ML62Q1550-NNNTBZ0BX

FEDL62Q1500-07 Issue Date: May 19, 2022 ML62Q1500/1800 Group 16-bit micro controller GENERAL DESCRIPTION ML62Q1500/1800 Group is a high performance CMOS 16-bit microcontroller equipped with an 16-bit CPU nX-U16/100 and integrated with program memory(Flash memory), data memory(RAM), data Flash and rich peripheral functions such as the multiplier/divider, CRC generator, DMA controller, Clock generator, Simplified RTC, Timer, General Purpose Ports, UART, Synchronous serial port, I2C bus interface unit (Master, Slave), Buzzer, Voltage Level Supervisor(VLS), Successive approximation type A/D converter, D/A converter , Analog comparator, Safety function(IEC60730/60335 Class B) and so on. The CPU nX-U16/100 is capable of efficient instruction execution in 1-instruction 1-clock mode by pipeline architecture parallel processing. The built-in on-chip debug function enables debugging and programming the software. Also, ISP(In-System Programming) function supports the Flash programming in production line. The ML62Q1500/1800 Group has seven packages (48pin - 100pin) and ten kinds of memory sizes(32Kbyte - 512Kbyte). Table 1 ML62Q1500/1800 Group Product List Program memory 512Kbyte 384Kbyte Data memory (RAM) Data Flash 32Kbyte 8Kbyte 256Kbyte 192Kbyte 16Kbyte 160Kbyte 128Kbyte 96Kbyte 32Kbyte 52pin TQFP52 64pin QFP64 TQFP64 80pin QFP80 100pin QFP100 TQFP100 － － ML62Q1859 ML62Q1869 ML62Q1879 － － ML62Q1858 ML62Q1868 ML62Q1878 － － ML62Q1557 ML62Q1567 ML62Q1577 － － ML62Q1556 ML62Q1566 ML62Q1576 － － ML62Q1555 ML62Q1565 ML62Q1575 16Kbyte － － － ML62Q1564 ML62Q1574 8Kbyte ML62Q1534 ML62Q1544 ML62Q1554 － － 16Kbyte 8Kbyte 64Kbyte 48Kbyte 48pin TQFP48 8Kbyte 4Kbyte － － － ML62Q1563 ML62Q1573 ML62Q1533 ML62Q1543 ML62Q1553 － － ML62Q1532 ML62Q1542 ML62Q1552 － － ML62Q1531 ML62Q1541 ML62Q1551 － － ML62Q1530 ML62Q1540 ML62Q1550 － － Please see the page 70 “Notes for product usage” and the page 71 “Notes” in this document on use with this ML62Q1500/1800 group. FEATURES • CPU − 16-bit RISC CPU: nX-U16/100(A35 core) − Instruction system: 16-bit length instructions ‒ Instruction set: Transfer, arithmetic operations, comparison, logic operations, multiplication/division, bit manipulations, bit logic operations, jump, conditional jump, call return stack manipulations, arithmetic shift, and so on ‒ Built-in On-chip debug function ‒ Built-in ISP (In-System Programming) function ‒ Minimum instruction execution time Approximately 30.5 μs (at 32.768 kHz system clock) Approximately 62.5ns/41.6ns (at 16 MHz/24MHz system clock) 1/71 FEDL62Q1500-07 • Coprocessor for multiplication and division − Multiplication : 16bit × 16bit (operation time : 4 cycles) − Division : 32bit ÷ 16bit (operation time : 8 cycles) − Division : 32bit ÷ 32bit (operation time : 16 cycles) − Multiply-accumulate (non-saturating): 16bit × 16bit + 32bit (operation time : 4 cycles) − Multiply-accumulate (saturating): 16bit × 16bit + 32bit (operation time : 4 cycles) − Signed or Unsigned is selectable • Operating voltage and temperature ‒ Operating voltage: VDD = 1.6 to 5.5 V (VDD should be 1.8V or over at Power-on) ‒ Operating temperature: -40 °C to +105 °C • Internal memory ‒ Program memory area Rewrite count: 100 cycles Write unit: 32bit(4byte) Erase unit: 16Kbyte/1Kbyte Erase/Write temperature: 0 °C to +40 °C ‒ Data Flash memory area Rewrite count 10,000 cycles Write unit: 8bit(1byte) Erase unit: all area/128byte Erase/Write temperature: -40 °C to +85 °C Back Ground Operation(CPU can work while erasing and rewriting) This product uses Super Flash® technology licensed from Silicon Storage Technology, Inc. Super Flash® is a registered trademark of Silicon Storage Technology, Inc. ‒ Data RAM area Rewrite unit: 8bit/16bit (1byte/2byte) Parity check function is available (interrupt / reset are generatable at Parity error) • Clock Generation Circuit ‒ Low-speed clock (LSCLK) Internal low-speed RC oscillation: Approximately 32.768 kHz External low-speed clock input: Approximately 32.768 kHz External low-speed crystal oscillation: 32.768 kHz crystal resonator is connectable 3 selectable crystal oscillation mode (Tough, Normal, and Low current consumption) ⋅ Tough mode: Largest oscillation allowance to make highest resistance against leakage between the pins ⋅ Normal mode: Normal oscillation allowance and current consumption ⋅ Low current consumption mode: Smallest oscillation allowance to make lower current consumption ‒ High-speed clock (HSCLK) PLL oscillation: 2 selectable oscillation frequency (24MHz and 16MHz) by code option ‒ Watch Dog Timer (WDT): built-in independent clock for WDT (RC1K: Approximately 1kHz) • Reset ‒ Reset by reset input pin ‒ Reset by Power-On Reset ‒ Reset by WDT overflow ‒ Reset by WDT invalid clear ‒ Reset by RAM parity error ‒ Reset by unused ROM area access (instruction access) ‒ Reset by voltage level supervisor (VLS) ‒ Software reset by BRK instruction (reset CPU only) ‒ Reset the peripherals individually ‒ Collective reset to the all control pins and peripheral circuits 2/71 FEDL62Q1500-07 • Power management ‒ HALT mode: CPU stops executing instruction, peripheral circuits continue working ‒ HALT-H mode: CPU stops executing instruction, high-speed clock oscillation stops and peripheral circuits continue working with low-speed clock ‒ STOP mode: CPU and peripheral circuits stops executing instruction, both high-speed oscillation and low-speed oscillation stop. ‒ STOP-D mode: CPU and peripheral circuits stops executing instruction, both high-speed oscillation and low-speed oscillation stop. The internal logic voltage (VDDL) goes down to reduce the current consumption (RAM data is retained). ‒ Clock gear: High-speed system clock frequency can be changed (1/1, 1/2, 1/4, 1/8, 1/16 or 1/32 of HSCLK) ‒ Block Control Function: Powers down the unused function blocks (reset the block or stop supplying the clock) • Interrupt controller − External interrupt ports : max 12 − Non-maskable interrupt source: 1 (Internal source: WDT) − Maskable interrupt sources: max.51 − Four step interrupt levels • Watchdog timer(WDT) ‒ Selectable Operating clock : select RC1K or LSCLK by code option ‒ Overflow period: 8selectable (7.8ms, 15.6ms, 31.3ms, 62.5ms, 125ms, 500ms, 2s and 8s) ‒ Selectable window function (enable or disable): configurable clear enable period (50% or 75% of overflow period) ‒ Selectable WDT operation : select Enable or Disable by code option ‒ Readable WDT counter : WDT counter monitor function • DMA(Direct Memory Access) controller − Channel: 2channel − Transfer unit: 8bit/16bit − Transfer count: 1 to 1024 − Transfer cycle: 2 cycle transfer − Transfer address: Fixed addressing mode, inclement addressing mode, and decrement addressing mode − Transfer target: Special Function Register (SFR)/RAM  SFR/RAM (Transfer from/to Flash is not supported) − Transfer request: External pins, Serial communication unit, Successive approximation type A/D converter, 16bit timer, and Functional timer • Low-speed Time base counter − Generate 8 frequency (128Hz to1Hz) internal pulse signals by dividing the Low-speed clock (LSCLK) − Selectable 3 interrupts from eight frequency internal pulse signals − 1Hz or 2Hz output from general purpose port − Built-in Frequency adjust function : Adjust range: Approximately -488ppm to +488ppm, adjust resolution: Approximately 0.119ppm • Simplified RTC − Channel: 1channel − Count by a unit for one second from "00 min. 00 sec" to "59 min. 59 sec" − Selectable Periodical interrupt request from four periods (0.5s, 1s, 30s or 60s) − Built-in minute and second writing error protraction function 3/71 FEDL62Q1500-07 • Functional timer − Channel: Max. 8 channel − Built-in timer, capture, and PWM function by 16bit counter − Built-in Repeat mode, One shot mode is available − Two types of PWM output with the same period and different duties, and complementary PWM output with the dead time − Monitor input signal duty and the period by capture function − Generate periodical interrupts, duty interrupts, and interrupts coincided with set value − Counter Start, Stop, Counter clear triggered by an external inputs or Timer − Generate Emergency stop and emergency stop interrupt triggered by an external input − Same start/stop among different channels of the functional timer − Selectable counter clock (external clock or divided by 1 to 128 of LSCLK or HSCLK) for each channels • 16-bit General timers − Channel: Max. 8channel ‒ 8 bits timer mode and 16-bit timer mode − Same start/stop among different channels of 16bit (8bit) timer ‒ Timer output (toggled by overflow) − Selectable counter clock (external clock or divided by 1 to 128 of LSCLK or HSCLK) for each channels • Serial communication unit − Synchronous Serial Port (SSIO) mode or UART mode is selectable − Channel: Max. 6channel < Synchronous Serial Port mode> ‒ Selectable from Master and Slave ‒ Selectable from LSB first or MSB first ‒ Selectable 8-bit length or 16-bit length < UART mode> ‒ Full-duplex communication mode and half-duplex communication mode ‒ 5 to 8bit length, parity or no parity, odd parity or even parity, 1 stop bit or 2 stop bits ‒ Selectable from Positive logic or Negative logic ‒ Selectable from LSB first or MSB first ‒ Configurable wide range communication speed 32.768kHz operation clock: 1 bps to 4,800 bps 24MHz operation clock: 600 bps to 3 Mbps 16MHz operation clock: 300 bps to 2 Mbps ‒ Built-in baud rate generator • I2C bus unit (Master / Slave) ‒ Selectable from Master mode or Slave mode ‒ Channel: 1 channel < Master function > ‒ Standard mode (100 kbps), fast mode (400 kbps) and 1Mbps mode(1Mbps) ‒ Handshake (Clock synchronization) ‒ 7bit address format (10bit address format is supported) < Slave function > ‒ Standard mode (100 kbps), fast mode (400 kbps) and 1Mbps mode(1Mbp) ‒ Clock stretch function ‒ 7bit address format • I2C bus Master ‒ Channel: 2channel ‒ Standard mode (100 kbps), fast mode (400 kbps) and 1Mbps mode(1Mbps) ‒ Handshake (Clock synchronization) ‒ 7bit address format (10bit address format is supported) 4/71 FEDL62Q1500-07 • General-purpose ports (GPIO) ‒ I/O port: Max. 92 (Including one pin for on-chip debug and pins for other shared functions) ‒ Input port: Max. 2(Including a shared function) ‒ External interrupt port: Max. 12 ‒ LED driver port: Max. 91 ‒ Carrier frequency output function (used for IR communication) • Successive approximation type A/D converter (SA-ADC) ‒ Channel: Max.16channel ‒ Resolution: 10bit ‒ Conversion time: Min. 2.25μs /channel (When the conversion clock speed is 8MHz) ‒ Reference voltages are selectable (VDD pin / Internal reference voltage (VREFI = Approximately 1.55V) / External reference voltage (VREF pin)) ‒ Selected channel repeat conversion ‒ Dedicated result register for each channel ‒ Interrupt determining by upper limit or lower limit threshold of conversion result • Voltage Level Supervisor (VLS) ‒ Accuracy: ±4% ‒ Threshold voltage: 12 selectable (from 1.85V to 4.00V) ‒ Functional Voltage level detection reset (VLS reset) ‒ Functional Voltage level detection interrupt (VLS0 interrupt) • Analog comparator ‒ Channel: Max. 2 channel ‒ Selectable interrupt from the comparator output (rising edge or falling edge) ‒ Selectable from sampling or without sampling ‒ Comparable with external 2 inputs ‒ Comparable with external input and internal reference voltage (0.8V) • D/A converter ‒ Channel: Max. 2 channel ‒ Resolution: 8bit ‒ Output impedance: 6k ohm (Typ.) ‒ R-2R ladder type • Buzzer ‒ 4 buzzer mode (Continuous sound, Single sound, Intermittent sound 1 and Intermittent sound 2) ‒ 8frequencies (4.096kHz to 293Hz) ‒ 15 step duty (1/16 to 15/16) ‒ Selectable from positive logic buzzer output or negative logic buzzer output • CRC (Cyclic Redundancy Check) generator ‒ Generation equation: X16+X12+X5+1 ‒ Selectable from LSB first or MSB first ‒ Built-in Automatic program memory CRC calculation mode in HALT mode 5/71 FEDL62Q1500-07 • Safety Function (IEC60730/60335 Class B) ‒ Automatic switching to the internal low-speed RC oscillation in case the low-speed crystal oscillation stopped ‒ RAM/SFR guard ‒ Automatic program memory CRC calculation ‒ RAM parity error detection ‒ ROM unused area access reset (instruction access) ‒ Clock mutual monitoring ‒ WDT counter monitoring ‒ SA-ADC test ‒ UART test ‒ Synchronous serial I/O test ‒ I2C bus test ‒ GPIO test • Shipping package − − − − − − − 48 pin plastic TQFP ML62Q1530/1531/1532/1533/1534 - xxxTB （Blank part: ML62Q1530/1531/1532/1533/1534-NNNTB） 52 pin plastic TQFP ML62Q1540/1541/1542/1543/1544 - xxxTB （Blank part: ML62Q1540/1541/1542/1543/1544-NNNTB） 64 pin plastic TQFP ML62Q1550/1551/1552/1553/1554/1555/1556/1557/1858/1859 - xxxTB （Blank part: ML62Q1550/1551/1552/1553/1554/1555/1556/1557/1858/1859-NNNTB） 64 pin plastic QFP ML62Q1550/1551/1552/1553/1554/1555/1556/1557/1858/1859 - xxxGA （Blank part: ML62Q1550/1551/1552/1553/1554/1555/1556/1557/1858/1859-NNNGA） 80 pin plastic QFP ML62Q1563/1564/1565/1566/1567 /1868/1869- xxxGA （Blank part: ML62Q1563/1564/1565/1566/1567/1868/1869-NNNGA） 100 pin plastic TQFP ML62Q1573/1574/1575/1576/1577/1878/1879 - xxxTB （Blank part: ML62Q1573/1574/1575/1576/1577/1878/1879-NNNTB） 100 pin plastic QFP ML62Q1573/1574/1575/1576/1577/1878/1879 - xxxGA （Blank part: ML62Q1573/1574/1575/1576/1577/1878/1879-NNNGA） xxx: ROM code number 6/71 FEDL62Q1500-07 ML62Q1500/1800 Group how to read the part number ML 62 Q 15 7 7 – xxx TB Package Type GA :QFP TB :TQFP ROM Code Number NNN :Blank xxx :Custom Code Number Program Memory Size 0 :32Kbyte 1 :48Kbyte 2 :64Kbyte 3 :96Kbyte 4 :128Kbyte 5 :160Kbyte 6 :192Kbyte 7 :256Kbyte 8 :384Kbyte 9 :512Kbyte Pin Count 3 :48pin 4 :52pin 5 :64pin 6 :80pin 7 :100pin Group Name 15 :1500 Group 18 :1800 Group Program Memory Type Q :Flash Memory CPU Type 62 :16bit CPU nX-U16/100 LAPIS Technology Logic Product Figure 1 ML62Q1500/1800 Group Part Number 7/71 FEDL62Q1500-07 ML62Q1500/1800 Group Main Function List Table 2 ML62Q1500/1800 Group Main Function List Pin Interrupt 1 1 1 2 2 4 71 43 92 D/A converter [channel] 2 72 12 57 4 100 2 Analog comparator [input pin] 80 6 Analog comparator [channel] 1 6 Successive approximation type A/D converter [channel] 58 10 Analog I2C bus interface (Master only) [channel] 64 31 I2C bus unit (Master/Slave) [channel] Input pin count*3 Reset Input pin count Power pin count 3 Serial communication unit (Full-duplex UART or Synchronous serial) [channel]*2 45 Serial Simplified RTC [channel] 46 16bit General l Timer [channel]*1 52 Functional Timer [channel] 41 External interrupt [port] LED drive port (shared with the I/O port) 42 Total pin-count ML62Q1530 ML62Q1531 ML62Q1532 ML62Q1533 ML62Q1534 ML62Q1540 ML62Q1541 ML62Q1542 ML62Q1543 ML62Q1544 ML62Q1550 ML62Q1551 ML62Q1552 ML62Q1553 ML62Q1554 ML62Q1555 ML62Q1556 ML62Q1557 ML62Q1858 ML62Q1859 ML62Q1563 ML62Q1564 ML62Q1565 ML62Q1566 ML62Q1567 ML62Q1868 ML62Q1869 ML62Q1573 ML62Q1574 ML62Q1575 ML62Q1576 ML62Q1577 ML62Q1878 ML62Q1879 Internal interrupt [source] I/O pin count 48 Part number Timer 12 8 8 6 16 2 91 *1 : One 16bit timer is configurable as two 8bit timers *2 : Synchronous Communication unit includes UART and Synchronous Serial Port. UART mode and Synchronous Serial Port can not be used at the same time in the same channel. *3 : Shared with pins for crystal oscillation 8/71 FEDL62Q1500-07 BLOCK DIAGRAM CPU（nX-U16/100） EPSW1～3 ELR1～3 ECSR1～3 LR DSR/CSR EA PC Multiplier/Divider (Coprocessor) GREG 0 ～15 PSW Timing Controller ALU SP Instruction Decoder On-Chip ICE Instruction Register VDD VSS Program Memory （FLASH） BUS Controller INT SU0~5_SCLK* SU0~5_SIN* SU0~5_SOUT0* RAM VDDL VREFO * RESET_N TEST0* 2 Serial Communication Unit *1 Power Circuit Data FLASH SYSTEM FLASH Controller INT OUTLSCLK* OUTHSCLK* Clock Generation Circuit Interrupt Low-speed RC Oscillation High-speed PLL Oscillation I2C Bus Unit I2CU0_SDA* I2CU0_SCL* I2C Bus Master I2CM0~1_SDA* I2CM0~1_SCL* INT INT 16-Bit Timer INT VLS RC Oscillation (for WDT) VDD VSS VREF AIN0 to AIN15* INT INT WDT XT0 XT1 INT Functional Timer DMA Controller Low-speed Crystal Oscillation CRC Generator INT SA-ADC DACOUT0~1* Analog Comparator Low Speed Time Base Counter Simplified RTC D/A Converter INT Safety Function EXTRIG0～7 FTM0~7P* FTM0~7N* INT INT INT TMH0~7OUT* INT Buzzer CMP0~1P* CMP0~1M* SU0~5_RXD0* SU0~5_TXD0* SU0~5_RXD1* SU0~5_TXD1* INT Reset Function GPIO (External Interrupt) TBCOUT0* TBCOUT1* BZ0P* BZ0N* PX0~PX7 （X= 0~9,A,B) PI00,PI01*3 EXI0~11 * : Indicates the shared function of general ports. *1 : Shared UART and Synchronous Serial Port. *2 : Not available as the input port when connecting to the on-chip debug emulator. *3 : Not available as the input port when connecting to the crystal resonator. Figure 2 ML62Q1500/1800 Group Block Diagram 9/71 FEDL62Q1500-07 PIN CONFIGURATION The port names in the pin-layout indicate 1st-function. Refer to Table-3 or Table-4 about other functions. 24 P30 25 37 36 P14 P15 P16 P17/EXI3/EXTRG3 P20 P21/EXI4/EXTRG4 P22 P23/EXI5/EXTRG5/VREF P24 P25 P26/EXI6/EXTRG6 P27/EXI7/EXTRG7 Pin Layout of 48pin TQFP Package P50/EXI8 P31 P13 P32 P12 P33 P11 P60 P10 TOP VIEW TQFP48 P61 P62 P63 P07 P06 P05 P04/EXI2/EXTRG2 P64/EXI9 P71 P66 P72 P43 P73 13 48 P65 P74 P75 P03/EXI1/EXTRG1 P02/EXI0/EXTRG0 P01/DACOUT0 P00/TEST0 RESET_N VDDL VSS VDD 12 XT1/PI01 XT0/PI00 1 Figure 3 Pin Layout of 48pin TQFP Package 10/71 FEDL62Q1500-07 26 P41 27 40 39 P14 P15 P16 P17/EXI3/EXTRG3 P20 P22 P21/EXI4/EXTRG4 P24 P23/EXI5/EXTRG5/VREF P25 P26/EXI6/EXTRG6 P27/EXI7/EXTRG7 P56 Pin Layout of 52pin TQFP Package P51 P30 P50/EXI8 P31 P13 P32 P12 P33 P11 P60 P10 TOP VIEW TQFP52 P61 P62 P07 P06 P05 P63 P64/EXI9 P04/EXI2/EXTRG2 P72 P43 P73 14 P71 P66 52 P65 P74 P75 P47 P02/EXI0/EXTRG0 P03/EXI1/EXTRG1 P00/TEST0 P01/DACOUT0 RESET_N VDDL VSS VDD 13 XT1/PI01 XT0/PI00 1 Figure 4 Pin Layout of 52pin TQFP52 Package 11/71 FEDL62Q1500-07 32 P40 33 49 48 P54 P55 P14 P15 P16 P17/EXI3/EXTRG3 P20 P21/EXI4/EXTRG4 P22 P23/EXI5/EXTRG5/VREF P24 P26/EXI6/EXTRG6 P25 P27/EXI7/EXTRG7 P56 P57 Pin Layout of 64pin TQFP/QFP Package P53 P41 P52 P30 P51 P31 P50/EXI8 P32 P13 P33 P12 P60 P11 TOP VIEW TQFP64/QFP64 P61 P62 P10 P07 P63 P06 P64/EXI9 P05 P70 P67 P71 P42 P72 P43 P73 17 P04/EXI2/EXTRG2 P66 64 P65 P74 P75 P47 P46 P03/EXI1/EXTRG1 P02/EXI0/EXTRG0 P45 P44/DACOUT1 P01/DACOUT0 RESET_N P00/TEST0 VDDL VSS VDD 16 XT1/PI01 XT0/PI00 1 Figure 5 Pin Layout of 64pin TQFP/QFP Package 12/71 P65 P04/EXI2/EXTRG2 P66 P70 P67 P71 P42 P72 P43 P73 21 40 60 1 P74 P75 P76/EXI10 P47 P46 P03/EXI1/EXTRG1 P02/EXI0/EXTRG0 P45 P44/DACOUT1 P61 P82 P60 P81 P33 P80 P01/DACOUT0 P00/TEST0 RESET_N VDDL VSS VDD XT1/PI01 XT0/PI00 61 PB2 80 NC VDD P54 P55 P14 P15 P16 P17/EXI3/EXTRG3 P20 P21/EXI4/EXTRG4 P22 P23/EXI5/EXTRG5/VREF P24 P25 P26/EXI6/EXTRG6 P27/EXI7/EXTRG7 P56 P57 PA3/EXI11 PA4 FEDL62Q1500-07 Pin Layout of 80pin QFP Package 41 PB3 TOP VIEW QFP80 P96 P95 PB4 P94 PB5 P93 P40 P53 P41 P30 P52 P51 P31 P50/EXI8 P32 P13 P12 P10 P11 P62 P07 P63 P06 P64/EXI9 P05 20 Figure 6 Pin Layout of 80pin QFP Package 13/71 26 50 75 1 P74 P75 P76/EXI10 P47 P46 P03/EXI1/EXTRG1 P02/EXI0/EXTRG0 P45 P44/DACOUT1 P87 P86 P85 P84 P61 P83 P60 P82 P81 P80 P01/DACOUT0 P00/TEST0 RESET_N VDDL VSS VDD XT1/PI01 XT0/PI00 P43 76 PB0 100 NC VDD PA1 PA2 P54 P55 P14 P15 P16 P17/EXI3/EXTRG3 P20 P21/EXI4/EXTRG4 P22 P23/EXI5/EXTRG5/VREF P24 P25 P26/EXI6/EXTRG6 P27/EXI7/EXTRG7 P56 P57 PA3/EXI11 PA4 PA5 PA6 PA7 FEDL62Q1500-07 Pin Layout of 100pin TQFP Package 51 PB1 P32 P52 P33 P51 TOP VIEW TQFP100 PA0 P97 PB2 P96 PB3 P95 PB4 P94 PB5 P93 P40 P92 P41 P91 P30 P90 P31 P53 P50/EXI8 P62 P13 P12 P63 P11 P64/EXI9 P10 P65 P07 P66 P06 P67 P05 P42 P04/EXI2/EXTRG2 PB6 P70 PB7 P71 P77 P72 P73 25 Figure 7 Pin Layout of 100pin TQFP Package 14/71 31 50 80 1 P71 P72 P73 P74 P75 P76/EXI10 P47 P46 P03/EXI1/EXTRG1 P02/EXI0/EXTRG0 P45 P44/DACOUT1 P87 P86 P61 P85 P60 P84 P33 P83 P82 P81 P80 P01/DACOUT0 P00/TEST0 RESET_N VDDL VSS VDD XT1/PI01 XT0/PI00 P43 P77 PB7 81 PB3 100 P97 PA0 NC VDD PA1 PA2 P54 P55 P14 P15 P16 P17/EXI3/EXTRG3 P20 P21/EXI4/EXTRG4 P22 P23/EXI5/EXTRG5/VREF P24 P25 P26/EXI6/EXTRG6 P27/EXI7/EXTRG7 P56 P57 PA3/EXI11 PA4 PA5 PA6 PA7 PB0 PB1 PB2 FEDL62Q1500-07 Pin Layout of 100pin QFP Package 51 PB4 TOP VIEW QFP100 P96 P95 PB5 P94 P40 P93 P41 P30 P92 P91 P31 P90 P32 P53 P52 P51 P62 P50/EXI8 P13 P63 P12 P64/EXI9 P11 P65 P10 P66 P07 P67 P06 P42 P05 PB6 P04/EXI2/EXTRG2 P70 30 Figure 8 Pin Layout of 100pin QFP Package 15/71 FEDL62Q1500-07 PIN LIST Table 3 Pin List (1/3) Pin No. QFP100 64Pin TQFP100 52Pin 3 4 5 1 2 6 7 3 4 5 1 2 6 7 3 3 3 5 VDD - 42 52 54 VDD 4 4 4 6 VSS - 41 51 53 NC 5 5 5 7 VDDL 1 1 1 3 XT0 2 2 2 4 XT1 6 6 6 8 RESET_N 7 7 7 9 P00 8 8 th th th th th 5 func. Timer 6 func. Others 7 func. Others 8 func. ADC - - - - - - DACOUT0 - - - - TBCOUT0 TBCOUT1 - FTM0P OUTLSCLK CMP0M - FTM0N OUTHSCLK CMP0P AIN11 I2CU0_SCL TMH0OUT - - - I2CM0_SDA SU0_RXD1 SU0_RXD0 I2CM0_SCL SU0_TXD1 SU0_SCLK SU0_RXD0 TMH4OUT SU0_SIN SU0_TXD0 SU0_TXD1 TMH1OUT SU0_SOUT I2CU0_SDA SU1_SCLK I2CU0_SCL TMH5OUT - - - - - - - TMH3OUT - - - - P02 10 10 12 15 20 22 P03 16 17 21 25 30 32 P04 17 18 19 20 21 33 34 35 36 37 P05 P06 P07 P10 P11 EXI0 EXTRG0 EXI1 EXTRG1 EXI2 EXTRG2 - 22 23 27 31 36 38 P12 - 23 24 28 32 37 39 P13 - 25 27 35 45 57 59 26 28 36 46 58 60 27 29 37 47 59 61 P14 P15 P16 28 30 38 48 60 62 P17 EXI3 EXTRG3 29 31 39 49 61 63 P20 - 30 32 40 50 62 64 P21 EXI4 EXTRG4 31 33 41 51 63 65 P22 - 32 34 42 52 64 66 P23 EXI5 EXTRG5 VREF 33 35 43 53 65 67 P24 - 34 36 44 54 66 68 P25 - 35 37 45 55 67 69 P26 36 38 46 56 68 70 P27 31 32 33 34 35 rd - 9 9 11 14 19 21 26 27 28 29 30 nd 4 func. 3 func. 2 func. communica communica communica tions tions tions PI00 PI01 TEST0 P01 22 23 24 25 26 8 Primary func. Others 8 10 18 19 20 21 22 8 80Pin 48Pin Pin name (Primary func.) EXI6 EXTRG6 EXI7 EXTRG7 SU0_RXD0 SU0_SIN SU0_TXD0 SU0_TXD1 I2CU0_SDA SU0_SOUT SU0_SCLK - SU0_RXD1 SU0_RXD0 - FTM1P TBCOUT0 BZ0P AIN0 SU0_TXD1 - FTM1N TBCOUT1 BZ0N AIN1 FTM2P OUTLSCLK - AIN2 FTM2N OUTHSCLK - AIN3 - - VREFO - SU1_RXD0 SU1_SIN SU1_TXD0 SU1_TXD1 I2CM0_SDA SU1_SOUT SU1_SCLK - SU1_RXD0 SU1_SIN SU1_TXD0 SU1_TXD1 SU1_SOUT I2CM0_SCL TMH2OUT - - - - AIN4 - - - - AIN5 SU1_RXD1 SU1_RXD0 I2CU0_SDA FTM3P TBCOUT0 BZ0P AIN6 SU1_TXD1 FTM3N TBCOUT1 BZ0N AIN7 - I2CU0_SCL 16/71 FEDL62Q1500-07 Table 3 Pin List (2/3) Pin No. nd rd th 10 13 14 29 30 31 32 33 34 20 23 24 40 41 42 43 57 58 P45 P46 P47 P50 P51 P52 P53 P54 P55 EXI8 - - 39 47 57 69 71 P56 - - P57 - 90 91 92 93 P60 P61 P62 P63 - 45 49 59 75 92 94 P64 EXI9 46 50 60 76 93 95 P65 - 47 15 14 13 12 11 - 51 16 15 14 13 12 - 61 62 20 19 18 17 16 15 - 77 78 24 23 22 21 20 19 18 - 94 95 29 28 27 26 25 24 23 99 96 97 31 30 29 28 27 26 25 1 P66 P67 P70 P71 P72 P73 P74 P75 P76 P77 EXI10 - - - - 9 9 11 P80 - - - - 10 10 12 P81 - - - - 11 - P82 P83 P84 P85 P86 P87 - QFP100 DACOUT1 TQFP100 P44 80Pin 9 12 17 19 64Pin SU1_RXD1 SU1_RXD0 SU1_TXD1 SU5_TXD1 SU3_TXD1 - 52Pin - 48Pin Primary func. Others *1 Pin name (Primary func) 37 38 39 40 48 41 42 43 44 40 52 51 52 53 54 49 50 63 64 67 68 69 70 65 66 79 80 84 85 86 87 82 83 96 100 86 87 88 89 84 85 98 2 P30 P31 P32 P33 P40 P41 P42 P43 - - 24 - 11 25 26 - 41 42 43 44 13 16 17 33 34 35 36 43 44 18 21 22 38 39 40 41 55 56 - 48 58 70 72 45 46 47 48 55 56 57 58 71 72 73 74 88 89 90 91 11 12 13 14 15 16 13 14 15 16 17 18 4 func. 3 func. 2 func. communica communica communica tions tions tions *1 *1 th th th th 5 func. Timer *1 6 func. Others 7 func. Others 8 func. ADC *1 - TMH3OUT - TBCOUT0 TBCOUT0 TBCOUT1 TBCOUT1 AIN10 SU4_RXD1 SU4_RXD0 - - - - - SU4_TXD1 SU4_RXD1 SU4_TXD1 SU2_RXD1 SU2_TXD1 SU2_RXD0 SU2_SIN SU2_TXD0 SU2_SOUT SU3_RXD0 SU3_SIN SU3_TXD0 SU3_SOUT SU3_SCLK SU3_RXD1 SU4_RXD0 SU4_SIN SU4_TXD0 SU4_SOUT SU4_SCLK - SU2_RXD0 - - TMH7OUT - - - - - - - - - AIN12 SU2_TXD1 - - - - AIN13 - I2CM1_SCL I2CM1_SDA - FTM4N FTM4P - CMP1P CMP1M - - - FTM5P - - - SU3_TXD1 - FTM5N - - AIN8 SU3_RXD0 - - TMH6OUT - - - AIN9 - - - - - - - SU4_TXD1 - - - - - - - - - - - SU4_RXD0 *1: The pins of name with DACOUT1, SU2, SU3, SU4, SU5, TMH6, TMH7, AIN12 or AIN13 are not assigned to products of 48/52/64 PIN-packages. 17/71 FEDL62Q1500-07 Table 3 Pin List (3/3) Pin No. 42 44 43 45 44 46 P90 P91 P92 - 48Pin 52Pin 64Pin 80Pin QFP100 Primary func. Others TQFP100 Pin name (Primary func) - - - - - - - 37 45 47 P93 - - - - 38 46 48 P94 - - - - 39 40 59 60 - 49 50 51 52 55 56 73 74 75 76 77 78 79 P95 P96 P97 PA0 PA1 PA2 PA3 PA4 PA5 PA6 PA7 PB0 PB1 EXI11 - - - - 61 78 80 PB2 - - - - 62 79 81 PB3 - - - - 63 64 - PB4 PB5 PB6 PB7 - 47 48 49 50 53 54 71 72 73 74 75 76 77 80 81 97 98 82 83 99 100 nd rd th 3 func. 4 func. 2 func. communica communica communica tions tions tions SU4_RXD0 SU4_SIN SU4_TXD0 SU4_TXD1 SU4_SOUT SU4_SCLK SU2_SCLK SU5_RXD0 SU5_SIN SU5_TXD0 SU5_TXD1 SU5_SOUT SU5_SCLK SU5_RXD1 SU5_RXD0 - th th th th 5 func. Timers 6 func. Others 7 func. Others 8 func. ADC - - - - - - FTM6P - - - - FTM6N - - - - FTM7P FTM7N - - - AIN14 AIN15 - - - - - - - - - - - - - - - - 18/71 FEDL62Q1500-07 PIN DESCRIPTION Table 4 Pin Description (1/5) Function Signal name - Pin name VSS I/O - - VDD - - VDDL - Test TEST0 P00 I/O Un used NC VREFO NC P23 - RESET_N RESET_N I XT0 XT0 I Power System XT1 OUTLSCLK OUTHSCLK General purpose port XT1 P02 P21 P03 P22 Description Logic Negative power supply pin (-) Positive power supply pin (+). Connect a capacitor CV between this pin and VSS. Power supply pin for internal logic (internal regulator’s output). Connect a capacitor CL (1μF) between this pin and VSS. Input for testing, is used as on-chip debug interface and ISP function. P00 is initialized as pull-up input mode by the system reset. Connect to VSS. Reference voltage output Reset input. Applying “L” level shifts the MCU in system reset mode. Applying “H” level shifts the CPU in program running mode. Negative Used for on-chip debug interface and ISP function. No pull-up resistor is installed. O Low speed crystal oscillation pins Connect 32.768kHz crystal resonator capacitors between the pin and VSS. O Low-speed clock output. - O High-speed clock output. - PI00,PI01 XT0,XT1 I P00 P00 I/O P01 to P07 P10 to P17 P20 to P27 P30 to P33 P40 to P47 P50 to P57 P60 to P67 P70 to P77 P80 to P87 P90 to P97 PA0 to PA7 PB0 to PB7 P01 to P07 P10 to P17 P20 to P27 P30 to P33 P40 to P47 P50 to P57 P60 to P67 P70 to P77 P80 to P87 P90 to P97 PA0 to PA7 PB0 to PB7 I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O and Connect - General purpose input. Not available as general inputs when using the crystal Positive resonator. General purpose I/O port - High-impedance - Input with Pull-UP (initial value) - Input without Pull-UP Positive - CMOS output - N-channel open drain output Not available to use as I/O pin when using for on-chip debug interface or ISP function. Positive Positive Positive Positive General purpose I/O Positive - High-impedance (initial value) Positive - Input with Pull-UP - Input without Pull-UP Positive - CMOS output Positive - N-channel open drain output Positive Positive Positive Positive 19/71 FEDL62Q1500-07 Table 4 Pin Description (2/5) Function Signal name SU0_TXD0 SU0_RXD0 SU0_TXD1 SU0_RXD1 SU1_TXD0 SU1_RXD0 SU1_TXD1 SU1_RXD1 UART SU2_TXD0 SU2_RXD0 SU2_TXD1 SU2_RXD1 SU3_TXD0 SU3_RXD0 SU3_TXD1 SU3_RXD1 SU4_TXD0 SU4_RXD0 SU4_TXD1 SU4_RXD1 SU5_TXD0 Pin name P03 P13 P02 P07 P12 P17 P03 P10 P13 P20 P07 P17 P22 P25 P21 P24 P26 P32 P22 P25 P27 P33 P26 P32 P57 P54 P56 P55 P57 P54 P65 P64 P67 P42 P65 P67 P81 P94 P44 P52 P80 P93 P45 P53 P81 P94 P44 P52 I/O PB3 Description Logic O Serial communication unit0 UART0 data output Positive I Serial communication unit0 Full-duplex data input Serial communication unit0 UART0 data input Positive O Serial communication unit0 Full-duplex data output Serial communication unit0 UART1 data output Positive I Serial communication unit0 UART1 data input Positive O Serial communication unit1 UART0 data output Positive I Serial communication unit1 Full-duplex data input Serial communication unit1 UART0 data input Positive O Serial communication unit1 Full-duplex data output Serial communication unit1 UART1 data output Positive I Serial communication unit1 UART1 data input Positive O Serial communication unit2 UART0 data output Positive I Serial communication unit2 Full-duplex data input Serial communication unit2 UART0 data input Positive O Serial communication unit2 Full-duplex data output Serial communication unit2 UART1 data output Positive I O Serial communication unit2 UART1 data input Serial communication unit3 UART0 data output Positive Positive I Serial communication unit3 Full-duplex data input Serial communication unit3 UART0 data input Positive O Serial communication unit3 Full-duplex data output Serial communication unit3 UART1 data output Positive I Serial communication unit3 UART1 data input Positive O Serial communication unit4 UART0 data output Positive I Serial communication unit4 Full-duplex data input Serial communication unit4 UART0 data input Positive O Serial communication unit4 Full-duplex data output Serial communication unit4 UART1 data output. Positive I Serial communication unit4 UART1 data input Positive O Serial communication unit5 UART0 data output Positive 20/71 FEDL62Q1500-07 Table 4 Pin Description (3/5) Function Signal name SU5_RXD0 UART SU5_TXD1 SU5_RXD1 SU0_SIN SU0_SCLK SU0_SOUT SU1_SIN SU1_SCLK SU1_SOUT Synchronous Serial Port SU2_SIN SU2_SCLK SU2_SOUT SU3_SIN SU3_SCLK SU3_SOUT SU4_SIN SU4_SCLK SU4_SOUT SU5_SIN SU5_SCLK SU5_SOUT I2CU0_SDA 2 I C Bus I2CU0_SCL I2CM0_SDA Pin name PB2 PB5 P40 PB3 PB5 P02 P12 P04 P11 P47 P03 P13 P21 P24 P16 P23 P22 P25 P56 PA3 P57 P64 P66 P65 P80 P93 P95 P82 P81 P94 PB2 PB4 PB3 P03 P15 P26 P46 P02 P04 P16 P27 P47 P06 P22 I/O Description Logic I Serial communication unit5 Full-duplex data input Serial communication unit5 UART0 data input Positive O Serial communication unit5 Full-duplex data output Serial communication unit5 UART1 data output. Positive I Serial communication unit5 UART1 data input Positive I Serial communication unit0 Synchronous serial data input Positive I/O Serial communication unit0 Synchronous serial clock I/O Positive O Serial communication unit0 Synchronous serial data output I Serial communication unit1 Synchronous serial data input Positive I/O Serial communication unit1 Synchronous serial clock I/O Positive O Serial communication unit1 Synchronous serial data output Positive I I/O O I I/O O Serial communication unit2 Synchronous serial data Serial communication unit2 Synchronous serial clock I/O Serial communication unit2 Synchronous serial data output Serial communication unit3 Synchronous serial data input Serial communication unit3 Synchronous serial clock I/O Serial communication unit3 Synchronous serial data output Positive Positive Positive Positive Positive Positive I Serial communication unit4 Synchronous serial data input Positive I/O Serial communication unit4 Synchronous serial clock I/O Positive O Serial communication unit4 Synchronous serial data output Positive I I/O O Serial communication unit5 Synchronous serial data input Serial communication unit5 Synchronous serial clock I/O Serial communication unit5 Synchronous serial data output Positive Positive Positive I/O I C Unit0 (Master and Salve) Data I/O N-channel open drain Connect a pull-up resistor externally I/O I C Unit0 (Master and Salve) Clock I/O N-channel open drain output Connect a pull-up resistor externally I/O I C Master0 Data I/O pin N-channel open drain output Connect a pull-up resistor externally Positive 2 Positive 2 Positive 2 Positive 21/71 FEDL62Q1500-07 Table 4 Pin Description (4/5) Function Signal name I2CM1_SDA P61 I/O I2CM1_SCL P60 I/O FTM0P FTM0N P02 P03 P17 P47 P20 P46 P21 P22 P01 P26 P27 P44 P63 P62 P64 P65 P93 P94 P86 PA3 P87 PA4 P02 P03 P04 P17 P21 P23 P26 P27 P04 P13 P23 P13 P33 P12 P16 P70 P54 P02 P03 O O Description 2 I C Master0 Clock I/O N-channel open drain output Connect a pull-up resistor externally 2 I C Master1 Data I/O N-channel open drain output Connect a pull-up resistor externally 2 I C Master1 Clock I/O N-channel open drain output Connect a pull-up resistor externally Functional Timer0 P output Functional Timer0 N output O Functional Timer1 P output Positive O Functional Timer1 N output Negative O O Functional Timer2 P output Functional Timer2 N output Positive Negative O Functional Timer3 P output Positive O Functional Timer3 N output Negative O O O O O O Functional Timer4 P output Functional Timer4 N output Functional Timer5 P output Functional Timer5 N output Functional Timer6 P output Functional Timer6 N output Positive Negative Positive Negative Positive Negative O Functional Timer7 P output Positive O Functional Timer7 N output Negative I I I I I I I I O O O Functional Timer event trigger input Functional Timer event trigger input Functional Timer event trigger input Functional Timer event trigger input Functional Timer event trigger input Functional Timer event trigger input Functional Timer event trigger input Functional Timer event trigger input 16bit General Timer 0 output 16bit General Timer 1 output 16bit General Timer 2 output Positive Positive Positive O 16bit General Timer 3 output Positive O O O O I I 16bit General Timer 4 output 16bit General Timer 5 output 16bit General Timer 6 output 16bit General Timer 7 output 16bit Timer trigger input 16bit Timer trigger input Positive Positive Positive Positive - I2CM0_SCL 2 I C Bus FTM1P FTM1N FTM2P FTM2N FTM3P FTM3N Functional Timer (FTM) FTM4P FTM4N FTM5P FTM5N FTM6P FTM6N FTM7P FTM7N EXTRG0 EXTRG1 EXTRG2 EXTRG3 EXTRG4 EXTRG5 EXTRG6 EXTRG7 TMH0OUT TMH1OUT TMH2OUT TMH3OUT 16 bit Timer TMH4OUT TMH5OUT TMH6OUT TMH7OUT EXTRG0 EXTRG1 Pin name P07 P23 I/O I/O Logic Positive Positive Positive Positive Negative 22/71 FEDL62Q1500-07 Table 4 Pin Description (5/5) Function Signal name TBCOUT0 Low-speed Time Base Counter TBCOUT1 BZ0P Buzzer BZ0N External Interrupt Successive approximation type A/D converter (SA-ADC) Analog comparator D/A converter EXI0 EXI1 EXI2 EXI3 EXI4 EXI5 EXI6 EXI7 EXI8 EXI9 EXI10 EXI11 VREF AIN0 AIN1 AIN2 AIN3 AIN4 AIN5 AIN6 AIN7 AIN8 AIN9 AIN10 AIN11 AIN12 AIN13 AIN14 AIN15 CMP0P CMP0M CMP1P CMP1M DACOUT0 DACOUT1 Pin name P01 P17 P26 P31 P43 P01 P20 P27 P31 P43 P17 P26 P20 P27 P02 P03 P04 P17 P21 P23 P26 P27 P50 P64 P76 PA3 P23 P17 P20 P21 P22 P24 P25 P26 P27 P65 P66 P43 P03 P56 P57 PA3 PA4 P03 P02 P62 P63 P01 P44 I/O Description Logic O The virtual frequency adjustment signal output or The low speed time base counter output signal Positive O 1Hz/2Hz clock output for the Simplified RTC Positive O Buzzer output (positive phase) Positive O Buzzer output (negative phase) Negative I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I O O External Interrupt 0 Input External Interrupt 1 Input External Interrupt 2 Input External Interrupt 3 Input External Interrupt 4 Input External Interrupt 5 Input External Interrupt 6 Input External Interrupt 7 Input External Interrupt 8 Input External Interrupt 9 Input External Interrupt 10 Input External Interrupt 11 Input SA-ADC external reference voltage input SA-ADC channel 0 input SA-ADC channel 1 input SA-ADC channel 2 input SA-ADC channel 3 input SA-ADC channel 4 input SA-ADC channel 5 input SA-ADC channel 6 input SA-ADC channel 7 input SA-ADC channel 8 input SA-ADC channel 9 input SA-ADC channel 10 input SA-ADC channel 11 input SA-ADC channel 12 input SA-ADC channel 13 input SA-ADC channel 14 input SA-ADC channel 15 input Comparator input 0 (noninverting input) Comparator input 0 (inverting input) Comparator input 1 (noninverting input) Comparator input 1 (inverting input) D/A converter 0 output D/A converter 1 output - 23/71 FEDL62Q1500-07 TERMINATION OF UNUSED PINS Table 5 Termination of unused pins Pin NC RESET_N P00/TEST0 XT0/PI00, XT1/PI01 P01 to P07 P10 to P17 P20 to P27 P30 to P33 P40 to P47 P50 to P57 P60 to P67 P70 to P77 P80 to P87 P90 to P97 PA0 to PA7 PB0 to PB7 pin termination Connect to VSS. Connect to VDD Connect to VDD with initial state (pulled-up input mode) Open with initial state (Hi-impedance) Note:  Terminate unused input pins according to the table 5 in order to avoid unexpected through-current in the pins. 24/71 FEDL62Q1500-07 ELECTRICAL CHARACTERISTICS Absolute Maximum Ratings (VSS = 0V) Parameter Symbol Condition Rating Unit Power supply voltage 1 VDD Ta = +25°C -0.3 to +6.5 V Power supply voltage 2 VDDL Ta = +25°C -0.3 to +2.0 V Input voltage VIN Ta = +25°C -0.3 to VDD+0.3* Output voltage VOUT Ta = +25°C “H” level output current IOUTH Ta = +25°C “L” level output current IOUTL Ta = +25°C -0.3 to VDD+0.3* 2 -40* 2 -180* +40 +180 1 -55 to +150 1pin Total 1pin Total 1 V 1 V mA mA Power dissipation PD Ta = +25°C W Storage temperature ― °C TSTG 1 * 6.5V or lower 2 * The current flowing out the LSI through the pin is described in the negative number. The applicable maximum current is the absolute value. For example, -1mA means the maximum current 1mA flows out the LSI through the pin. [Note] Stresses above the absolute maximum ratings listed in the above table may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these conditions is not implied. Recommended Operating Conditions (VSS = 0V) Parameter Symbol Condition Range Unit Operating temperature (Ambient) Ta ― -40 to +105 °C Operating temperature (Chip-Junction) Tj ― -40 to +115 °C Operating voltage VDD fOP VDDL pin external capacitance CL 1.6 to 5.5 30k to 4M 30k to 25M 1.0 ±30% V Operating frequency (CPU) ― VDD = 1.6 to 5.5V VDD = 1.8 to 5.5V ― Hz μF 25/71 FEDL62Q1500-07 Thermal characteristics The maximum chip-junction temperature, Tjmax, may be calculated using the following equation. 𝑇𝑗 𝑚𝑚𝑚 = 𝑇𝑎 𝑚𝑚𝑚 + 𝑃𝐷 𝑚𝑚𝑚 × 𝜃𝑗𝑗 𝑇𝑎 𝑚𝑚𝑚 : maximum ambient temperature 𝑃𝐷 𝑚𝑚𝑚 : LSI maximum power dissipation : Package junction to ambient thermal resistance 𝜃𝑗𝑗 Design a Mounting board by considering heat radiation such as power dissipation and ambient temperature to satisfy the recommended conditions. The following table shows the each package’s thermal resistance for thermal design reference estimated by simulation based on the PCB (printed circuit board) conditions define as a below. Parameter Symbol Package type θja TQFP48 TQFP52 TQFP64 QFP64 QFP80 TQFP100 QFP100 Thermal resistance Value L1 63.6 61.7 63.2 47.2 55.5 48.0 104.7 L2 57.8 56.7 58.2 43.3 51.6 43.3 101.3 Unit o C/W PCB conditions: PCB name L1 L2 Unit PCB size （L / W / T） 114.3 / 76.2 / 1.6 114.3 / 76.2 / 1.6 mm Number of layer 1 2 layer Wiring density 60% (top layer) 60%(top and bottom layer) ― ― Wind condition No wind (0m/s) 26/71 FEDL62Q1500-07 Current Consumption 1 Product： ML62Q1530, ML62Q1531, ML62Q1532, ML62Q1533, ML62Q1534, ML62Q1540, ML62Q1541, ML62Q1542, ML62Q1543, ML62Q1544, ML62Q1550, ML62Q1551, ML62Q1552, ML62Q1553, ML62Q1554 o Parameter Symbol Supply current 0 IDD0 Supply current 1 IDD1 Supply current 2-1 IDD2-1 (VDD=1.6 to 5.5V, VSS =0V, Ta=-40 to +105 C, unless otherwise specified) Measuri 3 Condition Min. Typ.* Max. Unit ng circuit Ta = -40 to ― 23 CPU is in STOP-D state. o +85 C Low-speed RC1K/RC32K and µA 0.8 Ta = -40 to PLL oscillation are stopped. ― 75 o +105 C Ta = -40 to ― 26 CPU is in STOP state. o +85 C Low-speed RC1K/RC32K and µA 1.0 Ta = -40 to PLL oscillation are stopped. ― 80 o +105 C Low-speed RC32K Oscillating. *1 CPU is in HALT state . PLL oscillation is stopped. Low-speed Crystal Oscillating. *4 Supply current 2-2 Supply current 3 IDD2-2 IDD3 *1 Ta = -40 to o +85 C ― Ta = -40 to o +105 C ― 85 Ta = -40 to o +85 C ― 32 35 µA 4.7 µA 3.0 CPU is in HALT state . PLL oscillation is stopped. Ta = -40 to o +105 C ― CPU: Running with low-speed 1 2 RC32K oscillation clock* * PLL oscillation is stopped. Ta = -40 to o +105 C ― 1 85 17 CPU: Running with 16MHz PLL 1 2 Ta = -40 to oscillating clock* * Supply current 4 ― IDD4 3.3 o +105 C PLL 16MHz is oscillating. VDD=1.8~5.5V CPU: Running with 24MHz PLL 1 2 Ta = -40 to oscillating clock* * Supply current 5 ― IDD5 4.7 o +105 C PLL 24MHz is oscillating. VDD=1.8~5.5V 1 * LTBC and WDT is operating, Significant bits of BCKCON0-3 and BRECON0-3 registers are all “1” 2 * CPU running in wait mode 3 o * On the condition of VDD=3.0V, Ta=+25 C 4 * When the noise filter is not used in the low power consumption mode 105 µA 4.5 mA 6.0 27/71 FEDL62Q1500-07 Current Consumption 2 Product： ML62Q1555, ML62Q1556, ML62Q1557, ML62Q1563, ML62Q1564, ML62Q1565, ML62Q1566, ML62Q1567, ML62Q1573, ML62Q1574, ML62Q1575, ML62Q1576, ML62Q1577 o Parameter Supply current 0 Supply current 1 Supply current 2-1 (VDD=1.6 to 5.5V, VSS =0V, Ta=-40 to +105 C, unless otherwise specified) Measuri 3 Symbol Condition Min. Typ.* Max. Unit ng circuit Ta = -40 to ― 55 CPU is in STOP-D state. o +85 C µA IDD0 Low-speed RC1K/RC32K and 1.0 Ta = -40 to PLL oscillation are stopped. ― 110 o +105 C Ta = -40 to ― 60 CPU is in STOP state. o +85 C µA IDD1 Low-speed RC1K/RC32K and 1.3 Ta = -40 to PLL oscillation are stopped. ― 120 o +105 C Ta = -40 to Low-speed RC32K Oscillating. o +85 C CPU is in HALT state (LTBC and IDD2-1 *1 WDT are operating ). PLL Ta = -40 to o oscillation is stopped. +105 C *4 Supply current 2-2 Supply current 3 Low-speed Crystal Oscillating. CPU is in HALT state (LTBC and IDD2-2 *1 WDT are operating ). PLL oscillation is stopped. IDD3 CPU: Running with low-speed 1 2 RC32K oscillation clock* * PLL oscillation is stopped. Ta = -40 to o +85 C ― 76 µA 5.5 ― 135 ― 76 µA 4.5 Ta = -40 to o +105 C ― Ta = -40 to o +105 C ― 1 135 20 CPU: Running with 16MHz PLL 1 2 Ta = -40 to oscillating clock* * Supply current 4 ― IDD4 5.0 o +105 C PLL 16MHz is oscillating. VDD=1.8~5.5V CPU: Running with 24MHz PLL 1 2 Ta = -40 to oscillating clock* * Supply current 5 ― IDD5 6.8 o +105 C PLL 24MHz is oscillating. VDD=1.8~5.5V 1 * LTBC and WDT is operating, Significant bits of BCKCON0-3 and BRECON0-3 registers are all “1” 2 * CPU running in wait mode 3 o * On the condition of VDD=3.0V, Ta=+25 C 4 * When the noise filter is not used in the low power consumption mode 150 µA 6.2 mA 8.5 28/71 FEDL62Q1500-07 Current Consumption 3 Product： ML62Q1858, ML62Q1859, ML62Q1868, ML62Q1869, ML62Q1878, ML62Q1879 o Parameter Symbol Supply current 0 IDD0 Supply current 1 IDD1 Supply current 2-1 IDD2-1 (VDD=1.6 to 5.5V, VSS =0V, Ta=-40 to +105 C, unless otherwise specified) Measuri 3 Condition Min. Typ.* Max. Unit ng circuit Ta = -40 to ― 57 CPU is in STOP-D state. o +85 C 1.2 Low-speed RC1K/RC32K and µA Ta = -40 to PLL oscillation are stopped. ― 140 o +105 C Ta = -40 to ― 62 CPU is in STOP state. o +85 C Low-speed RC1K/RC32K and µA 1.8 Ta = -40 to PLL oscillation are stopped. ― 150 o +105 C Low-speed RC32K Oscillating. CPU is in HALT state (LTBC *1 and WDT are operating ). PLL oscillation is stopped. Low-speed Crystal Oscillating. *4 Supply current 2-2 Supply current 3 IDD2-2 IDD3 Ta = -40 to o +85 C ― 78 µA 6.0 Ta = -40 to o +105 C ― 165 Ta = -40 to o +85 C ― 78 CPU is in HALT state (LTBC *1 and WDT are operating ). PLL oscillation is stopped. Ta = -40 to o +105 C ― CPU: Running with low-speed 1 2 RC32K oscillation clock* * PLL oscillation is stopped. Ta = -40 to o +105 C ― µA 4.5 1 165 20 CPU: Running with 16MHz PLL 1 2 Ta = -40 to oscillating clock* * Supply current 4 ― IDD4 4.0 o +105 C PLL 16MHz is oscillating. VDD=1.8~5.5V CPU: Running with 24MHz PLL 1 2 Ta = -40 to oscillating clock* * Supply current 5 ― 5.7 IDD5 o +105 C PLL 24MHz is oscillating. VDD=1.8~5.5V 1 * LTBC and WDT is operating, Significant bits of BCKCON0-3 and BRECON0-3 registers are all “1” 2 * CPU running in wait mode 3 o * On the condition of VDD=3.0V, Ta=+25 C 4 * When the noise filter is not used in the low power consumption mode 190 µA 5.0 mA 7.0 29/71 FEDL62Q1500-07 Low speed Crystal Oscillation o Parameter Symbol (VDD=1.6 to 5.5V, VSS =0V, Ta=-40 to +105 C, unless otherwise specified) Range Condition Unit Min. Typ. Max. Crystal oscillation fXTL ― ― 32.768 ― kHz 1 2 frequency * * Crystal oscillation start TXTL ― ― ― 2 s time 1 * : The oscillation frequency is determined by the oscillation circuit, crystal resonator and the external capacitance (CGL/CDL). As those parameters changes depending the crystal resonator, it requires evaluation on the actual PCB circuit for matching. Ask crystal resonator makers for matching and confirm the oscillation characteristics. 2 * : The quality of oscillation characteristics might be lost, depending on material of PCB, condition of wiring capacitance or parasitic capacitance on the external circuits. Note for designing the external circuit. - Make the wires on the external circuit as short as possible. - Place the crystal resonator and oscillation circuit as close to the MCU as possible and make the wires between the external capacitance and crystal resonator as short as possible. - Ensure no signal line flowing big current runs near the oscillation circuit. - Ensure no signal line runs under and near the oscillation circuit. - Make ground of external capacitance the same as MCU ground VSS pin and connect them to the ground that has low variation of current and voltage. variation. - The quality of oscillation characteristics might be lost depending on operating environment due to moisture absorption of PCB and condensation of PCB surface, recommended to have measures such as covering the oscillation circuit with resin. Low speed Crystal Oscillation external circuit example XT0 XT1 VSS Crystal resonator (32.768kHz） CGL CDL External Clock Input o Parameter Symbol Input Frequency fEXCK Input pulse width tEXCKW (VDD=1.6 to 5.5V, VSS =0V, Ta=-40 to +105 C, unless otherwise specified) Range Condition Unit Min. Typ. Max. Typ. Typ. ― 32.768 kHz -1.0% +1.0% 1/fEXCK 1/fEXCK ― ― s x 0.4 x 0.6 30/71 FEDL62Q1500-07 On-chip Oscillator Parameter Symbol Low-speed RC oscillator frequency accuracy 1 Without software adjustment fRCL1 Low-speed RC oscillator frequency accuracy 2 With software adjustment fRCL2 PLL oscillation frequency accuracy 1 Without software adjustment fPLL1 PLL oscillation frequency accuracy 2 With software adjustment fPLL2 PLL oscillation start time 1kHz Low-speed RC oscillator (for WDT) frequency accuracy TPLL fRC1K (VDD=1.6 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Measur Condition Min. Typ. Max. Unit ing circuit Ta= +25°C Typ. Typ. 32.768 VDD = 1.8 to 5.5V -1.0% +1.0% Typ. Ta= -40 to +85°C Typ. 32.768 VDD = 1.8 to 5.5V -2.5% +2.5% Typ. Ta= -40 to +105°C Typ. 32.768 VDD = 1.8 to 5.5V -3.0% +3.0% kHz Typ. Typ. VDD = 1.6 to 1.8V 32.768 -3.5% -3.5% Ta= -40 to +85°C Typ. Typ. 32.768 VDD = 1.8 to 5.5V -1.0% +1.0% Typ. Ta= -40 to +105°C Typ. 32.768 VDD = 1.8 to 5.5V -1.5% +1.5% Typ. Typ. 1 Ta= -40 to +85°C 16/24 VDD = 1.8 to 5.5V -2.5% +2.5% Ta= -40 to +105°C Typ. Typ. 16/24 VDD = 1.8 to 5.5V -3.0% +3.0% Typ. Typ. VDD = 1.6 to 1.8V 16/24 MHz -3.5% +3.5% Typ. Ta= -40 to +85°C Typ. 16/24 VDD = 1.8 to 5.5V -1.0% +1.0% Typ. Ta= -40 to +105°C Typ. 16/24 VDD = 1.8 to 5.5V -1.5% +1.5% VDD = 1.6 to 5.5V ― ― 2 ms Ta= -40 to +105°C 0.5 1 2.5 kHz VDD = 1.6 to 5.5V 31/71 FEDL62Q1500-07 Input / Output pin 1 (VDD=1.6 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Parameter Output voltage1 “H”/”L” level (P00-P07) (P10-P17) (P20-P27) (P30-P33) (P40-P47) (P50-P57) (P60-P67) (P70-P77) (P80-P87) (P90-P97) (PA0-PA7) (PB0-PB7) Output voltage2 “L” level (P01-P07) (P10-P17) (P20-P27) (P30-P33) (P40-P47) (P50-P57) (P60-P67) (P70-P77) (P80-P87) (P90-P97) (PA0-PA7) (PB0-PB7) Symbol Condition Min. Typ. Max. IOH1=-10mA VDD≥4.5V VDD -1.5 ― ― IOH1=-1mA VDD≥1.6V VDD -0.5 ― ― IOL1=+10mA VDD≥4.5V ― ― 1.5 IOL1=+1mA VDD≥1.6V ― ― 0.5 Unit Measur ing circuit V 2 VOH1 VOL1 VOL2 When N-ch open drain output mode is selected IOL2=+15mA VDD≥4.5V ― ― 0.7 IOL2=+8mA VDD≥3.0V ― ― 0.5 IOL2=+3mA VDD≥2.0V ― ― 0.4 IOL2=+2mA VDD≥1.6V ― ― 0.4 32/71 FEDL62Q1500-07 Input / Output pin 2 (VDD=1.6 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Parameter Symbol “H” level output 6 current1 * IOH1 “H” level output total 1 4 current * * IOH3 Condition ― ― VDD≥1.6V 3 5 -1* * ― ― VDD≥4.5V -90* 5 ― ― VDD≥1.6V -20* 5 ― ― All pin total (duty≤50%) VDD≥4.5V VDD≥1.6V -180* 5 -40* ― ― ― ― VDD≥4.5V ― ― 10* VDD≥1.6V VDD≥4.5V VDD≥3.0V VDD≥2.0V VDD≥1.6V ― ― ― ― ― ― ― ― ― ― 3 1* 3 15* 3 8* 3 3* 3 2* VDD≥4.5V ― ― 90 VDD≥3.0V ― ― 40 VDD≥2.0V ― ― 15 VDD≥1.6V ― ― 10 VDD≥4.5V ― ― 180 VDD≥1.6V ― ― 20 VOH=VDD (High impedance mode) ― ― +1 Total of ‘P00-P07, P10-P13, P44-P47, P50-P53, P70-P76, P80-P87，P90-P97, PA0’ or ‘P14-P17, P20-P27, P30-P33, P40-P43, P54-P57 P60-P67,P77, PA1-PA7，PB0-PB7’ (duty≤50%) 1pin (CMOS output mode) “L” level output 6 current2 * IOL2 1pin (Nch open drain output mode) Total of P00-P07, P10-P13, P44-P47, P50-P53, P70-P76, P80-P87, P90-P97, PA0’ or ‘P14~P17, P20-P27, P30-P33, P40-P43, P54-P57 P60-P67,P77, PA1-PA7, PB0-PB7’ (Nch open drain output mode,duty≤50%) All pin total (Nch open drain output mode,duty≤50%) Output leak (P00-P07) (P10-P17) (P20-P27) (P30-P33) (P40-P47) (P50-P57) (P60-P67) (P70-P77) （P80-P87） （P90-P97） （PA0-PA7） （PB0-PB7） IOOH Max. -10* * IOL1 IOL3 Typ. VDD≥4.5V 1pin “L” level output 6 current1 * “L” level output total 2 4 current * * Min. 3 5 5 Unit Measuri ng circuit 3 mA 3 μA IOOL VOL=VSS (High impedance mode) 5 -1* ― ― 33/71 FEDL62Q1500-07 1 * Sink-out current from VDD to the output pin, which can guarantee the device operation. 2 * Sink-in current from the output pin to VSS, which can guarantee the device operation. 3 * Do not beyond total current. 4 * The total current is on the condition of Duty≤50%(same applies to IOH1). When the duty>50% the total current is calculated by following formula. Total current = IOL3 x 50/n (When the duty is n%) When IOL3=100mA and n=80%, Total current = IOL3 x 50/80 = 62.5mA Current allowed per 1pin is independent of the duty and specified as IOL1 and IOL2. Do not apply current larger than Absolute Maximum Ratings. 5 * The current flowing out the LSI through the pin is described in the negative number. The applicable maximum current is the absolute value. For example, -1mA means the maximum current 1mA flows out the LSI through the pin. 6 * VOH1, VOL1, and VOL2 are satisfied with this spec. 34/71 FEDL62Q1500-07 Input / Output pin 3 (VDD=1.6 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Parameter Symbol Condition Min. Typ. Max. Input current1 (RESET_N) IIH1 IIL1 IIL2 V/IIL2 IIH2Z IIL2Z VIH1=VDD VIL1=VSS *2 VIL2=VSS (pull-up mode) *2 VIL2=VSS (pull-up mode) VIH2=VDD (High impedance mode) VIL2=VSS (High impedance mode) ― 1 -1* 1 -1500* 3.7 ― 1 -1* ― ― 1 -300* 10 ― ― 1 ― 1 -20* 80 1 ― Input current2 (P00/TEST0) Input current3 (P01-P07) (P10-P17) (P20-P27) (P30-P33) (P40-P47) (P50-P57) (P60-P67) (P70-P77) (P80-P87) (P90-P97) (PA0-PA7) (PB0-PB7) Input current4 (PI00-PI01) Input voltage1 (RESET_N) (P01-P07) (P10-P17) (P20-P27) (P30-P33) (P40-P47) (P50-P57) (P60-P67) (P70-P77) (P80-P87) (P90-P97) (PA0-PA7) (PB0-PB7) (PI00-PI01) Input voltage2 (P00/TEST0) IIL3 VIL1=VSS (pull-up mode) *2 -250* 1 -30* 1 -2* V/IIL3 VIL1=VSS (pull-up mode) *2 22 100 800 ― 1 Unit Measur ing circuit μA kΩ μA 1 IIH3Z VIH1=VDD (High impedance mode) ― IIL3Z VIL1=VSS (High impedance mode) -1* 1 ― ― IIH4 IIL4 VIH1=VDD VIL1=VSS ― 1 -1* ― ― 1 ― VIH1 ― 0.7 x VDD ― VDD VIL1 ― 0 ― 0.3 x VDD VIH2 ― 0.7 x VDD ― VDD VIL2 ― 0 ― 0.25 x VDD kΩ 4 μA V 5 Pin capacitance (RESET_N) (P00/TEST0) (P01-P07) (P10-P17) (P20-P27) (P30-P33) f = 10kHz (P40-P47) ― ― 10 pF ― CPIN (P50-P57) Ta = +25°C (P60-P67) (P70-P77) (P80-P87) (P90-P97) (PA0-PA7) (PB0-PB7) (PI00-PI01) 1 * The current flowing out the LSI through the pin is described in the negative number. The applicable maximum current is the absolute value. For example, -1mA means the maximum current 1mA flows out the LSI through the pin. *2 Measurement conditions: Typ. : VDD = 3.0V, Max. : VDD = 1.6V, Min. : VDD = 5.5V 35/71 FEDL62Q1500-07 Synchronous Serial Port Slave mode Parameter SCK input cycle SCK input pulse width (VDD=1.8 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Condition Min. Typ. Max. Unit 2 ― 1* ― ― µs 3 ― 0.5 * ― ― µs 100+ ― ― ns VDD=2.4 to 5.5V 1 HSCLK* ×3 200+ VDD=1.8 to 5.5V ― ― ns 1 HSCLK* ×3 1 HSCLK* ― ― ― ns x1 80+ ― ― ― ns 1 HSCLK* ×3 Symbol tSCYC tSW SOUT output delay time tSD SIN input setup time tSS SIN input hold time tSH 1 * Cycle of high speed clock 2 * Need input cycles of HSCLK x8 or longer 3 * Need input cycles of HSCLK x4 or longer tSCYC tSW tSW 0.7×VDD SUn_SCLK* 0.3×VDD tSD tSD 0.7×VDD SUn_SOUT* 0.3×VDD tSS 0.7×VDD SUn_SIN* *2 nd tSH 0.3×VDD th to 8 function of port, n=0 to 5 36/71 FEDL62Q1500-07 Master mode (VDD=1.8 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Parameter Symbol Condition Min. Typ. Max. Unit 1 SCK output cycle tSCYC ― ― SCLK* ― ns 1 1 1 SCLK* SCLK* SCLK* ― ns tSW SCK output pulse width ×0.4 ×0.5 ×0.6 VDD=2.4 to 5.5V ― ― 100 ns SOUT output delay time tSD VDD=1.8 to 5.5V ― ― 160 ns VDD=2.4 to 5.5V 120 ― ― ns SIN input setup time tSS VDD=1.8 to 5.5V 180 ― ― ns VDD=2.4 to 5.5V 80 ― ― ns SIN input hold time tSH VDD=1.8 to 5.5V 100 ― ― ns 1 * Clock cycle selected by bit12~8(SnCK4~0) of the serial port n mode register (SIOnMOD) VDD≥2.4V: min250ns , VDD≥1.8V: min500ns tSCYC tSW tSW 0.7×VDD SUn_SCLK* 0.3×VDD tSD tSD 0.7×VDD SUn_SOUT* 0.3×VDD tSS 0.7×VDD SUn_SIN* *2 nd tSH 0.3×VDD th to 8 function of port, n=0 to 5 37/71 FEDL62Q1500-07 I2C Bus Interface Standard Mode (100kbps) Parameter (VDD=1.8 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Symbol Condition Min. Typ. Max. Unit SCL clock frequency fSCL ― 0 ― 100 kHz SCL hold time (start/restart condition) tHD:STA ― 4.0 ― ― µs SCL ”L” level time tLOW ― 4.7 ― ― µs SCL ”H” level time tHIGH ― 4.0 ― ― µs SCL setup time (restart condition) tSU:STA ― 4.7 ― ― µs SDA hold time tHD:DAT ― 0 ― ― µs SDA setup time tSU:DAT ― 0.25 ― ― µs SDA setup time (stop condition) tSU:STO ― 4.0 ― ― µs Bus-free time tBUF ― 4.7 ― ― µs 2 2 2 When using the I C as the master, configure the I C master n mode register(I2MnMOD) and I C bus 0 mode register (master side, I2UM0MOD) so that meet these specifications. Start Condition Re-start Condition Stop Condition I2CUn_SDA I2CMn_SDA 0.7×VDD 0.3×VDD 0.7×VDD 0.3×VDD I2CUn_SCL I2CMn_SCL tHD:STA tLOW tHIGH tSU:STA tHD:STA tSU:DAT tHD:DAT tSU:STO tBUF n：0 to 1 38/71 FEDL62Q1500-07 Fast Mode (400 kbps) Parameter (VDD=1.8 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Symbol Condition Min. Typ. Max. Unit SCL clock frequency fSCL ― 0 ― 400 kHz SCL hold time (start/restart condition) tHD:STA ― 0.6 ― ― µs SCL ”L” level time tLOW ― 1.3 ― ― µs SCL ”H” level time tHIGH ― 0.6 ― ― µs SCL setup time (restart condition) tSU:STA ― 0.6 ― ― µs SDA hold time tHD:DAT ― 0 ― ― µs SDA setup time tSU:DAT ― 0.1 ― ― µs SDA setup time (stop condition) tSU:STO ― 0.6 ― ― µs Bus-free time tBUF ― 1.3 ― ― µs 2 2 2 When using the I C as the master, configure the I C master n mode register(I2MnMOD) and I C bus 0 mode register (master side, I2UM0MOD) so that meet these specifications. Start Condition Re-start Condition Stop Condition I2CUn_SDA I2CMn_SDA 0.7×VDD 0.3×VDD 0.7×VDD 0.3×VDD I2CUn_SCL I2CMn_SCL tHD:STA tLOW tHIGH tSU:STA tHD:STA tSU:DAT tHD:DAT tSU:STO tBUF n：0 to 1 39/71 FEDL62Q1500-07 1Mbps Mode Parameter (VDD=2.7 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Symbol Condition Min. Typ. Max. Unit SCL clock frequency fSCL ― 0 ― 1000 kHz SCL hold time (start/restart condition) tHD:STA ― 0.26 ― ― µs SCL ”L” level time tLOW ― 0.5 ― ― µs SCL ”H” level time tHIGH ― 0.26 ― ― µs SCL setup time (restart condition) tSU:STA ― 0.26 ― ― µs SDA hold time tHD:DAT ― 0 ― ― µs SDA setup time tSU:DAT ― 0.1 ― ― µs SDA setup time (stop condition) tSU:STO ― 0.26 ― ― µs Bus-free time tBUF ― 0.5 ― ― µs 2 2 2 When using the I C as the master, configure the I C master n mode register(I2MnMOD) and I C bus 0 mode register (master side, I2UM0MOD) so that meet these specifications. Start Condition Re-start Condition Stop Condition I2CU0_SDA I2CMn_SDA 0.7×VDD 0.3×VDD 0.7×VDD 0.3×VDD I2CU0_SCL I2CMn_SCL tHD:STA tLOW tHIGH tSU:STA tHD:STA tSU:DAT tHD:DAT tSU:STO tBUF n：0 to 1 40/71 FEDL62Q1500-07 Reset (VDD=1.6 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Parameter Reset pulse width *2 P00 ”H” level setup time P00 ”H” level hold time *1 *2 *1 *1 Symbol Condition Min. Typ. Max. Unit PRST ― 2 ― ― ms tSP00 ― 1 ― ― ms tHP00*1 ― 1 ― ― ms Measur ing circuit 1 ： except ISP mode. Refer to the User’s manual “25.4 In-System Programing Function” for the timing in ISP mode. ： VDD=1.6V or over at power on. VIL1 RESET_N PRST P00/TEST0 “H” level or “L” level VIH1 VIL1 *2 “H” level input tSP00 “H” level or “L” level tHP00 Note:  RESET_N input shorter pulse than the Reset pulse width (PRST) valid time should be avoided. The shorter pulse input may cause unexpected behavior. 41/71 FEDL62Q1500-07 Slope of Power supply and Power On Reset (VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Parameter Symbol Condition Min. Typ. Max. Unit Power on rising slope Power on falling slope Power on reset detection voltage SVR SVF VPORR VPORF ― ― At Power up (rising) At Power down (falling) ― ― 1.47 1.33 ― ― 1.57 1.49 60 2 1.80 1.58 V/ms V/ms V V PPOR ― 200 ― ― μs VINIT At power on 1.8 ― ― V tCPUI ― 11 16 ― ms Power on reset minimum pulse width Power on voltage CPU operation start time (from the release of reset to the CPU starts to run） SVR At Power supply voltage level change SVR SVF SVF Measur ing circuit 1 ― At Power supply restart SVR VDD VINIT VPORR VPORF 0V PPOR tCPUI At power on At Power off Note:  If a pulse shorter than the Power on reset minimum pulse width is asserted to VDD, it may cause the MCU malfunction. Apply prevent measurement such as bypass capacitors or external reset input, and so on.  Start the high-speed clock when the VDD is within the operating voltage. 42/71 FEDL62Q1500-07 VLS Parameter Symbol VVLSR VVLSF VVLSR VVLSF VVLSR VVLSF VVLSR VVLSF VVLSR VVLSF VVLSR VLS threshold 2 voltage * VVLSF VVLSR VVLSF VVLSR VVLSF VVLSR VVLSF VVLSR VVLSF VVLSR VVLSF VVLSR VVLSF VLS Current IVLS (VDD=1.6 to 5.5V, VSS =0V, Ta=−40 to +105οC, unless otherwise specified) Condition Measuring Min. Typ. Max. Unit 1 circuit VLS0LV * Rising 3.86 4.06 4.26 00H Falling 3.84 4.00 4.16 01H 02H 03H 04H 05H 06H 07H 08H 09H 0AH 0BH Rising 3.57 3.76 3.95 Falling 3.55 3.70 3.85 Rising 2.94 3.11 3.28 Falling 2.92 3.05 3.18 Rising 2.85 3.01 3.17 Falling 2.83 2.95 3.07 Rising 2.75 2.91 3.07 Falling 2.73 2.85 2.97 Rising 2.66 2.81 2.96 Falling 2.64 2.75 2.86 Rising 2.56 2.71 2.86 Falling 2.54 2.65 2.76 Rising 2.46 2.61 2.76 Falling 2.44 2.55 2.66 Rising 2.37 2.51 2.65 Falling 2.35 2.45 2.55 Rising 1.98 2.11 2.24 Falling 1.96 2.05 2.14 Rising 1.89 2.01 2.13 Falling 1.87 1.95 2.03 Rising 1.79 1.91 2.03 Falling 1.77 1.85 1.93 ― 50 ― ― V 1 nA 1 * Bit3~Bit0 of voltage level detection circuit 0 level register (VLS0LV). 2 * The Data VSL0LV = 0CH~0FH is not available to use, if the data is specified it will the same spec as that 0BH is specified. Analog Comparator o (VDD=1.8 to 5.5V, VSS =0V, Ta=-40 to +105 C, unless otherwise specified) Parameter Symbol Condition Min. Typ. Max. Unit Comparator same phase input voltage range VCMR ― 0.1 ― VDD -1.5 V Comparator0 input offset VCMOF Ta=+25 C、VDD=5.0V ― 5 ― mV Comparator Reference Voltage VCMREF ― 0.75 0.8 0.85 V o Measuring circuit 1 43/71 FEDL62Q1500-07 Successive Approximation Type A/D Converter o Parameter Resolution Overall error Symbol nAD ― (VDD=1.8 to 5.5V, VSS =0V, Ta=-40 to +105 C, unless otherwise specified) Condition Min. Typ. Max. Unit ― ― ― 10 bit 1 4.5V≤ Reference voltage* ≤5.5V -3.5 1.2 3.5 2.7V≤ Reference voltage* ≤5.5V -4 ― 1 -6 ― 6 1.8V≤ Reference voltage*