR172 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77ADh ICU Software Configurable Interrupt B Source Select Register 173 SLIBR173 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77AEh ICU Software Configurable Interrupt B Source Select Register 174 SLIBR174 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77AFh ICU Software Configurable Interrupt B Source Select Register 175 SLIBR175 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77B0h ICU Software Configurable Interrupt B Source Select Register 176 SLIBR176 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77B1h ICU Software Configurable Interrupt B Source Select Register 177 SLIBR177 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77B2h ICU Software Configurable Interrupt B Source Select Register 178 SLIBR178 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77B3h ICU Software Configurable Interrupt B Source Select Register 179 SLIBR179 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77B4h ICU Software Configurable Interrupt B Source Select Register 180 SLIBR180 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77B5h ICU Software Configurable Interrupt B Source Select Register 181 SLIBR181 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77B6h ICU Software Configurable Interrupt B Source Select Register 182 SLIBR182 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77B7h ICU Software Configurable Interrupt B Source Select Register 183 SLIBR183 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77B8h ICU Software Configurable Interrupt B Source Select Register 184 SLIBR184 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77B9h ICU Software Configurable Interrupt B Source Select Register 185 SLIBR185 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77BAh ICU Software Configurable Interrupt B Source Select Register 186 SLIBR186 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77BBh ICU Software Configurable Interrupt B Source Select Register 187 SLIBR187 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77BCh ICU Software Configurable Interrupt B Source Select Register 188 SLIBR188 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77BDh ICU Software Configurable Interrupt B Source Select Register 189 SLIBR189 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77BEh ICU Software Configurable Interrupt B Source Select Register 190 SLIBR190 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77BFh ICU Software Configurable Interrupt B Source Select Register 191 SLIBR191 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77C0h ICU Software Configurable Interrupt B Source Select Register 192 SLIBR192 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 103 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (11 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 77C1h ICU Software Configurable Interrupt B Source Select Register 193 SLIBR193 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77C2h ICU Software Configurable Interrupt B Source Select Register 194 SLIBR194 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77C3h ICU Software Configurable Interrupt B Source Select Register 195 SLIBR195 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77C4h ICU Software Configurable Interrupt B Source Select Register 196 SLIBR196 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77C5h ICU Software Configurable Interrupt B Source Select Register 197 SLIBR197 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77C6h ICU Software Configurable Interrupt B Source Select Register 198 SLIBR198 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77C7h ICU Software Configurable Interrupt B Source Select Register 199 SLIBR199 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77C8h ICU Software Configurable Interrupt B Source Select Register 200 SLIBR200 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77C9h ICU Software Configurable Interrupt B Source Select Register 201 SLIBR201 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77CAh ICU Software Configurable Interrupt B Source Select Register 202 SLIBR202 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77CBh ICU Software Configurable Interrupt B Source Select Register 203 SLIBR203 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77CCh ICU Software Configurable Interrupt B Source Select Register 204 SLIBR204 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77CDh ICU Software Configurable Interrupt B Source Select Register 205 SLIBR205 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77CEh ICU Software Configurable Interrupt B Source Select Register 206 SLIBR206 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 77CFh ICU Software Configurable Interrupt B Source Select Register 207 SLIBR207 8 8 2 ICLK to 1 PCLKB 2 ICLK ICUB 0008 7830h ICU Group AL0 Interrupt Request Register GRPAL0 32 32 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 7834h ICU Group AL1 Interrupt Request Register GRPAL1 32 32 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 7870h ICU Group AL0 Interrupt Request Enable Register GENAL0 32 32 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 7874h ICU Group AL1 Interrupt Request Enable Register GENAL1 32 32 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 7900h ICU Software Configurable Interrupt A Request Register 0 PIAR0 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 7901h ICU Software Configurable Interrupt A Request Register 1 PIAR1 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 7902h ICU Software Configurable Interrupt A Request Register 2 PIAR2 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 7903h ICU Software Configurable Interrupt A Request Register 3 PIAR3 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 7904h ICU Software Configurable Interrupt A Request Register 4 PIAR4 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 7905h ICU Software Configurable Interrupt A Request Register 5 PIAR5 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 790Bh ICU Software Configurable Interrupt A Request Register B PIARB 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79D0h ICU Software Configurable Interrupt A Source Select Register 208 SLIAR208 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79D1h ICU Software Configurable Interrupt A Source Select Register 209 SLIAR209 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79D2h ICU Software Configurable Interrupt A Source Select Register 210 SLIAR210 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79D3h ICU Software Configurable Interrupt A Source Select Register 211 SLIAR211 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79D4h ICU Software Configurable Interrupt A Source Select Register 212 SLIAR212 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79D5h ICU Software Configurable Interrupt A Source Select Register 213 SLIAR213 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79D6h ICU Software Configurable Interrupt A Source Select Register 214 SLIAR214 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 104 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (12 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 79D7h ICU Software Configurable Interrupt A Source Select Register 215 SLIAR215 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79D8h ICU Software Configurable Interrupt A Source Select Register 216 SLIAR216 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79D9h ICU Software Configurable Interrupt A Source Select Register 217 SLIAR217 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79DAh ICU Software Configurable Interrupt A Source Select Register 218 SLIAR218 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79DBh ICU Software Configurable Interrupt A Source Select Register 219 SLIAR219 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79DCh ICU Software Configurable Interrupt A Source Select Register 220 SLIAR220 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79DDh ICU Software Configurable Interrupt A Source Select Register 221 SLIAR221 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79DEh ICU Software Configurable Interrupt A Source Select Register 222 SLIAR222 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79DFh ICU Software Configurable Interrupt A Source Select Register 223 SLIAR223 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79E0h ICU Software Configurable Interrupt A Source Select Register 224 SLIAR224 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79E1h ICU Software Configurable Interrupt A Source Select Register 225 SLIAR225 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79E2h ICU Software Configurable Interrupt A Source Select Register 226 SLIAR226 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79E3h ICU Software Configurable Interrupt A Source Select Register 227 SLIAR227 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79E4h ICU Software Configurable Interrupt A Source Select Register 228 SLIAR228 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79E5h ICU Software Configurable Interrupt A Source Select Register 229 SLIAR229 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79E6h ICU Software Configurable Interrupt A Source Select Register 230 SLIAR230 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79E7h ICU Software Configurable Interrupt A Source Select Register 231 SLIAR231 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79E8h ICU Software Configurable Interrupt A Source Select Register 232 SLIAR232 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79E9h ICU Software Configurable Interrupt A Source Select Register 233 SLIAR233 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79EAh ICU Software Configurable Interrupt A Source Select Register 234 SLIAR234 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79EBh ICU Software Configurable Interrupt A Source Select Register 235 SLIAR235 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79ECh ICU Software Configurable Interrupt A Source Select Register 236 SLIAR236 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79EDh ICU Software Configurable Interrupt A Source Select Register 237 SLIAR237 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79EEh ICU Software Configurable Interrupt A Source Select Register 238 SLIAR238 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79EFh ICU Software Configurable Interrupt A Source Select Register 239 SLIAR239 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79F0h ICU Software Configurable Interrupt A Source Select Register 240 SLIAR240 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79F1h ICU Software Configurable Interrupt A Source Select Register 241 SLIAR241 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79F2h ICU Software Configurable Interrupt A Source Select Register 242 SLIAR242 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79F3h ICU Software Configurable Interrupt A Source Select Register 243 SLIAR243 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79F4h ICU Software Configurable Interrupt A Source Select Register 244 SLIAR244 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79F5h ICU Software Configurable Interrupt A Source Select Register 245 SLIAR245 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 105 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (13 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 79F6h ICU Software Configurable Interrupt A Source Select Register 246 SLIAR246 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79F7h ICU Software Configurable Interrupt A Source Select Register 247 SLIAR247 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79F8h ICU Software Configurable Interrupt A Source Select Register 248 SLIAR248 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79F9h ICU Software Configurable Interrupt A Source Select Register 249 SLIAR249 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79FAh ICU Software Configurable Interrupt A Source Select Register 250 SLIAR250 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79FBh ICU Software Configurable Interrupt A Source Select Register 251 SLIAR251 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79FCh ICU Software Configurable Interrupt A Source Select Register 252 SLIAR252 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79FDh ICU Software Configurable Interrupt A Source Select Register 253 SLIAR253 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79FEh ICU Software Configurable Interrupt A Source Select Register 254 SLIAR254 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 79FFh ICU Software Configurable Interrupt A Source Select Register 255 SLIAR255 8 8 2 ICLK to 1 PCLKA 2 ICLK ICUB 0008 7A00h ICU Software Configurable Interrupt Source Select Register Write Protect Register SLIPRCR 8 8 2 ICLK to 1 PCLKA/B 2 ICLK ICUB 0008 7A01h ICU EXDMAC Trigger Select Register SELEXDR 8 8 2 ICLK to 1 PCLKA/B 2 ICLK ICUB 0008 8000h CMT Compare Match Timer Start Register 0 CMSTR0 16 16 2, 3 PCLKB 2 ICLK CMT 0008 8002h CMT0 Compare Match Timer Control Register CMCR 16 16 2, 3 PCLKB 2 ICLK CMT 0008 8004h CMT0 Compare Match Counter CMCNT 16 16 2, 3 PCLKB 2 ICLK CMT 0008 8006h CMT0 Compare Match Constant Register CMCOR 16 16 2, 3 PCLKB 2 ICLK CMT 0008 8008h CMT1 Compare Match Timer Control Register CMCR 16 16 2, 3 PCLKB 2 ICLK CMT 0008 800Ah CMT1 Compare Match Counter CMCNT 16 16 2, 3 PCLKB 2 ICLK CMT 0008 800Ch CMT1 Compare Match Constant Register CMCOR 16 16 2, 3 PCLKB 2 ICLK CMT 0008 8010h CMT Compare Match Timer Start Register 1 CMSTR1 16 16 2, 3 PCLKB 2 ICLK CMT 0008 8012h CMT2 Compare Match Timer Control Register CMCR 16 16 2, 3 PCLKB 2 ICLK CMT 0008 8014h CMT2 Compare Match Counter CMCNT 16 16 2, 3 PCLKB 2 ICLK CMT 0008 8016h CMT2 Compare Match Constant Register CMCOR 16 16 2, 3 PCLKB 2 ICLK CMT 0008 8018h CMT3 Compare Match Timer Control Register CMCR 16 16 2, 3 PCLKB 2 ICLK CMT 0008 801Ah CMT3 Compare Match Counter CMCNT 16 16 2, 3 PCLKB 2 ICLK CMT 0008 801Ch CMT3 Compare Match Constant Register CMCOR 16 16 2, 3 PCLKB 2 ICLK CMT 0008 8020h WDT WDT Refresh Register WDTRR 8 8 2, 3 PCLKB 2 ICLK WDTA 0008 8022h WDT WDT Control Register WDTCR 16 16 2, 3 PCLKB 2 ICLK WDTA 0008 8024h WDT WDT Status Register WDTSR 16 16 2, 3 PCLKB 2 ICLK WDTA 0008 8026h WDT WDT Reset Control Register WDTRCR 8 8 2, 3 PCLKB 2 ICLK WDTA 0008 8030h IWDT IWDT Refresh Register IWDTRR 8 8 2, 3 PCLKB 2 ICLK IWDTa 0008 8032h IWDT IWDT Control Register IWDTCR 16 16 2, 3 PCLKB 2 ICLK IWDTa 0008 8034h IWDT IWDT Status Register IWDTSR 16 16 2, 3 PCLKB 2 ICLK IWDTa 0008 8036h IWDT IWDT Reset Control Register IWDTRCR 8 8 2, 3 PCLKB 2 ICLK IWDTa 0008 8038h IWDT IWDT Count Stop Control Register IWDTCSTPR 8 8 2, 3 PCLKB 2 ICLK IWDTa 0008 8040h DA D/A Data Register 0 DADR0 16 16 2, 3 PCLKB 2 ICLK R12DA 0008 8042h DA D/A Data Register 1 DADR1 16 16 2, 3 PCLKB 2 ICLK R12DA 0008 8044h DA D/A Control Register DACR 8 8 2, 3 PCLKB 2 ICLK R12DA 0008 8045h DA Data Register Format Select Register DADPR 8 8 2, 3 PCLKB 2 ICLK R12DA 0008 8046h DA D/A A/D Synchronous Start Control Register DAADSCR 8 8 2, 3 PCLKB 2 ICLK R12DA 0008 8048h DA D/A Output Amplifier Control Register DAAMPCR 8 8 2, 3 PCLKB 2 ICLK R12DA 0008 805Ch DA D/A Output Amplifier Stabilization Wait Control Register DAASWCR 8 8 2, 3 PCLKB 2 ICLK R12DA 0008 8100h TPUA Timer Start Register 8 8 2, 3 PCLKB 2 ICLK TPUa R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 TSTR Page 106 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (14 / 60) Address Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 8101h TPUA Timer Synchronous Register TSYR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8108h TPU0 Noise Filter Control Register NFCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8109h TPU1 Noise Filter Control Register NFCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 810Ah TPU2 Noise Filter Control Register NFCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 810Bh TPU3 Noise Filter Control Register NFCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 810Ch TPU4 Noise Filter Control Register NFCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 810Dh TPU5 Noise Filter Control Register NFCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8110h TPU0 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8111h TPU0 Timer Mode Register TMDR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8112h TPU0 Timer I/O Control Register H TIORH 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8113h TPU0 Timer I/O Control Register L TIORL 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8114h TPU0 Timer Interrupt Enable Register TIER 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8115h TPU0 Timer Status Register TSR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8116h TPU0 Timer Counter TCNT 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8118h TPU0 Timer General Register A TGRA 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 811Ah TPU0 Timer General Register B TGRB 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 811Ch TPU0 Timer General Register C TGRC 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 811Eh TPU0 Timer General Register D TGRD 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8120h TPU1 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8121h TPU1 Timer Mode Register TMDR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8122h TPU1 Timer I/O Control Register TIOR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8124h TPU1 Timer Interrupt Enable Register TIER 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8125h TPU1 Timer Status Register TSR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8126h TPU1 Timer Counter TCNT 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8128h TPU1 Timer General Register A TGRA 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 812Ah TPU1 Timer General Register B TGRB 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8130h TPU2 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8131h TPU2 Timer Mode Register TMDR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8132h TPU2 Timer I/O Control Register TIOR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8134h TPU2 Timer Interrupt Enable Register TIER 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8135h TPU2 Timer Status Register TSR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8136h TPU2 Timer Counter TCNT 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8138h TPU2 Timer General Register A TGRA 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 813Ah TPU2 Timer General Register B TGRB 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8140h TPU3 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8141h TPU3 Timer Mode Register TMDR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8142h TPU3 Timer I/O Control Register H TIORH 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8143h TPU3 Timer I/O Control Register L TIORL 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8144h TPU3 Timer Interrupt Enable Register TIER 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8145h TPU3 Timer Status Register TSR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8146h TPU3 Timer Counter TCNT 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8148h TPU3 Timer General Register A TGRA 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 814Ah TPU3 Timer General Register B TGRB 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 814Ch TPU3 Timer General Register C TGRC 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 814Eh TPU3 Timer General Register D TGRD 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8150h TPU4 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8151h TPU4 Timer Mode Register TMDR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8152h TPU4 Timer I/O Control Register TIOR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8154h TPU4 Timer Interrupt Enable Register TIER 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8155h TPU4 Timer Status Register TSR 8 8 2, 3 PCLKB 2 ICLK TPUa R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 107 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (15 / 60) Address Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 8156h TPU4 Timer Counter TCNT 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8158h TPU4 Timer General Register A TGRA 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 815Ah TPU4 Timer General Register B TGRB 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8160h TPU5 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8161h TPU5 Timer Mode Register TMDR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8162h TPU5 Timer I/O Control Register TIOR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8164h TPU5 Timer Interrupt Enable Register TIER 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8165h TPU5 Timer Status Register TSR 8 8 2, 3 PCLKB 2 ICLK TPUa 0008 8166h TPU5 Timer Counter TCNT 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 8168h TPU5 Timer General Register A TGRA 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 816Ah TPU5 Timer General Register B TGRB 16 16 2, 3 PCLKB 2 ICLK TPUa 0008 81E6h PPG0 PPG Output Control Register PCR 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81E7h PPG0 PPG Output Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81E8h PPG0 Next Data Enable Register H NDERH 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81E9h PPG0 Next Data Enable Register L NDERL 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81EAh PPG0 Output Data Register H PODRH 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81EBh PPG0 Output Data Register L PODRL 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81ECh PPG0 Next Data Register H NDRH 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81EDh PPG0 Next Data Register L NDRL 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81EEh PPG0 Next Data Register H2 NDRH2 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81EFh PPG0 Next Data Register L2 NDRL2 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81F0h PPG1 PPG Trigger Select Register PTRSLR 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81F6h PPG1 PPG Output Control Register PCR 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81F7h PPG1 PPG Output Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81F8h PPG1 Next Data Enable Register H NDERH 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81F9h PPG1 Next Data Enable Register L NDERL 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81FAh PPG1 Output Data Register H PODRH 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81FBh PPG1 Output Data Register L PODRL 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81FCh PPG1 Next Data Register H NDRH 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81FDh PPG1 Next Data Register L NDRL 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81FEh PPG1 Next Data Register H2 NDRH2 8 8 2, 3 PCLKB 2 ICLK PPG 0008 81FFh PPG1 Next Data Register L2 NDRL2 8 8 2, 3 PCLKB 2 ICLK PPG 0008 8200h TMR0 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8201h TMR1 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8202h TMR0 Timer Control/Status Register TCSR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8203h TMR1 Timer Control/Status Register TCSR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8204h TMR0 Time Constant Register A TCORA 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8204h TMR01 Time Constant Register A TCORA 16 16 2, 3 PCLKB 2 ICLK TMR 0008 8205h TMR1 Time Constant Register A TCORA 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8206h TMR0 Time Constant Register B TCORB 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8206h TMR01 Time Constant Register B TCORB 16 16 2, 3 PCLKB 2 ICLK TMR 0008 8207h TMR1 Time Constant Register B TCORB 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8208h TMR0 Timer Counter TCNT 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8208h TMR01 Timer Counter TCNT 16 16 2, 3 PCLKB 2 ICLK TMR 0008 8209h TMR1 Timer Counter TCNT 8 8 2, 3 PCLKB 2 ICLK TMR 0008 820Ah TMR0 Timer Counter Control Register TCCR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 820Ah TMR01 Timer Counter Control Register TCCR 16 16 2, 3 PCLKB 2 ICLK TMR 0008 820Bh TMR1 Timer Counter Control Register TCCR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 820Ch TMR0 Timer Counter Start Register TCSTR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 820Dh TMR1 Timer Counter Start Register TCSTR 8 8 2, 3 PCLKB 2 ICLK TMR R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 108 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (16 / 60) Address Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 8210h TMR2 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8211h TMR3 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8212h TMR2 Timer Control/Status Register TCSR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8213h TMR3 Timer Control/Status Register TCSR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8214h TMR2 Time Constant Register A TCORA 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8214h TMR23 Time Constant Register A TCORA 16 16 2, 3 PCLKB 2 ICLK TMR 0008 8215h TMR3 Time Constant Register A TCORA 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8216h TMR2 Time Constant Register B TCORB 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8216h TMR23 Time Constant Register B TCORB 16 16 2, 3 PCLKB 2 ICLK TMR 0008 8217h TMR3 Time Constant Register B TCORB 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8218h TMR2 Timer Counter TCNT 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8218h TMR23 Timer Counter TCNT 16 16 2, 3 PCLKB 2 ICLK TMR 0008 8219h TMR3 Timer Counter TCNT 8 8 2, 3 PCLKB 2 ICLK TMR 0008 821Ah TMR2 Timer Counter Control Register TCCR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 821Ah TMR23 Timer Counter Control Register TCCR 16 16 2, 3 PCLKB 2 ICLK TMR 0008 821Bh TMR3 Timer Counter Control Register TCCR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 821Ch TMR2 Timer Counter Start Register TCSTR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 821Dh TMR3 Timer Counter Start Register TCSTR 8 8 2, 3 PCLKB 2 ICLK TMR 0008 8280h CRC CRC Control Register CRCCR 8 8 2, 3 PCLKB 2 ICLK CRCA 0008 8284h CRC CRC Data Input Register CRCDIR 32 8, 32 2, 3 PCLKB 2 ICLK CRCA 0008 8288h CRC CRC Data Output Register CRCDOR 32 8, 16, 32 2, 3 PCLKB 2 ICLK CRCA 0008 8300h RIIC0 I2C-bus Control Register 1 ICCR1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8301h RIIC0 I2C-bus Control Register 2 ICCR2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8302h RIIC0 I2C-bus Mode Register 1 ICMR1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8303h RIIC0 I2C-bus Mode Register 2 ICMR2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8304h RIIC0 I2C-bus Mode Register 3 ICMR3 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8305h RIIC0 I2C-bus Function Enable Register ICFER 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8306h RIIC0 I2C-bus Status Enable Register ICSER 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8307h RIIC0 I2C-bus ICIER 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8308h RIIC0 I2C-bus Status Register 1 ICSR1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8309h RIIC0 I2C-bus Status Register 2 ICSR2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 830Ah RIIC0 Slave Address Register L0 SARL0 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 830Bh RIIC0 Slave Address Register U0 SARU0 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 830Ch RIIC0 Slave Address Register L1 SARL1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 830Dh RIIC0 Slave Address Register U1 SARU1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 830Eh RIIC0 Slave Address Register L2 SARL2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 830Fh RIIC0 Slave Address Register U2 SARU2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8310h RIIC0 I2C-bus Bit Rate Low-Level Register ICBRL 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8311h RIIC0 I2C-bus Bit Rate High-Level Register ICBRH 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8312h RIIC0 I2C-bus Transmit Data Register ICDRT 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8313h RIIC0 I2C-bus Receive Data Register ICDRR 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8320h RIIC1 I2C-bus Control Register 1 ICCR1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8321h RIIC1 I2C-bus ICCR2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8322h RIIC1 I2C-bus Mode Register 1 ICMR1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8323h RIIC1 I2C-bus Mode Register 2 ICMR2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8324h RIIC1 I2C-bus Mode Register 3 ICMR3 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8325h RIIC1 I2C-bus ICFER 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8326h RIIC1 I2C-bus Status Enable Register ICSER 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8327h RIIC1 I2C-bus Interrupt Enable Register ICIER 8 8 2, 3 PCLKB 2 ICLK RIICa Interrupt Enable Register Control Register 2 Function Enable Register R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 109 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (17 / 60) Related Function Module Symbol Register Name 0008 8328h RIIC1 I2C-bus Status Register 1 ICSR1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8329h RIIC1 I2C-bus Status Register 2 ICSR2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 832Ah RIIC1 Slave Address Register L0 SARL0 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 832Bh RIIC1 Slave Address Register U0 SARU0 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 832Ch RIIC1 Slave Address Register L1 SARL1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 832Dh RIIC1 Slave Address Register U1 SARU1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 832Eh RIIC1 Slave Address Register L2 SARL2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 832Fh RIIC1 Slave Address Register U2 SARU2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8330h RIIC1 I2C-bus Bit Rate Low-Level Register ICBRL 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8331h RIIC1 I2C-bus Bit Rate High-Level Register ICBRH 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8332h RIIC1 I2C-bus Transmit Data Register ICDRT 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8333h RIIC1 I2C-bus ICDRR 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8340h RIIC2 I2C-bus Control Register 1 ICCR1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8341h RIIC2 I2C-bus Control Register 2 ICCR2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8342h RIIC2 I2C-bus Mode Register 1 ICMR1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8343h RIIC2 I2C-bus Mode Register 2 ICMR2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8344h RIIC2 I2C-bus Mode Register 3 ICMR3 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8345h RIIC2 I2C-bus Function Enable Register ICFER 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8346h RIIC2 I2C-bus ICSER 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8347h RIIC2 I2C-bus Interrupt Enable Register ICIER 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8348h RIIC2 I2C-bus Status Register 1 ICSR1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8349h RIIC2 I2C-bus Status Register 2 ICSR2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 834Ah RIIC2 Slave Address Register L0 SARL0 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 834Bh RIIC2 Slave Address Register U0 SARU0 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 834Ch RIIC2 Slave Address Register L1 SARL1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 834Dh RIIC2 Slave Address Register U1 SARU1 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 834Eh RIIC2 Slave Address Register L2 SARL2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 834Fh RIIC2 Slave Address Register U2 SARU2 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8350h RIIC2 I2C-bus Bit Rate Low-Level Register ICBRL 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8351h RIIC2 I2C-bus ICBRH 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8352h RIIC2 I2C-bus Transmit Data Register ICDRT 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8353h RIIC2 I2C-bus Receive Data Register ICDRR 8 8 2, 3 PCLKB 2 ICLK RIICa 0008 8500h MMCIF Command Setting Register CECMDSET 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8508h MMCIF Argument Register CEARG 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 850Ch MMCIF Automatically Issued CMD12 Argument Register CEARGCMD 12 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8510h MMCIF Command Control Register CECMDCTRL 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8514h MMCIF Transfer Block Setting Register CEBLOCKSE T 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8518h MMCIF Clock Control Register CECLKCTRL 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 851Ch MMCIF Buffer Access Setting Register CEBUFACC 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8520h MMCIF Response Register 3 CERESP3 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8524h MMCIF Response Register 2 CERESP2 32 32 2, 3 PCLKB 2 ICLK MMCIF Receive Data Register Status Enable Register Bit Rate High-Level Register Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Address 0008 8528h MMCIF Response Register 1 CERESP1 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 852Ch MMCIF Response Register 0 CERESP0 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8530h MMCIF Automatically Issued CMD12 Response Register CERESPCM D12 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8534h MMCIF Data Register CEDATA 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 853Ch MMCIF Boot Operation Setting Register CEBOOT 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8540h MMCIF Interrupt Status Flag Register CEINT 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8544h MMCIF Interrupt Request Enable Register CEINTEN 32 32 2, 3 PCLKB 2 ICLK MMCIF R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 110 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (18 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 8548h MMCIF Status Register 1 CEHOSTSTS 1 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 854Ch MMCIF Status Register 2 CEHOSTSTS 2 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8570h MMCIF MMC Detection and Port Control Register CEDETECT 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 8574h MMCIF Special Mode Setting Register CEADDMOD E 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 857Ch MMCIF Version Register CEVERSION 32 32 2, 3 PCLKB 2 ICLK MMCIF 0008 9000h S12AD A/D Control Register ADCSR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9004h S12AD A/D Channel Select Register A0 ADANSA0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9008h S12AD A/D-Converted Value Addition/Average Function Channel Select Register 0 ADADS0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 900Ch S12AD A/D-Converted Value Addition/Average Count Select Register ADADC 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 900Eh S12AD A/D Control Extended Register ADCER 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9010h S12AD A/D Conversion Start Trigger Select Register ADSTRGR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9014h S12AD A/D Channel Select Register B0 ADANSB0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9018h S12AD A/D Data Duplication Register ADDBLDR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 901Eh S12AD A/D Self-Diagnosis Data Register ADRD 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9020h S12AD A/D Data Register 0 ADDR0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9022h S12AD A/D Data Register 1 ADDR1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9024h S12AD A/D Data Register 2 ADDR2 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9026h S12AD A/D Data Register 3 ADDR3 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9028h S12AD A/D Data Register 4 ADDR4 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 902Ah S12AD A/D Data Register 5 ADDR5 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 902Ch S12AD A/D Data Register 6 ADDR6 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 902Eh S12AD A/D Data Register 7 ADDR7 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9063h S12AD A/D Conversion Time Setting Protection Release Register ADSAMPR 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 9066h S12AD A/D Sample-and-Hold Circuit Control Register ADSHCR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 906Eh S12AD A/D Conversion Time Setting Register ADSAM 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 907Ah S12AD A/D Disconnection Detection Control Register ADDISCR 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 907Ch S12AD A/D Sample-and-Hold Operating Mode Select Register ADSHMSR 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 9080h S12AD A/D Group Scan Priority Control Register ADGSPCR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9084h S12AD A/D Data Duplication Register A ADDBLDRA 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9086h S12AD A/D Data Duplication Register B ADDBLDRB 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 908Ch S12AD A/D Comparison Function Window A/B Status Monitoring Register ADWINMON 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 9090h S12AD A/D Comparison Function Control Register ADCMPCR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9094h S12AD A/D Comparison Function Window A Channel Select Register 0 ADCMPANSR 0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9098h S12AD A/D Comparison Function Window A Comparison Condition Setting Register 0 ADCMPLR0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 909Ch S12AD A/D Comparison Function Window A Lower Level Setting Register ADCMPDR0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 909Eh S12AD A/D Comparison Function Window A Upper Level Setting Register ADCMPDR1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 90A0h S12AD A/D Comparison Function Window A Channel Status Register 0 ADCMPSR0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 90A6h S12AD A/D Comparison Function Window B Channel Select Register ADCMPBNS R 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 90A8h S12AD A/D Comparison Function Window B Lower Level Setting Register ADWINLLB 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 90AAh S12AD A/D Comparison Function Window B Upper Level Setting Register ADWINULB 16 16 2, 3 PCLKB 2 ICLK S12ADFa R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 111 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (19 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 90ACh S12AD A/D Comparison Function Window B Channel Status Register ADCMPBSR 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 90D4h S12AD A/D Channel Select Register C0 ADANSC0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 90D9h S12AD A/D Group C Trigger Select Register ADGCTRGR 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 90E0h S12AD A/D Sampling State Register 0 ADSSTR0 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 90E1h S12AD A/D Sampling State Register 1 ADSSTR1 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 90E2h S12AD A/D Sampling State Register 2 ADSSTR2 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 90E3h S12AD A/D Sampling State Register 3 ADSSTR3 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 90E4h S12AD A/D Sampling State Register 4 ADSSTR4 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 90E5h S12AD A/D Sampling State Register 5 ADSSTR5 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 90E6h S12AD A/D Sampling State Register 6 ADSSTR6 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 90E7h S12AD A/D Sampling State Register 7 ADSSTR7 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 9100h S12AD1 A/D Control Register ADCSR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9104h S12AD1 A/D Channel Select Register A0 ADANSA0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9106h S12AD1 A/D Channel Select Register A1 ADANSA1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9108h S12AD1 A/D-Converted Value Addition/Average Function Channel Select Register 0 ADADS0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 910Ah S12AD1 A/D-Converted Value Addition/Average Function Channel Select Register 1 ADADS1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 910Ch S12AD1 A/D-Converted Value Addition/Average Count Select Register ADADC 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 910Eh S12AD1 A/D Control Extended Register ADCER 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9110h S12AD1 A/D Conversion Start Trigger Select Register ADSTRGR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9112h S12AD1 A/D Conversion Extended Input Control Register ADEXICR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9114h S12AD1 A/D Channel Select Register B0 ADANSB0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9116h S12AD1 A/D Channel Select Register B1 ADANSB1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9118h S12AD1 A/D Data Duplication Register ADDBLDR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 911Ah S12AD1 A/D Temperature Sensor Data Register ADTSDR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 911Ch S12AD1 A/D Internal Reference Voltage Data Register ADOCDR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 911Eh S12AD1 A/D Self-Diagnosis Data Register ADRD 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9120h S12AD1 A/D Data Register 0 ADDR0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9122h S12AD1 A/D Data Register 1 ADDR1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9124h S12AD1 A/D Data Register 2 ADDR2 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9126h S12AD1 A/D Data Register 3 ADDR3 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9128h S12AD1 A/D Data Register 4 ADDR4 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 912Ah S12AD1 A/D Data Register 5 ADDR5 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 912Ch S12AD1 A/D Data Register 6 ADDR6 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 912Eh S12AD1 A/D Data Register 7 ADDR7 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9130h S12AD1 A/D Data Register 8 ADDR8 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9132h S12AD1 A/D Data Register 9 ADDR9 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9134h S12AD1 A/D Data Register 10 ADDR10 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9136h S12AD1 A/D Data Register 11 ADDR11 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9138h S12AD1 A/D Data Register 12 ADDR12 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 913Ah S12AD1 A/D Data Register 13 ADDR13 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 913Ch S12AD1 A/D Data Register 14 ADDR14 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 913Eh S12AD1 A/D Data Register 15 ADDR15 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9140h S12AD1 A/D Data Register 16 ADDR16 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9142h S12AD1 A/D Data Register 17 ADDR17 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9144h S12AD1 A/D Data Register 18 ADDR18 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9146h S12AD1 A/D Data Register 19 ADDR19 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9148h S12AD1 A/D Data Register 20 ADDR20 16 16 2, 3 PCLKB 2 ICLK S12ADFa R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 112 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (20 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Module Symbol Register Name Register Symbol 0008 9163h S12AD1 A/D Conversion Time Setting Protection Release Register ADSAMPR 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 916Eh S12AD1 A/D Conversion Time Setting Register ADSAM 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 917Ah S12AD1 A/D Disconnection Detection Control Register ADDISCR 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 9180h S12AD1 A/D Group Scan Priority Control Register ADGSPCR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9184h S12AD1 A/D Data Duplication Register A ADDBLDRA 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9186h S12AD1 A/D Data Duplication Register B ADDBLDRB 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 918Ch S12AD1 A/D Comparison Function Window A/B Status Monitoring Register ADWINMON 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 9190h S12AD1 A/D Comparison Function Control Register ADCMPCR 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9192h S12AD1 A/D Comparison Function Window A Extended Input Select Register ADCMPANSE R 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 9193h S12AD1 A/D Comparison Function Window A Extended Input Comparison Condition Setting Register ADCMPLER 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 9194h S12AD1 A/D Comparison Function Window A Channel Select Register 0 ADCMPANSR 0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9196h S12AD1 A/D Comparison Function Window A Channel Select Register 1 ADCMPANSR 1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 9198h S12AD1 A/D Comparison Function Window A Comparison Condition Setting Register 0 ADCMPLR0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 919Ah S12AD1 A/D Comparison Function Window A Comparison Condition Setting Register 1 ADCMPLR1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 919Ch S12AD1 A/D Comparison Function Window A Lower Level Setting Register ADCMPDR0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 919Eh S12AD1 A/D Comparison Function Window A Upper Level Setting Register ADCMPDR1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 91A0h S12AD1 A/D Comparison Function Window A Channel Status Register 0 ADCMPSR0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 91A2h S12AD1 A/D Comparison Function Window A Channel Status Register 1 ADCMPSR1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 91A4h S12AD1 A/D Comparison Function Window A Extended Input Channel Status Register ADCMPSER 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91A6h S12AD1 A/D Comparison Function Window B Channel Select Register ADCMPBNS R 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91A8h S12AD1 A/D Comparison Function Window B Lower Level Setting Register ADWINLLB 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 91AAh S12AD1 A/D Comparison Function Window B Upper Level Setting Register ADWINULB 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 91ACh S12AD1 A/D Comparison Function Window B Channel Status Register ADCMPBSR 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91D4h S12AD1 A/D Channel Select Register C0 ADANSC0 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 91D6h S12AD1 A/D Channel Select Register C1 ADANSC1 16 16 2, 3 PCLKB 2 ICLK S12ADFa 0008 91D8h S12AD1 A/D Group C Extended Input Control Register ADGCEXCR 8 8 2, 3 PCLKB 2 ICLK S12ADFa Address 0008 91D9h S12AD1 A/D Group C Trigger Select Register ADGCTRGR 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91DDh S12AD1 A/D Sampling State Register L ADSSTRL 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91DEh S12AD1 A/D Sampling State Register T ADSSTRT 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91DFh S12AD1 A/D Sampling State Register O ADSSTRO 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91E0h S12AD1 A/D Sampling State Register 0 ADSSTR0 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91E1h S12AD1 A/D Sampling State Register 1 ADSSTR1 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91E2h S12AD1 A/D Sampling State Register 2 ADSSTR2 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91E3h S12AD1 A/D Sampling State Register 3 ADSSTR3 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91E4h S12AD1 A/D Sampling State Register 4 ADSSTR4 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91E5h S12AD1 A/D Sampling State Register 5 ADSSTR5 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91E6h S12AD1 A/D Sampling State Register 6 ADSSTR6 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91E7h S12AD1 A/D Sampling State Register 7 ADSSTR7 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91E8h S12AD1 A/D Sampling State Register 8 ADSSTR8 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91E9h S12AD1 A/D Sampling State Register 9 ADSSTR9 8 8 2, 3 PCLKB 2 ICLK S12ADFa R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 113 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (21 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 91EAh S12AD1 A/D Sampling State Register 10 ADSSTR10 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91EBh S12AD1 A/D Sampling State Register 11 ADSSTR11 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91ECh S12AD1 A/D Sampling State Register 12 ADSSTR12 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91EDh S12AD1 A/D Sampling State Register 13 ADSSTR13 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91EEh S12AD1 A/D Sampling State Register 14 ADSSTR14 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 91EFh S12AD1 A/D Sampling State Register 15 ADSSTR15 8 8 2, 3 PCLKB 2 ICLK S12ADFa 0008 9E00h QSPI QSPI Control Register SPCR 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E01h QSPI QSPI Slave Select Polarity Register SSLP 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E02h QSPI QSPI Pin Control Register SPPCR 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E03h QSPI QSPI Status Register SPSR 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E04h QSPI QSPI Data Register SPDR 32 8, 16, 32 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E08h QSPI QSPI Sequence Control Register SPSCR 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E09h QSPI QSPI Sequence Status Register SPSSR 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E0Ah QSPI QSPI Bit Rate Register SPBR 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E0Bh QSPI QSPI Data Control Register SPDCR 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E0Ch QSPI QSPI Clock Delay Register SPCKD 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E0Dh QSPI QSPI Slave Select Negation Delay Register SSLND 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E0Eh QSPI QSPI Next-Access Delay Register SPND 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E10h QSPI QSPI Command Register 0 SPCMD0 16 16 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E12h QSPI QSPI Command Register 1 SPCMD1 16 16 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E14h QSPI QSPI Command Register 2 SPCMD2 16 16 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E16h QSPI QSPI Command Register 3 SPCMD3 16 16 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E18h QSPI QSPI Buffer Control Register SPBFCR 8 8 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E1Ah QSPI QSPI Buffer Data Count Set Register SPBDCR 16 16 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E1Ch QSPI QSPI Transfer Data Length Multiplier Setting Register SPBMUL0 0 32 32 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E20h QSPI QSPI Transfer Data Length Multiplier Setting Register SPBMUL1 1 32 32 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E24h QSPI QSPI Transfer Data Length Multiplier Setting Register SPBMUL2 2 32 32 4, 5 PCLKB 2, 3 ICLK QSPI 0008 9E28h QSPI QSPI Transfer Data Length Multiplier Setting Register SPBMUL3 3 32 32 4, 5 PCLKB 2, 3 ICLK QSPI 0008 A000h SCI0 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A000h SMCI0 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A001h SCI0 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A002h SCI0 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A002h SMCI0 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A003h SCI0 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A004h SCI0 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A004h SMCI0 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A005h SCI0 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 114 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (22 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 A006h SCI0 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A006h SMCI0 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A007h SCI0 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A008h SCI0 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A009h SCI0 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A00Ah SCI0 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A00Bh SCI0 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A00Ch SCI0 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A00Dh SCI0 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A00Eh SCI0 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A00Fh SCI0 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A00Eh SCI0 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A010h SCI0 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A011h SCI0 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A010h SCI0 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A012h SCI0 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A020h SCI1 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A020h SMCI1 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A021h SCI1 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A022h SCI1 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A022h SMCI1 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A023h SCI1 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A024h SCI1 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 115 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (23 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 A024h SMCI1 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A025h SCI1 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A026h SCI1 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A026h SMCI1 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A027h SCI1 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A028h SCI1 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A029h SCI1 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A02Ah SCI1 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A02Bh SCI1 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A02Ch SCI1 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A02Dh SCI1 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A02Eh SCI1 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A02Fh SCI1 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A02Eh SCI1 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A030h SCI1 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A031h SCI1 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A030h SCI1 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A032h SCI1 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A040h SCI2 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A040h SMCI2 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A041h SCI2 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A042h SCI2 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A042h SMCI2 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 116 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (24 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 A043h SCI2 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A044h SCI2 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A044h SMCI2 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A045h SCI2 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A046h SCI2 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A046h SMCI2 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A047h SCI2 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A048h SCI2 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A049h SCI2 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A04Ah SCI2 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A04Bh SCI2 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A04Ch SCI2 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A04Dh SCI2 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A04Eh SCI2 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A04Fh SCI2 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A04Eh SCI2 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A050h SCI2 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A051h SCI2 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A050h SCI2 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A052h SCI2 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A060h SCI3 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A060h SMCI3 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A061h SCI3 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 117 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (25 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 A062h SCI3 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A062h SMCI3 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A063h SCI3 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A064h SCI3 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A064h SMCI3 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A065h SCI3 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A066h SCI3 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A066h SMCI3 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A067h SCI3 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A068h SCI3 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A069h SCI3 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A06Ah SCI3 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A06Bh SCI3 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A06Ch SCI3 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A06Dh SCI3 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A06Eh SCI3 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A06Fh SCI3 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A06Eh SCI3 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A070h SCI3 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A071h SCI3 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A070h SCI3 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A072h SCI3 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A080h SCI4 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 118 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (26 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 A080h SMCI4 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A081h SCI4 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A082h SCI4 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A082h SMCI4 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A083h SCI4 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A084h SCI4 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A084h SMCI4 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A085h SCI4 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A086h SCI4 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A086h SMCI4 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A087h SCI4 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A088h SCI4 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A089h SCI4 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A08Ah SCI4 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A08Bh SCI4 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A08Ch SCI4 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A08Dh SCI4 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A08Eh SCI4 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A08Fh SCI4 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A08Eh SCI4 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A090h SCI4 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A091h SCI4 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A090h SCI4 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 119 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (27 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 A092h SCI4 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A0h SCI5 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A0h SMCI5 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A1h SCI5 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A2h SCI5 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A2h SMCI5 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A3h SCI5 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A4h SCI5 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A4h SMCI5 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A5h SCI5 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A6h SCI5 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A6h SMCI5 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A7h SCI5 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A8h SCI5 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0A9h SCI5 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0AAh SCI5 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0ABh SCI5 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0ACh SCI5 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0ADh SCI5 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0AEh SCI5 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0AFh SCI5 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0AEh SCI5 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0B0h SCI5 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 120 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (28 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 A0B1h SCI5 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0B0h SCI5 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0B2h SCI5 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C0h SCI6 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C0h SMCI6 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C1h SCI6 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C2h SCI6 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C2h SMCI6 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C3h SCI6 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C4h SCI6 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C4h SMCI6 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C5h SCI6 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C6h SCI6 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C6h SMCI6 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C7h SCI6 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C8h SCI6 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0C9h SCI6 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0CAh SCI6 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0CBh SCI6 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0CCh SCI6 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0CDh SCI6 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0CEh SCI6 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0CFh SCI6 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 121 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (29 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 A0CEh SCI6 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0D0h SCI6 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0D1h SCI6 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0D0h SCI6 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0D2h SCI6 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E0h SCI7 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E0h SMCI7 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E1h SCI7 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E2h SCI7 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E2h SMCI7 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E3h SCI7 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E4h SCI7 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E4h SMCI7 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E5h SCI7 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E6h SCI7 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E6h SMCI7 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E7h SCI7 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E8h SCI7 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0E9h SCI7 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0EAh SCI7 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0EBh SCI7 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0ECh SCI7 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0EDh SCI7 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 122 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (30 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0008 A0EEh SCI7 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0EFh SCI7 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0EEh SCI7 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0F0h SCI7 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0F1h SCI7 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0F0h SCI7 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A0F2h SCI7 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A100h SCI8 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A100h SMCI8 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A101h SCI8 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A102h SCI8 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A102h SMCI8 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A103h SCI8 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A104h SCI8 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A104h SMCI8 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A105h SCI8 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A106h SCI8 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A106h SMCI8 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A107h SCI8 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A108h SCI8 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A109h SCI8 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A10Ah SCI8 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A10Bh SCI8 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 123 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (31 / 60) Related Function Module Symbol Register Name 0008 A10Ch SCI8 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A10Dh SCI8 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A10Eh SCI8 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A10Fh SCI8 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A10Eh SCI8 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A110h SCI8 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A111h SCI8 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A110h SCI8 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A112h SCI8 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A120h SCI9 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A120h SMCI9 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A121h SCI9 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A122h SCI9 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A122h SMCI9 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A123h SCI9 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A124h SCI9 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A124h SMCI9 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A125h SCI9 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A126h SCI9 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A126h SMCI9 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A127h SCI9 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A128h SCI9 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A129h SCI9 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Address Page 124 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (32 / 60) Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name 0008 A12Ah SCI9 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A12Bh SCI9 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A12Ch SCI9 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A12Dh SCI9 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A12Eh SCI9 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A12Fh SCI9 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A12Eh SCI9 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A130h SCI9 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A131h SCI9 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A130h SCI9 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 A132h SCI9 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIg, SCIh, SCIi 0008 AC00h SDHI Command Register SDCMD 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC08h SDHI Argument Register SDARG 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC10h SDHI Data Stop Register SDSTOP 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC14h SDHI Block Count Register SDBLKCNT 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC18h SDHI Response Register 10 SDRSP10 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC20h SDHI Response Register 32 SDRSP32 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC28h SDHI Response Register 54 SDRSP54 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC30h SDHI Response Register 76 SDRSP76 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC38h SDHI SD Status Register 1 SDSTS1 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC3Ch SDHI SD Status Register 2 SDSTS2 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC40h SDHI SD Interrupt Mask Register 1 SDIMSK1 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC44h SDHI SD Interrupt Mask Register 2 SDIMSK2 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC48h SDHI SDHI Clock Control Register SDCLKCR 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC4Ch SDHI Transfer Data Size Register SDSIZE 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC50h SDHI Card Access Option Register SDOPT 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC58h SDHI SD Error Status Register 1 SDERSTS1 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC5Ch SDHI SD Error Status Register 2 SDERSTS2 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC60h SDHI SD Buffer Register SDBUFR 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC68h SDHI SDIO Mode Control Register SDIOMD 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC6Ch SDHI SDIO Status Register SDIOSTS 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 AC70h SDHI SDIO Interrupt Mask Register SDIOIMSK 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 ADB0h SDHI DMA Transfer Enable Register SDDMAEN 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 ADC0h SDHI SDHI Software Reset Register SDRST 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 ADC4h SDHI Version Register SDVER 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 ADE0h SDHI Swap Control Register SDSWAP 32 32 2, 3 PCLKB 2 ICLK SDHI 0008 B000h CAC CAC Control Register 0 CACR0 8 8 2, 3 PCLKB 2 ICLK CAC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 125 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (33 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 B001h CAC CAC Control Register 1 CACR1 8 8 2, 3 PCLKB 2 ICLK CAC 0008 B002h CAC CAC Control Register 2 CACR2 8 8 2, 3 PCLKB 2 ICLK CAC 0008 B003h CAC CAC Interrupt Request Enable Register CAICR 8 8 2, 3 PCLKB 2 ICLK CAC 0008 B004h CAC CAC Status Register CASTR 8 8 2, 3 PCLKB 2 ICLK CAC 0008 B006h CAC CAC Upper-Limit Value Setting Register CAULVR 16 16 2, 3 PCLKB 2 ICLK CAC 0008 B008h CAC CAC Lower-Limit Value Setting Register CALLVR 16 16 2, 3 PCLKB 2 ICLK CAC 0008 B00Ah CAC CAC Counter Buffer Register CACNTBR 16 16 2, 3 PCLKB 2 ICLK CAC 0008 B080h DOC DOC Control Register DOCR 8 8 2, 3 PCLKB 2 ICLK DOC 0008 B082h DOC DOC Data Input Register DODIR 16 16 2, 3 PCLKB 2 ICLK DOC 0008 B084h DOC DOC Data Setting Register DODSR 16 16 2, 3 PCLKB 2 ICLK DOC 0008 B100h ELC Event Link Control Register ELCR 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B101h ELC Event Link Setting Register 0 ELSR0 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B104h ELC Event Link Setting Register 3 ELSR3 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B105h ELC Event Link Setting Register 4 ELSR4 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B108h ELC Event Link Setting Register 7 ELSR7 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B10Bh ELC Event Link Setting Register 10 ELSR10 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B10Ch ELC Event Link Setting Register 11 ELSR11 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B10Dh ELC Event Link Setting Register 12 ELSR12 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B10Eh ELC Event Link Setting Register 13 ELSR13 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B110h ELC Event Link Setting Register 15 ELSR15 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B111h ELC Event Link Setting Register 16 ELSR16 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B113h ELC Event Link Setting Register 18 ELSR18 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B114h ELC Event Link Setting Register 19 ELSR19 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B115h ELC Event Link Setting Register 20 ELSR20 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B116h ELC Event Link Setting Register 21 ELSR21 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B117h ELC Event Link Setting Register 22 ELSR22 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B118h ELC Event Link Setting Register 23 ELSR23 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B119h ELC Event Link Setting Register 24 ELSR24 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B11Ah ELC Event Link Setting Register 25 ELSR25 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B11Bh ELC Event Link Setting Register 26 ELSR26 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B11Ch ELC Event Link Setting Register 27 ELSR27 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B11Dh ELC Event Link Setting Register 28 ELSR28 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B11Fh ELC Event Link Option Setting Register A ELOPA 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B120h ELC Event Link Option Setting Register B ELOPB 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B121h ELC Event Link Option Setting Register C ELOPC 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B122h ELC Event Link Option Setting Register D ELOPD 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B123h ELC Port Group Setting Register 1 PGR1 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B124h ELC Port Group Setting Register 2 PGR2 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B125h ELC Port Group Control Register 1 PGC1 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B126h ELC Port Group Control Register 2 PGC2 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B127h ELC Port Buffer Register 1 PDBF1 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B128h ELC Port Buffer Register 2 PDBF2 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B129h ELC Event Link Port Setting Register 0 PEL0 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B12Ah ELC Event Link Port Setting Register 1 PEL1 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B12Bh ELC Event Link Port Setting Register 2 PEL2 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B12Ch ELC Event Link Port Setting Register 3 PEL3 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B12Dh ELC Event Link Software Event Generation Register ELSEGR 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B131h ELC Event Link Setting Register 33 ELSR33 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B133h ELC Event Link Setting Register 35 ELSR35 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B134h ELC Event Link Setting Register 36 ELSR36 8 8 2, 3 PCLKB 2 ICLK ELC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 126 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (34 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 B135h ELC Event Link Setting Register 37 ELSR37 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B136h ELC Event Link Setting Register 38 ELSR38 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B13Dh ELC Event Link Setting Register 45 ELSR45 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B13Fh ELC Event Link Option Setting Register F ELOPF 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B141h ELC Event Link Option Setting Register H ELOPH 8 8 2, 3 PCLKB 2 ICLK ELC 0008 B300h SCI12 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B300h SMCI12 Serial Mode Register SMR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B301h SCI12 Bit Rate Register BRR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B302h SCI12 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B302h SMCI12 Serial Control Register SCR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B303h SCI12 Transmit Data Register TDR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B304h SCI12 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B304h SMCI12 Serial Status Register SSR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B305h SCI12 Receive Data Register RDR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B306h SCI12 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B306h SMCI12 Smart Card Mode Register SCMR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B307h SCI12 Serial Extended Mode Register SEMR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B308h SCI12 Noise Filter Setting Register SNFR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B309h SCI12 I2C Mode Register 1 SIMR1 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B30Ah SCI12 I2C Mode Register 2 SIMR2 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B30Bh SCI12 I2C Mode Register 3 SIMR3 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B30Ch SCI12 I2C Status Register SISR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B30Dh SCI12 SPI Mode Register SPMR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B30Eh SCI12 Transmit Data Register H TDRH 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B30Fh SCI12 Transmit Data Register L TDRL 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B30Eh SCI12 Transmit Data Register HL TDRHL 16 16 4, 5 PCLKB 2 ICLK SCIh 0008 B310h SCI12 Receive Data Register H RDRH 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B311h SCI12 Receive Data Register L RDRL 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B310h SCI12 Receive Data Register HL RDRHL 16 16 4, 5 PCLKB 2 ICLK SCIh 0008 B312h SCI12 Modulation Duty Register MDDR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B320h SCI12 Extended Serial Module Enable Register ESMER 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B321h SCI12 Control Register 0 CR0 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B322h SCI12 Control Register 1 CR1 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B323h SCI12 Control Register 2 CR2 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B324h SCI12 Control Register 3 CR3 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B325h SCI12 Port Control Register PCR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B326h SCI12 Interrupt Control Register ICR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B327h SCI12 Status Register STR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B328h SCI12 Status Clear Register STCR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B329h SCI12 Control Field 0 Data Register CF0DR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B32Ah SCI12 Control Field 0 Compare Enable Register CF0CR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B32Bh SCI12 Control Field 0 Receive Data Register CF0RR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B32Ch SCI12 Primary Control Field 1 Data Register PCF1DR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B32Dh SCI12 Secondary Control Field 1 Data Register SCF1DR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B32Eh SCI12 Control Field 1 Compare Enable Register CF1CR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B32Fh SCI12 Control Field 1 Receive Data Register CF1RR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B330h SCI12 Timer Control Register TCR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B331h SCI12 Timer Mode Register TMR 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B332h SCI12 Timer Prescaler Register TPRE 8 8 2, 3 PCLKB 2 ICLK SCIh 0008 B333h SCI12 Timer Count Register TCNT 8 8 2, 3 PCLKB 2 ICLK SCIh R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 127 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (35 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 C000h PORT0 Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C001h PORT1 Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C002h PORT2 Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C003h PORT3 Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C004h PORT4 Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C005h PORT5 Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C006h PORT6 Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C007h PORT7 Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C008h PORT8 Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C009h PORT9 Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C00Ah PORTA Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C00Bh PORTB Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C00Ch PORTC Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C00Dh PORTD Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C00Eh PORTE Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C00Fh PORTF Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C010h PORTG Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C012h PORTJ Port Direction Register PDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C020h PORT0 Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C021h PORT1 Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C022h PORT2 Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C023h PORT3 Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C024h PORT4 Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C025h PORT5 Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C026h PORT6 Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C027h PORT7 Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C028h PORT8 Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C029h PORT9 Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C02Ah PORTA Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C02Bh PORTB Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C02Ch PORTC Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C02Dh PORTD Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C02Eh PORTE Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C02Fh PORTF Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C030h PORTG Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C032h PORTJ Port Output Data Register PODR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C040h PORT0 Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C041h PORT1 Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C042h PORT2 Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C043h PORT3 Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C044h PORT4 Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C045h PORT5 Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C046h PORT6 Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C047h PORT7 Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C048h PORT8 Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C049h PORT9 Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C04Ah PORTA Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C04Bh PORTB Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C04Ch PORTC Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C04Dh PORTD Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 128 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (36 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 C04Eh PORTE Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C04Fh PORTF Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C050h PORTG Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C052h PORTJ Port Input Register PIDR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C060h PORT0 Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C061h PORT1 Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C062h PORT2 Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C063h PORT3 Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C064h PORT4 Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C065h PORT5 Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C066h PORT6 Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C067h PORT7 Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C068h PORT8 Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C069h PORT9 Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C06Ah PORTA Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C06Bh PORTB Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C06Ch PORTC Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C06Dh PORTD Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C06Eh PORTE Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C06Fh PORTF Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C070h PORTG Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C072h PORTJ Port Mode Register PMR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C080h PORT0 Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C081h PORT0 Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C082h PORT1 Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C083h PORT1 Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C084h PORT2 Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C085h PORT2 Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C086h PORT3 Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C087h PORT3 Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C088h PORT4 Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C089h PORT4 Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C08Ah PORT5 Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C08Bh PORT5 Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C08Ch PORT6 Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C08Dh PORT6 Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C08Eh PORT7 Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C08Fh PORT7 Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C090h PORT8 Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C091h PORT8 Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C092h PORT9 Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C093h PORT9 Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C094h PORTA Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C095h PORTA Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C096h PORTB Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C097h PORTB Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C098h PORTC Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C099h PORTC Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C09Ah PORTD Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C09Bh PORTD Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 129 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (37 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 C09Ch PORTE Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C09Dh PORTE Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C09Eh PORTF Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C09Fh PORTF Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0A0h PORTG Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0A1h PORTG Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0A4h PORTJ Open-Drain Control Register 0 ODR0 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0A5h PORTJ Open-Drain Control Register 1 ODR1 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0C0h PORT0 Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0C1h PORT1 Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0C2h PORT2 Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0C3h PORT3 Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0C4h PORT4 Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0C5h PORT5 Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0C6h PORT6 Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0C7h PORT7 Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0C8h PORT8 Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0C9h PORT9 Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0CAh PORTA Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0CBh PORTB Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0CCh PORTC Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0CDh PORTD Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0CEh PORTE Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0CFh PORTF Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0D0h PORTG Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0D2h PORTJ Pull-Up Resistor Control Register PCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0E0h PORT0 Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0E1h PORT1 Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0E2h PORT2 Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0E5h PORT5 Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0E7h PORT7 Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0E8h PORT8 Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0E9h PORT9 Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0EAh PORTA Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0EBh PORTB Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0ECh PORTC Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0EDh PORTD Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0EEh PORTE Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0F0h PORTG Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C0F2h PORTJ Drive Capacity Control Register DSCR 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C100h MPC CS Output Enable Register PFCSE 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C102h MPC CS Output Pin Select Register 0 PFCSS0 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C103h MPC CS Output Pin Select Register 1 PFCSS1 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C104h MPC Address Output Enable Register 0 PFAOE0 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C105h MPC Address Output Enable Register 1 PFAOE1 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C106h MPC External Bus Control Register 0 PFBCR0 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C107h MPC External Bus Control Register 1 PFBCR1 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C108h MPC External Bus Control Register 2 PFBCR2 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C109h MPC External Bus Control Register 3 PFBCR3 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C10Eh MPC Ethernet Control Register PFENET 8 8 2, 3 PCLKB 2 ICLK MPC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 130 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (38 / 60) Address Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 C11Fh MPC Write-Protect Register PWPR 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C128h PORT0 Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C129h PORT1 Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C12Ah PORT2 Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C12Bh PORT3 Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C12Dh PORT5 Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C12Fh PORT7 Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C130h PORT8 Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C131h PORT9 Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C132h PORTA Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C133h PORTB Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C134h PORTC Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C135h PORTD Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C136h PORTE Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C138h PORTG Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C13Ah PORTJ Drive Capacity Control Register 2 DSCR2 8 8 2, 3 PCLKB 2 ICLK I/O Ports 0008 C140h MPC P00 Pin Function Control Register P00PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C141h MPC P01 Pin Function Control Register P01PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C142h MPC P02 Pin Function Control Register P02PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C143h MPC P03 Pin Function Control Register P03PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C145h MPC P05 Pin Function Control Register P05PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C147h MPC P07 Pin Function Control Register P07PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C148h MPC P10 Pin Function Control Register P10PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C149h MPC P11 Pin Function Control Register P11PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C14Ah MPC P12 Pin Function Control Register P12PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C14Bh MPC P13 Pin Function Control Register P13PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C14Ch MPC P14 Pin Function Control Register P14PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C14Dh MPC P15 Pin Function Control Register P15PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C14Eh MPC P16 Pin Function Control Register P16PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C14Fh MPC P17 Pin Function Control Register P17PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C150h MPC P20 Pin Function Control Register P20PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C151h MPC P21 Pin Function Control Register P21PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C152h MPC P22 Pin Function Control Register P22PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C153h MPC P23 Pin Function Control Register P23PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C154h MPC P24 Pin Function Control Register P24PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C155h MPC P25 Pin Function Control Register P25PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C156h MPC P26 Pin Function Control Register P26PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C157h MPC P27 Pin Function Control Register P27PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C158h MPC P30 Pin Function Control Register P30PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C159h MPC P31 Pin Function Control Register P31PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C15Ah MPC P32 Pin Function Control Register P32PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C15Bh MPC P33 Pin Function Control Register P33PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C15Ch MPC P34 Pin Function Control Register P34PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C160h MPC P40 Pin Function Control Register P40PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C161h MPC P41 Pin Function Control Register P41PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C162h MPC P42 Pin Function Control Register P42PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C163h MPC P43 Pin Function Control Register P43PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C164h MPC P44 Pin Function Control Register P44PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C165h MPC P45 Pin Function Control Register P45PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C166h MPC P46 Pin Function Control Register P46PFS 8 8 2, 3 PCLKB 2 ICLK MPC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 131 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (39 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 C167h MPC P47 Pin Function Control Register P47PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C168h MPC P50 Pin Function Control Register P50PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C169h MPC P51 Pin Function Control Register P51PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C16Ah MPC P52 Pin Function Control Register P52PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C16Ch MPC P54 Pin Function Control Register P54PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C16Dh MPC P55 Pin Function Control Register P55PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C16Eh MPC P56 Pin Function Control Register P56PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C16Fh MPC P57 Pin Function Control Register P57PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C176h MPC P66 Pin Function Control Register P66PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C177h MPC P67 Pin Function Control Register P67PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C179h MPC P71 Pin Function Control Register P71PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C17Ah MPC P72 Pin Function Control Register P72PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C17Bh MPC P73 Pin Function Control Register P73PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C17Ch MPC P74 Pin Function Control Register P74PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C17Dh MPC P75 Pin Function Control Register P75PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C17Eh MPC P76 Pin Function Control Register P76PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C17Fh MPC P77 Pin Function Control Register P77PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C180h MPC P80 Pin Function Control Register P80PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C181h MPC P81 Pin Function Control Register P81PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C182h MPC P82 Pin Function Control Register P82PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C183h MPC P83 Pin Function Control Register P83PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C184h MPC P84 Pin Function Control Register P84PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C185h MPC P85 Pin Function Control Register P85PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C186h MPC P86 Pin Function Control Register P86PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C187h MPC P87 Pin Function Control Register P87PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C188h MPC P90 Pin Function Control Register P90PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C189h MPC P91 Pin Function Control Register P91PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C18Ah MPC P92 Pin Function Control Register P92PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C18Bh MPC P93 Pin Function Control Register P93PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C190h MPC PA0 Pin Function Control Register PA0PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C191h MPC PA1 Pin Function Control Register PA1PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C192h MPC PA2 Pin Function Control Register PA2PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C193h MPC PA3 Pin Function Control Register PA3PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C194h MPC PA4 Pin Function Control Register PA4PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C195h MPC PA5 Pin Function Control Register PA5PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C196h MPC PA6 Pin Function Control Register PA6PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C197h MPC PA7 Pin Function Control Register PA7PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C198h MPC PB0 Pin Function Control Register PB0PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C199h MPC PB1 Pin Function Control Register PB1PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C19Ah MPC PB2 Pin Function Control Register PB2PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C19Bh MPC PB3 Pin Function Control Register PB3PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C19Ch MPC PB4 Pin Function Control Register PB4PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C19Dh MPC PB5 Pin Function Control Register PB5PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C19Eh MPC PB6 Pin Function Control Register PB6PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C19Fh MPC PB7 Pin Function Control Register PB7PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1A0h MPC PC0 Pin Function Control Register PC0PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1A1h MPC PC1 Pin Function Control Register PC1PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1A2h MPC PC2 Pin Function Control Register PC2PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1A3h MPC PC3 Pin Function Control Register PC3PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1A4h MPC PC4 Pin Function Control Register PC4PFS 8 8 2, 3 PCLKB 2 ICLK MPC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 132 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (40 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 C1A5h MPC PC5 Pin Function Control Register PC5PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1A6h MPC PC6 Pin Function Control Register PC6PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1A7h MPC PC7 Pin Function Control Register PC7PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1A8h MPC PD0 Pin Function Control Register PD0PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1A9h MPC PD1 Pin Function Control Register PD1PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1AAh MPC PD2 Pin Function Control Register PD2PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1ABh MPC PD3 Pin Function Control Register PD3PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1ACh MPC PD4 Pin Function Control Register PD4PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1ADh MPC PD5 Pin Function Control Register PD5PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1AEh MPC PD6 Pin Function Control Register PD6PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1AFh MPC PD7 Pin Function Control Register PD7PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1B0h MPC PE0 Pin Function Control Register PE0PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1B1h MPC PE1 Pin Function Control Register PE1PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1B2h MPC PE2 Pin Function Control Register PE2PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1B3h MPC PE3 Pin Function Control Register PE3PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1B4h MPC PE4 Pin Function Control Register PE4PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1B5h MPC PE5 Pin Function Control Register PE5PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1B6h MPC PE6 Pin Function Control Register PE6PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1B7h MPC PE7 Pin Function Control Register PE7PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1B8h MPC PF0 Pin Function Control Register PF0PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1B9h MPC PF1 Pin Function Control Register PF1PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1BAh MPC PF2 Pin Function Control Register PF2PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1BDh MPC PF5 Pin Function Control Register PF5PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1D0h MPC PJ0 Pin Function Control Register PJ0PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1D1h MPC PJ1 Pin Function Control Register PJ1PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1D2h MPC PJ2 Pin Function Control Register PJ2PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1D3h MPC PJ3 Pin Function Control Register PJ3PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C1D5h MPC PJ5 Pin Function Control Register PJ5PFS 8 8 2, 3 PCLKB 2 ICLK MPC 0008 C280h SYSTE M Deep Standby Control Register DPSBYCR 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C282h SYSTE M Deep Standby Interrupt Enable Register 0 DPSIER0 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C283h SYSTE M Deep Standby Interrupt Enable Register 1 DPSIER1 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C284h SYSTE M Deep Standby Interrupt Enable Register 2 DPSIER2 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C285h SYSTE M Deep Standby Interrupt Enable Register 3 DPSIER3 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C286h SYSTE M Deep Standby Interrupt Flag Register 0 DPSIFR0 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C287h SYSTE M Deep Standby Interrupt Flag Register 1 DPSIFR1 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C288h SYSTE M Deep Standby Interrupt Flag Register 2 DPSIFR2 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 133 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (41 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Module Symbol Register Name Register Symbol 0008 C289h SYSTE M Deep Standby Interrupt Flag Register 3 DPSIFR3 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C28Ah SYSTE M Deep Standby Interrupt Edge Register 0 DPSIEGR0 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C28Bh SYSTE M Deep Standby Interrupt Edge Register 1 DPSIEGR1 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C28Ch SYSTE M Deep Standby Interrupt Edge Register 2 DPSIEGR2 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C28Dh SYSTE M Deep Standby Interrupt Edge Register 3 DPSIEGR3 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C290h SYSTE M Reset Status Register 0 RSTSR0 8 8 4, 5 PCLKB 2, 3 ICLK Resets 0008 C291h SYSTE M Reset Status Register 1 RSTSR1 8 8 4, 5 PCLKB 2, 3 ICLK Resets 0008 C293h SYSTE M Main Clock Oscillator Forced Oscillation Control Register MOFCR 8 8 4, 5 PCLKB 2, 3 ICLK Clock Generatio n Circuit 0008 C294h SYSTE M High-Speed On-Chip Oscillator Power Supply Control HOCOPCR Register 8 8 4, 5 PCLKB 2, 3 ICLK Clock Generatio n Circuit 0008 C296h FLASH Flash P/E Protect Register FWEPROR 8 8 0008 C297h SYSTE M Voltage Monitoring Circuit Control Register LVCMPCR 8 8 4, 5 PCLKB 2, 3 ICLK LVDA 0008 C298h SYSTE M Voltage Detection Level Select Register LVDLVLR 8 8 4, 5 PCLKB 2, 3 ICLK LVDA 0008 C29Ah SYSTE M Voltage Monitoring 1 Circuit Control Register 0 LVD1CR0 8 8 4, 5 PCLKB 2, 3 ICLK LVDA 0008 C29Bh SYSTE M Voltage Monitoring 2 Circuit Control Register 0 LVD2CR0 8 8 4, 5 PCLKB 2, 3 ICLK LVDA 0008 C2A0h to 0008 C2BFh SYSTE M Deep Standby Backup Register 0 to Deep Standby Backup Register 31 DPSBKR0 to DPSBKR31 8 8 4, 5 PCLKB 2, 3 ICLK Low Power Consumpt ion 0008 C400h RTC 64-Hz Counter R64CNT 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C402h RTC Second Counter RSECCNT 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C402h RTC Binary Counter 0 BCNT0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C404h RTC Minute Counter RMINCNT 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C404h RTC Binary Counter 1 BCNT1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C406h RTC Hour Counter RHRCNT 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C406h RTC Binary Counter 2 BCNT2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C408h RTC Day-of-Week Counter RWKCNT 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C408h RTC Binary Counter 3 BCNT3 8 8 2, 3 PCLKB 2 ICLK RTCd Address Flash 2 ICLK 0008 C40Ah RTC Date Counter RDAYCNT 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C40Ch RTC Month Counter RMONCNT 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C40Eh RTC Year Counter RYRCNT 16 16 2, 3 PCLKB 2 ICLK RTCd 0008 C410h RTC Second Alarm Register RSECAR 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C410h RTC Binary Counter 0 Alarm Register BCNT0AR 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C412h RTC Minute Alarm Register RMINAR 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C412h RTC Binary Counter 1 Alarm Register BCNT1AR 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C414h RTC Hour Alarm Register RHRAR 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C414h RTC Binary Counter 2 Alarm Register BCNT2AR 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C416h RTC Day-of-Week Alarm Register RWKAR 8 8 2, 3 PCLKB 2 ICLK RTCd R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 134 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (42 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 C416h RTC Binary Counter 3 Alarm Register BCNT3AR 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C418h RTC Date Alarm Register RDAYAR 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C418h RTC Binary Counter 0 Alarm Enable Register BCNT0AER 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C41Ah RTC Month Alarm Register RMONAR 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C41Ah RTC Binary Counter 1 Alarm Enable Register BCNT1AER 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C41Ch RTC Year Alarm Register RYRAR 16 16 2, 3 PCLKB 2 ICLK RTCd 0008 C41Ch RTC Binary Counter 2 Alarm Enable Register BCNT2AER 16 16 2, 3 PCLKB 2 ICLK RTCd 0008 C41Eh RTC Year Alarm Enable Register RYRAREN 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C41Eh RTC Binary Counter 3 Alarm Enable Register BCNT3AER 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C422h RTC RTC Control Register 1 RCR1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C424h RTC RTC Control Register 2 RCR2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C426h RTC RTC Control Register 3 RCR3 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C428h RTC RTC Control Register 4 RCR4 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C42Ah RTC Frequency Register H RFRH 16 16 2, 3 PCLKB 2 ICLK RTCd 0008 C42Ch RTC Frequency Register L RFRL 16 16 2, 3 PCLKB 2 ICLK RTCd 0008 C42Eh RTC Time Error Adjustment Register RADJ 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C440h RTC Time Capture Control Register 0 RTCCR0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C442h RTC Time Capture Control Register 1 RTCCR1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C444h RTC Time Capture Control Register 2 RTCCR2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C452h RTC Second Capture Register 0 RSECCP0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C452h RTC BCNT0 Capture Register 0 BCNT0CP0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C454h RTC Minute Capture Register 0 RMINCP0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C454h RTC BCNT1 Capture Register 0 BCNT1CP0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C456h RTC Hour Capture Register 0 RHRCP0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C456h RTC BCNT2 Capture Register 0 BCNT2CP0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C45Ah RTC Date Capture Register 0 RDAYCP0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C45Ah RTC BCNT3 Capture Register 0 BCNT3CP0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C45Ch RTC Month Capture Register 0 RMONCP0 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C462h RTC Second Capture Register 1 RSECCP1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C462h RTC BCNT0 Capture Register 1 BCNT0CP1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C464h RTC Minute Capture Register 1 RMINCP1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C464h RTC BCNT1 Capture Register 1 BCNT1CP1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C466h RTC Hour Capture Register 1 RHRCP1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C466h RTC BCNT2 Capture Register 1 BCNT2CP1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C46Ah RTC Date Capture Register 1 RDAYCP1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C46Ah RTC BCNT3 Capture Register 1 BCNT3CP1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C46Ch RTC Month Capture Register 1 RMONCP1 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C472h RTC Second Capture Register 2 RSECCP2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C472h RTC BCNT0 Capture Register 2 BCNT0CP2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C474h RTC Minute Capture Register 2 RMINCP2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C474h RTC BCNT1 Capture Register 2 BCNT1CP2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C476h RTC Hour Capture Register 2 RHRCP2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C476h RTC BCNT2 Capture Register 2 BCNT2CP2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C47Ah RTC Date Capture Register 2 RDAYCP2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C47Ah RTC BCNT3 Capture Register 2 BCNT3CP2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C47Ch RTC Month Capture Register 2 RMONCP2 8 8 2, 3 PCLKB 2 ICLK RTCd 0008 C4C0h POE3 Input Level Control/Status Register 1 ICSR1 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4C2h POE3 Output Level Control/Status Register 1 OCSR1 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4C4h POE3 Input Level Control/Status Register 2 ICSR2 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4C6h POE3 Output Level Control/Status Register 2 OCSR2 16 16 2, 3 PCLKB 2 ICLK POE3a R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 135 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (43 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0008 C4C8h POE3 Input Level Control/Status Register 3 ICSR3 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4CAh POE3 Software Port Output Enable Register SPOER 8 8 2, 3 PCLKB 2 ICLK POE3a 0008 C4CBh POE3 Port Output Enable Control Register 1 POECR1 8 8 2, 3 PCLKB 2 ICLK POE3a 0008 C4CCh POE3 Port Output Enable Control Register 2 POECR2 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4D0h POE3 Port Output Enable Control Register 4 POECR4 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4D2h POE3 Port Output Enable Control Register 5 POECR5 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4D6h POE3 Input Level Control/Status Register 4 ICSR4 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4D8h POE3 Input Level Control/Status Register 5 ICSR5 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4DAh POE3 Active Level Setting Register 1 ALR1 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4DCh POE3 Input Level Control/Status Register 6 ICSR6 16 16 2, 3 PCLKB 2 ICLK POE3a 0008 C4E4h POE3 MTU0 Pin Select Register 1 M0SELR1 8 8 2, 3 PCLKB 2 ICLK POE3a 0008 C4E5h POE3 MTU0 Pin Select Register 2 M0SELR2 8 8 2, 3 PCLKB 2 ICLK POE3a 0008 C4E6h POE3 MTU3 Pin Select Register M3SELR 8 8 2, 3 PCLKB 2 ICLK POE3a 0008 C4E7h POE3 MTU4 Pin Select Register 1 M4SELR1 8 8 2, 3 PCLKB 2 ICLK POE3a 0008 C4E8h POE3 MTU4 Pin Select Register 2 M4SELR2 8 8 2, 3 PCLKB 2 ICLK POE3a 0008 C4EAh POE3 MTU6 Pin Select Register M6SELR 8 8 2, 3 PCLKB 2 ICLK POE3a 0008 C500h TEMPS Temperature Sensor Control Register TSCR 8 8 2, 3 PCLKB 2 ICLK TEMPS 0008 C5C0h DA D/A A/D Synchronous Unit Select Register DAADUSR 8 8 2, 3 PCLKB 2 ICLK R12DA 0009 0200h to CAN0 0009 03FFh Mailbox Register 0 to Mailbox Register 31 MB0 to MB31 128 8, 16, 32*2 2, 3 PCLKB 2 ICLK CAN 0009 0400h to CAN0 0009 041Fh Mask Register 0 to Mask Register 7 MKR0 to MKR7 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 0420h CAN0 FIFO Received ID Compare Register 0 FIDCR0 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 0424h CAN0 FIFO Received ID Compare Register 1 FIDCR1 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 0428h CAN0 Mask Invalid Register MKIVLR 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 042Ch CAN0 Mailbox Interrupt Enable Register MIER 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 0820h to CAN0 0009 083Fh Message Control Register 0 to Message Control Register 31 MCTL0 to MCTL31 8 8 2, 3 PCLKB 2 ICLK CAN 0009 0840h CAN0 Control Register CTLR 16 8, 16 2, 3 PCLKB 2 ICLK CAN 0009 0842h CAN0 Status Register STR 16 8, 16 2, 3 PCLKB 2 ICLK CAN 0009 0844h CAN0 Bit Configuration Register BCR 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 0848h CAN0 Receive FIFO Control Register RFCR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 0849h CAN0 Receive FIFO Pointer Control Register RFPCR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 084Ah CAN0 Transmit FIFO Control Register TFCR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 084Bh CAN0 Transmit FIFO Pointer Control Register TFPCR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 084Ch CAN0 Error Interrupt Enable Register EIER 8 8 2, 3 PCLKB 2 ICLK CAN 0009 084Dh CAN0 Error Interrupt Factor Judge Register EIFR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 084Eh CAN0 Receive Error Count Register RECR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 084Fh CAN0 Transmit Error Count Register TECR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 0850h CAN0 Error Code Store Register ECSR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 0851h CAN0 Channel Search Support Register CSSR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 0852h CAN0 Mailbox Search Status Register MSSR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 0853h CAN0 Mailbox Search Mode Register MSMR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 0854h CAN0 Time Stamp Register TSR 16 16 2, 3 PCLKB 2 ICLK CAN 0009 0856h CAN0 Acceptance Filter Support Register AFSR 16 16 2, 3 PCLKB 2 ICLK CAN 0009 0858h CAN0 Test Control Register TCR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 1200h to CAN1 0009 13FFh Mailbox Register 0 to Mailbox Register 31 MB0 to MB31 128 8, 16, 32*2 2, 3 PCLKB 2 ICLK CAN 0009 1400h to CAN1 0009 141Fh Mask Register 0 to Mask Register 7 MKR0 to MKR7 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 136 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (44 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 0009 1420h CAN1 FIFO Received ID Compare Register 0 FIDCR0 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 1424h CAN1 FIFO Received ID Compare Register 1 FIDCR1 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 1428h CAN1 Mask Invalid Register MKIVLR 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 142Ch CAN1 Mailbox Interrupt Enable Register MIER 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 1820h to CAN1 0009 183Fh Message Control Register 0 to Message Control Register 31 MCTL0 to MCTL31 8 8 2, 3 PCLKB 2 ICLK CAN 0009 1840h CAN1 Control Register CTLR 16 8, 16 2, 3 PCLKB 2 ICLK CAN 0009 1842h CAN1 Status Register STR 16 8, 16 2, 3 PCLKB 2 ICLK CAN 0009 1844h CAN1 Bit Configuration Register BCR 32 8, 16, 32 2, 3 PCLKB 2 ICLK CAN 0009 1848h CAN1 Receive FIFO Control Register RFCR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 1849h CAN1 Receive FIFO Pointer Control Register RFPCR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 184Ah CAN1 Transmit FIFO Control Register TFCR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 184Bh CAN1 Transmit FIFO Pointer Control Register TFPCR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 184Ch CAN1 Error Interrupt Enable Register EIER 8 8 2, 3 PCLKB 2 ICLK CAN 0009 184Dh CAN1 Error Interrupt Factor Judge Register EIFR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 184Eh CAN1 Receive Error Count Register RECR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 184Fh CAN1 Transmit Error Count Register TECR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 1850h CAN1 Error Code Store Register ECSR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 1851h CAN1 Channel Search Support Register CSSR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 1852h CAN1 Mailbox Search Status Register MSSR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 1853h CAN1 Mailbox Search Mode Register MSMR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 1854h CAN1 Time Stamp Register TSR 16 16 2, 3 PCLKB 2 ICLK CAN 0009 1856h CAN1 Acceptance Filter Support Register AFSR 16 16 2, 3 PCLKB 2 ICLK CAN 0009 1858h CAN1 Test Control Register TCR 8 8 2, 3 PCLKB 2 ICLK CAN 0009 4200h CMTW0 Timer Start Register CMWSTR 16 16 2, 3 PCLKB 2 ICLK CMTW 0009 4204h CMTW0 Timer Control Register CMWCR 16 16 2, 3 PCLKB 2 ICLK CMTW 0009 4208h CMTW0 Timer I/O Control Register CMWIOR 16 16 2, 3 PCLKB 2 ICLK CMTW 0009 4210h CMTW0 Timer Counter CMWCNT 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 4214h CMTW0 Compare Match Constant Register CMWCOR 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 4218h CMTW0 Input Capture Register 0 CMWICR0 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 421Ch CMTW0 Input Capture Register 1 CMWICR1 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 4220h CMTW0 Output Compare Register 0 CMWOCR0 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 4224h CMTW0 Output Compare Register 1 CMWOCR1 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 4280h CMTW1 Timer Start Register CMWSTR 16 16 2, 3 PCLKB 2 ICLK CMTW 0009 4284h CMTW1 Timer Control Register CMWCR 16 16 2, 3 PCLKB 2 ICLK CMTW 0009 4288h CMTW1 Timer I/O Control Register CMWIOR 16 16 2, 3 PCLKB 2 ICLK CMTW 0009 4290h CMTW1 Timer Counter CMWCNT 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 4294h CMTW1 Compare Match Constant Register CMWCOR 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 4298h CMTW1 Input Capture Register 0 CMWICR0 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 429Ch CMTW1 Input Capture Register 1 CMWICR1 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 42A0h CMTW1 Output Compare Register 0 CMWOCR0 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 42A4h CMTW1 Output Compare Register 1 CMWOCR1 32 32 2, 3 PCLKB 2 ICLK CMTW 0009 5000h SDSI FN1 Access Control Register FN1ACCR 32 32 10, 11 PCLKB 2 to 6 ICLK SDSI 0009 5004h SDSI Interrupt Enable Control Register 1 INTENCR1 8 8 7, 8 PCLKB 2 to 5 ICLK SDSI 0009 5005h SDSI Interrupt Status Register 1 INTSR1 8 8 7, 8 PCLKB 2 to 5 ICLK SDSI 0009 5006h SDSI SD Command Control Register SDCMDCR 8 8 7, 8 PCLKB 2 to 5 ICLK SDSI 0009 5007h SDSI SD Command Access Address 0 Register SDCADD0R 8 8 7, 8 PCLKB 2 to 5 ICLK SDSI 0009 5008h SDSI SD Command Access Address 1 Register SDCADD1R 8 8 7, 8 PCLKB 2 to 5 ICLK SDSI R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 137 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (45 / 60) Address Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 0009 5009h SDSI SD Command Access Address 2 Register SDCADD2R 8 8 7, 8 PCLKB 2 to 5 ICLK SDSI 0009 500Ah SDSI SDSI Control Register 1 SDSICR1 8 8 7, 8 PCLKB 2 to 5 ICLK SDSI 0009 500Bh SDSI DMA Control Register 1 DMACR1 8 8 7, 8 PCLKB 2 to 5 ICLK SDSI 0009 500Ch SDSI Block Counter BLKCNT 16 16 8, 9 PCLKB 2 to 5 ICLK SDSI 0009 500Eh SDSI Byte Counter BYTCNT 16 16 8, 9 PCLKB 2 to 5 ICLK SDSI 0009 5010h SDSI DMA Transfer Address Register DMATRADDR 32 32 10, 11 PCLKB 2 to 6 ICLK SDSI 0009 5100h SDSI SDSI Control Register 2 SDSICR2 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 5104h SDSI SDSI Control Register 3 SDSICR3 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 5108h SDSI Interrupt Enable Control Register 2 INTENCR2 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 510Ch SDSI Interrupt Status Register 2 INTSR2 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 5110h SDSI DMA Control Register 2 DMACR2 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 5200h to SDSI 0009 526Bh CIS Data Register 0 to 26 CISDATAR0 to 26 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 5270h SDSI FBR Setting Register 1 FBR1 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 5274h SDSI FBR Setting Register 2 FBR2 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 5278h SDSI FBR Setting Register 3 FBR3 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 527Ch SDSI FBR Setting Register 4 FBR4 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 5280h SDSI FBR Setting Register 5 FBR5 32 32 2, 3 PCLKB 2 ICLK SDSI 0009 5800h to SDSI 0009 58FFh FN1 Data Register 10 to 163 FN1DATAR10 to 163 32 8, 32 10, 11 PCLKB 2 to 6 ICLK SDSI 0009 5900h to SDSI 0009 59FFh FN1 Data Register 20 to 263 FN1DATAR20 to 263 32 8, 32 10, 11 PCLKB 2 to 6 ICLK SDSI 0009 5A00h to 0009 5AFFh SDSI FN1 Data Register 30 to 363 FN1DATAR30 to 363 32 8, 32 10, 11 PCLKB 2 to 6 ICLK SDSI 0009 5B00h SDSI FN1 Interrupt Vector Register FN1INTVECR 8 8 7, 8 PCLKB 2 to 5 ICLK SDSI 0009 5B01h SDSI FN1 Interrupt Clear Register FN1INTCLRR 8 8 7, 8 PCLKB 2 to 5 ICLK SDSI 0009 5C00h to 0009 5FFFh SDSI FN1 Data Register 50 to 5255 FN1DATAR50 to 5255 32 8, 32 7, 8 PCLKB 2 to 5 ICLK SDSI 000A 0000h USB0 System Configuration Control Register SYSCFG 16 16 3, 4 PCLKB 2 ICLK USBb 000A 0004h USB0 System Configuration Status Register 0 SYSSTS0 16 16 9 PCLKB or more Rounded up to the USBb nearest integer greater than 1 + 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0008h USB0 Device State Control Register 0 DVSTCTR0 16 16 9 PCLKB or more Rounded up to the USBb nearest integer greater than 1 + 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0014h USB0 CFIFO Port Register CFIFO 16 8, 16 3, 4 PCLKB 2 ICLK USBb 000A 0018h USB0 D0FIFO Port Register D0FIFO 16 8, 16 3, 4 PCLKB 2 ICLK USBb 000A 001Ch USB0 D1FIFO Port Register D1FIFO 16 8, 16 3, 4 PCLKB 2 ICLK USBb 000A 0020h USB0 CFIFO Port Select Register CFIFOSEL 16 16 3, 4 PCLKB 2 ICLK USBb 000A 0022h USB0 CFIFO Port Control Register CFIFOCTR 16 16 3, 4 PCLKB 2 ICLK USBb 000A 0028h USB0 D0FIFO Port Select Register D0FIFOSEL 16 16 3, 4 PCLKB 2 ICLK USBb 000A 002Ah USB0 D0FIFO Port Control Register D0FIFOCTR 16 16 3, 4 PCLKB 2 ICLK USBb 000A 002Ch USB0 D1FIFO Port Select Register D1FIFOSEL 16 16 3, 4 PCLKB 2 ICLK USBb 000A 002Eh USB0 D1FIFO Port Control Register D1FIFOCTR 16 16 3, 4 PCLKB 2 ICLK USBb 000A 0030h USB0 Interrupt Enable Register 0 INTENB0 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0032h USB0 Interrupt Enable Register 1 INTENB1 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0036h USB0 BRDY Interrupt Enable Register BRDYENB 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0038h USB0 NRDY Interrupt Enable Register NRDYENB 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 138 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (46 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 000A 003Ah USB0 BEMP Interrupt Enable Register BEMPENB 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 003Ch USB0 SOF Output Configuration Register SOFCFG 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0040h USB0 Interrupt Status Register 0 INTSTS0 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0042h USB0 Interrupt Status Register 1 INTSTS1 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0046h USB0 BRDY Interrupt Status Register BRDYSTS 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0048h USB0 NRDY Interrupt Status Register NRDYSTS 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 004Ah USB0 BEMP Interrupt Status Register BEMPSTS 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 004Ch USB0 Frame Number Register FRMNUM 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 004Eh USB0 Device State Change Register DVCHGR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0050h USB0 USB Address Register USBADDR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0054h USB0 USB Request Type Register USBREQ 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0056h USB0 USB Request Value Register USBVAL 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0058h USB0 USB Request Index Register USBINDX 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 005Ah USB0 USB Request Length Register USBLENG 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 005Ch USB0 DCP Configuration Register DCPCFG 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 005Eh USB0 DCP Maximum Packet Size Register DCPMAXP 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0060h USB0 DCP Control Register DCPCTR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0064h USB0 Pipe Window Select Register PIPESEL 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0068h USB0 Pipe Configuration Register PIPECFG 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 006Ch USB0 Pipe Maximum Packet Size Register PIPEMAXP 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 006Eh USB0 Pipe Cycle Control Register PIPEPERI 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0070h USB0 PIPE1 Control Register PIPE1CTR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0072h USB0 PIPE2 Control Register PIPE2CTR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0074h USB0 PIPE3 Control Register PIPE3CTR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0076h USB0 PIPE4 Control Register PIPE4CTR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0078h USB0 PIPE5 Control Register PIPE5CTR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 139 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (47 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Address Module Symbol Register Name Register Symbol 000A 007Ah USB0 PIPE6 Control Register PIPE6CTR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 007Ch USB0 PIPE7 Control Register PIPE7CTR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 007Eh USB0 PIPE8 Control Register PIPE8CTR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0080h USB0 PIPE9 Control Register PIPE9CTR 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0090h USB0 PIPE1 Transaction Counter Enable Register PIPE1TRE 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0092h USB0 PIPE1 Transaction Counter Register PIPE1TRN 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0094h USB0 PIPE2 Transaction Counter Enable Register PIPE2TRE 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0096h USB0 PIPE2 Transaction Counter Register PIPE2TRN 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0098h USB0 PIPE3 Transaction Counter Enable Register PIPE3TRE 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 009Ah USB0 PIPE3 Transaction Counter Register PIPE3TRN 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 009Ch USB0 PIPE4 Transaction Counter Enable Register PIPE4TRE 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 009Eh USB0 PIPE4 Transaction Counter Register PIPE4TRN 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 00A0h USB0 PIPE5 Transaction Counter Enable Register PIPE5TRE 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 00A2h USB0 PIPE5 Transaction Counter Register PIPE5TRN 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 00D0h USB0 Device Address 0 Configuration Register DEVADD0 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 00D2h USB0 Device Address 1 Configuration Register DEVADD1 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 00D4h USB0 Device Address 2 Configuration Register DEVADD2 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 00D6h USB0 Device Address 3 Configuration Register DEVADD3 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 00D8h USB0 Device Address 4 Configuration Register DEVADD4 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 00DAh USB0 Device Address 5 Configuration Register DEVADD5 16 16 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 00F0h USB0 PHY Cross Point Adjustment Register PHYSLEW 32 32 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0400h USB Deep Standby USB Transceiver Control/Pin Monitoring Register DPUSR0R 32 32 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0404h USB Deep Standby USB Suspend/Resume Interrupt Register DPUSR1R 32 32 9 PCLKB or more Frequency with 1 + USBb 9 × (frequency ratio of ICLK/PCLKB)*1 000A 0500h PDC PDC Control Register 0 PCCR0 32 32 2, 3 PCLKB 2 ICLK PDC 000A 0504h PDC PDC Control Register 1 PCCR1 32 32 2, 3 PCLKB 2 ICLK PDC 000A 0508h PDC PDC Status Register PCSR 32 32 2, 3 PCLKB 2 ICLK PDC 000A 050Ch PDC PDC Pin Monitor Register PCMONR 32 32 2, 3 PCLKB 2 ICLK PDC 000A 0510h PDC PDC Receive Data Register PCDR 32 32 2, 3 PCLKB 2 ICLK PDC 000A 0514h PDC Vertical Capture Register VCR 32 32 2, 3 PCLKB 2 ICLK PDC 000A 0518h PDC Horizontal Capture Register HCR 32 32 2, 3 PCLKB 2 ICLK PDC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 140 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (48 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Module Symbol Register Name Register Symbol 000C 0000h EDMAC EDMAC Mode Register 0 EDMR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0008h EDMAC EDMAC Transmit Request Register 0 EDTRR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0010h EDMAC EDMAC Receive Request Register 0 EDRRR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0018h EDMAC Transmit Descriptor List Start Address Register 0 TDLAR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0020h EDMAC Receive Descriptor List Start Address Register 0 RDLAR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0028h EDMAC ETHERC/EDMAC Status Register 0 EESR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0030h EDMAC ETHERC/EDMAC Status Interrupt Enable Register 0 EESIPR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0038h EDMAC ETHERC/EDMAC Transmit/Receive Status Copy 0 Enable Register TRSCER 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0040h EDMAC Missed-Frame Counter Register 0 RMFCR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0048h EDMAC Transmit FIFO Threshold Register 0 TFTR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0050h EDMAC FIFO Depth Register 0 FDR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0058h EDMAC Receive Method Control Register 0 RMCR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0064h EDMAC Transmit FIFO Underflow Counter 0 TFUCR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0068h EDMAC Receive FIFO Overflow Counter 0 RFOCR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 006Ch EDMAC Independent Output Signal Setting Register 0 IOSR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0070h EDMAC Flow Control Start FIFO Threshold Setting Register 0 FCFTR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0078h EDMAC Receive Data Padding Insert Register 0 RPADIR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 007Ch EDMAC Transmit Interrupt Setting Register 0 TRIMD 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 00C8h EDMAC Receive Buffer Write Address Register 0 RBWAR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 00CCh EDMAC Receive Descriptor Fetch Address Register 0 RDFAR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 00D4h EDMAC Transmit Buffer Read Address Register 0 TBRAR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 00D8h EDMAC Transmit Descriptor Fetch Address Register 0 TDFAR 32 32 4, 5 PCLKA 1 to 3 ICLK EDMACa 000C 0100h ETHER ETHERC Mode Register C0 ECMR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0108h ETHER Receive Frame Maximum Length Register C0 RFLR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0110h ETHER ETHERC Status Register C0 ECSR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0118h ETHER ETHERC Interrupt Enable Register C0 ECSIPR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0120h ETHER PHY Interface Register C0 PIR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0128h ETHER PHY Status Register C0 PSR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0140h ETHER Random Number Generation Counter Limit Setting C0 Register RDMLR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0150h ETHER Interpacket Gap Register C0 IPGR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0154h ETHER Automatic PAUSE Frame Register C0 APR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC Address R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 141 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (49 / 60) Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function Module Symbol Register Name Register Symbol 000C 0158h ETHER Manual PAUSE Frame Register C0 MPR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0160h ETHER Received PAUSE Frame Counter C0 RFCF 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0164h ETHER PAUSE Frame Retransmit Count Setting Register C0 TPAUSER 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 0168h ETHER PAUSE Frame Retransmit Counter C0 TPAUSECR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 016Ch ETHER Broadcast Frame Receive Count Setting Register C0 BCFRR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01C0h ETHER MAC Address Upper Bit Register C0 MAHR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01C8h ETHER MAC Address Lower Bit Register C0 MALR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01D0h ETHER Transmit Retry Over Counter Register C0 TROCR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01D4h ETHER Late Collision Detect Counter Register C0 CDCR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01D8h ETHER Lost Carrier Counter Register C0 LCCR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01DCh ETHER Carrier Not Detect Counter Register C0 CNDCR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01E4h ETHER CRC Error Frame Receive Counter Register C0 CEFCR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01E8h ETHER Frame Receive Error Counter Register C0 FRECR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01ECh ETHER Too-Short Frame Receive Counter Register C0 TSFRCR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01F0h ETHER Too-Long Frame Receive Counter Register C0 TLFRCR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01F4h ETHER Received Alignment Error Frame Counter Register C0 RFCR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 01F8h ETHER Multicast Address Frame Receive Counter Register C0 MAFCR 32 32 13, 14 PCLKA 1 to 7 ICLK ETHERC 000C 1200h MTU3 Timer Control Register TCR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1201h MTU4 Timer Control Register TCR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1202h MTU3 Timer Mode Register 1 TMDR1 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1203h MTU4 Timer Mode Register 1 TMDR1 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1204h MTU3 Timer I/O Control Register H TIORH 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1205h MTU3 Timer I/O Control Register L TIORL 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1206h MTU4 Timer I/O Control Register H TIORH 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1207h MTU4 Timer I/O Control Register L TIORL 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1208h MTU3 Timer Interrupt Enable Register TIER 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1209h MTU4 Timer Interrupt Enable Register TIER 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 120Ah MTU Timer Output Master Enable Register A TOERA 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 120Dh MTU Timer Gate Control Register A TGCRA 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 120Eh MTU Timer Output Control Register 1A TOCR1A 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 120Fh MTU Timer Output Control Register 2A TOCR2A 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1210h MTU3 Timer Counter TCNT 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1212h MTU4 Timer Counter TCNT 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1214h MTU Timer Cycle Data Register A TCDRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1216h MTU Timer Dead Time Data Register A TDDRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1218h MTU3 Timer General Register A TGRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 121Ah MTU3 Timer General Register B TGRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 121Ch MTU4 Timer General Register A TGRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 121Eh MTU4 Timer General Register B TGRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1220h MTU Timer Subcounter A TCNTSA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a Address R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 142 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (50 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000C 1222h MTU Timer Cycle Buffer Register A TCBRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1224h MTU3 Timer General Register C TGRC 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1226h MTU3 Timer General Register D TGRD 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1228h MTU4 Timer General Register C TGRC 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 122Ah MTU4 Timer General Register D TGRD 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 122Ch MTU3 Timer Status Register TSR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 122Dh MTU4 Timer Status Register TSR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1230h MTU Timer Interrupt Skipping Set Register 1A TITCR1A 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1231h MTU Timer Interrupt Skipping Counter 1A TITCNT1A 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1232h MTU Timer Buffer Transfer Set Register A TBTERA 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1234h MTU Timer Dead Time Enable Register A TDERA 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1236h MTU Timer Output Level Buffer Register A TOLBRA 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1238h MTU3 Timer Buffer Operation Transfer Mode Register TBTM 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1239h MTU4 Timer Buffer Operation Transfer Mode Register TBTM 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 123Ah MTU Timer Interrupt Skipping Mode Register A TITMRA 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 123Bh MTU Timer Interrupt Skipping Set Register 2A TITCR2A 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 123Ch MTU Timer Interrupt Skipping Counter 2A TITCNT2A 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1240h MTU4 Timer A/D Converter Start Request Control Register TADCR 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1244h MTU4 Timer A/D Converter Start Request Cycle Set Register TADCORA A 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1246h MTU4 Timer A/D Converter Start Request Cycle Set Register TADCORB B 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1248h MTU4 Timer A/D Converter Start Request Cycle Set Buffer Register A TADCOBRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 124Ah MTU4 Timer A/D Converter Start Request Cycle Set Buffer Register B TADCOBRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 124Ch MTU3 Timer Control Register 2 TCR2 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 124Dh MTU4 Timer Control Register 2 TCR2 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1260h MTU Timer Waveform Control Register A TWCRA 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1270h MTU Timer Mode Register 2A TMDR2A 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1272h MTU3 Timer General Register E TGRE 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1274h MTU4 Timer General Register E TGRE 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1276h MTU4 Timer General Register F TGRF 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1280h MTU Timer Start Register A TSTRA 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1281h MTU Timer Synchronous Register A TSYRA 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1282h MTU Timer Counter Synchronous Start Register TCSYSTR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1284h MTU Timer Read/Write Enable Register A TRWERA 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1290h MTU0 Noise Filter Control Register 0 NFCR0 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1291h MTU1 Noise Filter Control Register 1 NFCR1 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1292h MTU2 Noise Filter Control Register 2 NFCR2 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1293h MTU3 Noise Filter Control Register 3 NFCR3 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1294h MTU4 Noise Filter Control Register 4 NFCR4 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1298h MTU8 Noise Filter Control Register 8 NFCR8 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1299h MTU0 Noise Filter Control Register C NFCRC 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1300h MTU0 Timer Control Register TCR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1301h MTU0 Timer Mode Register 1 TMDR1 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1302h MTU0 Timer I/O Control Register H TIORH 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1303h MTU0 Timer I/O Control Register L TIORL 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1304h MTU0 Timer Interrupt Enable Register TIER 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1306h MTU0 Timer Counter TCNT 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1308h MTU0 Timer General Register A TGRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 143 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (51 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000C 130Ah MTU0 Timer General Register B TGRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 130Ch MTU0 Timer General Register C TGRC 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 130Eh MTU0 Timer General Register D TGRD 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1320h MTU0 Timer General Register E TGRE 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1322h MTU0 Timer General Register F TGRF 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1324h MTU0 Timer Interrupt Enable Register 2 TIER2 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1326h MTU0 Timer Buffer Operation Transfer Mode Register TBTM 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1328h MTU0 Timer Control Register 2 TCR2 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1380h MTU1 Timer Control Register TCR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1381h MTU1 Timer Mode Register 1 TMDR1 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1382h MTU1 Timer I/O Control Register TIOR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1384h MTU1 Timer Interrupt Enable Register TIER 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1385h MTU1 Timer Status Register TSR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1386h MTU1 Timer Counter TCNT 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1388h MTU1 Timer General Register A TGRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 138Ah MTU1 Timer General Register B TGRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1390h MTU1 Timer Input Capture Control Register TICCR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1391h MTU1 Timer Mode Register 3 TMDR3 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1394h MTU1 Timer Control Register 2 TCR2 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 13A0h MTU1 Timer Longword Counter TCNTLW 32 32 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 13A4h MTU1 Timer Longword General Register TGRALW 32 32 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 13A8h MTU1 Timer Longword General Register TGRBLW 32 32 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1400h MTU2 Timer Control Register TCR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1401h MTU2 Timer Mode Register 1 TMDR1 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1402h MTU2 Timer I/O Control Register TIOR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1404h MTU2 Timer Interrupt Enable Register TIER 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1405h MTU2 Timer Status Register TSR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1406h MTU2 Timer Counter TCNT 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1408h MTU2 Timer General Register A TGRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 140Ah MTU2 Timer General Register B TGRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 140Ch MTU2 Timer Control Register 2 TCR2 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1600h MTU8 Timer Control Register TCR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1601h MTU8 Timer Mode Register 1 TMDR1 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1602h MTU8 Timer I/O Control Register H TIORH 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1603h MTU8 Timer I/O Control Register L TIORL 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1604h MTU8 Timer Interrupt Enable Register TIER 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1606h MTU8 Timer Control Register 2 TCR2 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1608h MTU8 Timer Counter TCNT 32 32 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 160Ch MTU8 Timer General Register A TGRA 32 32 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1610h MTU8 Timer General Register B TGRB 32 32 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1614h MTU8 Timer General Register C TGRC 32 32 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1618h MTU8 Timer General Register D TGRD 32 32 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A00h MTU6 Timer Control Register TCR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A01h MTU7 Timer Control Register TCR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A02h MTU6 Timer Mode Register 1 TMDR1 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A03h MTU7 Timer Mode Register 1 TMDR1 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A04h MTU6 Timer I/O Control Register H TIORH 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A05h MTU6 Timer I/O Control Register L TIORL 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A06h MTU7 Timer I/O Control Register H TIORH 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A07h MTU7 Timer I/O Control Register L TIORL 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 144 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (52 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000C 1A08h MTU6 Timer Interrupt Enable Register TIER 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A09h MTU7 Timer Interrupt Enable Register TIER 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A0Ah MTU Timer Output Master Enable Register B TOERB 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A0Eh MTU Timer Output Control Register 1B TOCR1B 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A0Fh MTU Timer Output Control Register 2B TOCR2B 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A10h MTU6 Timer Counter TCNT 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A12h MTU7 Timer Counter TCNT 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A14h MTU Timer Cycle Data Register B TCDRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A16h MTU Timer Dead Time Data Register B TDDRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A18h MTU6 Timer General Register A TGRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A1Ah MTU6 Timer General Register B TGRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A1Ch MTU7 Timer General Register A TGRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A1Eh MTU7 Timer General Register B TGRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A20h MTU Timer Subcounter B TCNTSB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A22h MTU Timer Cycle Buffer Register B TCBRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A24h MTU6 Timer General Register C TGRC 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A26h MTU6 Timer General Register D TGRD 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A28h MTU7 Timer General Register C TGRC 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A2Ah MTU7 Timer General Register D TGRD 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A2Ch MTU6 Timer Status Register TSR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A2Dh MTU7 Timer Status Register TSR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A30h MTU Timer Interrupt Skipping Set Register 1B TITCR1B 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A31h MTU Timer Interrupt Skipping Counter 1B TITCNT1B 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A32h MTU Timer Buffer Transfer Set Register B TBTERB 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A34h MTU Timer Dead Time Enable Register B TDERB 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A36h MTU Timer Output Level Buffer Register B TOLBRB 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A38h MTU6 Timer Buffer Operation Transfer Mode Register TBTM 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A39h MTU7 Timer Buffer Operation Transfer Mode Register TBTM 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A3Ah MTU Timer Interrupt Skipping Mode Register B TITMRB 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A3Bh MTU Timer Interrupt Skipping Set Register 2B TITCR2B 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A3Ch MTU Timer Interrupt Skipping Counter 2B TITCNT2B 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A40h MTU7 Timer A/D Converter Start Request Control Register TADCR 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A44h MTU7 Timer A/D Converter Start Request Cycle Set Register TADCORA A 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A46h MTU7 Timer A/D Converter Start Request Cycle Set Register TADCORB B 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A48h MTU7 Timer A/D Converter Start Request Cycle Set Buffer Register A TADCOBRA 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A4Ah MTU7 Timer A/D Converter Start Request Cycle Set Buffer Register B TADCOBRB 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A4Ch MTU6 Timer Control Register 2 TCR2 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A4Dh MTU7 Timer Control Register 2 TCR2 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A50h MTU6 Timer Synchronous Clear Register TSYCR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A60h MTU Timer Waveform Control Register B TWCRB 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A70h MTU Timer Mode Register 2B TMDR2B 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A72h MTU6 Timer General Register E TGRE 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A74h MTU7 Timer General Register E TGRE 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A76h MTU7 Timer General Register F TGRF 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A80h MTU Timer Start Register B TSTRB 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A81h MTU Timer Synchronous Register B TSYRB 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A84h MTU Timer Read/Write Enable Register B TRWERB 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 145 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (53 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000C 1A93h MTU6 Noise Filter Control Register 6 NFCR6 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A94h MTU7 Noise Filter Control Register 7 NFCR7 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1A95h MTU5 Noise Filter Control Register 5 NFCR5 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1C80h MTU5 Timer Counter U TCNTU 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1C82h MTU5 Timer General Register U TGRU 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1C84h MTU5 Timer Control Register U TCRU 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1C85h MTU5 Timer Control Register 2 TCR2U 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1C86h MTU5 Timer I/O Control Register U TIORU 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1C90h MTU5 Timer Counter V TCNTV 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1C92h MTU5 Timer General Register V TGRV 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1C94h MTU5 Timer Control Register V TCRV 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1C95h MTU5 Timer Control Register 2 TCR2V 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1C96h MTU5 Timer I/O Control Register V TIORV 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1CA0h MTU5 Timer Counter W TCNTW 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1CA2h MTU5 Timer General Register W TGRW 16 16 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1CA4h MTU5 Timer Control Register W TCRW 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1CA5h MTU5 Timer Control Register 2 TCR2W 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1CA6h MTU5 Timer I/O Control Register W TIORW 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1CB2h MTU5 Timer Interrupt Enable Register TIER 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1CB4h MTU5 Timer Start Register TSTR 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 1CB6h MTU5 Timer Compare Match Clear Register TCNTCMPCL R 8 8 4, 5 PCLKA 1, 2 ICLK MTU3a 000C 5800h BSC Extended Bus Master Priority Control Register EBMAPCR 32 32 1, 2 PCLKA 1 ICLK BSC 000D 0040h SCI10 Serial Mode Register SMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0040h SMCI10 Serial Mode Register SMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0041h SCI10 Bit Rate Register BRR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0042h SCI10 Serial Control Register SCR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0042h SMCI10 Serial Control Register SCR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0043h SCI10 Transmit Data Register TDR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0044h SCI10 Serial Status Register SSR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0044h SMCI10 Serial Status Register SSR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0044h SCI10 Serial Status Register SSRFIFO 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0045h SCI10 Receive Data Register RDR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0046h SCI10 Smart Card Mode Register SCMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0046h SMCI10 Smart Card Mode Register SCMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0047h SCI10 Serial Extended Mode Register SEMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0048h SCI10 Noise Filter Setting Register SNFR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0049h SCI10 I2C Mode Register 1 SIMR1 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 004Ah SCI10 I2C Mode Register 2 SIMR2 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 004Bh SCI10 I2C Mode Register 3 SIMR3 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 004Ch SCI10 I2C Status Register SISR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 004Dh SCI10 SPI Mode Register SPMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 004Eh SCI10 Transmit Data Register H TDRH 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 004Fh SCI10 Transmit Data Register L TDRL 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 004Eh SCI10 Transmit Data Register HL TDRHL 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 004Eh SCI10 Transmit FIFO Data Register FTDR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 004Fh SCI10 Transmit FIFO Data Register FTDR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 004Eh SCI10 Transmit FIFO Data Register FTDR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 0050h SCI10 Receive Data Register H RDRH 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0051h SCI10 Receive Data Register L RDRL 8 8 3, 4 PCLKA 1, 2 ICLK SCIi R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 146 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (54 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000D 0050h SCI10 Receive Data Register HL RDRHL 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 0050h SCI10 Receive FIFO Data Register FRDR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0051h SCI10 Receive FIFO Data Register FRDR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0050h SCI10 Receive FIFO Data Register FRDR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 0052h SCI10 Modulation Duty Register MDDR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0053h SCI10 Data Comparison Control Register DCCR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0054h SCI10 FIFO Control Register FCR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0055h SCI10 FIFO Control Register FCR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0054h SCI10 FIFO Control Register FCR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 0056h SCI10 FIFO Data Count Register FDR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0057h SCI10 FIFO Data Count Register FDR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0056h SCI10 FIFO Data Count Register FDR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 0058h SCI10 Line Status Register LSR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0059h SCI10 Line Status Register LSR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0058h SCI10 Line Status Register LSR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 005Ah SCI10 Comparison Data Register CDR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 005Bh SCI10 Comparison Data Register CDR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 005Ah SCI10 Comparison Data Register CDR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 005Ch SCI10 Serial Port Register SPTR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0060h SCI11 Serial Mode Register SMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0060h SMCI11 Serial Mode Register SMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0061h SCI11 Bit Rate Register BRR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0062h SCI11 Serial Control Register SCR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0062h SMCI11 Serial Control Register SCR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0063h SCI11 Transmit Data Register TDR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0064h SCI11 Serial Status Register SSR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0064h SMCI11 Serial Status Register SSR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0064h SCI11 Serial Status Register SSRFIFO 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0065h SCI11 Receive Data Register RDR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0066h SCI11 Smart Card Mode Register SCMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0066h SMCI11 Smart Card Mode Register SCMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0067h SCI11 Serial Extended Mode Register SEMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0068h SCI11 Noise Filter Setting Register SNFR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0069h SCI11 I2C Mode Register 1 SIMR1 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 006Ah SCI11 I2C Mode Register 2 SIMR2 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 006Bh SCI11 I2C Mode Register 3 SIMR3 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 006Ch SCI11 I2C SISR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 006Dh SCI11 SPI Mode Register SPMR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 006Eh SCI11 Transmit Data Register H TDRH 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 006Fh SCI11 Transmit Data Register L TDRL 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 006Eh SCI11 Transmit Data Register HL TDRHL 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 006Eh SCI11 Transmit FIFO Data Register FTDR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 006Fh SCI11 Transmit FIFO Data Register FTDR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 006Eh SCI11 Transmit FIFO Data Register FTDR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 0070h SCI11 Receive Data Register H RDRH 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0071h SCI11 Receive Data Register L RDRL 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0070h SCI11 Receive Data Register HL RDRHL 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 0070h SCI11 Receive FIFO Data Register FRDR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0071h SCI11 Receive FIFO Data Register FRDR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0070h SCI11 Receive FIFO Data Register FRDR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi Status Register R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 147 of 246 RX65N Group, RX651 Group Table 4.1 4. I/O Registers List of I/O Registers (Address Order) (55 / 60) Address Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000D 0072h SCI11 Modulation Duty Register MDDR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0073h SCI11 Data Comparison Control Register DCCR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0074h SCI11 FIFO Control Register FCR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0075h SCI11 FIFO Control Register FCR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0074h SCI11 FIFO Control Register FCR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 0076h SCI11 FIFO Data Count Register FDR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0077h SCI11 FIFO Data Count Register FDR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0076h SCI11 FIFO Data Count Register FDR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 0078h SCI11 Line Status Register LSR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0079h SCI11 Line Status Register LSR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0078h SCI11 Line Status Register LSR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 007Ah SCI11 Comparison Data Register CDR.H 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 007Bh SCI11 Comparison Data Register CDR.L 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 007Ah SCI11 Comparison Data Register CDR 16 16 5, 6 PCLKA 1 to 3 ICLK SCIi 000D 007Ch SCI11 Serial Port Register SPTR 8 8 3, 4 PCLKA 1, 2 ICLK SCIi 000D 0100h RSPI0 RSPI Control Register SPCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0101h RSPI0 RSPI Slave Select Polarity Register SSLP 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0102h RSPI0 RSPI Pin Control Register SPPCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0103h RSPI0 RSPI Status Register SPSR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0104h RSPI0 RSPI Data Register SPDR 32 8, 16, 32 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0108h RSPI0 RSPI Sequence Control Register SPSCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0109h RSPI0 RSPI Sequence Status Register SPSSR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 010Ah RSPI0 RSPI Bit Rate Register SPBR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 010Bh RSPI0 RSPI Data Control Register SPDCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 010Ch RSPI0 RSPI Clock Delay Register SPCKD 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 010Dh RSPI0 RSPI Slave Select Negation Delay Register SSLND 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 010Eh RSPI0 RSPI Next-Access Delay Register SPND 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 010Fh RSPI0 RSPI Control Register 2 SPCR2 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0110h RSPI0 RSPI Command Register 0 SPCMD0 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0112h RSPI0 RSPI Command Register 1 SPCMD1 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0114h RSPI0 RSPI Command Register 2 SPCMD2 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0116h RSPI0 RSPI Command Register 3 SPCMD3 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0118h RSPI0 RSPI Command Register 4 SPCMD4 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 011Ah RSPI0 RSPI Command Register 5 SPCMD5 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 011Ch RSPI0 RSPI Command Register 6 SPCMD6 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 011Eh RSPI0 RSPI Command Register 7 SPCMD7 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0120h RSPI0 RSPI Data Control Register 2 SPDCR2 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0140h RSPI1 RSPI Control Register SPCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0141h RSPI1 RSPI Slave Select Polarity Register SSLP 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0142h RSPI1 RSPI Pin Control Register SPPCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0143h RSPI1 RSPI Status Register SPSR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0144h RSPI1 RSPI Data Register SPDR 32 8, 16, 32 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0148h RSPI1 RSPI Sequence Control Register SPSCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0149h RSPI1 RSPI Sequence Status Register SPSSR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 014Ah RSPI1 RSPI Bit Rate Register SPBR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 014Bh RSPI1 RSPI Data Control Register SPDCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 014Ch RSPI1 RSPI Clock Delay Register SPCKD 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 014Dh RSPI1 RSPI Slave Select Negation Delay Register SSLND 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 014Eh RSPI1 RSPI Next-Access Delay Register SPND 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 148 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (56 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000D 014Fh RSPI1 RSPI Control Register 2 SPCR2 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0150h RSPI1 RSPI Command Register 0 SPCMD0 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0152h RSPI1 RSPI Command Register 1 SPCMD1 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0154h RSPI1 RSPI Command Register 2 SPCMD2 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0156h RSPI1 RSPI Command Register 3 SPCMD3 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0158h RSPI1 RSPI Command Register 4 SPCMD4 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 015Ah RSPI1 RSPI Command Register 5 SPCMD5 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 015Ch RSPI1 RSPI Command Register 6 SPCMD6 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 015Eh RSPI1 RSPI Command Register 7 SPCMD7 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0160h RSPI1 RSPI Data Control Register 2 SPDCR2 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0300h RSPI2 RSPI Control Register SPCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0301h RSPI2 RSPI Slave Select Polarity Register SSLP 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0302h RSPI2 RSPI Pin Control Register SPPCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0303h RSPI2 RSPI Status Register SPSR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0304h RSPI2 RSPI Data Register SPDR 32 8, 16, 32 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0308h RSPI2 RSPI Sequence Control Register SPSCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0309h RSPI2 RSPI Sequence Status Register SPSSR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 030Ah RSPI2 RSPI Bit Rate Register SPBR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 030Bh RSPI2 RSPI Data Control Register SPDCR 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 030Ch RSPI2 RSPI Clock Delay Register SPCKD 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 030Dh RSPI2 RSPI Slave Select Negation Delay Register SSLND 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 030Eh RSPI2 RSPI Next-Access Delay Register SPND 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 030Fh RSPI2 RSPI Control Register 2 SPCR2 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0310h RSPI2 RSPI Command Register 0 SPCMD0 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0312h RSPI2 RSPI Command Register 1 SPCMD1 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0314h RSPI2 RSPI Command Register 2 SPCMD2 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0316h RSPI2 RSPI Command Register 3 SPCMD3 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0318h RSPI2 RSPI Command Register 4 SPCMD4 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 031Ah RSPI2 RSPI Command Register 5 SPCMD5 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 031Ch RSPI2 RSPI Command Register 6 SPCMD6 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 031Eh RSPI2 RSPI Command Register 7 SPCMD7 16 16 3, 4 PCLKA 1, 2 ICLK RSPIc 000D 0320h RSPI2 RSPI Data Control Register 2 SPDCR2 8 8 3, 4 PCLKA 1, 2 ICLK RSPIc 000E 0000h to 000E 03FCh GLCDC Graphic 1 Color Look-up Table 0[0 to 255] GR1CLUT0[0 to 255] 32 32 5, 6 PCLKA*3 1, 2 ICLK*3 GLCDC 000E 0400h to 000E 07FCh GLCDC Graphic 1 Color Look-up Table 1[0 to 255] GR1CLUT1[0 to 255] 32 32 5, 6 PCLKA*3 1, 2 ICLK*3 GLCDC 000E 0800h to 000E 0BFCh GLCDC Graphic 2 Color Look-up Table 0[0 to 255] GR2CLUT0[0 to 255] 32 32 5, 6 PCLKA*3 1, 2 ICLK*3 GLCDC 000E 0C00h to 000E 0FFCh GLCDC Graphic 2 Color Look-up Table 1[0 to 255] GR2CLUT1[0 to 255] 32 32 5, 6 PCLKA*3 1, 2 ICLK*3 GLCDC 000E 1000h GLCDC Background Generating Block Operation Control Register BGEN 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1004h GLCDC Free-Running Period Register BGPERI 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1008h GLCDC Synchronization Position Register BGSYNC 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 100Ch GLCDC Vertical Size Register BGVSIZE 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1010h GLCDC Horizontal Size Register BGHSIZE 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1014h GLCDC Background Color Register BGCOLOR 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1018h GLCDC Background Generating Block Status Monitor Register BGMON 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1100h GLCDC Graphic 1 Register Update Control Register 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 GR1VEN Page 149 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (57 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000E 1104h GLCDC Graphic 1 Frame Buffer Read Control Register GR1FLMRD 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 110Ch GLCDC Graphic 1 Frame Buffer Control Register 2 GR1FLM2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1110h GLCDC Graphic 1 Frame Buffer Control Register 3 GR1FLM3 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1118h GLCDC Graphic 1 Frame Buffer Control Register 5 GR1FLM5 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 111Ch GLCDC Graphic 1 Frame Buffer Control Register 6 GR1FLM6 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1120h GLCDC Graphic 1 Alpha Blending Control Register 1 GR1AB1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1124h GLCDC Graphic 1 Alpha Blending Control Register 2 GR1AB2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1128h GLCDC Graphic 1 Alpha Blending Control Register 3 GR1AB3 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 112Ch GLCDC Graphic 1 Alpha Blending Control Register 4 GR1AB4 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1130h GLCDC Graphic 1 Alpha Blending Control Register 5 GR1AB5 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1134h GLCDC Graphic 1 Alpha Blending Control Register 6 GR1AB6 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1138h GLCDC Graphic 1 Alpha Blending Control Register 7 GR1AB7 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 113Ch GLCDC Graphic 1 Alpha Blending Control Register 8 GR1AB8 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1140h GLCDC Graphic 1 Alpha Blending Control Register 9 GR1AB9 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 114Ch GLCDC Graphic 1 Background Color Control Register GR1BASE 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1150h GLCDC Graphic 1 CLUT/Interrupt Control Register GR1CLUTINT 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1154h GLCDC Graphic 1 Status Monitor Register GR1MON 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1200h GLCDC Graphic 2 Register Update Control Register GR2VEN 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1204h GLCDC Graphic 2 Frame Buffer Read Control Register GR2FLMRD 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 120Ch GLCDC Graphic 2 Frame Buffer Control Register 2 GR2FLM2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1210h GLCDC Graphic 2 Frame Buffer Control Register 3 GR2FLM3 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1218h GLCDC Graphic 2 Frame Buffer Control Register 5 GR2FLM5 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 121Ch GLCDC Graphic 2 Frame Buffer Control Register 6 GR2FLM6 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1220h GLCDC Graphic 2 Alpha Blending Control Register 1 GR2AB1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1224h GLCDC Graphic 2 Alpha Blending Control Register 2 GR2AB2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1228h GLCDC Graphic 2 Alpha Blending Control Register 3 GR2AB3 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 122Ch GLCDC Graphic 2 Alpha Blending Control Register 4 GR2AB4 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1230h GLCDC Graphic 2 Alpha Blending Control Register 5 GR2AB5 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1234h GLCDC Graphic 2 Alpha Blending Control Register 6 GR2AB6 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1238h GLCDC Graphic 2 Alpha Blending Control Register 7 GR2AB7 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 123Ch GLCDC Graphic 2 Alpha Blending Control Register 8 GR2AB8 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1240h GLCDC Graphic 2 Alpha Blending Control Register 9 GR2AB9 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 124Ch GLCDC Graphic 2 Background Color Control Register GR2BASE 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1250h GLCDC Graphic 2 CLUT/Interrupt Control Register GR2CLUTINT 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1254h GLCDC Graphic 2 Status Monitor Register GR2MON 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1300h GLCDC Gamma Correction G Block Register Update Control Register GAMGVEN 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1304h GLCDC Gamma Correction Block Function Switch Register GAMSW 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1308h GLCDC Gamma Correction G Table Setting Register 1 GAMGLUT1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 130Ch GLCDC Gamma Correction G Table Setting Register 2 GAMGLUT2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1310h GLCDC Gamma Correction G Table Setting Register 3 GAMGLUT3 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1314h GLCDC Gamma Correction G Table Setting Register 4 GAMGLUT4 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1318h GLCDC Gamma Correction G Table Setting Register 5 GAMGLUT5 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 131Ch GLCDC Gamma Correction G Table Setting Register 6 GAMGLUT6 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1320h GLCDC Gamma Correction G Table Setting Register 7 GAMGLUT7 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1324h GLCDC Gamma Correction G Table Setting Register 8 GAMGLUT8 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1328h GLCDC Gamma Correction G Area Setting Register 1 GAMGAREA1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 132Ch GLCDC Gamma Correction G Area Setting Register 2 GAMGAREA2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1330h GLCDC Gamma Correction G Area Setting Register 3 GAMGAREA3 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1334h GLCDC Gamma Correction G Area Setting Register 4 GAMGAREA4 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 150 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (58 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000E 1338h GLCDC Gamma Correction G Area Setting Register 5 GAMGAREA5 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1340h GLCDC Gamma Correction B Block Register Update Control Register GAMBVEN 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1348h GLCDC Gamma Correction B Table Setting Register 1 GAMBLUT1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 134Ch GLCDC Gamma Correction B Table Setting Register 2 GAMBLUT2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1350h GLCDC Gamma Correction B Table Setting Register 3 GAMBLUT3 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1354h GLCDC Gamma Correction B Table Setting Register 4 GAMBLUT4 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1358h GLCDC Gamma Correction B Table Setting Register 5 GAMBLUT5 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 135Ch GLCDC Gamma Correction B Table Setting Register 6 GAMBLUT6 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1360h GLCDC Gamma Correction B Table Setting Register 7 GAMBLUT7 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1364h GLCDC Gamma Correction B Table Setting Register 8 GAMBLUT8 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1368h GLCDC Gamma Correction B Area Setting Register 1 GAMBAREA1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 136Ch GLCDC Gamma Correction B Area Setting Register 2 GAMBAREA2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1370h GLCDC Gamma Correction B Area Setting Register 3 GAMBAREA3 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1374h GLCDC Gamma Correction B Area Setting Register 4 GAMBAREA4 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1378h GLCDC Gamma Correction B Area Setting Register 5 GAMBAREA5 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1380h GLCDC Gamma Correction R Block Register Update Control Register GAMRVEN 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1388h GLCDC Gamma Correction R Table Setting Register 1 GAMRLUT1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 138Ch GLCDC Gamma Correction R Table Setting Register 2 GAMRLUT2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1390h GLCDC Gamma Correction R Table Setting Register 3 GAMRLUT3 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1394h GLCDC Gamma Correction R Table Setting Register 4 GAMRLUT4 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1398h GLCDC Gamma Correction R Table Setting Register 5 GAMRLUT5 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 139Ch GLCDC Gamma Correction R Table Setting Register 6 GAMRLUT6 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13A0h GLCDC Gamma Correction R Table Setting Register 7 GAMRLUT7 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13A4h GLCDC Gamma Correction R Table Setting Register 8 GAMRLUT8 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13A8h GLCDC Gamma Correction R Area Setting Register 1 GAMRAREA1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13ACh GLCDC Gamma Correction R Area Setting Register 2 GAMRAREA2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13B0h GLCDC Gamma Correction R Area Setting Register 3 GAMRAREA3 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13B4h GLCDC Gamma Correction R Area Setting Register 4 GAMRAREA4 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13B8h GLCDC Gamma Correction R Area Setting Register 5 GAMRAREA5 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13C0h GLCDC Output Control Block Register Update Control Register OUTVEN 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13C4h GLCDC Output Interface Register OUTSET 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13C8h GLCDC Brightness Adjustment Register 1 BRIGHT1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13CCh GLCDC Brightness Adjustment Register 2 BRIGHT2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13D0h GLCDC Contrast Adjustment Register CONTRAST 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13D4h GLCDC Panel Dither Control Register PANELDTHA 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 13E4h GLCDC Output Phase Control Register CLKPHASE 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1404h GLCDC Reference Timing Setting Register TCONTIM 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1408h GLCDC Vertical Timing Setting Register A1 TCONSTVA1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 140Ch GLCDC Vertical Timing Setting Register A2 TCONSTVA2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1410h GLCDC Vertical Timing Setting Register B1 TCONSTVB1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1414h GLCDC Vertical Timing Setting Register B2 TCONSTVB2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1418h GLCDC Horizontal Timing Setting Register A1 TCONSTHA1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 141Ch GLCDC Horizontal Timing Setting Register A2 TCONSTHA2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1420h GLCDC Horizontal Timing Setting Register B1 TCONSTHB1 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1424h GLCDC Horizontal Timing Setting Register B2 TCONSTHB2 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1428h GLCDC Data Enable Polarity Setting Register TCONDE 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1440h GLCDC Status Detection Control Register DTCTEN 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1444h GLCDC Interrupt Request Enable Control Register INTEN 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 151 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (59 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000E 1448h GLCDC Detected Status Clear Register STCLR 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 144Ch GLCDC Detected Status Monitor Register STMON 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 1450h GLCDC Panel Clock Control Register PANELCLK 32 32 2, 3 PCLKA 1, 2 ICLK GLCDC 000E 3000h DRW2D Geometry Control Register CONTROL 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3000h DRW2D Status Register STATUS 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3004h DRW2D Surface Control Register CONTROL2 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3004h DRW2D Hardware Version Register HWVER 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3010h DRW2D Limiter 1 Start Value Register L1START 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3014h DRW2D Limiter 2 Start Value Register L2START 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3018h DRW2D Limiter 3 Start Value Register L3START 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 301Ch DRW2D Limiter 4 Start Value Register L4START 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3020h DRW2D Limiter 5 Start Value Register L5START 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3024h DRW2D Limiter 6 Start Value Register L6START 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3028h DRW2D Limiter 1 X-Axis Increment Register L1XADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 302Ch DRW2D Limiter 2 X-Axis Increment Register L2XADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3030h DRW2D Limiter 3 X-Axis Increment Register L3XADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3034h DRW2D Limiter 4 X-Axis Increment Register L4XADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3038h DRW2D Limiter 5 X-Axis Increment Register L5XADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 303Ch DRW2D Limiter 6 X-Axis Increment Register L6XADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3040h DRW2D Limiter 1 Y-Axis Increment Register L1YADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3044h DRW2D Limiter 2 Y-Axis Increment Register L2YADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3048h DRW2D Limiter 3 Y-Axis Increment Register L3YADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 304Ch DRW2D Limiter 4 Y-Axis Increment Register L4YADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3050h DRW2D Limiter 5 Y-Axis Increment Register L5YADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3054h DRW2D Limiter 6 Y-Axis Increment Register L6YADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3058h DRW2D Limiter 1 Band Width Parameter Register L1BAND 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 305Ch DRW2D Limiter 2 Band Width Parameter Register L2BAND 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3064h DRW2D Base Color Register COLOR1 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3068h DRW2D Secondary Color Register COLOR2 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3074h DRW2D Pattern Register PATTERN 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3078h DRW2D Bounding Box Dimension Register SIZE 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 307Ch DRW2D Frame Buffer Pitch Register PITCH 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3080h DRW2D Frame Buffer Base Address Register ORIGIN 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3090h DRW2D U Limiter Start Value Register LUST 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3094h DRW2D U Limiter X-Axis Increment Register LUXADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 3098h DRW2D U Limiter Y-Axis Increment Register LUYADD 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 309Ch DRW2D V Limiter Start Value Integer Part Register LVSTI 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30A0h DRW2D V Limiter Start Value Fractional Part Register LVSTF 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30A4h DRW2D V Limiter X-Axis Increment Integer Part Register LVXADDI 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30A8h DRW2D V Limiter Y-Axis Increment Integer Part Register LVYADDI 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30ACh DRW2D V Limiter Increment Fractional Parts Register LVYXADDF 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30B4h DRW2D Texels Per Texture Line Register TEXPITCH 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30B8h DRW2D Texture Mask Register TEXMSK 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30BCh DRW2D Texture Base Address Register TEXORG 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30C0h DRW2D Interrupt Control Register IRQCTL 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30C4h DRW2D Cache Control Register CACHECTL 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30C8h DRW2D Display List Start Address Register DLISTST 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30CCh DRW2D Performance Counter 1 PERFCNT1 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30D0h DRW2D Performance Counter 2 PERFCNT2 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30D4h DRW2D Performance Counters Control Register PERFTRG 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 152 of 246 RX65N Group, RX651 Group Table 4.1 Address 4. I/O Registers List of I/O Registers (Address Order) (60 / 60) Module Symbol Register Name Register Symbol Number of Access Cycles Number Access ICLK ≥ PCLK ICLK < PCLK of Bits Size Related Function 000E 30DCh DRW2D CLUT Start Address Register TEXCLADDR 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30E0h DRW2D CLUT Data Register TEXCLDATA 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30E4h DRW2D CLUT Offset Register TEXCLOFST 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 000E 30E8h DRW2D Chroma Key Register COLKEY 32 32 2, 3 PCLKA 1, 2 ICLK DRW2D 007F C040h FLASH Data Flash Memory Access Frequency Setting Register EEPFCLK 8 8 2 FCLK FE7F 5D00h OFSM Endian Select Register MDE 32 32 1 to 3 ICLK OptionSetting Memory FE7F 5D04h OFSM Option Function Select Register 0 OFS0 32 32 1 to 3 ICLK OptionSetting Memory FE7F 5D08h OFSM Option Function Select Register 1 OFS1 32 32 1 to 3 ICLK OptionSetting Memory FE7F 5D10h OFSM TM Identification Data Register TMINF 32 32 1 to 3 ICLK OptionSetting Memory FE7F 5D20h OFSM Bank Select Register BANKSEL 32 32 1 to 3 ICLK OptionSetting Memory FE7F 5D40h OFSM Serial Programmer Command Control Register SPCC 32 32 1 to 3 ICLK OptionSetting Memory FE7F 5D48h OFSM TM Enable Flag Register TMEF 32 32 1 to 3 ICLK OptionSetting Memory FE7F 5D50h OFSM OCD/Serial Programmer ID Setting Register OSIS 32 32 1 to 3 ICLK OptionSetting Memory FE7F 5D64h OFSM Flash Access Window Setting Register FAW 32 32 1 to 3 ICLK OptionSetting Memory FE7F 5D70h OFSM ROM Code Protection Register ROMCODE 32 32 1 to 3 ICLK OptionSetting Memory Flash FE7F 7D7Ch TEMPS Temperature Sensor Calibration Data Register TSCDR 32 32 1 to 3 ICLK TEMPS FE7F 7D90h FLASH Unique ID Register 0 UIDR0 32 32 1 to 3 ICLK Flash FE7F 7D94h FLASH Unique ID Register 1 UIDR1 32 32 1 to 3 ICLK Flash FE7F 7D98h FLASH Unique ID Register 2 UIDR2 32 32 1 to 3 ICLK Flash FE7F 7D9Ch FLASH Unique ID Register 3 UIDR3 32 32 1 to 3 ICLK Flash Note 1. When the register is accessed while the USB is operating, a delay may be generated in accessing. Note 2. The address must end with 0h, 4h, 8h, or Ch when access is made in 32-bit units. The address must end with 0h, 2h, 4h, 6h, 8h, Ah, Ch, or Eh when access is made in 16-bit units. Note 3. When the register is accessed while the GLCDC is operating, a delay may be generated in accessing. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 153 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics 5. Electrical Characteristics 5.1 Absolute Maximum Ratings Table 5.1 Absolute Maximum Rating Conditions: VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V Item Power supply voltage VBATT power supply voltage Input voltage (except for ports for 5 V Symbol Value Unit VCC, VCC_USB –0.3 to +4.0 V VBATT –0.3 to +4.0 V Vin –0.3 to VCC + 0.3 (up to 4.0) V Vin –0.3 to VCC + 4.0 (up to 5.8) V VREFH0 –0.3 to AVCC0 + 0.3 (up to 4.0) V tolerant*1) Input voltage (ports for 5 V tolerant*1) Reference power supply voltage Analog power supply voltage AVCC0, –0.3 to +4.0 V VAN –0.3 to AVCC + 0.3 (up to 4.0) V D version Tj –40 to +105 °C G version Tj –40 to +125 °C Tstg –55 to +125 °C Analog input voltage Junction temperature AVCC1*2 Storage temperature Caution: Permanent damage to the LSI may result if absolute maximum ratings are exceeded. Note 1. Ports 07, 11 to 17, 20, 21, 30 to 33, 67, and C0 to C3 are 5 V tolerant. Note 2. Connect the AVCC0, AVCC1, and VCC_USB pins to VCC, and the AVSS0, AVSS1, and VSS_USB pins to VSS. When the A/D converter unit 0 is not to be used, connect the VREFH0 pin to VCC and the VREFL0 pin to VSS, respectively. Do not leave these pins open. Insert capacitors of high frequency characteristics between the AVCC0 and AVSS0 pins, or AVCC1 and AVSS1 pins. Place capacitors of about 0.1 μF as close as possible to every power supply pin and use the shortest and heaviest possible traces. Table 5.2 Recommended Operating Conditions Item Power supply voltage*1 Symbol Min. Typ. Max. Unit VCC 2.7 — 3.6 V VSS — 0 — V VBATT power supply voltage VBATT 2.0 — 3.6 V USB power supply voltage VCC_USB — VCC — V Analog power supply voltage*1, *2 VSS_USB — 0 — V AVCC0 — VCC — V AVSS0 — 0 — V AVCC1 — VCC — V AVSS1 — 0 — V VREFH0 2.7 — AVCC0 V VREFL0 — 0 — V Input voltage (except for 5 V tolerant ports, except for ports 03, 05 and 40 to 47)*3 Vin –0.3 — VCC + 0.3 V Input voltage (ports 03, 05 and 40 to 47) Vin –0.3 — AVCC + 0.3 V Input voltage (5V tolerant ports 11 to 17, ports 20 and 21, ports 30 to 33, port 67, and ports C0 to C3)*4 Vin –0.3 — VCC + 3.6 (up to 5.5) V Input voltage (5V tolerant port 07) Vin –0.3 — AVCC + 3.6 (up to 5.5) V Operating temperature (D version) Topr –40 — 85 °C Operating temperature (G version) Topr –40 — 105 °C Note 1. Note 2. Note 3. Note 4. Comply with the following potential condition: VCC = AVCC0 = AVCC1 = VCC_USB For details, see section 53.6.11, Voltage Range of Analog Power Supply Pins in the User’s Manual: Hardware. Ports 07, 11 to 17, 20, 21, 30 to 33, 67, and C0 to C3 are 5 V tolerant. For P32, P31, and P30, input as follows when the VBATT power supply is selected. Vin Min. = –0.3, Max. = VBATT + 0.3 (VBATT = 2.0 to 3.6 V) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 154 of 246 RX65N Group, RX651 Group 5.2 5. Electrical Characteristics DC Characteristics Table 5.3 DC Characteristics (1) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Schmitt trigger input voltage IRQ input pin*1 MTU input pin*1 POE3 input pin*1 TPU input pin*1 TMR input pin*1 CMTW input pin*1 SCI input pin*1 CAN input pin*1 CAC input pin*1 ADTRG# input pin*1 QSPI input pin*1 RES#, NMI, TCK RIIC input pin (except for SMBus) Ports for 5 V tolerant*2 Other input pins excluding ports for 5 V tolerant*3 Input high voltage MD pin, EMLE (except for Schmitt EXTAL, RSPI input pin, trigger input pin) EXDMAC input pin, WAIT#, SDHI input pin, MMC input pin, PDC input pin, SDSI input pin Symbol Min. Typ. Max. Unit VIH VCC × 0.8 — — V VIL — — VCC × 0.2 ΔVT VCC × 0.06 — — VIH VCC × 0.7 — — VIL — — VCC × 0.3 ΔVT VCC × 0.05 — — VIH VCC × 0.8 — — VIL — — VCC × 0.2 VIH VCC × 0.8 — — VIL — — VCC × 0.2 VIH VCC × 0.9 — — VCC × 0.8 — — ETHERC input pin 2.3 — — VCC × 0.7 — — 2.1 — — — — VCC × 0.1 — — VCC × 0.2 D0 to D31 — — VCC × 0.3 RIIC (SMBus) — — 0.8 D0 to D31 RIIC (SMBus) Input low voltage MD pin, EMLE (except for Schmitt EXTAL, RSPI input pin, trigger input pin) ETHERC input pin, EXDMAC input pin, WAIT#, SDHI input pin, MMC input pin, PDC input pin, SDSI input pin VIL Test Conditions V V Note 1. This does not include the pins, which are multiplexed as ports for 5 V tolerant. Note 2. Ports 07, 11 to 17, 20, 21, 30 to 33, 67, and C0 to C3 are 5 V tolerant. Note 3. For P32, P31, and P30, input as follows when the VBATT power supply is selected. VIH Min. = VBATT × 0.8, VIL Max. = VBATT × 0.2 (VBATT = 2.0 to 3.6 V) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 155 of 246 RX65N Group, RX651 Group Table 5.4 5. Electrical Characteristics DC Characteristics (2) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Symbol Min. Typ. Max. Unit Test Conditions Output high voltage All output pins VOH VCC – 0.5 — — V IOH = –1 mA Output low voltage All output pins (except for RIIC pins and ETHERC output pin) VOL — — 0.5 V IOL = 1.0 mA — — 0.4 — — 0.6 — — 0.4 — 0.4 — RIIC output pin RIIC output pin (only P12 and P13 in channel 0) ETHERC output pin Input leakage current RES#, MD pin, EMLE*1, BSCANP*1, NMI Three-state leakage current (off state) Other than ports for 5 V tolerant VOL IOL = 3.0 mA IOL = 6.0 mA V IOL = 15.0 mA (ICFER.FMPE = 1) IOL = 20.0 mA (ICFER.FMPE = 1) VOL — — 0.4 V IOL = 1.0 mA | Iin | — — 1.0 μA Vin = 0 V Vin = VCC | ITSI | — — 1.0 μA Vin = 0 V Vin = VCC — — 5.0 Ports for 5 V tolerant Vin = 0 V Vin = 5.5 V Input pull-up resistor current Other than P35 Ip –300 — –10 μA VCC = 2.7 to 3.6 V Vin = 0 V Input pull-down resistor current EMLE, BSCANP Ip 10 — 300 μA Vin = VCC Input capacitance All input pins (except for ports 03, 05, 12, 13, 16, 17, 20, 21, EMLE, BSCANP, USB0_DP, and USB0_DM) Cin — — 8 pF Vbias = 0 V Vamp = 20 mV f = 1 MHz Ta = 25°C — — 16 Ports 03, 05, 12, 13, 16, 17, 20, 21, EMLE, BSCANP, USB0_DP, and USB0_DM Note 1. The input leakage current value at the EMLE and BSCANP pins are only when Vin = 0 V. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 156 of 246 RX65N Group, RX651 Group Table 5.5 5. Electrical Characteristics DC Characteristics (3) (Products with 1 Mbyte of code flash memory or less) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Full operation*2 ICC*3 D version Typ. Max. G version Typ. Max. Unit Test Conditions mA ICLK = 120 MHz, PCLKA = 120 MHz, PCLKB = 60 MHz, PCLKC = 60 MHz, PCLKD = 60 MHz, FCLK = 60 MHz, BCLK = 120 MHz, BCLK pin = 60 MHz — 40 — 45 Normal Peripheral module clocks are supplied operation *4 22 — 22 — Peripheral module clocks are stopped *4, *5 12 — 12 — Peripheral module clocks are stopped *4, *5 15 — 15 — Sleep mode: Peripheral module clocks are supplied*4 16 24 16 28 All module clock stop mode (reference value) 8 15 8 19 Low-speed operating mode 1: Peripheral module clocks are stopped*4 1.1 — 1.1 — All clocks 1 MHz Low-speed operating mode 2: Peripheral module clocks are stopped*4 1.1 — 1.1 — All clocks 32.768 kHz High-speed operating mode Supply current*1 Symbol Core Mark 1.6 6.4 1.6 9.8 Power is supplied to the standby RAM and USB resume detecting unit (USB0 only) 15.5 61 15.5 85 Power is not supplied to the standby RAM and USB resume detecting unit (USB0 only) Low power consumption function of the power-on reset circuit is disabled*6 11.5 38 11.5 48 Low power consumption function of the power-on reset circuit is enabled*7 4.9 29 4.9 39 Increase current by operating RTC When a low CL crystal is in use 1 — 1 — When a standard CL crystal is in use 2 — 2 — When the RTC is operating while VCC is not supplied (Only the RTC and sub-clock oscillator operate with the battery backup function) When a low CL crystal is in use 0.9 — 0.9 — VBATT = 2.0 V, VCC = 0 V 1.6 — 1.6 — VBATT = 3.3 V, VCC = 0 V 1.7 — 1.7 — VBATT = 2.0 V, VCC = 0 V 3.3 — 3.3 — VBATT = 3.3 V, VCC = 0 V Inrush current on release from deep software standby mode Inrush current*8 Deep software standby mode Software standby mode When a standard CL crystal is in use Total inrush current*8 μA IRUSH — 70 — 70 mA ERUSH — 1.0 — 1.0 μC Note 1. Supply current values are measured when all output pins are unloaded and all input pull-up resistors are disabled. Note 2. Peripheral module clocks are supplied. Note 3. ICC depends on the f (ICLK) as follows (when ICLK/PCLKA : PCLKB/PCLKC/PCLKD : BCLK : BCLK pin = 2 : 1 : 2 : 1 and EXTAL = 12 MHz).  D version ICC max = 0.31 × f + 6.5 (full operation in high-speed operating mode) ICC typ = 0.16 × f + 2.8 (normal operation in high-speed operating mode) ICC typ = 0.1 × f + 1.0 (ICLK 1 MHz max) (low-speed operating mode 1) ICC max = 0.15 × f + 6.5 (sleep mode)  G version ICC max = 0.33 × f + 9 (full operation in high-speed operating mode) ICC typ = 0.16 × f + 2.8 (normal operation in high-speed operating mode) ICC typ = 0.1 × f + 1.0 (ICLK 1 MHz max) (low-speed operating mode 1) ICC max = 0.21 × f + 9 (sleep mode) Note 4. Whether the peripheral module clocks are supplied or stopped is controlled only by the bit settings in the module stop control registers A to D. Note 5. When the peripheral module clock is stopped, the settings of the clock frequency are as follows: ICLK = 120 MHz and PCLKA = PCLKB = PCLKC = PCLKD = FCLK = BCLK = BCLK pin = 3.75 MHz (divided by 64). R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 157 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics Note 6. When the low power consumption function is disabled, the DEEPCUT[1:0] bits are set to 01b. Note 7. When the low power consumption function is enabled, the DEEPCUT[1:0] bits are set to 11b. Note 8. Reference value Table 5.6 DC Characteristics (3) (Products for products with at least 1.5 Mbytes of code flash memory) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Symbol Full operation*2 High-speed operating mode Supply current*1 ICC*3 D version Typ. Max. G version Typ. Max. — 60 — 73 Normal Peripheral module clocks are supplied*4 operation Peripheral module clocks are stopped *4, *5 26 — 26 — 13 — 13 — Core Mark 17 — 17 — Sleep mode: Peripheral module clocks are supplied *4 20 38 20 52 All module clock stop mode (reference value) 9 26 9 39 Increased by BGO operation *8 Reading from the code flash memory while the data flash memory is being programmed 6 — 6 — Reading from the code flash memory while the code flash memory is being programmed 7 — 7 — Peripheral module clocks are stopped *4, *5 Increased by Trusted Secure IP operation Unit Test Conditions mA ICLK = 120 MHz, PCLKA = 120 MHz, PCLKB = 60 MHz, PCLKC = 60 MHz, PCLKD = 60 MHz, FCLK = 60 MHz, BCLK = 120 MHz, BCLK pin = 60 MHz — 12 — 12 Low-speed operating mode 1: Peripheral module clocks are stopped*4 1.6 — 1.6 — All clocks 1 MHz Low-speed operating mode 2: Peripheral module clocks are stopped*4 1.6 — 1.6 — All clocks 32.768 kHz Deep software standby mode Software standby mode 1.6 13 1.6 22.4 Power is supplied to the standby RAM and USB resume detecting unit (USB0 only) 15.5 70 15.5 98 Power is not supplied to the standby RAM and USB resume detecting unit (USB0 only) Low power consumption function of the power-on reset circuit is disabled*6 11.5 42 11.5 54 Low power consumption function of the power-on reset circuit is enabled*7 4.9 32 4.9 47 Increase current by operating RTC When a low CL crystal is in use 1 — 1 — When a standard CL crystal is in use 2 — 2 — 0.9 — 0.9 — VBATT = 2.0 V, VCC = 0 V 1.6 — 1.6 — VBATT = 3.3 V, VCC = 0 V 1.7 — 1.7 — VBATT = 2.0 V, VCC = 0 V 3.3 — 3.3 — VBATT = 3.3 V, VCC = 0 V IRUSH — 130 — 130 mA ERUSH — 1.0 — 1.0 μC When the RTC is operating while VCC is not supplied (Only the RTC and sub-clock oscillator operate with the battery backup function) When a low CL crystal is in use Inrush current on release from deep software standby mode Inrush current*9 When a standard CL crystal is in use Total inrush current*9 μA Note 1. Supply current values are measured when all output pins are unloaded and all input pull-up resistors are disabled. Note 2. Peripheral module clocks are supplied. Note 3. ICC depends on the f (ICLK) as follows (when ICLK/PCLKA : PCLKB/PCLKC/PCLKD : BCLK : BCLK pin = 2 : 1 : 2 : 1 and EXTAL = 12 MHz).  D version ICC max = 0.38 × f + 14 (full operation in high-speed operating mode) ICC typ = 0.18 × f + 4 (normal operation in high-speed operating mode) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 158 of 246 RX65N Group, RX651 Group Note 4. Note 5. Note 6. Note 7. Note 8. Note 9. 5. Electrical Characteristics ICC typ = 0.1 × f + 1.5 (ICLK 1 MHz max) (low-speed operating mode 1) ICC max = 0.2 × f + 14 (sleep mode)  G version ICC max = 0.44 × f + 20 (full operation in high-speed operating mode) ICC typ = 0.18 × f + 4 (normal operation in high-speed operating mode) ICC typ = 0.1 × f + 1.5 (ICLK 1 MHz max) (low-speed operating mode 1) ICC max = 0.27 × f + 20 (sleep mode) Whether the peripheral module clocks are supplied or stopped is controlled only by the bit settings in the module stop control registers A to D. When the peripheral module clock is stopped, the settings of the clock frequency are as follows: ICLK = 120 MHz and PCLKA = PCLKB = PCLKC = PCLKD = FCLK = BCLK = BCLK pin = 3.75 MHz (divided by 64). When the low power consumption function is disabled, the DEEPCUT[1:0] bits are set to 01b. When the low power consumption function is enabled, the DEEPCUT[1:0] bits are set to 11b. These are the increases during programming of the code flash memory after the code flash memory (limitations apply to the combinations of address ranges of the program area and the readable area) or the data flash memory has been programmed or erased. Reference value Table 5.7 DC Characteristics (4) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Analog power supply current*1 Reference power supply current USB operating current Symbol D version G version Unit Test Conditions Min. Typ. Max. Min. Typ. Max. — 0.8 1 — 0.8 1 mA IAVCC0_AD During 12-bit A/D conversion (unit 0) with channel dedicated sample-andhold circuits (3 channels) — 1.7 2.5 — 1.7 2.5 mA IAVCC0_AD + SH During 12-bit A/D conversion (unit 1) — 0.6 1 — 0.6 1 mA IAVCC1_AD During 12-bit A/D conversion (unit 1) + temperature sensor — 0.7 1.1 — 0.7 1.1 mA IAVCC1_AD + TEMP During D/A conversion (per unit) Unbuffered output — 0.25 0.4 — 0.25 0.4 mA IAVCC1_DA Buffered output — 0.75 1.1 — 0.75 1.1 mA Waiting for A/D, D/A, and temperature sensor conversion (all units) — 0.9 1.4 — 0.9 1.4 mA IAVCC0 + IAVCC1 A/D, D/A, and temperature sensor are in standby mode (all units) — 1.4 6.7 — 1.4 9.0 μA IAVCC0 + IAVCC1 — 38 60 — 38 60 μA IVREFH0 Waiting for 12-bit A/D conversion (unit 0) — 0.07 0.5 — 0.07 0.6 μA IVREFH0 12-bit A/D converter in module stop status (unit 0) — 0.07 0.4 — 0.07 0.5 μA IVREFH0 During 12-bit A/D conversion (unit 0) During 12-bit A/D conversion (unit 0) AICC AIREFH Low speed USB0 ICCUSBLS — 3.7 6.5 — 3.7 6.5 mA VCC_USB Full speed USB0 ICCUSBFS — 4.2 10 — 4.2 10 mA VCC_USB VRAM 2.7 — — 2.7 — — V RAM retension voltage VCC rising gradient SrVCC 8.4 — 20000 8.4 — VCC falling gradient*2 SfVCC 8.4 — — 8.4 — 20000 μs/V — μs/V Note 1. The reference power supply current is included in the power supply current value for 12-bit A/D converter (unit 1) and D/A converter. Note 2. This applies when VBATT is used. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 159 of 246 RX65N Group, RX651 Group Table 5.8 5. Electrical Characteristics Permissible Output Currents Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Permissible output low current (average value per pin) Permissible output low current (max. value per pin) pins*1 Typ. Max. Unit Normal drive IOL — — 2.0 mA High drive IOL — — 3.8 mA All output pins*3 High-speed interface high-drive IOL — — 7.5 mA All output pins*1 Normal drive IOL — — 4.0 mA High drive IOL — — 7.6 mA High-speed interface high-drive IOL — — 15 mA All output All output pins*2 ΣIOL — — 80 mA Normal drive IOH — — –2.0 mA All output pins*2 High drive IOH — — –3.8 mA All output pins*3 High-speed interface high-drive IOH — — –7.5 mA Permissible output low current (total) Total of all output pins Permissible output high current (average value per pin) All output pins*1 Permissible output high current (total) Min. All output pins*2 All output pins*3 Permissible output high current (max. value per pin) Symbol All output pins*1 Normal drive IOH — — –4.0 mA All output pins*2 High drive IOH — — –7.6 mA All output pins*3 High-speed interface high-drive IOH — — –15 mA ΣIOH — — –80 mA Total of all output pins Caution: To protect the LSI’s reliability, the output current values should not exceed the values in this table. Note 1. This is the value when normal driving ability is set with a pin for which normal driving ability is selectable. Note 2. This is the value when high driving ability is set with a pin for which normal driving ability is selectable or the value of the pin to which high driving ability is fixed. Note 3. This is the value when high-speed interface high-driving ability is set with a pin for which high-speed interface high-driving ability is selectable. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 160 of 246 RX65N Group, RX651 Group Table 5.9 5. Electrical Characteristics Thermal Resistance Value (Reference) Item Thermal resistance Package 176-pin LFQFP (PLQP0176KB-A) Symbol Max. Unit ja 48.0 °C/W 144-pin LFQFP (PLQP0144KA-B) 50.9 100-pin LFQFP (PLQP0100KB-B) 52.5 64-pin LFQFP (PLQP0064KB-C) 53.7 177-pin TFLGA (PTLG0177KA-A) 36.3 176-pin LFBGA (PLBG0176GA-A) 35.4 145-pin TFLGA (PTLG0145KA-A) 34.6 100-pin TFLGA (PTLG0100JA-A) 34.1 64-pin TFBGA (PTBG0064KB-A) 176-pin LFQFP (PLQP0176KB-A) Note: Test Conditions JESD51-2 and JESD51-7 compliant JESD51-2 and JESD51-9 compliant 35.3 jt 1.0 144-pin LFQFP (PLQP0144KA-B) 1.5 100-pin LFQFP (PLQP0100KB-B) 1.5 64-pin LFQFP (PLQP0064KB-C) 1.5 177-pin TFLGA (PTLG0177KA-A) 0.3 176-pin LFBGA (PLBG0176GA-A) 0.3 145-pin TFLGA (PTLG0145KA-A) 0.4 100-pin TFLGA (PTLG0100JA-A) 0.4 64-pin TFBGA (PTBG0064KB-A) 0.5 °C/W JESD51-2 and JESD51-7 compliant JESD51-2 and JESD51-9 compliant The values are reference values when the 4-layer board is used. Thermal resistance depends on the number of layers or size of the board. For details, refer to the JEDEC standards. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 161 of 246 RX65N Group, RX651 Group 5.3 5. Electrical Characteristics AC Characteristics Table 5.10 Operating Frequency (High-Speed Operating Mode) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Operating frequency System clock (ICLK) Symbol Min. Typ. Max. Unit f MHz — — 120 Peripheral module clock (PCLKA) — — 120 Peripheral module clock (PCLKB) — — 60 Peripheral module clock (PCLKC) — — 60 Peripheral module clock (PCLKD) — — 60 —*1 — 60 Package of 144 pins or more — — 120 100-pin package — — 60 Package of 144 pins or more — — 60 Flash-IF clock (FCLK) External bus clock (BCLK) BCLK pin output 100-pin package — — 30 SDRAM clock (SDCLK) Package of 144 pins or more — — 60 SDCLK pin output Package of 144 pins or more — — 60 Note 1. The FCLK must run at a frequency of at least 4 MHz when changing the flash memory contents. Table 5.11 Operating Frequency (Low-Speed Operating Mode 1) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Operating frequency System clock (ICLK) Symbol Min. Typ. Max. Unit f — — 1 MHz — — 1 Peripheral module clock (PCLKA) Peripheral module clock (PCLKB) — — 1 Peripheral module clock (PCLKC)*1 — — 1 Peripheral module clock (PCLKD)*1 — — 1 Flash-IF clock (FCLK) External bus clock (BCLK) BCLK pin output — — 1 Package of 144 pins or more — — 1 100-pin package — — 1 Package of 144 pins or more — — 1 100-pin package — — 1 SDRAM clock (SDCLK) Package of 144 pins or more — — 1 SDCLK pin output Package of 144 pins or more — — 1 Note 1. When the 12-bit A/D converter is used, the frequency must be set to at least 1 MHz. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 162 of 246 RX65N Group, RX651 Group Table 5.12 5. Electrical Characteristics Operating Frequency (Low-Speed Operating Mode 2) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Operating frequency System clock (ICLK) Symbol Min. Typ. Max. Unit f kHz 32 — 264 Peripheral module clock (PCLKA) — — 264 Peripheral module clock (PCLKB) — — 264 (PCLKC)*1 — — 264 Peripheral module clock (PCLKD)*1 — — 264 Flash-IF clock (FCLK) 32 — 264 Package of 144 pins or more — — 264 100-pin package — — 264 Package of 144 pins or more — — 264 Peripheral module clock External bus clock (BCLK) BCLK pin output 100-pin package — — 264 SDRAM clock (SDCLK) Package of 144 pins or more — — 264 SDCLK pin output Package of 144 pins or more — — 264 Note 1. The 12-bit A/D converter cannot be used. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 163 of 246 RX65N Group, RX651 Group 5.3.1 Reset Timing Table 5.13 Reset Timing 5. Electrical Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Test Conditions Symbol Min. Typ. Max. Unit Power-on tRESWP 1 — — ms Figure 5.1 Deep software standby mode tRESWD 0.6 — — ms Figure 5.2 Software standby mode, low-speed operating mode 2 tRESWS 0.3 — — ms Programming or erasure of the code flash memory, or programming, erasure or blank checking of the data flash memory tRESWF 200 — — μs Other than above tRESW 200 — — μs Waiting time after release from the RES# pin reset tRESWT 54 — 55 tLcyc Internal reset time (independent watchdog timer reset, watchdog timer reset, software reset) tRESW2 100 — 108 tLcyc RES# pulse width Figure 5.1 VCC RES# tRESWP Internal reset signal (Low is valid) tRESWT Figure 5.1 Reset Input Timing at Power-On tRESWD, tRESWS, tRESWF, tRESW RES# Internal reset signal (Low is valid) tRESWT Figure 5.2 Reset Input Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 164 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics 5.3.2 Clock Timing Table 5.14 BCLK Pin Output, SDCLK Pin Output Clock Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item BCLK pin output cycle time Package of 144 pins or more Symbol Min. Typ. Max. Unit tBcyc 16.6 — — ns 33.2 — — ns 100-pin package BCLK pin output high pulse width tCH 3.3 — — ns BCLK pin output low pulse width tCL 3.3 — — ns BCLK pin output rising time tCr — — 5 ns BCLK pin output falling time tCf — — 5 ns tBcyc 16.6 — — ns SDCLK pin output high pulse width tCH 3.3 — — ns SDCLK pin output low pulse width tCL 3.3 — — ns SDCLK pin output rising time tCr — — 5 ns SDCLK pin output falling time tCf — — 5 ns SDCLK pin output cycle time Package of 144 pins or more Test Conditions Figure 5.3 tBcyc, tSDcyc tCH tCf BCLK pin output, SDCLK pin output tCL tCr Test conditions: VOH = VCC × 0.7, VOL = VCC × 0.3, C = 30 pF Figure 5.3 BCLK Pin and SDCLK Pin Output Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 165 of 246 RX65N Group, RX651 Group Table 5.15 5. Electrical Characteristics EXTAL Clock Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Symbol Min. Typ. Max. Unit EXTAL external clock input cycle time tEXcyc 41.66 — — ns EXTAL external clock input frequency fEXMAIN — — 24 MHz EXTAL external clock input high pulse width tEXH 15.83 — — ns EXTAL external clock input low pulse width tEXL 15.83 — — ns EXTAL external clock rising time tEXr — — 5 ns EXTAL external clock falling time tEXf — — 5 ns Test Conditions Figure 5.4 tEXcyc tEXL tEXH EXTAL external clock input VCC × 0.5 tEXr Figure 5.4 Table 5.16 tEXf EXTAL External Clock Input Timing Main Clock Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Main clock oscillation frequency Main clock oscillator stabilization time (crystal) Main clock oscillation stabilization wait time (crystal) Symbol Min. Typ. Max. Unit fMAIN 8 — 24 MHz tMAINOSC — — —*1 ms — —*2 ms tMAINOSCWT — Test Conditions Figure 5.5 Note 1. When using a main clock, ask the manufacturer of the oscillator to evaluate its oscillation. Refer to the results of evaluation provided by the manufacturer for the oscillation stabilization time. Note 2. The number of cycles selected by the value of the MOSCWTCR.MSTS[7:0] bits determines the main clock oscillation stabilization wait time in accord with the formula below. tMAINOSCWT = [(MSTS[7:0] bits × 32) + 10] / fLOCO MOSCCR.MOSTP tMAINOSC Main clock oscillator output tMAINOSCWT OSCOVFSR.MOOVF Main clock Figure 5.5 Main Clock Oscillation Start Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 166 of 246 RX65N Group, RX651 Group Table 5.17 5. Electrical Characteristics LOCO and IWDT-Dedicated Low-Speed Clock Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Symbol Min. Typ. Max. Unit tLcyc 4.63 4.16 3.78 μs fLOCO 216 240 264 kHz LOCO clock cycle time LOCO clock oscillation frequency LOCO clock oscillation stabilization wait time tLOCOWT — — 44 μs IWDT-dedicated low-speed clock cycle time tILcyc 9.26 8.33 7.57 μs fILOCO 108 120 132 kHz tILOCOWT — 142 190 μs IWDT-dedicated low-speed clock oscillation frequency IWDT-dedicated low-speed clock oscillation stabilization wait time Test Conditions Figure 5.6 Figure 5.7 LOCOCR.LCSTP On-chip oscillator output tLOCOWT LOCO clock Figure 5.6 LOCO Clock Oscillation Start Timing ILOCOCR.ILCSTP IWDT-dedicated on-chip oscillator output tILOCOWT OSCOVFSR.ILCOVF IWDT-dedicated low-speed clock Figure 5.7 IWDT-dedicated Low-Speed Clock Oscillation Start Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 167 of 246 RX65N Group, RX651 Group Table 5.18 5. Electrical Characteristics HOCO Clock Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Symbol HOCO clock oscillation frequency Min. fHOCO Typ. Max. Unit 15.61 16 16.39 MHz 17.56 18 18.44 MHz 19.52 20 20.48 MHz 15.52 16 16.48 MHz 17.46 18 18.54 MHz 19.4 20 20.6 MHz Test Conditions –20°C ≤ Ta ≤ 105°C –40°C ≤ Ta < –20°C HOCO clock oscillation stabilization wait time tHOCOWT — 105 149 μs Figure 5.8 HOCO clock power supply stabilization time tHOCOP — — 150 μs Figure 5.9 HOCOCR.HCSTP High-speed on-chip oscillator output tHOCOWT OSCOVFSR.HCOVF HOCO clock Figure 5.8 HOCO Clock Oscillation Start Timing (Oscillation is Started by Setting the HOCOCR.HCSTP Bit) HOCOPCR.HOCOPCNT HOCOCR.HCSTP tHOCOP Internal power supply for high-speed on-chip oscillator Figure 5.9 High-Speed On-Chip Oscillator Power Supply Control Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 168 of 246 RX65N Group, RX651 Group Table 5.19 5. Electrical Characteristics PLL Clock Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item PLL clock oscillation frequency PLL clock oscillation stabilization wait time Test Conditions Symbol Min. Typ. Max. Unit fPLL 120 — 240 MHz tPLLWT — 259 320 μs Figure 5.10 Test Conditions PLLCR2.PLLEN PLL circuit output tPLLWT OSCOVFSR.PLOVF PLL clock Figure 5.10 Table 5.20 PLL Clock Oscillation Start Timing Sub-Clock Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, VBATT = 2.0 to 3.6 V, Ta = Topr Item Sub-clock oscillation frequency Sub-clock oscillation stabilization time Sub-clock oscillation stabilization wait time Symbol Min. Typ. Max. Unit fSUB — 32.768 — kHz tSUBOSC — — *1 s — *2 s tSUBOSCWT — Figure 5.11 Note 1. When using a sub-clock, ask the manufacturer of the oscillator to evaluate its oscillation. Refer to the results of evaluation provided by the manufacturer for the oscillation stabilization time. Note 2. The number of cycles selected by the value of the SOSCWTCR.SSTS[7:0] bits determines the sub-clock oscillation stabilization wait time in accord with the formula below. tSUBOSCWT = [(SSTS[7:0] bits × 16384) + 10] / fLOCO SOSCCR.SOSTP tSUBOSC Sub-clock oscillator output tSUBOSCWT OSCOVFSR.SOOVF Sub-clock Figure 5.11 Sub-Clock Oscillation Start Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 169 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics 5.3.3 Timing of Recovery from Low Power Consumption Modes Table 5.21 Timing of Recovery from Low Power Consumption Modes (1) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Recovery time from software standby mode *1 Crystal resonator connected to main clock oscillator Symbol Min. Typ. tSBYSEQ*3 100 + 7 / fICLK + 2n / fMAIN tSBYPC {(MSTS[7:0] bit × 32) + 138} / 0.216 100 + 7 / fICLK + 2n / fPLL tSBYEX 352 100 + 7 / fICLK + 2n / fEXMAIN Main clock oscillator and PLL circuit operating tSBYPE 639 100 + 7 / fICLK + 2n / fPLL Sub-clock oscillator operating tSBYSC {(SSTS[7:0] bit × 16384) + 13} / 0.216 + 10 / fFCLK 100 + 4 / fICLK + 2n / fSUE High-speed on-chip oscillator operating High-speed on-chip oscillator operating tSBYHO 454 100 + 7 / fICLK + 2n / fHOCO High-speed on-chip oscillator operating and PLL circuit operating tSBYPH 741 100 + 7 / fICLK + 2n / fPLL tSBYLO 338 100 + 7 / fICLK + 2n / fLOCO tSBYMC Main clock oscillator and PLL circuit operating External clock Main clock input to main oscillator clock oscillator operating Low-speed on-chip oscillator operating*4 — tSBYOSCWT {(MSTS[7:0] bit × 32) + 76} / 0.216 Main clock oscillator operating — Max. *2 Unit Test Conditions μs Figure 5.12 Note 1. The time for recovery from software standby mode is determined by the value obtained by adding the oscillation stabilization waiting time (tSBYOSCWT) and the time required for operations by the software standby release sequencer (tSBYSEQ). Note 2. When several oscillators were running before the transition to software standby, the greatest value of the oscillation stabilization waiting time tSBYOSCWT is selected. Note 3. For n, the greatest value is selected from among the internal clock division settings. Note 4. This condition applies when fICLK:fFCLK = 1:1, 2:1, or 4:1. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 170 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics Oscillator (System clock) tSBYOSCWT tSBYSEQ Oscillator (Other than the system clock) ICLK IRQ Software standby mode tSBYMC, tSBYEX, tSBYPC, tSBYPE, tSBYPH, tSBYSC, tSBYHO, tSBYLO When stabilization of the system clock oscillator is slower Oscillator (System clock) tSBYOSCWT tSBYSEQ Oscillator (Other than the system clock) tSBYOSCWT ICLK IRQ Software standby mode tSBYMC, tSBYEX, tSBYPC, tSBYPE, tSBYPH, tSBYSC, tSBYHO, tSBYLO When stabilization of an oscillator other than the system clock is slower Figure 5.12 Software Standby Mode Recovery Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 171 of 246 RX65N Group, RX651 Group Table 5.22 5. Electrical Characteristics Timing of Recovery from Low Power Consumption Modes (2) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Recovery time from deep software standby mode Wait time after recovery from deep software standby mode Symbol Min. Typ. Max. Unit Test Conditions tDSBY — — 0.9 ms Figure 5.13 tDSBYWT 23 — 24 tLcyc Oscillator IRQ Deep software standby reset (Low is valid) Internal reset (Low is valid) Deep software standby mode tDSBY tDSBYWT Reset exception handling start Figure 5.13 Deep Software Standby Mode Recovery Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 172 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics 5.3.4 Control Signal Timing Table 5.23 Control Signal Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKB = 8 to 60 MHz, Ta = Topr Item NMI pulse width IRQ pulse width Min.*1 Symbol tNMIW Typ. Max. Unit Test Conditions*1 200 — — ns tPBcyc × 2 ≤ 200 ns, Figure 5.14 tPBcyc × 2 — — ns tPBcyc × 2 > 200 ns, Figure 5.14 200 — — ns tPBcyc × 2 ≤ 200 ns, Figure 5.15 tPBcyc × 2 — — ns tPBcyc × 2 > 200 ns, Figure 5.15 tIRQW Note 1. tPBcyc: PCLKB cycle NMI tNMIW Figure 5.14 NMI Interrupt Input Timing IRQ tIRQW Figure 5.15 IRQ Interrupt Input Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 173 of 246 RX65N Group, RX651 Group 5.3.5 Bus Timing Table 5.24 Bus Timing 5. Electrical Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, ICLK = PCLKA = 8 to 120 MHz, PCLKB = BCLK = SDCLK = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item Symbol Min. Max. Unit Address delay time tAD — 12.5 ns Byte control delay time tBCD — 12.5 ns CS# delay time tCSD — 12.5 ns ALE delay time tALED — 12.5 ns RD# delay time tRSD — 12.5 ns Read data setup time tRDS 12.5 — ns Read data hold time tRDH 0 — ns WR# delay time tWRD — 12.5 ns Write data delay time tWDD — 12.5 ns Write data hold time tWDH 0 — ns WAIT# setup time tWTS 12.5 — ns WAIT# hold time tWTH 0 — ns Address delay time 2 (SDRAM) tAD2 1 12.5 ns CS# delay time 2 (SDRAM) tCSD2 1 12.5 ns DQM delay time (SDRAM) tDQMD 1 12.5 ns CKE delay time (SDRAM) tCKED 1 12.5 ns Read data setup time 2 (SDRAM) tRDS2 10 — ns Read data hold time 2 (SDRAM) tRDH2 0 — ns Write data delay time 2 (SDRAM) tWDD2 — 12.5 ns Write data hold time 2 (SDRAM) tWDH2 1 — ns WE# delay time (SDRAM) tWED 1 12.5 ns RAS# delay time (SDRAM) tRASD 1 12.5 ns CAS# delay time (SDRAM) tCASD 1 12.5 ns R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Test Conditions Figure 5.16 to Figure 5.21 Figure 5.22 Figure 5.23 Page 174 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics Data cycle Address cycle Ta1 Ta1 Tan TW1 TW2 TW3 TW4 Tend TW5 Tn1 Tn2 BCLK tAD Address bus tAD Address bus/ data bus tRDS tAD tRDH tALED tALED Address latch (ALE) tRSD tRSD Data read (RD#) Figure 5.16 tCSD tCSD Chip select (CS1#) Address/Data Multiplexed Bus Read Access Timing Data cycle Address cycle Ta1 Ta1 Tan TW1 TW2 TW3 TW4 TW5 Tend Tn1 Tn2 Tn3 BCLK tAD Address bus Address bus/ data bus tAD tAD tALED tWDD tWDH tALED Address latch (ALE) tWRD tWRD Data write (WRm#) tCSD Chip select (CS1#) Figure 5.17 tCSD Address/Data Multiplexed Bus Write Access Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 175 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics CSRWAIT:2 RDON:1 CSROFF:2 CSON:0 TW1 TW2 Tend Tn1 Tn2 BCLK Byte strobe mode tAD tAD tAD tAD tBCD tBCD tCSD tCSD A23 to A0 1-write strobe mode A23 to A1 BC3# to BC0# Common to both byte strobe mode and 1-write strobe mode CS7# to CS0# tRSD tRSD RD# (Read) tRDS tRDH D31 to D0 (Read) Figure 5.18 External Bus Timing/Normal Read Cycle (Bus Clock Synchronized) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 176 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics CSWWAIT:2 WRON:1 WDON:1 *1 CSWOFF:2 WDOFF:1 *1 CSON:0 TW1 TW2 Tend Tn1 Tn2 BCLK Byte strobe mode tAD tAD tAD tAD tBCD tBCD tCSD tCSD A23 to A0 1-write strobe mode A23 to A1 BC3# to BC0# Common to both byte strobe mode and 1-write strobe mode CS7# to CS0# tWRD tWRD WR1# to WR0#, WR# (Write) tWDD tWDH D31 to D0 (Write) Note 1. Be sure to specify WDON and WDOFF as at least one cycle of BCLK. Figure 5.19 External Bus Timing/Normal Write Cycle (Bus Clock Synchronized) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 177 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics CSRWAIT:2 CSON:0 CSPRWAIT:2 CSPRWAIT:2 RDON:1 RDON:1 TW1 TW2 Tend CSPRWAIT:2 RDON:1 Tpw1 Tpw2 Tend CSROFF:2 RDON:1 Tpw1 Tpw2 Tend Tpw1 Tpw2 Tend Tn1 Tn2 BCLK Byte strobe mode tAD tAD tAD tAD tAD tAD tAD tAD tAD tAD A23 to A0 1-write strobe mode A23 to A1 tBCD tBCD tCSD tCSD BC3# to BC0# Common to both byte strobe mode and 1-write strobe mode CS7# to CS0# tRSD tRSD tRSD tRSD tRSD tRSD tRSD tRSD RD# (Read) tRDS tRDH tRDS tRDH tRDS tRDH tRDS tRDH D31 to D0 (Read) Figure 5.20 External Bus Timing/Page Read Cycle (Bus Clock Synchronized) CSPWWAIT:2 CSWWAIT:2 WRON:1 WDON:1 *1 WDOFF:1 *1 CSON:0 TW1 TW2 Tend Tdw1 WRON:1 WDON:1 *1 Tpw1 CSPWWAIT:2 WDOFF:1 *1 Tpw2 Tend Tdw1 WRON:1 WDON:1 *1 Tpw1 CSWOFF:2 WDOFF:1 *1 Tpw2 Tend Tn1 Tn2 BCLK Byte strobe mode tAD tAD tAD tAD tAD tAD tAD tAD A23 to A0 1-write strobe mode A23 to A1 tBCD tBCD tCSD tCSD BC3# to BC0# Common to both byte strobe mode and 1-write strobe mode CS7# to CS0# tWRD tWRD tWRD tWRD tWRD tWRD WR1# to WR0#, WR# (Write) tWDD tWDH tWDD tWDH tWDD tWDH D31 to D0 (Write) Note 1. Be sure to specify WDON and WDOFF as at least one cycle of BCLK. Figure 5.21 External Bus Timing/Page Write Cycle (Bus Clock Synchronized) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 178 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics CSRWAIT:3 CSWWAIT:3 TW1 TW2 TW3 (Tend) Tend Tn1 Tn2 BCLK A23 to A0 CS7# to CS0# RD# (Read) WR# (Write) External wait tWTS tWTH tWTS tWTH WAIT# Figure 5.22 External Bus Timing/External Wait Control R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 179 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics SDRAM command ACT RD PRA SDCLK pin tAD2 tAD2 Row address A18 to A0 tAD2 tAD2 tAD2 tAD2 tAD2 Column address tAD2 AP*1 PRA command tCSD2 tCSD2 tRASD tRASD tCSD2 tCSD2 tCSD2 tCSD2 tRASD tRASD tWED tWED SDCS# RAS# tCASD tCASD CAS# WE# (High) CKE tDQMD DQMn tRDS2 tRDH2 D31 to D0 Note 1. Address pins for output of the precharge-setting command (Precharge-sel) for SDRAM. Figure 5.23 SDRAM Space Single Read Bus Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 180 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics SDRAM command ACT WR PRA SDCLK pin tAD2 tAD2 Row address A18 to A0 tAD2 tAD2 tAD2 tAD2 tAD2 Column address tAD2 AP*1 PRA command tCSD2 tCSD2 tRASD tRASD tCSD2 tCSD2 tCSD2 tCSD2 tRASD tRASD tWED tWED SDCS# RAS# tCASD tCASD tWED tWED CAS# WE# (High) CKE tDQMD DQMn tWDD2 tWDH2 D31 to D0 Note 1. Address pins for output of the precharge-setting command (Precharge-sel) for SDRAM. Figure 5.24 SDRAM Space Single Write Bus Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 181 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics ACT RD RD RD RD PRA SDCLK pin tAD2 tAD2 tAD2 tAD2 A18 to A0 Row address C0 (column address) C1 C2 tAD2 tAD2 tAD2 C3 tAD2 tAD2 AP* tAD2 tAD2 tAD2 1 tAD2 PRA command tCSD2 tCSD2 tCSD2 tCSD2 tCSD2 tRASD tRASD tRASD tCASD tCASD SDCS# tRASD tRASD RAS# tCASD CAS# tWED tWED WE# (High) CKE tDQMD tDQMD DQMn tRDS2 tRDH2 tRDS2 tRDH2 D31 to D0 Note 1. Address pins for output of the precharge-setting command (Precharge-sel) for SDRAM. Figure 5.25 SDRAM Space Multiple Read Bus Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 182 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics WR WR WR WR PRA ACT SDCLK pin tAD2 A18 to A0 tAD2 tAD2 tAD2 C0 Row address (column address) tAD2 C1 C2 tAD2 tAD2 tAD2 tAD2 C3 tAD2 AP*1 tAD2 tAD2 tAD2 PRA command tCSD2 tCSD2 tCSD2 tCSD2 tCSD2 SDCS# tRASD tRASD tRASD tRASD tRASD RAS# tCASD tCASD tCASD CAS# tWED tWED WE# (High) CKE tDQMD tDQMD DQMn tWDD2 tWDH2 tWDD2 tWDH2 D31 to D0 Note 1. Address pins for output of the precharge-setting command (Precharge-sel) for SDRAM. Figure 5.26 SDRAM Space Multiple Write Bus Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 183 of 246 RX65N Group, RX651 Group SDRAM command 5. Electrical Characteristics ACT RD RD RD RD t AD2 t AD2 t AD2 PRA ACT RD RD RD RD PRA SDCLK pin t AD2 A18 to A0 t AD2 Row address t AD2 C0 (column address 0) C1 C2 t AD2 t AD2 C3 t AD2 t AD2 t AD2 t AD2 t AD2 C4 R1 t AD2 AP*1 t AD2 t AD2 C5 t AD2 C6 t AD2 C7 t AD2 t AD2 PRA command t CSD2 t CSD2 t CSD2 t CSD2 t CSD2 t CSD2 t AD2 t AD2 PRA command t CSD2 t CSD2 SDCS# t RASD t RASD t RASD t RASD t RASD t RASD t RASD t RASD RAS# t CASD t CASD t CASD t CASD CAS# t WED t WED t WED t WED WE# (High) CKE tDQMD DQMn t RDS2 t RDH2 t RDS2 t RDH2 t RDS2 t RDH2 t RDS2 t RDH2 D31 to D0 Note 1. Address pins for output of the precharge-setting command (Precharge-sel) for SDRAM. Figure 5.27 SDRAM Space Multiple Read Line Stride Bus Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 184 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics MRS SDRAM command SDCLK pin t AD2 t AD2 t AD2 t AD2 t CSD2 t CSD2 t RASD t RASD t CASD t CASD t WED t WED A18 to A0 AP*1 SDCS# RAS# CAS# WE# (High) CKE DQMn (Hi-Z) D31 to D0 Note 1. Address pins for output of the precharge-setting command (Precharge-sel) for SDRAM. Figure 5.28 SDRAM Space Mode Register Set Bus Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 185 of 246 RX65N Group, RX651 Group SDRAM command 5. Electrical Characteristics Ts (RFA) (RFS) (RFX) (RFA) SDCLK pin t AD2 t AD2 t AD2 t AD2 A18 to A0 AP*1 t CSD2 t CSD2 t CSD2 t CSD2 t CSD2 t CSD2 t CSD2 t RASD t RASD t RASD t RASD t RASD t RASD t RASD t CASD t CASD t CASD t CASD t CASD t CASD SDCS# RAS# t CASD CAS# (High) WE# t CKED t CKED CKE t DQMD t DQMD DQMn (Hi-Z) D31 to D0 Note 1. Address pins for output of the precharge-setting command (Precharge-sel) for SDRAM. Figure 5.29 SDRAM Space Self-Refresh Bus Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 186 of 246 RX65N Group, RX651 Group 5.3.6 EXDMAC Timing Table 5.25 EXDMAC Timing 5. Electrical Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, ICLK = PCLKA = 8 to 120 MHz, PCLKB = BCLK = SDCLK = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item EXDMAC Symbol Min. Max. Unit EDREQ setup time tEDRQS 13 — ns EDREQ hold time tEDRQH 2 — ns EDACK delay time tEDACD — 13 ns Test Conditions Figure 5.30 Figure 5.31, Figure 5.32 BCLK pin tEDRQS tEDRQH EDREQ0, EDREQ1 Figure 5.30 EDREQ0 and EDREQ1 Input Timing BCLK pin tEDACD tEDACD EDACK0, EDACK1 Figure 5.31 EDACK0 and EDACK1 Single-Address Transfer Timing (for a CS Area) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 187 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics BCLK pin tEDACD tEDACD EDACK0, EDACK1 Figure 5.32 EDACK0 and EDACK1 Single-Address Transfer Timing (for SDRAM) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 188 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics 5.3.7 Timing of On-Chip Peripheral Modules Table 5.26 I/O Port Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item I/O ports Input data pulse width Symbol Min. Max. Unit*1 Test Conditions tPRW 1.5 — tPBcyc Figure 5.33 Note 1. tPBcyc: PCLKB cycle PCLKB Port tPRW Figure 5.33 I/O Port Input Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 189 of 246 RX65N Group, RX651 Group Table 5.27 5. Electrical Characteristics TPU Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Symbol Min. Max. Unit*1 Test Conditions tTICW 1.5 — tPBcyc Figure 5.34 2.5 — 1.5 — tPBcyc Figure 5.35 Both-edge setting 2.5 — Phase counting mode 2.5 — Item TPU Input capture input pulse width Single-edge setting Both-edge setting Timer clock pulse width Single-edge setting tTCKWH, tTCKWL Note 1. tPBcyc: PCLKB cycle PCLKB Input capture input Figure 5.34 tTICW TPU Input Capture Input Timing PCLKB TCLKA to TCLKD tTCKWL Figure 5.35 tTCKWH TPU Clock Input Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 190 of 246 RX65N Group, RX651 Group Table 5.28 5. Electrical Characteristics TMR Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item TMR Timer clock pulse width Single-edge setting Symbol Min. Max. Unit*1 Test Conditions tTMCWH, tTMCWL 1.5 — tPBcyc Figure 5.36 2.5 — Both-edge setting Note 1. tPBcyc: PCLKB cycle PCLKB TMCI0 to TMCI3 tTMCWL Figure 5.36 Table 5.29 tTMCWH TMR Clock Input Timing CMTW Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item CMTW Input capture input pulse width Single-edge setting Both-edge setting Symbol Min. Max. Unit*1 Test Conditions tCMTWTICW 1.5 — tPBcyc Figure 5.37 2.5 — Note 1. tPBcyc: PCLKB cycle PCLKB Input capture input Figure 5.37 tCMTWICW CMTW Input Capture Input Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 191 of 246 RX65N Group, RX651 Group Table 5.30 5. Electrical Characteristics MTU3 Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Symbol Min. Max. Unit*1 Test Conditions tMTICW 1.5 — tPAcyc Figure 5.38 2.5 — 1.5 — tPAcyc Figure 5.39 Both-edge setting 2.5 — Phase counting mode 2.5 — Item MTU3 Input capture input pulse width Single-edge setting Both-edge setting Timer clock pulse width Single-edge setting tMTCKWH, tMTCKWL Note 1. tPAcyc: PCLKA cycle PCLKA Input capture input Figure 5.38 tMTICW MTU3 Input Capture Input Timing PCLKA MTCLKA to MTCLKD tMTCKWL Figure 5.39 tMTCKWH MTU3 Clock Input Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 192 of 246 RX65N Group, RX651 Group Table 5.31 5. Electrical Characteristics POE3 Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item POE POE# input pulse width Symbol Min. Max. Unit*1 Test Conditions tPOEW 1.5 — tPBcyc Figure 5.40 Note 1. tPBcyc: PCLKB cycle PCLKB POEn# input tPOEW Figure 5.40 POE# Input Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 193 of 246 RX65N Group, RX651 Group Table 5.32 5. Electrical Characteristics A/D Converter Trigger Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item A/D converter A/D converter trigger input pulse width Symbol Min. Max. Unit*1 Test Conditions tTRGW 1.5 — tPBcyc Figure 5.41 Note 1. tPBcyc: PCLKB cycle PCLKB ADTRG0#, ADTRG1# tTRGW Figure 5.41 Table 5.33 A/D Converter Trigger Input Timing CAC Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item*1, *2 CAC CACREF input pulse width tPBcyc ≤ tcac tPBcyc > tcac Symbol Min.*1, *2 Max. Unit tCACREF 4.5 tcac + 3 tPBcyc — ns 5 tcac + 6.5 tPBcyc — Test Conditions Note 1. tPBcyc: PCLKB cycle Note 2. tcac: CAC count clock source cycle R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 194 of 246 RX65N Group, RX651 Group Table 5.34 5. Electrical Characteristics SCIg, SCIh, and SCIi Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item SCIg, SCIh Input clock cycle Asynchronous Symbol Min. Max. Unit*1 Test Conditions tScyc 4 — tPBcyc Figure 5.42 6 — Clock synchronous Input clock pulse width tSCKW 0.4 0.6 tScyc Input clock rise time tSCKr — 5 ns tSCKf — 5 ns tScyc 8 — tPBcyc 4 — Input clock fall time Output clock cycle Asynchronous*2 Clock synchronous SCIi Output clock pulse width tSCKW 0.4 0.6 tScyc Output clock rise time tSCKr — 5 ns Output clock fall time tSCKf — 5 ns Transmit data delay time Clock synchronous tTXD — 28 ns Receive data setup time Clock synchronous tRXS 15 — ns Receive data hold time Clock synchronous tRXH 5 — ns Input clock cycle Asynchronous tScyc 4 — tPAcyc 12 — Clock synchronous Figure 5.43 Input clock pulse width tSCKW 0.4 0.6 tScyc Input clock rise time tSCKr — 5 ns tSCKf — 5 ns tScyc 8 — tPAcyc 8 — Input clock fall time Output clock cycle Asynchronous*2 Clock synchronous Output clock pulse width tSCKW 0.4 0.6 tScyc Output clock rise time tSCKr — 5 ns Output clock fall time tSCKf — 5 ns tTXD — 15 ns Transmit data delay time Master — 28 Receive data setup time Slave Clock synchronous tRXS 20 — Receive data hold time Clock synchronous tRXH 5 — Figure 5.42 Figure 5.43 ns Note 1. tPBcyc: PCLKB cycle; tPAcyc: PCLKA cycle Note 2. When the SEMR.ABCS and SEMR.BGDM bits are set to 1 R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 195 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics tSCKW tSCKr tSCKf SCKn (n = 0 to 12) tScyc Figure 5.42 SCK Clock Input Timing SCKn tTXD TxDn tRXS tRXH RxDn n = 0 to 12 Figure 5.43 SCI Input/Output Timing: Clock Synchronous Mode R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 196 of 246 RX65N Group, RX651 Group Table 5.35 5. Electrical Characteristics RSPI Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item RSPI RSPCK clock cycle Master Symbol Min.*1 Max.*1 Unit*1 tSPcyc 2 4096 tPAcyc 4 4096 (tSPcyc – tSPCKr – tSPCKf) / 2 – 3 — (tSPcyc – tSPCKr – tSPCKf) / 2 — (tSPcyc – tSPCKr – tSPCKf) / 2 – 3 — (tSPcyc – tSPCKr – tSPCKf) / 2 — — 5 ns — 1 μs ns Slave RSPCK clock high pulse width Master tSPCKWH Slave RSPCK clock low pulse width Master tSPCKWL Slave RSPCK clock rise/fall time Output tSPCKr, tSPCKf Input Data input setup time Master tSU Slave Data input hold time Master Master Master 0 — PCLKA division ratio set to a value other than 1/2 tH tPAcyc — 8.3 — 1 8 tSPcyc 6 — tPAcyc tLEAD tLAG Slave Data output delay time Master Data output hold time Master ns tHF Slave SSL hold time — — tOD Slave tOH Slave tTD 1 8 tSPcyc 6 — tPAcyc — 6.3 ns — 28 0 — 0 — tSPcyc + 2 × tPAcyc 8 × tSPcyc + 2 × tPAcyc 6 × tPAcyc — — 5 ns — 1 μs ns ns Master MOSI and MISO rise/fall time Output SSL rise/fall time Output tSSLr, — 5 ns Input tSSLf — 1 μs Slave access time tSA — 2 × tPAcyc + 28 ns Slave output release time tREL — 2 × tPAcyc + 28 ns tDr, tDf Input Figure 5.45 to Figure 5.50 ns Successive transmission delay time Slave Figure 5.44 ns PCLKA division ratio set to 1/2 Slave SSL setup time 6 8.3 Test Conditions*2 Figure 5.49, Figure 5.50 Note 1. tPAcyc: PCLKA cycle Note 2. When a letter “-A”, “-B”, etc. to indicate group membership is appended to the pin name, each pin is recommended to use in combination with the pins in the same group. All RSPI AC timings are measured in combination with the pins in the same group. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 197 of 246 RX65N Group, RX651 Group Table 5.36 5. Electrical Characteristics Simple SPI Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Simple SPI Item Symbol Min. Max. Unit*1 SCK clock cycle output (master) tSPcyc 4 65536 tPAcyc 8 65536 SCK clock cycle input (slave) SCK clock high pulse width tSPCKWH 0.4 0.6 tSPcyc SCK clock low pulse width tSPCKWL 0.4 0.6 tSPcyc tSPCKr, tSPCKf — 20 ns Data input setup time tSU 33.3 — ns Data input hold time tH 33.3 — ns SS input setup time tLEAD 1 — tSPcyc SS input hold time tLAG 1 — tSPcyc Data output delay time tOD — 33.3 ns Data output hold time tOH –10 — ns SCK clock rise/fall time Data rise/fall time Figure 5.44 Figure 5.45 to Figure 5.50 tDr, tDf — 16.6 ns tSSLr, tSSLf — 16.6 ns Slave access time tSA — 5 tPBcyc Slave output release time tREL — 5 tPBcyc SS input rise/fall time Test Conditions Figure 5.49, Figure 5.50 Note 1. tPAcyc: PCLKA cycle, tPBcyc: PCLKB cycle RSPI RSPCKA master select output SCKn master select output tSPCKr tSPCKWH Simple SPI VOH VOH VOL tSPCKf VOH VOH VOL tSPCKWL VOL tSPcyc tSPCKr tSPCKWH VIH RSPCKA slave select input SCKn slave select input VIH VIL (n = 0 to 12) tSPCKf VIH VIL tSPCKWL VIH VIL tSPcyc VOH = 0.7 × VCC, VOL = 0.3 × VCC, VIH = 0.7 × VCC, VIL = 0.3 × VCC Figure 5.44 RSPI Clock Timing and Simple SPI Clock Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 198 of 246 RX65N Group, RX651 Group RSPI 5. Electrical Characteristics Simple SPI SSLA0 to SSLA3 output tTD tLEAD RSPCKA CPOL = 0 output SCKn CKPOL = 0 output RSPCKA CPOL = 1 output SCKn CKPOL = 1 output tSSLr, tSSLf tSU MISOA input tLAG SMISOn input tH MSB IN DATA tDr, tDf MOSIA output SMOSIn output tOH MSB OUT LSB IN MSB IN tOD DATA LSB OUT IDLE MSB OUT (n = 0 to 12) Figure 5.45 RSPI Timing (Master, CPHA = 0) (Bit Rate: PCLKA Division Ratio Set to a Value Other Than 1/2) and Simple SPI Timing (Master, CKPH = 1) RSPI SSLA0 to SSLA3 output tTD tLEAD tLAG tSSLr, tSSLf RSPCKA CPOL = 0 output RSPCKA CPOL = 1 output tSU MISOA input tHF MSB IN tDr, tDf MOSIA output Figure 5.46 tHF DATA tOH MSB OUT LSB IN MSB IN tOD DATA LSB OUT IDLE MSB OUT RSPI Timing (Master, CPHA = 0) (Bit Rate: PCLKA Division Ratio Set to 1/2) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 199 of 246 RX65N Group, RX651 Group RSPI 5. Electrical Characteristics Simple SPI SSLA0 to SSLA3 output tTD tLEAD RSPCKA CPOL = 0 output SCKn CKPOL = 1 output RSPCKA CPOL = 1 output SCKn CKPOL = 0 output tLAG tSSLr, tSSLf tSU MISOA input SMISOn input tH MSB IN tOH MOSIA output DATA LSB IN tOD SMOSIn output MSB OUT MSB IN tDr, tDf DATA LSB OUT IDLE MSB OUT (n = 0 to 12) Figure 5.47 RSPI Timing (Master, CPHA = 1) (Bit Rate: PCLKA Division Ratio Set to a Value Other Than 1/2) and Simple SPI Timing (Master, CKPH = 0) RSPI SSLA0 to SSLA3 output tTD tLEAD tLAG tSSLr, tSSLf RSPCKA CPOL = 0 output RSPCKA CPOL = 1 output tSU MISOA input tHF MSB IN tOH MOSIA output Figure 5.48 tH DATA LSB IN tOD MSB OUT MSB IN tDr, tDf DATA LSB OUT IDLE MSB OUT RSPI Timing (Master, CPHA = 1) (Bit Rate: PCLKA Division Ratio Set to 1/2) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 200 of 246 RX65N Group, RX651 Group RSPI Simple SPI SSLA0 input SSn# input 5. Electrical Characteristics tTD tLEAD RSPCKA CPOL = 0 input SCKn CKPOL = 0 input RSPCKA CPOL = 1 input SCKn CKPOL = 1 input tLAG tSA MISOA output tOH SMISOn output MSB OUT tSU MOSIA input tOD SMOSIn input tREL DATA LSB OUT tH MSB IN MSB OUT tDr, tDf MSB IN DATA LSB IN MSB IN (n = 0 to 12) Figure 5.49 RSPI Timing (Slave, CPHA = 0) and Simple SPI Timing (Slave, CKPH = 1) RSPI Simple SPI SSLA0 input SSn# input tTD tLEAD RSPCKA CPOL = 0 input SCKn CKPOL = 1 input RSPCKA CPOL = 1 input SCKn CKPOL = 0 input tSA MISOA output SMISOn output tLAG tOH tOD LSB OUT (Last data) MSB OUT tSU MOSIA input SMOSIn input tREL tH MSB IN LSB OUT DATA MSB OUT tDr, tDf DATA LSB IN MSB IN (n = 0 to 12) Figure 5.50 RSPI Timing (Slave, CPHA = 1) and Simple SPI Timing (Slave, CKPH = 0) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 201 of 246 RX65N Group, RX651 Group Table 5.37 5. Electrical Characteristics QSPI Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register.*3 Symbol Min. Max. Unit*1 Test Conditions*2 QSPCLK clock cycle tQScyc 2 4080 tPBcyc Figure 5.51 Data input setup time tSu 6.5 — ns Figure 5.52, Figure 5.53 Item QSPI Data input hold time tIH 5 — ns SS setup time tLEAD 1.5 8.5 tQScyc SS hold time tLAG 1 8 tQScyc Data output delay time tOD — 10.0 ns Data output hold time tOH –5 — ns Successive transmission delay time tTD 1 8 tQScyc Note 1. tPBcyc: PCLKB cycle Note 2. When a letter “-A”, “-B”, etc. to indicate group membership is appended to the pin name, each pin is recommended to use in combination with the pins in the same group. All QSPI AC timings are measured in combination with the pins in the same group. Note 3. In the G-version products, the AC characteristics are measured by setting the drive capacity control register 2 corresponding the QSPCLK pin as a high-speed interface high-drive output. QSPCLK output tQScyc Figure 5.51 QSPI Clock Timing tTD QSSL output QSPCLK CPOL = 0 output tLEAD QSPCLK CPOL = 1 output QMI, QIO0 to QIO3 input QMO, QIO0 to QIO3 output Figure 5.52 tLAG tSU tIH MSB IN DATA tOH MSB OUT LSB IN tOD DATA LSB OUT IDLE Transmit/Receive Timing (CPHA = 0) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 202 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics tTD QSSL output QSPCLK CPOL = 0 output tLEAD tLAG QSPCLK CPOL = 1 output tSU QMI, QIO0 to QIO3 input tIH MSB IN tOH QMO, QIO0 to QIO3 output Figure 5.53 DATA LSB IN tOD MSB OUT DATA LSB OUT IDLE Transmit/Receive Timing (CPHA = 1) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 203 of 246 RX65N Group, RX651 Group Table 5.38 5. Electrical Characteristics RIIC Timing (1) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, High-drive output is selected by the driving ability control register. Symbol Min.*1, *2 Max. Unit Test Conditions tSCL 6(12) × tIICcyc + 1300 — ns Figure 5.54 tSCLH 3(6) × tIICcyc + 300 — ns tSCLL 3(6) × tIICcyc + 300 — ns SCL, SDA input rise time tSr — 1000 ns SCL, SDA input fall time tSf — 300 ns SCL, SDA input spike pulse removal time tSP 0 1(4) × tIICcyc ns SDA input bus free time tBUF 3(6) × tIICcyc + 300 — ns Start condition input hold time tSTAH tIICcyc + 300 — ns Restart condition input setup time tSTAS 1000 — ns Item SCL input cycle time RIIC (Standard-mode, SCL input high pulse width SMBus) ICFER.FMPE = 0 SCL input low pulse width Stop condition input setup time tSTOS 1000 — ns Data input setup time tSDAS tIICcyc + 50 — ns Data input hold time tSDAH 0 — ns SCL, SDA capacitive load RIIC SCL input cycle time (Fast-mode) SCL input high pulse width ICFER.FMPE = 0 SCL input low pulse width Cb — 400 pF tSCL 6(12) × tIICcyc + 600 — ns tSCLH 3(6) × tIICcyc + 300 — ns tSCLL 3(6) × tIICcyc + 300 — ns SCL, SDA input rise time tSr 20 × (External pull-up voltage/5.5V) 300 ns SCL, SDA input fall time tSf 20 × (External pull-up voltage/5.5V) 300 ns SCL, SDA input spike pulse removal time tSP 0 1(4) × tIICcyc ns SDA input bus free time tBUF 3(6) × tIICcyc + 300 — ns Start condition input hold time tSTAH tIICcyc + 300 — ns Restart condition input setup time tSTAS 300 — ns Stop condition input setup time tSTOS 300 — ns Data input setup time tSDAS tIICcyc + 50 — ns Data input hold time tSDAH 0 — ns Cb — 400 pF SCL, SDA capacitive load Note: tIICcyc: RIIC internal reference clock (IIC) cycle Note 1. The value within parentheses is applicable when the value of the ICMR3.NF[1:0] bits is 11b while the digital filter is enabled by the setting ICFER.NFE = 1. Note 2. Cb is the total capacitance of the bus lines. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 204 of 246 RX65N Group, RX651 Group Table 5.39 5. Electrical Characteristics RIIC Timing (2) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, High-drive output is selected by the driving ability control register. RIIC (Fast-mode+) ICFER.FMPE = 1 Simple IIC (Standard-mode) Item Symbol Min.*1, *2 Max. Unit Test Conditions SCL input cycle time tSCL 6(12) × tIICcyc + 240 — ns Figure 5.54 SCL input high pulse width tSCLH 3(6) × tIICcyc + 120 — ns SCL input low pulse width tSCLL 3(6) × tIICcyc + 120 — ns SCL, SDA input rise time tSr — 120 ns SCL, SDA input fall time tSf — 120 ns SCL, SDA input spike pulse removal time tSP 0 1(4) × tIICcyc ns SDA input bus free time tBUF 3(6) × tIICcyc + 120 — ns Start condition input hold time tSTAH tIICcyc + 120 — ns Restart condition input setup time tSTAS 120 — ns Stop condition input setup time tSTOS 120 — ns Data input setup time tSDAS tIICcyc + 20 — ns Data input hold time tSDAH 0 — ns SCL, SDA capacitive load Cb — 550 pF SDA input rise time tSr — 1000 ns SDA input fall time tSf — 300 ns tSP 0 4 × tPBcyc ns Data input setup time tSDAS 250 — ns Data input hold time tSDAH 0 — ns SDA input spike pulse removal time Simple IIC (Fast-mode) SCL, SDA capacitive load Cb — 400 pF SCL, SDA input rise time tSr — 300 ns SCL, SDA input fall time tSf — 300 ns tSP 0 4 × tPBcyc ns Data input setup time tSDAS 100 — ns Data input hold time tSDAH 0 — ns Cb — 400 pF SCL, SDA input spike pulse removal time SCL, SDA capacitive load Note: tIICcyc: RIIC internal reference clock (IIC) cycle, tPBcyc: PCLKB cycle Note 1. The value within parentheses is applicable when the value of the ICMR3.NF[1:0] bits is 11b while the digital filter is enabled by the setting ICFER.NFE = 1. Note 2. Cb is the total capacitance of the bus lines. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 205 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics VIH SDA0 to SDA2 VIL tBUF tSCLH tSTAH tSTAS tSTOS tSP SCL0 to SCL2 P*1 S*1 tSf tSCLL tSr tSCL tSDAS tSDAH Note 1. S, P, and Sr indicate the following conditions. S: Start condition P: Stop condition Sr: Restart condition Figure 5.54 P*1 Sr*1 Test conditions VIH = VCC × 0.7, VIL = VCC × 0.3 VOL = 0.6 V, IOL = 6 mA (ICFER.FMPE = 0) VOL = 0.4 V, IOL = 15 mA (ICFER.FMPE = 1) RIIC Bus Interface Input/Output Timing and Simple IIC Bus Interface Input/Output Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 206 of 246 RX65N Group, RX651 Group Table 5.40 5. Electrical Characteristics MMC Host Interface Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Symbol Min.*1 Max. Unit Test Conditions*2 tMMCPP 2 × tPBcyc — ns Figure 5.55 MMC_CLK clock high level width tMMCWH 6.5 — ns MMC_CLK clock low level width tMMCWL 6.5 — ns MMC_CLK clock rising time tMMCLH — 3 ns MMC_CLK clock falling time tMMCHL — 3 ns MMC_CMD, MMC_D7 to MMC_D0 output data delay (data transfer mode) tMMCODLY –6.6 6.6 ns MMC_CMD, MMC_D7 to MMC_D0 input data setup tMMCISU 8 — ns MMC_CMD, MMC_D7 to MMC_D0 input data hold tMMCIH 2.5 — ns Item MMCIF MMC_CLK clock cycle Note 1. tPBcyc: PCLKB cycle Note 2. When a letter “-A”, “-B”, etc. to indicate group membership is appended to the pin name, each pin is recommended to use in combination with the pins in the same group. All MMC AC timings are measured in combination with the pins in the same group. tMMCPP tMMCWL tMMCWH MMC_CLK tMMCHL tMMCLH tMMCISU tMMCIH MMC_CMD, MMC_D7 to MMC_D0 input MMC_CMD, MMC_D7 to MMC_D0 output tMMCODLY (max) Figure 5.55 tMMCODLY (min) MMC Interface R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 207 of 246 RX65N Group, RX651 Group Table 5.41 5. Electrical Characteristics ETHERC Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item ETHERC (RMII) Symbol Min. Max. Unit REF50CK cycle time Tck 20 — ns REF50CK frequency Typ. 50 MHz — — 50 + 100 ppm MHz REF50CK duty REF50CK rise/fall time RMII0_xxxx*1 output delay time RMII0_xxxx*2 ETHERC (MII) setup time — 35 65 % Tckr/ckf 0.5 3.5 ns Tco 2.5 15.0 ns Tsu 3 — ns RMII0_xxxx*2 hold time Thd 1 — ns RMII0_xxxx*1, *2 rise/fall time Tr/Tf 0.5 5 ns ET0_WOL output delay time tWOLd 1 23.5 ns ET0_TX_CLK cycle time tTcyc 40 — ns ET0_TX_EN output delay time tTENd 1 20 ns ET0_ETXD0 to ET0_ETXD3 output delay time tMTDd 1 20 ns ET0_CRS setup time tCRSs 10 — ns ET0_CRS hold time tCRSh 10 — ns ET0_COL setup time tCOLs 10 — ns ET0_COL hold time tCOLh 10 — ns ET0_RX_CLK cycle time tTRcyc 40 — ns ET0_RX_DV setup time tRDVs 10 — ns ET0_RX_DV hold time tRDVh 10 — ns ET0_ERXD0 to ET0_ERXD3 setup time tMRDs 10 — ns ET0_ERXD0 to ET0_ERXD3 hold time tMRDh 10 — ns ET0_RX_ER setup time tRERs 10 — ns ET0_RX_ER hold time tRERh 10 — ns ET0_WOL output delay time tWOLd 1 23.5 ns Test Conditions Figure 5.56 to Figure 5.58 Figure 5.60 — Figure 5.61 Figure 5.62 — Figure 5.63 Figure 5.64 Figure 5.65 Note 1. RMII0_TXD_EN, RMII0_TXD1, RMII0_TXD0 Note 2. RMII0_CRS_DV, RMII0_RXD1, RMII0_RXD0, RMII0_RX_ER R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 208 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics Tck 90% Tckr REF50CK 50% Tckf 10% Tco Tf Tr Tsu Thd 70% *1 RMII0_xxxx 50% Change in signal level Signal Change in signal level Change in signal level Signal 30% Note 1. RMII0_TXD_EN, RMII0_TXD1, RMII0_TXD0, RMII0_CRS_DV, RMII0_RXD1, RMII0_RXD0, RMII0_RX_ER Figure 5.56 Timing with the REF50CK and RMII Signals TCK REF50CK TCO RMII0_TXD_EN TCO RMII0_TXD1, RMII0_TXD0 Figure 5.57 Preamble SFD DATA CRC RMII Transmission Timing REF50CK Thd Tsu RMII0_CRS_DV Tsu RMII0_RXD1, RMII0_RXD0 Thd Preamble DATA CRC SFD RMII0_RX_ER Figure 5.58 L RMII Reception Timing (Normal Operation) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 209 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics REF50CK RMII0_CRS_DV RMII0_RXD1, RMII0_RXD0 Preamble SFD DATA xxxx Thd Tsu RMII0_RX_ER Figure 5.59 RMII Reception Timing (Error Occurrence) REF50CK tWOLd ET0_WOL Figure 5.60 WOL Output Timing (RMII) ET0_TX_CLK tTENd ET0_TX_EN tMTDd ET0_ETXD[3:0] Preamble SFD DATA CRC ET0_TX_ER tCRSs tCRSh ET0_CRS ET0_COL Figure 5.61 MII Transmission Timing (Normal Operation) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 210 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics ET0_TX_CLK ET0_TX_EN JAM Preamble ET0_ETXD[3:0] ET0_TX_ER ET0_CRS tCOLs tCOLh ET0_COL Figure 5.62 MII Transmission Timing (Conflict Occurrence) ET0_RX_CLK tRDVs tRDVh ET0_RX_DV tMRDh tMRDs ET0_ERXD[3:0] Preamble SFD DATA CRC ET0_RX_ER Figure 5.63 MII Reception Timing (Normal Operation) ET0_RX_CLK ET0_RX_DV ET0_ERXD[3:0] Preamble SFD DATA xxxx tRERh tRERs ET0_RX_ER Figure 5.64 MII Reception Timing (Error Occurrence) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 211 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics ET0_RX_CLK tWOLd ET0_WOL Figure 5.65 WOL Output Timing (MII) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 212 of 246 RX65N Group, RX651 Group Table 5.42 5. Electrical Characteristics PDC Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Symbol Min.*1 Max. Unit tPIXcyc 37 — ns PIXCLK input high pulse width tPIXH 10 — ns PIXCLK input low pulse width tPIXL 10 — ns PIXCLK rising time tPIXr — 5 ns PIXCLK falling time tPIXf — 5 ns Item PDC PIXCLK input cycle time tPCKcyc 2 × tPBcyc — ns PCKO output high pulse width PCKO output cycle time tPCKH (tPCKcyc – tPCKr – tPCKf)/2 – 3 — ns PCKO output low pulse width tPCKL (tPCKcyc – tPCKr – tPCKf)/2 – 3 — ns PCKO rising time tPCKr — 5 ns PCKO falling time tPCKf — 5 ns VSYNC/HSYNC input setup time tSYNCS 10 — ns VSYNC/HSYNC input hold time tSYNCH 5 — ns PIXD input setup time tPIXDS 10 — ns PIXD input hold time tPIXDH 5 — ns Test Conditions Figure 5.66 Figure 5.67 Figure 5.68 Note 1. tPBcyc: PCLKB cycle tPIXcyc tPIXH tPIXf PIXCLK input tPIXL Figure 5.66 tPIXr PDC Input Clock Timing tPCKcyc tPCKH tPCKf PCKO pin output tPCKL Figure 5.67 tPCKr PDC Output Clock Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 213 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics PIXCLK tSYNCS tSYNCH VSYNC tSYNCS tSYNCH HSYNC tPIXDS tPIXDH PIXD7 to PIXD0 Figure 5.68 Table 5.43 PDC AC Timing GLCDC Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr Item Symbol Min. Typ. Max. Unit Test Conditions MHz Figure 5.69 tEcyc LCD_EXTCLK Input clock frequency tEcyc — — 30*1 LCD_EXTCLK Input clock Low pulse width tWL 0.45 — 0.55 LCD_EXTCLK Input clock High pulse width tWH 0.45 — 0.55 LCD_CLK Output clock frequency tLcyc — — 30*1 MHz LCD_CLK Output clock Low pulse width tLOL 0.4 — 0.6 tLcyc LCD_CLK Output clock High pulse width tLOH 0.4 — 0.6 tLcyc tDD –3.5*2 — 4*2 ns LCD data output Delay timing Figure 5.70 Figure 5.71 Note 1. Parallel RGB888,666,565: Max. 27 MHz Serial RGB888: Max. 30 MHz (4x speed) Note 2. When a letter “-A”, “-B”, etc. to indicate group membership is appended to the pin name, each pin is recommended to use in combination with the pins in the same group. All GLCDC AC timings are measured in combination with the pins in the same group. If we use group “-A” and “-B” combination, “LCD data output Delay timing (tDD)” is Min = –5.0 ns, Max = 5.5 ns. tDcyc, tEcyc tWH 1/2 Vcc VIH LCD_EXTCLK Figure 5.69 tWL VIH VIL VIL LCD_EXTCLK Clock Input Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 214 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics tLcyc tLOL tLOH LCD_CLK tLOF Figure 5.70 tLOR LCD_CLK Clock Output Timing LCD_CLK tDD Output on falling edge LCD_DATA23 to LCD_DATA0, LCD_TCON3 to LCD_TCON0 Figure 5.71 tDD Output on rising edge LCD Output Data Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 215 of 246 RX65N Group, RX651 Group Table 5.44 5. Electrical Characteristics SDHI Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register.*1 Item SDHI Symbol Min. Max. Unit SDHI_CLK pin output cycle time tPP(SD) 20 — ns SDHI_CLK pin output high pulse width tWH(SD) 0.4 × tPP(SD) — ns SDHI_CLK pin output low pulse width tWL(SD) 0.4 × tPP(SD) — ns SDHI_CLK pin output rise time tTLH(SD) — 3 ns SDHI_CLK pin output fall time tTHL(SD) — 3 ns tODLY(SD) –6.5 4 ns Input data setup time for SDHI_CMD and SDHI_D0 to SDHI_D3 pins tISU(SD) 6 — ns Input data hold time for SDHI_CMD and SDHI_D0 to SDHI_D3 pins tIH(SD) 2 — ns Output data delay time (data transfer mode) for SDHI_CMD and SDHI_D0 to SDHI_D3 pins Test Conditions*2 Figure 5.72 Note 1. In the G-version products, the AC characteristics are measured by setting the drive capacity control register 2 corresponding the SDHI_CLK-C pin as a high-speed interface high-drive output. Note 2. When a letter “-A”, “-B”, etc. to indicate group membership is appended to the pin name, each pin is recommended to use in combination with the pins in the same group. All SDHI AC timings are measured in combination with the pins in the same group. tPP(SD) tWL(SD) VIH SDHI_CLK output VIH 50% VCC VIH 50% VCC VIL tTHL(SD) tWH(SD) VIL VIL tTLH(SD) tISU(SD) tIH(SD) SDHI_CMD, SDHI_D3 to SDHI_D0 input tODLY(SD) tODLY(SD) SDHI_CMD, SDHI_D3 to SDHI_D0 output Figure 5.72 SD Host Interface Input/Output Signal Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 216 of 246 RX65N Group, RX651 Group Table 5.45 5. Electrical Characteristics SDSI Timing Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item SDSI Test Conditions*1 Symbol Min. Max. Unit SDSI_CLK pin input cycle time tPP(SDSI) 20 — ns SDSI_CLK pin input high pulse width tWH(SDSI) 0.4 × tPP(SDSI) — ns SDSI_CLK pin input low pulse width tWL(SDSI) 0.4 × tPP(SDSI) — ns SDSI_CLK pin input rise time tTLH(SDSI) — 3 ns SDSI_CLK pin input fall time tTHL(SDSI) — 3 ns Input data setup time for SDSI_CMD and SDSI_D0 to SDSI_D3 pins tISU(SDSI) 5 — ns Input data hold time for SDSI_CMD and SDSI_D0 to SDSI_D3 pins tIH(SDSI) 2 — ns Output data delay time for SDSI_CMD and SDSI_D0 to SDSI_D3 pins (default speed mode) tODLY(SDSI) 0 14 ns Figure 5.74 2.5 14 ns Figure 5.75 Output data delay time for SDSI_CMD and SDSI_D0 to SDSI_D3 pins (high speed mode) Figure 5.73 Note 1. When a letter “-A”, “-B”, etc. to indicate group membership is appended to the pin name, each pin is recommended to use in combination with the pins in the same group. All SDSI AC timings are measured in combination with the pins in the same group. tPP(SDSI) tWL(SDSI) VIH tWH(SDSI) VIH SDSI_CLK input VIH 50% VCC VIL tTHL(SDSI) VIL VIL tTLH(SDSI) tISU(SDSI) tIH(SDSI) SDSI_CMD, SDSI_D3 to SDSI_D0 input Figure 5.73 SD Slave Interface Input Signal Timing VIH SDSI_CLK input VIL tODLY(SDSI) tODLY(SDSI) SDSI_CMD, SDSI_D3 to SDSI_D0 output Figure 5.74 SD Slave Interface Output Signal Timing (Default Speed Mode) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 217 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics SDSI_CLK input 50% VCC tODLY(SDSI) 50% VCC tODLY(SDSI) SDSI_CMD, SDSI_D3 to SDSI_D0 output Figure 5.75 SD Slave Interface Output Signal Timing (High Speed Mode) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 218 of 246 RX65N Group, RX651 Group 5.4 5. Electrical Characteristics USB Characteristics Table 5.46 On-Chip USB Low Speed (Host Only) Characteristics (DP and DM Pin Characteristics) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 3.0 to 3.6 V, 3.0 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, UCLK = 48 MHz, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr Item Input characteristics Output characteristics Symbol Min. Typ. Max. Unit Input high level voltage VIH 2.0 — — V Input low level voltage VIL — — 0.8 V Differential input sensitivity VDI 0.2 — — V Differential common mode range VCM 0.8 — 2.5 V Output high level voltage VOH 2.8 — 3.6 V Output low level voltage Cross-over voltage 0.0 — 0.3 V IOL = 2 mA 1.3 — 2.0 V Figure 5.76 tLR 75 — 300 ns tLF 75 — 300 ns tLR / tLF 80 — 125 % Rpd 14.25 — 24.80 kΩ DP/DM pull-down resistance (when the host controller function is selected) DP, DM VCRS 90% tLR/ tLF 90% 10% 10% tLR Figure 5.76 IOH = –200 μA VOL Fall time Pull-down characteristics | DP – DM | VCRS Rise time Rise/fall time ratio Test Conditions tLF DP and DM Output Timing (Low Speed) dp 27 Observation point 200 pF to 600 pF dm 3.6 V 1.5 k 27 200 pF to 600 pF Figure 5.77 Test Circuit (Low Speed) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 219 of 246 RX65N Group, RX651 Group Table 5.47 5. Electrical Characteristics On-Chip USB Full-Speed Characteristics (DP and DM Pin Characteristics) Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 3.0 to 3.6 V, 3.0 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, UCLK = 48 MHz, PCLKA = 8 to 120 MHz, PCLKB = 8 to 60 MHz, Ta = Topr Item Input characteristics Output characteristics Symbol Min. Typ. Max. Unit Input high level voltage VIH 2.0 — — V Input low level voltage VIL — — 0.8 V Differential input sensitivity VDI 0.2 — — V Differential common mode range VCM 0.8 — 2.5 V Output high level voltage VOH 2.8 — 3.6 V Output low level voltage Cross-over voltage Rise time Fall time Pull-up and pull-down characteristics | DP – DM | IOH = –200 μA VOL 0.0 — 0.3 V IOL = 2 mA VCRS 1.3 — 2.0 V Figure 5.78 tFR 4 — 20 ns tFF 4 — 20 ns Rise/fall time ratio tFR / tFF 90 — 111.11 % tFR/ tFF Output resistance ZDRV 28 — 44 Ω Rs = 27 Ω included DP pull-up resistance (when the function controller function is selected) Rpu 0.900 — 1.575 kΩ Idle state 1.425 — 3.090 kΩ At transmission and reception DP/DM pull-down resistance (when the host controller function is selected) Rpd 14.25 — 24.80 kΩ DP, DM VCRS 90% 90% 10% 10% tFR Figure 5.78 Test Conditions tFF DP and DM Output Timing (Full-Speed) dp 27 Observation point 50 pF dm 27 50 pF Figure 5.79 Test Circuit (Full-Speed) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 220 of 246 RX65N Group, RX651 Group 5.5 5. Electrical Characteristics A/D Conversion Characteristics Table 5.48 12-Bit A/D (Unit 0) Conversion Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKB = PCLKC = 1 MHz to 60 MHz, Ta = Topr, Source impedance = 1.0 kΩ Item Min. Typ. Max. Unit 8 — 12 Bit — — 30 pF Channel-dedicated Conversion (Operation at PCLKC = 60 MHz) sample-and-hold circuits in use (AN000 to AN002) 1.06 (0.4 + 0.25) *2 — — μs  Sampling of channeldedicated sample-andhold circuits in 24 states  Sampling in 15 states Offset error — ±1.5 ±3.5 LSB AN000 to AN002 = 0.25 V Full-scale error — ±1.5 ±3.5 LSB AN000 to AN002 = VREFH0 – 0.25 V Quantization error — ±0.5 — LSB Absolute accuracy — ±3.0 ±5.5 LSB DNL differential nonlinearity error — ±1.0 ±2.0 LSB INL integral nonlinearity error — ±1.5 ±3.0 LSB Holding characteristics of sample-andhold circuits — — 20 μs 0.25 — VREFH0 – 0.25 V 0.48 (0.267)*2 — — μs Resolution Analog input capacitance time*1 Dynamic range Channel-dedicated Conversion time*1 (Operation at PCLKC = 60 MHz) sample-and-hold circuits not in use Offset error (AN000 to AN007) Full-scale error Quantization error — ±1.0 ±2.5 LSB — ±1.0 ±2.5 LSB — ±0.5 — LSB Absolute accuracy — ±2.5 ±4.5 LSB DNL differential nonlinearity error — ±0.5 ±1.5 LSB INL integral nonlinearity error — ±1.0 ±2.5 LSB Test Conditions Sampling in 16 states Note: The above specification values apply when there is no access to the external bus during A/D conversion. If access proceeds during A/D conversion, values may not fall within the above ranges. Note 1. The conversion time includes the sampling time and the comparison time. As the test conditions, the number of sampling states is indicated. Note 2. The value in parentheses indicates the sampling time. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 221 of 246 RX65N Group, RX651 Group Table 5.49 5. Electrical Characteristics 12-Bit A/D (Unit 1) Conversion Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKB = PCLKD = 1 MHz to 60 MHz, Ta = Topr, Source impedance = 1.0 kΩ Item Min. Typ. Max. Unit 8 — 12 Bit Conversion time*1 (Operation at PCLKD = 60 MHz) 0.88 (0.633)*2 — — μs Sampling in 38 states (ADSAM.SAM = 1) Conversion time*1 (Operation at PCLKD = 30 MHz) 1 (0.500)*2 — — μs Sampling in 15 states (ADSAM.SAM = 1) Analog input capacitance — — 30 pF Offset error — ±2.0 ±3.5 LSB Resolution Full-scale error — ±2.0 ±3.5 LSB Quantization error — ±0.5 — LSB Absolute accuracy — ±4.0 ±6.0 LSB DNL differential nonlinearity error (Operation at PCLKD = 60 MHz) — ±1.5 ±4.0 LSB DNL differential nonlinearity error (Operation at PCLKD = 30 MHz) — ±1.5 ±2.5 LSB INL integral nonlinearity error (Operation at PCLKD = 60 MHz) — ±2.0 ±4.0 LSB INL integral nonlinearity error (Operation at PCLKD = 30 MHz) — ±2.0 ±3.5 LSB Test Conditions Note: The above specification values apply when there is no access to the external bus during A/D conversion. If access proceeds during A/D conversion, values may not fall within the above ranges. Note 1. The conversion time includes the sampling time and the comparison time. As the test conditions, the number of sampling states is indicated. Note 2. The value in parentheses indicates the sampling time. Table 5.50 A/D Internal Reference Voltage Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, PCLKB = PCLKD = 60 MHz, Ta = Topr Item A/D internal reference voltage R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Min. Typ. Max. Unit 1.13 1.18 1.23 V Test Conditions Page 222 of 246 RX65N Group, RX651 Group 5.6 5. Electrical Characteristics D/A Conversion Characteristics Table 5.51 D/A Conversion Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Symbol Min. Typ. Resolution — 12 12 12 Bit Unbuffered output Absolute accuracy — — — ±6.0 LSB 2-MΩ resistive load 10-bit conversion 2-MΩ resistive load Differential nonlinearity error Buffered output Unit DNL — ±1.0 ±2.0 LSB Output resistance RO — 8.6 — kΩ Setting time tS — — 3 μs Load resistance RL 5 — — kΩ Load capacitance CL — — 50 pF Output voltage VO 0.2 — AVCC1 – 0.2 V Differential nonlinearity error DNL — ±1.0 ±2.0 LSB Integral nonlinearity error INL — ±2.0 ±4.0 LSB tS — — 4 μs Setting time 5.7 Max. Test Conditions 20-pF capacitive load Temperature Sensor Characteristics Table 5.52 Temperature Sensor Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Min. Typ. Max. Unit Relative accuracy Item — ±1 — °C Temperature slope — 4 — mV/°C Output voltage (at 25°C) — 1.21 — V Temperature sensor start time — — 30 μs 4.15 — — μs Sampling time*1 Test Conditions Note 1. Set the S12AD1.ADSSTRT register such that the sampling time of the 12-bit A/D converter satisfies this specification. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 223 of 246 RX65N Group, RX651 Group 5.8 5. Electrical Characteristics Power-on Reset Circuit and Voltage Detection Circuit Characteristics Table 5.53 Power-on Reset Circuit and Voltage Detection Circuit Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Voltage detection level Power-on reset (POR) Symbol Min. Typ. Max. Unit VPOR 2.5 2.6 2.7 V 1.8 2.25 2.7 Low power consumption function disabled*1 Low power consumption function enabled*2 Voltage detection circuit (LVD0) Voltage detection circuit (LVD1) Voltage detection circuit (LVD2) Vdet0_1 2.84 2.94 3.04 Vdet0_2 2.77 2.87 2.97 Vdet0_3 2.70 2.80 2.90 Vdet1_1 2.89 2.99 3.09 Vdet1_2 2.82 2.92 3.02 Vdet1_3 2.75 2.85 2.95 Vdet2_1 2.89 2.99 3.09 Vdet2_2 2.82 2.92 3.02 Test Conditions Figure 5.80 Figure 5.81 Figure 5.82 Figure 5.83 Vdet2_3 2.75 2.85 2.95 Power-on reset time tPOR — 4.6 — LVD0 reset time tLVD0 — 0.70 — Figure 5.81 LVD1 reset time tLVD1 — 0.57 — Figure 5.82 LVD2 reset time tLVD2 — 0.57 — Figure 5.83 tVOFF 200 — — μs Figure 5.80, Figure 5.81 tdet — — 200 μs Figure 5.80 to Figure 5.83 LVD operation stabilization time (after LVD is enabled) Td(E-A) — — 10 μs Hysteresis width (LVD1 and LVD2) V LVH — 70 — mV Figure 5.82, Figure 5.83 Internal reset time Minimum VCC down time Response delay time ms Figure 5.80 Note: The minimum VCC down time indicates the time when VCC is below the minimum value of voltage detection levels VPOR, Vdet1, and Vdet2 for the POR/ LVD. Note 1. The low power consumption function is disabled and DEEPCUT[1:0] = 00b or 01b. Note 2. The low power consumption function is enabled and DEEPCUT[1:0] = 11b. tVOFF VPOR VCC Internal reset signal (Low is valid) tdet Figure 5.80 tPOR tdet tdet tPOR Power-on Reset Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 224 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics tVOFF VCC Vdet0 Internal reset signal (Low is valid) tdet Figure 5.81 tdet tLVD0 Voltage Detection Circuit Timing (Vdet0) tVOFF VCC VLVH Vdet1 LVD1E Td(E-A) LVD1 Comparator output LVD1CMPE LVD1MON Internal reset signal (Low is valid) When LVD1RN = L tdet tdet tLVD1 When LVD1RN = H tLVD1 Figure 5.82 Voltage Detection Circuit Timing (Vdet1) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 225 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics tVOFF VCC VLVH Vdet2 LVD2E LVD2 Comparator output Td(E-A) LVD2CMPE LVD2MON Internal reset signal (Low is valid) When LVD2RN = L tdet tdet tLVD2 When LVD2RN = H tLVD2 Figure 5.83 Voltage Detection Circuit Timing (Vdet2) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 226 of 246 RX65N Group, RX651 Group 5.9 5. Electrical Characteristics Oscillation Stop Detection Timing Table 5.54 Oscillation Stop Detection Circuit Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr Item Detection time Symbol Min. Typ. Max. Unit Test Conditions tdr — — 1 ms Figure 5.84 Main clock or PLL clock tdr OSTDSR.OSTDF LOCO clock ICLK Figure 5.84 Oscillation Stop Detection Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 227 of 246 RX65N Group, RX651 Group 5.10 5. Electrical Characteristics Battery Backup Function Characteristics Table 5.55 Battery Backup Function Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, VBATT = 2.0 to 3.6 V, Ta = Topr Symbol Min. Typ. Max. Unit Test Conditions Voltage level for switching to battery backup VDETBATT 2.50 2.60 2.70 V Figure 5.85 Lower-limit VBATT voltage for power supply switching due to VCC voltage drop VBATTSW 2.70 — — VCC-off period for starting power supply switching tVOFFBATT 200 — — Item Note: μs The VCC-off period for starting power supply switching indicates the period in which VCC is below the minimum value of the voltage level for switching to battery backup (VDETBATT). tVOFFBATT VCC VDETBATT VBATT VBATT Switching prohibited VCC voltage guaranteed range VBATTSW Backup power area VCC supply VBATT Switching prohibited VBATT supply VBATT voltage guaranteed range VCC supply Note. The VBATT voltage when the supplied power source switches from Vcc to VBATT should not be lower than VBATTSW, the lower-limit VBATT voltage for switching between power supplies due to a drop in the VCC voltage. Figure 5.85 Battery Backup Function Characteristics R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 228 of 246 RX65N Group, RX651 Group 5.11 5. Electrical Characteristics Flash Memory Characteristics Table 5.56 Code Flash Memory Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Temperature range for programming/erasure: Ta = Topr Item Programming time NPEC ≤ 100 times Programming time NPEC > 100 times Symbol FCLK = 4 MHz FCLK = 15 MHz 20 MHz ≤ FCLK ≤ 60 MHz Min. Typ. Max. Min. Typ. Max. Min. Typ. Max. Unit 128 bytes tP128 — 0.75 13.2 — 0.38 6.6 — 0.34 6 ms 8 Kbytes tP8K — 49 176 — 25 88 — 22 80 ms 32 Kbytes tP32K — 194 704 — 97 352 — 88 320 ms 128 bytes tP128 — 0.91 15.8 — 0.46 8 — 0.41 7.2 ms 8 Kbytes tP8K — 60 212 — 30 106 — 27 96 ms 32 Kbytes tP32K — 234 848 — 117 424 — 106 384 ms Erasure time NPEC ≤ 100 times 8 Kbytes tE8K — 78 216 — 48 132 — 43 120 ms 32 Kbytes tE32K — 283 864 — 173 528 — 157 480 ms Erasure time NPEC > 100 times 8 Kbytes tE8K — 94 260 — 58 158 — 52 144 ms 32 Kbytes tE32K — 341 1040 — 208 632 — 189 576 ms NPEC 10000 *2 — — 10000 *2 — — 10000 *2 — — Times tSPD — — 264 — — 132 — — 120 μs First suspend delay time during erasing (in suspend priority mode) tSESD1 — — 216 — — 132 — — 120 μs Second suspend delay time during erasure (in suspend priority mode) tSESD2 — — 1.7 — — 1.7 — — 1.7 ms Suspend delay time during erasure (in erasure priority mode) tSEED — — 1.7 — — 1.7 — — 1.7 ms tFD — — 32 — — 22 — — 20 μs tDRP 10 — — 10 — — 10 — — Year Reprogramming/erasure cycle*1 Suspend delay time during programming Forced stop command Data hold time*3 Note 1. Definition of reprogram/erase cycle: The reprogram/erase cycle is the number of erasing for each block. When the reprogram/erase cycle is n times (n = 1000), erasing can be performed n times for each block. For instance, when 128-byte programming is performed 64 times for different addresses in 8-Kbyte block and then the entire block is erased, the reprogram/erase cycle is counted as one. However, programming the same address for several times as one erasing is not enabled (overwriting is prohibited). Note 2. This is the minimum number of times to guarantee all the characteristics after reprogramming (guaranteed range is from 1 to the value of the minimum value). Note 3. This shows the characteristics when reprogramming is performed within the specified range, including the minimum value. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 229 of 246 RX65N Group, RX651 Group Table 5.57 5. Electrical Characteristics Data Flash Memory Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Temperature range for programming/erasure: Ta = Topr Item Symbol FCLK = 4 MHz FCLK = 15 MHz 20 MHz ≤ FCLK ≤ 60 MHz Min. Typ. Max. Min. Typ. Max. Min. Typ. Max. Unit Programming time 4 bytes tDP4 — 0.36 3.8 — 0.18 1.9 — 0.16 1.7 ms Erasure time 64 bytes tDP64 — 3.1 18 — 1.9 11 — 1.7 10 ms 128 bytes tDP128 — 4.7 27 — 2.9 16 — 2.6 15 ms 256 bytes tDP256 — 8.9 50 — 5.4 31 — 4.9 28 ms 4 bytes tDBC4 — — 84 — — 33 — — 30 μs 64 bytes tDBC64 — — 280 — — 110 — — 100 μs 2 Kbytes tDBC2K — — 6160 — — 2420 — — 2200 μs Reprogramming/erasure cycle*1 NDPEC 100000 *2 — — 100000 *2 — — 100000 *2 — — Times Suspend delay time during programming tDSPD — — 264 — — 132 — — 120 μs Blank check time First suspend delay time during erasure (in suspend priority mode) 64 bytes — — — 216 — — 132 — — 120 μs 128 bytes — — — 216 — — 132 — — 120 μs 256 bytes — — — 216 — — 132 — — 120 μs Second suspend delay time during erasure (in suspend priority mode) 64 bytes — — — 300 — — 300 — — 300 μs 128 bytes — — — 390 — — 390 — — 390 μs 256 bytes — — — 570 — — 570 — — 570 μs Suspend delay time during erasing (in suspend priority mode) 64 bytes — — — 300 — — 300 — — 300 μs 128 bytes — — — 390 — — 390 — — 390 μs 256 bytes — — — 570 — — 570 — — 570 μs Forced stop command Data hold time*3 tFD — — 32 — — 22 — — 20 μs tDDRP 10 — — 10 — — 10 — — Year Note 1. Definition of reprogram/erase cycle: The reprogram/erase cycle is the number of erasing for each block. When the reprogram/erase cycle is n times (n = 100000), erasing can be performed n times for each block. For instance, when 4-byte programming is performed 512 times for different addresses in 2-Kbyte block and then the entire block is erased, the reprogram/erase cycle is counted as one. However, programming the same address for several times as one erasing is not enabled (overwriting is prohibited). Note 2. This is the minimum number of times to guarantee all the characteristics after reprogramming (guaranteed range is from 1 to the value of the minimum value). Note 3. This shows the characteristics when reprogramming is performed within the specified range, including the minimum value. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 230 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics • Suspension during programming FCU command Program Suspend tSPD FSTATR.FRDY Ready Programming pulse Not Ready Ready Programming • Suspension during erasure in suspend priority mode FCU command Erase Suspend Resume Suspend tSESD1 FSTATR.FRDY Ready Erasure pulse Not Ready tSESD2 Ready Erasing Not Ready Erasing • Suspension during erasure in erasure priority mode FCU command Erase Suspend tSEED FSTATR.FRDY Ready Erasure pulse Figure 5.86 Not Ready Ready Erasing Flash Memory Programming/Erasure Suspension Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 231 of 246 RX65N Group, RX651 Group 5.12 5. Electrical Characteristics Boundary Scan Table 5.58 Boundary Scan Characteristics Conditions: VCC = AVCC0 = AVCC1 = VCC_USB = VBATT = 2.7 to 3.6 V, 2.7 V ≤ VREFH0 ≤ AVCC0, VSS = AVSS0 = AVSS1 = VREFL0 = VSS_USB = 0 V, Ta = Topr, Output load conditions: VOH = VCC × 0.5, VOL = VCC × 0.5, C = 30 pF, High-drive output is selected by the driving ability control register. Item TCK clock cycle time Symbol Min. Typ. Max. Unit Test Conditions Figure 5.87 tTCKcyc 100 — — ns TCK clock high pulse width tTCKH 45 — — ns TCK clock low pulse width tTCKL 45 — — ns TCK clock rise time tTCKr — — 5 ns TCK clock fall time tTCKf — — 5 ns TRST# pulse width tTRSTW 20 — — tTCKcyc Figure 5.88 TMS setup time tTMSS 20 — — ns Figure 5.89 TMS hold time tTMSH 20 — — ns TDI setup time tTDIS 20 — — ns TDI hold time tTDIH 20 — — ns TDO data delay time tTDOD — — 40 ns tTCKcyc tTCKH TCK tTCKf tTCKL Figure 5.87 tTCKr Boundary Scan TCK Timing TCK RES# TRST# tTRSTW Figure 5.88 Boundary Scan TRST# Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 232 of 246 RX65N Group, RX651 Group 5. Electrical Characteristics TCK tTMSS tTMSH tTDIS tTDIH TMS TDI tTDOD TDO Figure 5.89 Boundary Scan Input/Output Timing R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 233 of 246 RX65N Group, RX651 Group Appendix 1. Package Dimensions Appendix 1. Package Dimensions JEITA Package Code P-TFLGA177-8x8-0.50 RENESAS Code PTLG0177KA-A w S B Information on the latest version of the package dimensions or mountings has been displayed in “Packages” on Renesas Electronics Corporation website. D Previous Code 177F0E-A MASS[Typ.] 0.2g φ b1 φ × M S AB φb w S A φ × M S AB e ZD A A e R P N M L K B E J H G F E D C B y S x4 v Index mark (Laser mark) S ZE A 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Reference Dimension in Millimeters Symbol Min D E v w A e b b1 x y ZD ZE Nom 8.0 8.0 Max 0.15 0.20 1.05 0.21 0.29 0.5 0.25 0.34 0.29 0.39 0.08 0.08 0.5 0.5 Figure A 177-Pin TFLGA (PTLG0177KA-A) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 234 of 246 RX65N Group, RX651 Group Appendix 1. Package Dimensions Figure B 176-Pin LFBGA (PLBG0176GA-A) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 235 of 246 RX65N Group, RX651 Group JEITA Package Code P-LFQFP176-24x24-0.50 RENESAS Code PLQP0176KB-A Appendix 1. Package Dimensions Previous Code MASS[Typ.] 176P6Q-A/FP-176E/FP-176EV 1.8g HD *1 D 132 89 133 88 NOTE) 1. DIMENSIONS "*1" AND "*2" DO NOT INCLUDE MOLD FLASH. 2. DIMENSION "*3" DOES NOT INCLUDE TRIM OFFSET. bp c c1 HE *2 E b1 Reference Symbol 176 45 c F A Index mark A2 44 1 ZD ZE Terminal cross section A1 θ S L e y S *3 L1 bp x M Detail F D E A2 HD HE A A1 bp b1 c c1 θ e x y ZD ZE L L1 Dimension in Millimeters Min 23.9 23.9 Max 24.1 24.1 25.8 25.8 Nom 24.0 24.0 1.4 26.0 26.0 0.05 0.15 0.1 0.20 0.15 0.25 26.2 26.2 1.7 0.18 0.09 0.145 0.20 0.125 0° 8° 0.5 0.08 0.10 1.25 1.25 0.35 0.5 0.65 1.0 Figure C 176-Pin LFQFP (PLQP0176KB-A) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 236 of 246 RX65N Group, RX651 Group JEITA Package Code P-TFLGA145-7x7-0.50 RENESAS Code PTLG0145KA-A Appendix 1. Package Dimensions Previous Code 145F0G MASS[Typ.] 0.1g w S B φb1 D φ φb φ w S A ZD A M S AB M S AB e A e N M L K J E H B G F E D C B x4 v Index mark (Laser mark) S ZE A y S 1 2 3 4 5 6 7 8 9 10 11 12 13 Reference Dimension in Millimeters Symbol Min D E v w A e b b1 x y ZD ZE Nom 7.0 7.0 Max 0.15 0.20 1.05 0.21 0.29 0.5 0.25 0.34 0.29 0.39 0.08 0.08 0.5 0.5 Figure D 145-Pin TFLGA (PTLG0145KA-A) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 237 of 246 RX65N Group, RX651 Group Appendix 1. Package Dimensions Figure E 144-Pin LFQFP (PLQP0144KA-B) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 238 of 246 RX65N Group, RX651 Group JEITA Package Code P-TFLGA100-7x7-0.65 RENESAS Code PTLG0100JA-A Appendix 1. Package Dimensions Previous Code 100F0G MASS[Typ.] 0.1g w S B φ b1 D φ× M S φb w S A ZD AB e A e A AB φ× M S K J H G B E F E D C B ×4 y S v Index mark (Laser mark) S ZE A 1 2 3 Index mark 4 5 6 7 8 9 10 Reference Dimension in Millimeters Symbol Min Nom D 7.0 E 7.0 v w A e 0.65 b 0.31 0.35 b1 0.385 0.435 x y ZD 0.575 ZE 0.575 Max 0.15 0.20 1.05 0.39 0.485 0.08 0.10 Figure F 100-Pin TFLGA (PTLG0100JA-A) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 239 of 246 RX65N Group, RX651 Group Appendix 1. Package Dimensions Figure G 100-Pin LFQFP (PLQP0100KB-B) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 240 of 246 RX65N Group, RX651 Group Appendix 1. Package Dimensions Figure H 64-Pin TFBGA (PTBG0064KB-A) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 241 of 246 RX65N Group, RX651 Group Figure I Appendix 1. Package Dimensions 64-Pin LFQFP (PLQP0064KB-C) R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 242 of 246 REVISION HISTORY RX65N Group, RX651 Group REVISION HISTORY REVISION HISTORY RX65N Group, RX651 Group Datasheet Classifications - Items with Technical Update document number: Changes according to the corresponding issued Technical Update - Items without Technical Update document number: Minor changes that do not require Technical Update to be issued Rev. Date 1.00 2.10 Aug 24, 2016 Oct 02, 2017 Page — — Description Summary First edition, issued Products with at least 1.5 Mbytes of code flash memory added The conventional products indicated as “products with 1 Mbyte of code flash memory or less” 1. Overview 6, 9 8 Table 1.1 Outline of Specifications (5/9), Note added Table 1.1 Outline of Specifications (8/9) Description of the 12-bit D/A converter (R12DA) changed 4. I/O Registers 131 Table 4.1 List of I/O Registers (Address Order) (46 / 61), changed 5. Electrical Characteristics 147 Table 5.1 Absolute Maximum Rating, changed 150 Table 5.5 DC Characteristics (3) (Products with 1 Mbyte of code flash memory or less), changed 152 Table 5.7 DC Characteristics (4), changed 153 162 2.30 Jun 20, 2019 189 212 218 219 — 1. Overview 14 to 22 30 47 to 49 Table 5.9 Heat Resistance Value (Reference), added Table 5.21 Timing of Recovery from Low Power Consumption Modes (1), changed Table 5.35 RSPI Timing, changed Table 5.49 D/A Conversion Characteristics, changed Table 5.54 Code Flash Memory Characteristics, changed Table 5.55 Data Flash Memory Characteristics, changed 64-pin Package Products added Terms unified: pull-up MOS → pull-up resistors pull-down MOS → pull-down resistors Table 1.3 List of Products, changed Table 1.4 Pin Functions (6/8), changed Table 1.5 List of Pin and Pin Functions (177-Pin TFLGA, 176-Pin LFBGA), changed 52 Table 1.6 List of Pin and Pin Functions (176-Pin LFQFP), changed 4. I/O Registers 136 to 138 Table 4.1 List of I/O Registers (Address Order), changed 5. Electrical Characteristics 157 Table 5.5 DC Characteristics (3) (Products with 1 Mbyte of code flash memory or less), changed 158, 159 Table 5.6 DC Characteristics (3) (Products for products with at least 1.5 Mbytes of code flash memory), changed 159 Table 5.7 DC Characteristics (4), changed 161 Table 5.9 Thermal Resistance Value (Reference), changed 164 Table 5.13 Reset Timing, Unit changed 206 Figure 5.54 RIIC Bus Interface Input/Output Timing and Simple IIC Bus Interface Input/Output Timing, changed 216 Table 5.44 SDHI Timing, added Figure 5.72 SD Host Interface Input/Output Signal Timing, added 217, 218 Table 5.45 SDSI Timing, added Figure 5.73 SD Slave Interface Input Signal Timing to Figure 5.75 SD Slave Interface Output Signal Timing (High Speed Mode), added 221 Table 5.48 12-Bit A/D (Unit 0) Conversion Characteristics, changed R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Classification TN-RX*-A164B/E TN-RX*-A165A/E TN-RX*-A176A/E TN-RX*-A164B/E TN-RX*-A164B/E TN-RX*-A176A/E TN-RX*-A176A/E TN-RX*-A165A/E TN-RX*-A204A/E TN-RX*-A0211A/E TN-RX*-A182A/E TN-RX*-A0211A/E TN-RX*-A0211A/E TN-RX*-A182A/E TN-RX*-A202A/E TN-RX*-A196A/E TN-RX*-A182A/E Page 243 of 246 RX65N Group, RX651 Group Rev. Date 2.30 Jun 20, 2019 Page 230 REVISION HISTORY Description Summary Table 5.57 Data Flash Memory Characteristics, changed (64-bytes and 2Kbytes blank check time added) Classification All trademarks and registered trademarks are the property of their respective owners. R01DS0276EJ0230 Rev.2.30 Jun 20, 2019 Page 244 of 246 General Precautions in the Handling of Microprocessing Unit and Microcontroller Unit Products The following usage notes are applicable to all Microprocessing unit and Microcontroller unit products from Renesas. For detailed usage notes on the products covered by this document, refer to the relevant sections of the document as well as any technical updates that have been issued for the products. 1. Precaution against Electrostatic Discharge (ESD) A strong electrical field, when exposed to a CMOS device, can cause destruction of the gate oxide and ultimately degrade the device operation. Steps must be taken to stop the generation of static electricity as much as possible, and quickly dissipate it when it occurs. Environmental control must be adequate. When it is dry, a humidifier should be used. This is recommended to avoid using insulators that can easily build up static electricity. Semiconductor devices must be stored and transported in an anti-static container, static shielding bag or conductive material. All test and measurement tools including work benches and floors must be grounded. The operator must also be grounded using a wrist strap. Semiconductor 2. devices must not be touched with bare hands. Similar precautions must be taken for printed circuit boards with mounted semiconductor devices. Processing at power-on The state of the product is undefined at the time when power is supplied. The states of internal circuits in the LSI are indeterminate and the states of register settings and pins are undefined at the time when power is supplied. In a finished product where the reset signal is applied to the external reset pin, the states of pins are not guaranteed from the time when power is supplied until the reset process is completed. In a similar way, the states of pins in a product that is reset by an on-chip power-on reset function are not guaranteed from the time when power is supplied until the power reaches the 3. level at which resetting is specified. Input of signal during power-off state Do not input signals or an I/O pull-up power supply while the device is powered off. The current injection that results from input of such a signal or I/O pull-up power supply may cause malfunction and the abnormal current that passes in the device at this time may cause degradation of internal 4. elements. Follow the guideline for input signal during power-off state as described in your product documentation. Handling of unused pins Handle unused pins in accordance with the directions given under handling of unused pins in the manual. The input pins of CMOS products are generally in the high-impedance state. In operation with an unused pin in the open-circuit state, extra electromagnetic noise is induced in the vicinity of the LSI, an associated shoot-through current flows internally, and malfunctions occur due to the false recognition of the pin state as an input signal 5. become possible. Clock signals After applying a reset, only release the reset line after the operating clock signal becomes stable. When switching the clock signal during program execution, wait until the target clock signal is stabilized. When the clock signal is generated with an external resonator or from an external oscillator during a reset, ensure that the reset line is only released after full stabilization of the clock signal. Additionally, when switching to a clock signal 6. produced with an external resonator or by an external oscillator while program execution is in progress, wait until the target clock signal is stable. Voltage application waveform at input pin Waveform distortion due to input noise or a reflected wave may cause malfunction. If the input of the CMOS device stays in the area between VIL (Max.) and VIH (Min.) due to noise, for example, the device may malfunction. Take care to prevent chattering noise from entering the device when the 7. input level is fixed, and also in the transition period when the input level passes through the area between VIL (Max.) and VIH (Min.). Prohibition of access to reserved addresses Access to reserved addresses is prohibited. The reserved addresses are provided for possible future expansion of functions. Do not access these 8. addresses as the correct operation of the LSI is not guaranteed. Differences between products Before changing from one product to another, for example to a product with a different part number, confirm that the change will not lead to problems. The characteristics of a microprocessing unit or microcontroller unit products in the same group but having a different part number might differ in terms of internal memory capacity, layout pattern, and other factors, which can affect the ranges of electrical characteristics, such as characteristic values, operating margins, immunity to noise, and amount of radiated noise. When changing to a product with a different part number, implement a systemevaluation test for the given product. Notice 1. Descriptions of circuits, software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples. You are fully responsible for the incorporation or any other use of the circuits, software, and information in the design of your product or system. Renesas Electronics disclaims any and all liability for any losses and damages incurred by you or third parties arising from the use of these circuits, software, or information. 2. Renesas Electronics hereby expressly disclaims any warranties against and liability for infringement or any other claims involving patents, copyrights, or other intellectual property rights of third parties, by or arising from the use of Renesas Electronics products or technical information described in this document, including but not limited to, the product data, drawings, charts, programs, algorithms, and application examples. 3. No license, express, implied or otherwise, is granted hereby under any patents, copyrights or other intellectual property rights of Renesas Electronics or others. 4. You shall not alter, modify, copy, or reverse engineer any Renesas Electronics product, whether in whole or in part. Renesas Electronics disclaims any and all liability for any losses or damages incurred by 5. Renesas Electronics products are classified according to the following two quality grades: “Standard” and “High Quality”. The intended applications for each Renesas Electronics product depends on the you or third parties arising from such alteration, modification, copying or reverse engineering. product’s quality grade, as indicated below. "Standard": Computers; office equipment; communications equipment; test and measurement equipment; audio and visual equipment; home electronic appliances; machine tools; personal electronic equipment; industrial robots; etc. "High Quality": Transportation equipment (automobiles, trains, ships, etc.); traffic control (traffic lights); large-scale communication equipment; key financial terminal systems; safety control equipment; etc. Unless expressly designated as a high reliability product or a product for harsh environments in a Renesas Electronics data sheet or other Renesas Electronics document, Renesas Electronics products are not intended or authorized for use in products or systems that may pose a direct threat to human life or bodily injury (artificial life support devices or systems; surgical implantations; etc.), or may cause serious property damage (space system; undersea repeaters; nuclear power control systems; aircraft control systems; key plant systems; military equipment; etc.). Renesas Electronics disclaims any and all liability for any damages or losses incurred by you or any third parties arising from the use of any Renesas Electronics product that is inconsistent with any Renesas Electronics data sheet, user’s manual or other Renesas Electronics document. 6. When using Renesas Electronics products, refer to the latest product information (data sheets, user’s manuals, application notes, “General Notes for Handling and Using Semiconductor Devices” in the reliability handbook, etc.), and ensure that usage conditions are within the ranges specified by Renesas Electronics with respect to maximum ratings, operating power supply voltage range, heat dissipation characteristics, installation, etc. Renesas Electronics disclaims any and all liability for any malfunctions, failure or accident arising out of the use of Renesas Electronics products outside of such specified ranges. 7. Although Renesas Electronics endeavors to improve the quality and reliability of Renesas Electronics products, semiconductor products have specific characteristics, such as the occurrence of failure at a certain rate and malfunctions under certain use conditions. Unless designated as a high reliability product or a product for harsh environments in a Renesas Electronics data sheet or other Renesas Electronics document, Renesas Electronics products are not subject to radiation resistance design. You are responsible for implementing safety measures to guard against the possibility of bodily injury, injury or damage caused by fire, and/or danger to the public in the event of a failure or malfunction of Renesas Electronics products, such as safety design for hardware and software, including but not limited to redundancy, fire control and malfunction prevention, appropriate treatment for aging degradation or any other appropriate measures. Because the evaluation of microcomputer software alone is very difficult and impractical, you are responsible for evaluating the safety of the final products or systems manufactured by you. 8. Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product. You are responsible for carefully and sufficiently investigating applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive, and using Renesas Electronics products in compliance with all these applicable laws and regulations. Renesas Electronics disclaims any and all liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations. 9. Renesas Electronics products and technologies shall not be used for or incorporated into any products or systems whose manufacture, use, or sale is prohibited under any applicable domestic or foreign laws or regulations. You shall comply with any applicable export control laws and regulations promulgated and administered by the governments of any countries asserting jurisdiction over the parties or transactions. 10. It is the responsibility of the buyer or distributor of Renesas Electronics products, or any other party who distributes, disposes of, or otherwise sells or transfers the product to a third party, to notify such third party in advance of the contents and conditions set forth in this document. 11. This document shall not be reprinted, reproduced or duplicated in any form, in whole or in part, without prior written consent of Renesas Electronics. 12. Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or Renesas Electronics products. (Note 1) “Renesas Electronics” as used in this document means Renesas Electronics Corporation and also includes its directly or indirectly controlled subsidiaries. (Note 2) “Renesas Electronics product(s)” means any product developed or manufactured by or for Renesas Electronics. (Rev.4.0-1 November 2017) http://www.renesas.com SALES OFFICES Refer to "http://www.renesas.com/" for the latest and detailed information. Renesas Electronics Corporation TOYOSU FORESIA, 3-2-24 Toyosu, Koto-ku, Tokyo 135-0061, Japan Renesas Electronics America Inc. 1001 Murphy Ranch Road, Milpitas, CA 95035, U.S.A. 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