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SAK-TC233LC-24F133F AC

SAK-TC233LC-24F133F AC

  • 厂商:

    EUPEC(英飞凌)

  • 封装:

    TQFP100

  • 描述:

    IC MCU 32BIT

  • 数据手册
  • 价格&库存
SAK-TC233LC-24F133F AC 数据手册
32-Bit Microcontroller TC233 / TC234 / TC237 32-Bit Single-Chip Microcontroller AC-Step 32-Bit Single-Chip Microcontroller Data Sheet V 1.0, 2017-03 Microcontrollers Edition 2017-03 Published by Infineon Technologies AG 81726 Munich, Germany © 2017 Infineon Technologies AG All Rights Reserved. Legal Disclaimer The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights of any third party. Information For further information on technology, delivery terms and conditions and prices, please contact the nearest Infineon Technologies Office (www.infineon.com) Warnings Due to technical requirements, components may contain dangerous substances. For information on the types in question, please contact the nearest Infineon Technologies Office. Infineon Technologies components may be used in life-support devices or systems only with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered. TC233 / TC234 / TC237 Revision History Page or Item Subjects (major changes since previous revision) V 1.0, 2017-03 The history is documented in the last chapter Data Sheet 3 V 1.0 2017-03 TC233 / TC234 / TC237 Trademarks of Infineon Technologies AG AURIX™, C166™, CanPAK™, CIPOS™, CIPURSE™, EconoPACK™, CoolMOS™, CoolSET™, CORECONTROL™, CROSSAVE™, DAVE™, DI-POL™, EasyPIM™, EconoBRIDGE™, EconoDUAL™, EconoPIM™, EconoPACK™, EiceDRIVER™, eupec™, FCOS™, HITFET™, HybridPACK™, I²RF™, ISOFACE™, IsoPACK™, MIPAQ™, ModSTACK™, my-d™, NovalithIC™, OptiMOS™, ORIGA™, POWERCODE™; PRIMARION™, PrimePACK™, PrimeSTACK™, PRO-SIL™, PROFET™, RASIC™, ReverSave™, SatRIC™, SIEGET™, SINDRION™, SIPMOS™, SmartLEWIS™, SOLID FLASH™, TEMPFET™, thinQ!™, TRENCHSTOP™, TriCore™. Other Trademarks Advance Design System™ (ADS) of Agilent Technologies, AMBA™, ARM™, MULTI-ICE™, KEIL™, PRIMECELL™, REALVIEW™, THUMB™, µVision™ of ARM Limited, UK. AUTOSAR™ is licensed by AUTOSAR development partnership. Bluetooth™ of Bluetooth SIG Inc. CAT-iq™ of DECT Forum. COLOSSUS™, FirstGPS™ of Trimble Navigation Ltd. EMV™ of EMVCo, LLC (Visa Holdings Inc.). EPCOS™ of Epcos AG. FLEXGO™ of Microsoft Corporation. FlexRay™ is licensed by FlexRay Consortium. HYPERTERMINAL™ of Hilgraeve Incorporated. IEC™ of Commission Electrotechnique Internationale. IrDA™ of Infrared Data Association Corporation. ISO™ of INTERNATIONAL ORGANIZATION FOR STANDARDIZATION. MATLAB™ of MathWorks, Inc. MAXIM™ of Maxim Integrated Products, Inc. MICROTEC™, NUCLEUS™ of Mentor Graphics Corporation. MIPI™ of MIPI Alliance, Inc. MIPS™ of MIPS Technologies, Inc., USA. muRata™ of MURATA MANUFACTURING CO., MICROWAVE OFFICE™ (MWO) of Applied Wave Research Inc., OmniVision™ of OmniVision Technologies, Inc. Openwave™ Openwave Systems Inc. RED HAT™ Red Hat, Inc. RFMD™ RF Micro Devices, Inc. SIRIUS™ of Sirius Satellite Radio Inc. SOLARIS™ of Sun Microsystems, Inc. SPANSION™ of Spansion LLC Ltd. Symbian™ of Symbian Software Limited. TAIYO YUDEN™ of Taiyo Yuden Co. TEAKLITE™ of CEVA, Inc. TEKTRONIX™ of Tektronix Inc. TOKO™ of TOKO KABUSHIKI KAISHA TA. UNIX™ of X/Open Company Limited. VERILOG™, PALLADIUM™ of Cadence Design Systems, Inc. VLYNQ™ of Texas Instruments Incorporated. VXWORKS™, WIND RIVER™ of WIND RIVER SYSTEMS, INC. ZETEX™ of Diodes Zetex Limited. Last Trademarks Update 2011-11-11 Data Sheet 4 V 1.0 2017-03 TC233 / TC234 / TC237 Table of Contents 1 Summary of Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 2 2.1 2.1.1 2.1.1.1 2.1.1.2 2.1.2 2.2 2.2.1 2.2.1.1 2.2.1.2 2.2.2 2.3 2.3.1 2.3.1.1 2.3.1.2 2.3.2 Package and Pinning Definitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 PG-LFBGA-292-6 Package Variant Pin Configuration of TC237x . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Port Functions and Pinning Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 How to Read the Following Port Function Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Pull-Up/Pull-Down Reset Behavior of the Pins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 PG-TQFP-144-27 Package Variant Pin Configuration of TC23x-ADAS . . . . . . . . . . . . . . . . . . . . . . . 70 Port Functions and Pinning Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71 How to Read the Following Port Function Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71 Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71 Pull-Up/Pull-Down Reset Behavior of the Pins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132 PG-TQFP-100-23 Package Variant Pin Configuration of TC233x . . . . . . . . . . . . . . . . . . . . . . . . . . 132 Port Functions and Pinning Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 134 How to Read the Following Port Function Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 134 Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 135 Pull-Up/Pull-Down Reset Behavior of the Pins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 172 3 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10 3.10.1 3.11 3.11.1 3.11.2 3.12 3.13 3.14 3.15 3.16 3.17 3.18 3.19 3.20 3.21 3.21.1 3.21.2 3.21.3 3.21.4 3.22 3.23 Electrical Specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Parameter Interpretation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Absolute Maximum Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Pin Reliability in Overload . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Operating Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3 V Pads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . VADC Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . MHz Oscillator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Back-up Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Temperature Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Power Supply Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Calculating the 1.3 V Current Consumption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Power-up and Power-down . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Single Supply mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . External Supply mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Reset Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . EVR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Phase Locked Loop (PLL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ERAY Phase Locked Loop (ERAY_PLL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . AC Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . JTAG Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . DAP Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ASCLIN SPI Master Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . QSPI Timings, Master and Slave Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Ethernet Interface (ETH) Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ETH Measurement Reference Points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ETH Management Signal Parameters (ETH_MDC, ETH_MDIO) . . . . . . . . . . . . . . . . . . . . . . . . . ETH MII Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ETH RMII Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-Ray Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Flash Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Data Sheet TOC-1 173 173 174 175 177 179 183 188 189 190 191 193 195 196 198 199 201 204 205 206 207 209 211 213 217 217 218 219 220 221 223 V 1.0, 2017-03 TC233 / TC234 / TC237 3.24 3.24.1 3.25 Package Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 226 Package Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 228 Quality Declarations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 230 4 4.1 History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 231 Changes from Version TC23x_DS_v1.1 to Version TC23xAC_DS_v1.0 . . . . . . . . . . . . . . . . . . . . . 231 Data Sheet 2 V 1.0 2017-03 TC233 / TC234 / TC237 Summary of Features 1 Summary of Features The TC23x product family has the following features: • High Performance Microcontroller with one CPU core • Power Efficient scalar TriCore CPU (TC1.6E), having the following features: – Binary code compatibility with TC1.6P – up to 200 MHz operation at full temperature range – up to 184 Kbyte Data Scratch-Pad RAM (DSPR) – up to 8 Kbyte Instruction Scratch-Pad RAM (PSPR) – 8 Kbyte Instruction Cache (ICACHE) – 4 line read buffer (DRB) • Lockstepped shadow core for TC1.6E • Multiple on-chip memories – All embedded NVM and SRAM are ECC protected – up to 2 Mbyte Program Flash Memory (PFLASH) – up to 128 Kbyte Data Flash Memory (DFLASH) usable for EEPROM emulation – 32 Kbyte Memory (LMU) – 512 Kbyte Memory (EMEM) – BootROM (BROM) • 16-Channel DMA Controller with safe data transfer • Sophisticated interrupt system (ECC protected) • High performance on-chip bus structure – 64-bit Cross Bar Interconnect (SRI) giving fast parallel access between bus masters, CPUs and memories – 32-bit System Peripheral Bus (SPB) for on-chip peripheral and functional units – One bus bridge (SFI Bridge) • Optional Hardware Security Module (HSM) on some variants (See below) • Safety Management Unit (SMU) handling safety monitor alarms • Memory Test Unit with ECC, Memory Initialization and MBIST functions (MTU) • Hardware I/O Monitor (IOM) for checking of digital I/O • Versatile On-chip Peripheral Units • – Two Asynchronous/Synchronous Serial Channels (ASCLIN) with hardware LIN support (V1.3, V2.0, V2.1 and J2602) up to 50 MBaud – Four Queued SPI Interface Channels (QSPI) with master and slave capability up to 50 Mbit/s – Two MultiCAN+ Module with 3CAN nodes each and 128 free assignable message objects for high efficiency data handling via FIFO buffering and gateway data transfer – 4 Single Edge Nibble Transmission (SENT) channels for connection to sensors – One FlexRayTM module with 2 channels (E-Ray) supporting V2.1 – One Generic Timer Module (GTM) providing a powerful set of digital signal filtering and timer functionality to realize autonomous and complex Input/Output management – One Capture / Compare 6 module (Two kernels CCU60 and CCU61) – One General Purpose 12 Timer Unit (GPT120) – IEEE802.3 Ethernet MAC with RMII and MII interfaces (ETH) Versatile Successive Approximation ADC (VADC) Data Sheet 1-1 V 1.0 2017-03 TC233 / TC234 / TC237 Summary of Features – Cluster of 4 independent ADC kernels – Input voltage range from 0 V to 5.5V (ADC supply) • Digital programmable I/O ports • On-chip debug support for OCDS Level 1 (CPUs, DMA, On Chip Buses) • Four/five wire JTAG (IEEE 1149.1) or DAP (Device Access Port) interface • Power Management System and on-chip regulators • Clock Generation Unit with System PLL and Flexray PLL • Embedded Voltage Regulator Data Sheet 1-2 V 1.0 2017-03 TC233 / TC234 / TC237 Summary of Features Ordering Information The ordering code for Infineon microcontrollers provides an exact reference to the required product. This ordering code identifies: • The derivative itself, i.e. its function set, the temperature range, and the supply voltage • The package and the type of delivery. For the available ordering codes for the TC233 / TC234 / TC237 please refer to the "AURIX™ TC2x Data Sheet Addendum", which summarizes all available variants. Table 1-1 Overview of TC23x Functions Feature CPU Core TC1.6E Type E Cores / Checker Cores 1/ 1 200 MHz Max. Freq. FPU yes Program Flash Size 2 Mbyte Data Flash Size 128 Kbyte Cache Instruction 8 Kbyte 4 line read buffer Data SRAM 184 Kbyte / 8 Kbyte 1) Size TC1.6E (DSPR/PSPR) Size EMEM 0 Kbyte Size LMU 0 Kbyte DMA Channels 16 ADC Channels 12+12 Converter 2 TIM 1 TOM 2 DTM 2 GTM 1/1 CMU / ICM 1 TBU Timer 1 GPT12 1 CCU6 STM Modules 1 FlexRay Modules 1 Channels 2 Modules 2 Nodes per Module 3 Message Objects 128 CAN QSPI Data Sheet CAN FD yes Channels 4 1-3 V 1.0 2017-03 TC233 / TC234 / TC237 Summary of Features Table 1-1 Overview of TC23x Functions (cont’d) Feature ASCLIN Interfaces 2 SENT Channels 4 Ethernet Channels 0 ASIL Level up to ASIL-D Safety support SMU 1 1 IOM 0 FFT HSIC Channels 2 Security HSM 1 Embedded Voltage Regulator DCDC from 3.3 V to 1.3 V Yes Embedded Voltage Regulator LDO from 3.3 V to 1.3 V Yes Low Power Feature Standby RAM Yes Packages Type PG-TQFP-100-23 / PG-TQFP-14427 / PG-LFBGA-292-6 I/O Type 3.3 V CMOS (5V input supported on ADC pins) Tambient Range −40 … +125°C / +150°C 1) To ensure the processor cores are provided with a constant stream of instructions the Instruction Fetch Units will speculatively fetch instructions from the up to 64 bytes ahead of the current PC. If the current PC is within 64 bytes of the top of an instruction memory the Instruction Fetch Unit may attempt to speculatively fetch instruction from beyond the physical range. This may then lead to error conditions and alarms being triggered by the bus and memory systems. It is therefore recommended that the upper 64 bytes of any memory be unused for instruction storage. Data Sheet 1-4 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin 2 Package and Pinning Definitions This chapter gives a pinning of the different packages of the TC233 / TC234 / TC237. 2.1 PG-LFBGA-292-6 Package Variant Pin Configuration of TC237x Figure 2-1 is showing the TC237x pinout for the package variant: PG-LFBGA-292-6. 20 19 18 17 15 14 13 12 11 10 9 8 P33.11 P33.9 P33.7 P33.5 P33.3 AN1/P AN3/P P33.1 40.1 40.3 P33.12 P33.10 P33.8 P33.6 P33.4 P33.2 P33.0 VS SM 3 2 AN9/P AN10/ 40.9 P40.10 1 VS S V NC VDDP3 U NC P23.1 VS S NC NC NC NC P34.3 P34.1 P34.0 NC NC NC NC NC NC T NC NC NC VS S NC NC NC P34.2 VDDP3 NC NC NC NC NC NC NC R P22.2 P22.3 NC NC NC NC AN17/ AN16/ P41.5 P41.4 R P P22.0 P22.1 NC P22.4 NC NC AN18/ AN19/ P41.6 P41.7 P N VDDP3 VDD NC NC VDD VDD NC NC AN21/ AN20/ P41.9 P41.8 N NC NC VS S VS S VS S VS S NC NC AN23/ AN22/ P41.11 P41.10 M AN0/P AN2/P AN4/P AN5/P AN6/P AN7/P AN8/P 40.0 40.2 40.4 40.5 40.6 40.7 40.8 VS S VS S VS S VS S VS S VS S VS S VS S VS S VS S VDD NC NC Y VDDP3 XTAL1 XTAL2 VDDM 4 W VDD VAR EF 5 NC NC VAGND 6 VS S NC NC 7 Y M VC AP1 VC AP0 16 AN11/ W P40.11 AN12/ AN13/ P41.0 P41.1 V AN14/ AN15/ P41.2 P41.3 U NC NC T L VS S TRST NC NC VS S VS S VS S VS S VS S VS S VS S VS S NC NC P00.12 NC L K P21.4 P21.2 NC TMS/D AP1 NC VS S VS S VS S VS S VS S VS S VS S NC P00.8 P00.9 P00.7 K J P21.5 P21.3 NC TCK/D AP0 VS S VS S VS S VS S VS S VS S NC P00.6 P00.5 P00.4 J H P20.2 P20.0/TESTMODE P21.6 P21.7 /TDI/TDO/DAP2 VS S VS S VS S VS S VDD NC NC P00.3 P00.2 H G P20.3 NC PORST ESR1 VS S VS S VS S VS S NC NC P00.1 P00.0 G F P20.8 P20.7 P20.6 ESR0 NC NC P02.7 P02.8 F E P20.11 P20.10 P20.9 VS S VDDP3 P15.5 P14.2 NC NC NC NC NC P11.8 NC VS S NC P02.5 P02.6 E D P20.13 P20.12 VS S VDDP3 P15.7 P15.8 P14.7 NC NC NC P11.6 NC NC NC VDDP3 VS S P02.3 P02.4 D C P20.14 P15.2 P02.1 P02.2 C B P15.0 VS S VDDP3 P14.0 P15.3 P14.4 /Boo tloader A VS S VDDP3 P15.1 P15.4 20 19 18 17 VDD VDD VDD NC P10.5 NC VDDP3 VS S P02.0 B NC P10.3 P10.2 P10.6 NC VDDP3 NC A 7 6 5 4 3 2 1 P14.3 P14.6 P13.0 P13.2 P11.3 P11.10 P11.12 P10.1 P14.1 P15.6/Boo tloaderP14.5 P14.8 P13.1 P13.3 P11.2 13 12 11 10 16 15 14 P11.9 P11.11 9 8 TC23x ‐ (top view) Figure 2-1 TC237x Pinout for the package variant PG-LFBGA-292-6. Data Sheet 2-5 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin 2.1.1 Port Functions and Pinning Tables 2.1.1.1 How to Read the Following Port Function Tables Some hints for interpreting the following tables. Column “Ctrl.”: I = Input (for GPIO port Lines with IOCR bit field Selection PCx = 0XXXB) AI = Analog input O = Output O0 = Output with IOCR bit field selection PCx = 1X000B O1 = Output with IOCR bit field selection PCx = 1X001B (ALT1) O2 = Output with IOCR bit field selection PCx = 1X010B (ALT2) O3 = Output with IOCR bit field selection PCx = 1X011B (ALT3) O4 = Output with IOCR bit field selection PCx = 1X100B (ALT4) O5 = Output with IOCR bit field selection PCx = 1X101B (ALT5) O6 = Output with IOCR bit field selection PCx = 1X110B (ALT6) O7 = Output with IOCR bit field selection PCx = 1X111B (ALT7) Table 2-1 Example Port Table Ball Symbol Ctrl. Buffer Type G10 Pxx.y I A1 / HighZ / General-purpose input VDDP3 GTM_TIN TIMm_n TOMa_b O1 Function GTM_TOUT TOMc_d GTM_TOUT IOM_REFv_w IOM reference input ASCLINz_RTS O2 ASCLIN0 output (aka ARTSz) To each input several functions can be connected. The peripherals’ configuration defines if this input is used. The port module (see corresponding chapter) decides which of the 8 output signals O0 to O7 drives the pad. Some Ox rows list more than one function, e.g. several GTM_TOUT outputs and IOM reference inputs. The GTM module (see corresponding chapter) has its own sub-multiplexer structure that defines which of the GTM sub-units drives this signal. Additionally the IOM modules “listens” on these output signals (see IOM chapter). Some pin symbol names were changed in this AURIX device compared to other AURIX devices to improve naming systematics. The previously used symbol name is documented in the “Function” column with the text “(aka …)”1). Column “Type”: IN = Input only A1 = Pad class A1 (3.3V) A1+ = Pad class A1+ (3.3V) S = ADC with digital input. Pad class D for analog input “AI”, pad class S for digital input “I”. 1) “aka” as abbreviation for “also known as”. Data Sheet 2-6 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin PU = with pull-up device connected during reset (PORST = 0) PD = with pull-down device connected during reset (PORST = 0) High-Z = High-Z during reset (PORST = 0) 2.1.1.2 Tables Port function and pinning tables. Table 2-2 Port 00 Functions Ball Symbol Ctrl. Buffer Type Function G1 P00.0 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 CCU61_CTRAPA CCU60_T12HRE GTM_TIN CCU61 input CCU60 input P00.0 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_REF0_9 IOM reference input ASCLIN0_SCLK O2 ASCLIN0 output (aka: ASCLK0) ASCLIN0_TX O3 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input — O4 Reserved CAN1_TXD O5 CAN node 1 output (aka: TXDCAN1) IOM_MON2_6 IOM monitor input IOM_REF2_6 IOM reference input — O6 Reserved CCU60_COUT63 O7 CCU60 output IOM_MON1_6 IOM monitor input IOM_REF1_0 IOM reference input Data Sheet 2-7 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-2 Port 00 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function G2 P00.1 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 ASCLIN0_RXC GTM_TIN ASCLIN0 input (aka: ARX0C) CAN1_RXDD CAN node 1 input (aka: RXDCAN1D) SENT_SENT0B SENT input CCU60_CC60INB CCU60 input CCU61_CC60INA CCU61 input P00.1 O0 General-purpose output TOM0_9 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_REF0_10 IOM reference input ASCLIN0_TX O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input — O3 Reserved — O4 Reserved — O5 Reserved SENT_SPC0 O6 SENT output CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input Data Sheet 2-8 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-2 Port 00 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function H1 P00.2 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 SENT_SENT1B H2 GTM_TIN SENT input P00.2 O0 General-purpose output TOM0_9 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_REF0_11 IOM reference input ASCLIN0_SCLK O2 ASCLIN0 output (aka: ASCLK0) — O3 Reserved — O4 Reserved CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) — O6 Reserved CCU61_COUT60 O7 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input P00.3 I SENT_SENT2B CCU60_CC61INB A1 / HighZ / VDDP3 General-purpose input SENT input CCU60 input CCU61_CC61INA CCU61 input CAN11_RXDA CAN1 node 1 input (aka: RXDCAN11A) CAN12_RXDA CAN1 node 2 input (aka: RXDCAN12A) P00.3 O0 General-purpose output TOM0_10 O1 GTM_TOUT TOM1_2 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_REF0_12 IOM reference input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved SENT_SPC2 O6 SENT output CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input Data Sheet 2-9 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-2 Port 00 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function J1 P00.4 I A1 / HighZ / VDDP3 General-purpose input SCU_REQ7 SENT_SENT3B J2 SCU input SENT input P00.4 O0 General-purpose output TOM0_11 O1 GTM_TOUT TOM1_3 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_REF0_13 IOM reference input — O2 Reserved CAN10_TXD O3 CAN1 node 0 output (aka: TXDCAN10) — O4 Reserved VADC_G1BFL0 O5 VADC output SENT_SPC3 O6 SENT output CCU61_COUT61 O7 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input P00.5 I CCU60_CC62INB CCU61_CC62INA CAN10_RXDG A1 / HighZ / VDDP3 General-purpose input CCU60 input CCU61 input CAN1 node 0 input (aka: RXDCAN10G) P00.5 O0 General-purpose output TOM0_12 O1 GTM_TOUT TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_REF0_14 IOM reference input — O2 Reserved — O3 Reserved — O4 Reserved VADC_G1BFL1 O5 VADC output — O6 Reserved CCU61_CC62 O7 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input Data Sheet 2-10 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-2 Port 00 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function J4 P00.6 I A1 / HighZ / VDDP3 General-purpose input CAN11_RXDG K1 P00.6 O0 TOM0_13 O1 CAN1 node 1 input (aka: RXDCAN11G) General-purpose output GTM_TOUT TOM1_5 GTM_TOUT (= DTM5_OUT5) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_REF0_15 IOM reference input — O2 Reserved VADC_G1BFL2 O3 VADC output — O4 Reserved VADC_EMUX10 O5 VADC output — O6 Reserved CCU61_COUT62 O7 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input P00.7 I CCU61_CC60INC CCU61_CCPOS0A A1 / HighZ / VDDP3 General-purpose input CCU61 input CCU61 input CCU60_T12HRB CCU60 input GPT120_T2INA GPT120 input P00.7 O0 General-purpose output TOM0_14 O1 GTM_TOUT TOM1_6 GTM_TOUT (= DTM5_OUT6) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) CAN11_TXD O2 CAN1 node 1 output (aka: TXDCAN11) VADC_G1BFL3 O3 VADC output — O4 Reserved VADC_EMUX11 O5 VADC output — O6 Reserved CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input Data Sheet 2-11 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-2 Port 00 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function K4 P00.8 I A1 / HighZ / VDDP3 General-purpose input CCU61_CC61INC CCU61_CCPOS1A CCU61 input CCU60_T13HRB CCU60 input GPT120_T2EUDA GPT120 input CAN12_RXDG CAN1 node 2 input (aka: RXDCAN12G) P00.8 O0 General-purpose output TOM0_15 O1 GTM_TOUT TOM1_7 K2 CCU61 input GTM_TOUT (= DTM5_OUT7) QSPI3_SLSO6 O2 QSPI3 output (aka: SLSO36) — O3 Reserved — O4 Reserved VADC_EMUX12 O5 VADC output — O6 Reserved CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input P00.9 I TIM0_0 CCU61_CC62INC A1 / HighZ / VDDP3 General-purpose input GTM_TIN CCU61 input CCU61_CCPOS2A CCU61 input CCU60_T13HRC CCU60 input CCU60_T12HRC CCU60 input GPT120_T4EUDA GPT120 input P00.9 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT QSPI3_SLSO7 O2 QSPI3 output (aka: SLSO37) ASCLIN0_RTS O3 ASCLIN0 output (aka: ARTS0) — O4 Reserved CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) — O6 Reserved CCU61_CC62 O7 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input Data Sheet 2-12 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-2 Port 00 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function L2 P00.12 I A1 / HighZ / VDDP3 General-purpose input TIM0_3 ASCLIN0_CTSA GTM_TIN ASCLIN0 input (aka: ACTS0A) P00.12 O0 General-purpose output TOM0_3 O1 GTM_TOUT TOM1_3 GTM_TOUT — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved CCU61_COUT63 O7 CCU61 output IOM_MON1_7 IOM monitor input IOM_REF1_7 IOM reference input Data Sheet 2-13 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-3 Port 02 Functions Ball Symbol Ctrl. Buffer Type Function B1 P02.0 I A1+ / HighZ / VDDP3 General-purpose input TIM0_0 SCU_REQ6 GTM_TIN SCU input CCU60_CC60INA CCU60 input CCU61_CC60INB CCU61 input P02.0 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_8 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_REF0_0 IOM reference input — O2 Reserved QSPI3_SLSO1 O3 QSPI3 output (aka: SLSO31) — O4 Reserved CAN0_TXD O5 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input ERAY0_TXDA O6 ERAY0 output CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Data Sheet 2-14 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-3 Port 02 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function C2 P02.1 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 CAN0_RXDA GTM_TIN CAN node 0 input (aka: RXDCAN0A) ERAY0_RXDA2 ERAY0 input SCU_REQ14 SCU input P02.1 O0 General-purpose output TOM0_9 O1 GTM_TOUT TOM1_9 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_REF0_1 IOM reference input — O2 Reserved QSPI3_SLSO2 O3 QSPI3 output (aka: SLSO32) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT60 O7 CCU60 output IOM_MON1_3 IOM monitor input IOM_REF1_3 IOM reference input Data Sheet 2-15 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-3 Port 02 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function C1 P02.2 I A1+ / HighZ / VDDP3 General-purpose input TIM0_2 CCU60_CC61INA CCU61_CC61INB GTM_TIN CCU60 input CCU61 input P02.2 O0 General-purpose output TOM0_10 O1 GTM_TOUT TOM1_10 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_REF0_2 IOM reference input ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI3_SLSO3 O3 QSPI3 output (aka: SLSO33) — O4 Reserved CAN2_TXD O5 CAN node 2 output (aka: TXDCAN2) IOM_MON2_7 IOM monitor input IOM_REF2_7 IOM reference input ERAY0_TXDB O6 ERAY0 output CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input Data Sheet 2-16 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-3 Port 02 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function D2 P02.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_3 ASCLIN1_RXG GTM_TIN ASCLIN1 input (aka: ARX1G) CAN2_RXDB CAN node 2 input (aka: RXDCAN2B) ERAY0_RXDB2 ERAY0 input P02.3 O0 General-purpose output TOM0_11 O1 GTM_TOUT TOM1_11 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_REF0_3 IOM reference input — O2 Reserved QSPI3_SLSO4 O3 QSPI3 output (aka: SLSO34) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT61 O7 CCU60 output IOM_MON1_4 IOM monitor input IOM_REF1_2 IOM reference input Data Sheet 2-17 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-3 Port 02 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function D1 P02.4 I A1+ / HighZ / VDDP3 General-purpose input TIM0_4 QSPI3_SLSIA GTM_TIN QSPI3 input (aka: SLSI3A) CAN0_RXDD CAN node 0 input (aka: RXDCAN0D) CCU60_CC62INA CCU60 input CCU61_CC62INB CCU61 input P02.4 O0 General-purpose output TOM0_12 O1 GTM_TOUT TOM1_12 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_REF0_4 IOM reference input — O2 Reserved QSPI3_SLSO0 O3 QSPI3 output (aka: SLSO30) — O4 Reserved CAN10_TXD O5 CAN1 node 0 output (aka: TXDCAN10) ERAY0_TXENA O6 ERAY0 output CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input Data Sheet 2-18 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-3 Port 02 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function E2 P02.5 I A1+ / HighZ / VDDP3 General-purpose input TIM0_5 QSPI3_MRSTA SENT_SENT3C GTM_TIN QSPI3 input (aka: MRST3A) SENT input P02.5 O0 General-purpose output TOM0_13 O1 GTM_TOUT TOM1_13 GTM_TOUT TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_REF0_5 IOM reference input CAN0_TXD O2 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input QSPI3_MRST O3 QSPI3 output (aka: MRST3) IOM_MON2_3 IOM monitor input IOM_REF2_3 IOM reference input — O4 Reserved CAN11_TXD O5 CAN1 node 1 output (aka: TXDCAN11) ERAY0_TXENB O6 ERAY0 output CCU60_COUT62 O7 CCU60 output IOM_MON1_5 IOM monitor input IOM_REF1_1 IOM reference input Data Sheet 2-19 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-3 Port 02 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function E1 P02.6 I A1 / HighZ / VDDP3 General-purpose input TIM0_6 QSPI3_MTSRA GTM_TIN QSPI3 input (aka: MTSR3A) SENT_SENT2C SENT input CCU60_CC60INC CCU60 input CCU60_CCPOS0A CCU60 input CCU61_T12HRB CCU61 input GPT120_T3INA GPT120 input CAN10_RXDF CAN1 node 0 input (aka: RXDCAN10F) P02.6 O0 General-purpose output TOM0_14 O1 GTM_TOUT TOM1_14 GTM_TOUT TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_REF0_6 IOM reference input — O2 Reserved QSPI3_MTSR O3 QSPI3 output (aka: MTSR3) — O4 Reserved VADC_EMUX00 O5 VADC output — O6 Reserved CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Data Sheet 2-20 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-3 Port 02 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function F2 P02.7 I A1 / HighZ / VDDP3 General-purpose input TIM0_7 QSPI3_SCLKA GTM_TIN QSPI3 input (aka: SCLK3A) SENT_SENT1C SENT input CCU60_CC61INC CCU60 input CCU60_CCPOS1A CCU60 input CCU61_T13HRB CCU61 input GPT120_T3EUDA GPT120 input CAN11_RXDF CAN1 node 1 input (aka: RXDCAN11F) PMU_FDEST PMU input P02.7 O0 General-purpose output TOM0_15 O1 GTM_TOUT TOM1_15 GTM_TOUT TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) IOM_REF0_7 IOM reference input — O2 Reserved QSPI3_SCLK O3 QSPI3 output (aka: SCLK3) — O4 Reserved VADC_EMUX01 O5 VADC output SENT_SPC1 O6 SENT output CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input Data Sheet 2-21 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-3 Port 02 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function F1 P02.8 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 SENT_SENT0C GTM_TIN SENT input CCU60_CC62INC CCU60 input CCU60_CCPOS2A CCU60 input CCU61_T12HRC CCU61 input CCU61_T13HRC CCU61 input GPT120_T4INA GPT120 input P02.8 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_REF0_8 IOM reference input QSPI3_SLSO5 O2 QSPI3 output (aka: SLSO35) — O3 Reserved — O4 Reserved VADC_EMUX02 O5 VADC output — O6 Reserved CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input Data Sheet 2-22 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-4 Port 10 Functions Ball Symbol Ctrl. Buffer Type Function B7 P10.1 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 QSPI1_MRSTA GPT120_T5EUDB QSPI1 input (aka: MRST1A) GPT120 input P10.1 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_9 A5 GTM_TIN GTM_TOUT QSPI1_MTSR O2 QSPI1 output (aka: MTSR1) QSPI1_MRST O3 QSPI1 output (aka: MRST1) IOM_MON2_1 IOM monitor input IOM_REF2_1 IOM reference input — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P10.2 I TIM0_2 QSPI1_SCLKA A1 / HighZ / VDDP3 General-purpose input GTM_TIN QSPI1 input (aka: SCLK1A) CAN2_RXDE CAN node 2 input (aka: RXDCAN2E) SCU_REQ2 SCU input GPT120_T6INB GPT120 input P10.2 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_10 GTM_TOUT IOM_MON2_9 IOM monitor input — O2 Reserved QSPI1_SCLK O3 QSPI1 output (aka: SCLK1) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-23 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-4 Port 10 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function A6 P10.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_3 QSPI1_MTSRA B5 GTM_TIN QSPI1 input (aka: MTSR1A) SCU_REQ3 SCU input GPT120_T5INB GPT120 input P10.3 O0 General-purpose output TOM0_3 O1 GTM_TOUT TOM1_11 GTM_TOUT IOM_MON2_10 IOM monitor input — O2 Reserved QSPI1_MTSR O3 QSPI1 output (aka: MTSR1) — O4 Reserved — O5 Reserved CAN2_TXD O6 CAN node 2 output (aka: TXDCAN2) IOM_MON2_7 IOM monitor input IOM_REF2_7 IOM reference input — O7 P10.5 I TIM0_2 SCU_HWCFG4 CAN10_RXDA Reserved A1 / HighZ / VDDP3 General-purpose input GTM_TIN SCU input CAN1 node 0 input (aka: RXDCAN10A) P10.5 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_10 GTM_TOUT IOM_REF2_9 IOM reference input — O2 Reserved QSPI3_SLSO8 O3 QSPI3 output (aka: SLSO38) QSPI1_SLSO9 O4 QSPI1 output (aka: SLSO19) GPT120_T6OUT O5 GPT120 output — O6 Reserved — O7 Reserved Data Sheet 2-24 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-4 Port 10 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function A4 P10.6 I A1 / HighZ / VDDP3 General-purpose input TIM0_3 QSPI3_MTSRB SCU_HWCFG5 GTM_TIN QSPI3 input (aka: MTSR3B) SCU input P10.6 O0 General-purpose output TOM0_3 O1 GTM_TOUT TOM1_11 GTM_TOUT IOM_REF2_10 IOM reference input — O2 Reserved QSPI3_MTSR O3 QSPI3 output (aka: MTSR3) GPT120_T3OUT O4 GPT120 output CAN10_TXD O5 CAN1 node 0 output (aka: TXDCAN10) QSPI1_MRST O6 QSPI1 output (aka: MRST1) IOM_MON2_1 IOM monitor input IOM_REF2_1 IOM reference input — Table 2-5 O7 Reserved Port 11 Functions Ball Symbol Ctrl. Buffer Type Function A10 P11.2 I General-purpose input P11.2 O0 TOM0_8 O1 A1+ / HighZ / VDDP3 General-purpose output GTM_TOUT TOM1_1 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) — O2 Reserved QSPI0_SLSO5 O3 QSPI0 output (aka: SLSO05) QSPI1_SLSO5 O4 QSPI1 output (aka: SLSO15) CCU61_COUT63 O5 CCU61 output IOM_MON1_7 IOM monitor input IOM_REF1_7 IOM reference input — O6 Reserved CCU60_COUT63 O7 CCU60 output IOM_MON1_6 IOM monitor input IOM_REF1_0 IOM reference input Data Sheet 2-25 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-5 Port 11 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function B10 P11.3 I A1+ / HighZ / VDDP3 General-purpose input QSPI1_MRSTB D9 P11.3 O0 TOM0_10 O1 QSPI1 input (aka: MRST1B) General-purpose output GTM_TOUT TOM1_2 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) — O2 Reserved QSPI1_MRST O3 QSPI1 output (aka: MRST1) IOM_MON2_1 IOM monitor input IOM_REF2_1 IOM reference input ERAY0_TXDA O4 ERAY0 output CCU61_COUT62 O5 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input — O6 Reserved CCU60_COUT62 O7 CCU60 output IOM_MON1_5 IOM monitor input IOM_REF1_1 IOM reference input P11.6 I QSPI1_SCLKB P11.6 O0 TOM0_11 O1 A1+ / HighZ / VDDP3 General-purpose input QSPI1 input (aka: SCLK1B) General-purpose output GTM_TOUT TOM1_3 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) ERAY0_TXENB O2 ERAY0 output QSPI1_SCLK O3 QSPI1 output (aka: SCLK1) ERAY0_TXENA O4 ERAY0 output CCU61_COUT61 O5 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input — O6 Reserved CCU60_COUT61 O7 CCU60 output IOM_MON1_4 IOM monitor input IOM_REF1_2 IOM reference input Data Sheet 2-26 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-5 Port 11 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function E7 P11.8 I A1 / HighZ / VDDP3 General-purpose input QSPI1_MTSRC P11.8 O0 TOM0_4 O1 General-purpose output GTM_TOUT (= DTM1_OUT4) TOM1_4 A9 QSPI1 input (aka: MTSR1C) GTM_TOUT (= DTM5_OUT4) — O2 Reserved QSPI1_SLSO10 O3 QSPI1 output (aka: SLSO110) QSPI1_MTSR O4 QSPI1 output (aka: MTSR1) — O5 Reserved — O6 Reserved — O7 Reserved P11.9 I QSPI1_MTSRB ERAY0_RXDA1 A1+ / HighZ / VDDP3 General-purpose input QSPI1 input (aka: MTSR1B) ERAY0 input P11.9 O0 General-purpose output TOM0_12 O1 GTM_TOUT TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) — O2 Reserved QSPI1_MTSR O3 QSPI1 output (aka: MTSR1) — O4 Reserved CCU61_COUT60 O5 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input — O6 Reserved CCU60_COUT60 O7 CCU60 output IOM_MON1_3 IOM monitor input IOM_REF1_3 IOM reference input Data Sheet 2-27 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-5 Port 11 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function B9 P11.10 I A1+ / HighZ / VDDP3 General-purpose input ASCLIN1_RXE ERAY0_RXDB1 A8 ASCLIN1 input (aka: ARX1E) ERAY0 input SCU_REQ12 SCU input CAN12_RXDD CAN1 node 2 input (aka: RXDCAN12D) P11.10 O0 General-purpose output TOM0_13 O1 GTM_TOUT TOM1_5 GTM_TOUT (= DTM5_OUT5) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) — O2 Reserved QSPI0_SLSO3 O3 QSPI0 output (aka: SLSO03) QSPI1_SLSO3 O4 QSPI1 output (aka: SLSO13) CCU61_CC62 O5 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input — O6 Reserved CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input P11.11 I P11.11 O0 TOM0_14 O1 A1+ / HighZ / VDDP3 General-purpose input General-purpose output GTM_TOUT TOM1_6 GTM_TOUT (= DTM5_OUT6) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) — O2 Reserved QSPI0_SLSO4 O3 QSPI0 output (aka: SLSO04) QSPI1_SLSO4 O4 QSPI1 output (aka: SLSO14) CCU61_CC61 O5 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input ERAY0_TXENB O6 ERAY0 output CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input Data Sheet 2-28 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-5 Port 11 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function B8 P11.12 I General-purpose input P11.12 O0 TOM0_15 O1 A1+ / HighZ / VDDP3 General-purpose output GTM_TOUT TOM1_7 GTM_TOUT (= DTM5_OUT7) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input GTM_CLK2 O3 GTM output ERAY0_TXDB O4 ERAY0 output CCU61_CC60 O5 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input SCU_EXTCLK1 O6 SCU output CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Table 2-6 Port 13 Functions Ball Symbol Ctrl. Buffer Type Function B12 P13.0 I A1 / HighZ / VDDP3 General-purpose input CCU60_CTRAPA GPT120_T6EUDB CCU60 input GPT120 input P13.0 O0 General-purpose output TOM0_5 O1 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) — O2 Reserved QSPI2_SCLK O3 QSPI2 output (aka: SCLK2) — O4 Reserved — O5 Reserved — O6 Reserved CAN10_TXD O7 CAN1 node 0 output (aka: TXDCAN10) Data Sheet 2-29 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-6 Port 13 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function A12 P13.1 I A1 / HighZ / VDDP3 General-purpose input CCU60_CCPOS0C GPT120_T3INB CAN10_RXDB B11 CCU60 input GPT120 input CAN1 node 0 input (aka: RXDCAN10B) P13.1 O0 General-purpose output TOM0_6 O1 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P13.2 I CCU60_CCPOS1C GPT120_T3EUDB GPT120_CAPINA A1 / HighZ / VDDP3 General-purpose input CCU60 input GPT120 input GPT120 input P13.2 O0 General-purpose output TOM0_7 O1 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) CAN11_TXD O2 CAN1 node 1 output (aka: TXDCAN11) — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-30 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-6 Port 13 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function A11 P13.3 I A1 / HighZ / VDDP3 General-purpose input CCU60_CCPOS2C GPT120_T4INB CAN11_RXDB CCU60 input GPT120 input CAN1 node 1 input (aka: RXDCAN11B) P13.3 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) — O2 Reserved QSPI2_MTSR O3 QSPI2 output (aka: MTSR2) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Table 2-7 Port 14 Functions Ball Symbol Ctrl. Buffer Type Function B16 P14.0 I A1+ / HighZ / VDDP3 General-purpose input TIM0_3 P14.0 O0 TOM0_3 O1 GTM_TIN General-purpose output GTM_TOUT TOM1_3 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) ASCLIN0_TX O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input ERAY0_TXDA O3 ERAY0 output ERAY0_TXDB O4 ERAY0 output CAN1_TXD O5 CAN node 1 output (aka: TXDCAN1) IOM_MON2_6 IOM monitor input IOM_REF2_6 IOM reference input ASCLIN0_SCLK O6 ASCLIN0 output (aka: ASCLK0) CCU60_COUT62 O7 CCU60 output IOM_MON1_5 IOM monitor input IOM_REF1_1 IOM reference input Data Sheet 2-31 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-7 Port 14 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function A15 P14.1 I A1+ / HighZ / VDDP3 General-purpose input TIM0_4 ASCLIN0_RXA GTM_TIN ASCLIN0 input (aka: ARX0A) CAN1_RXDB CAN node 1 input (aka: RXDCAN1B) ERAY0_RXDA3 ERAY0 input SCU_REQ15 SCU input ERAY0_RXDB3 ERAY0 input SCU_EVRWUPA AI SCU input P14.1 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_REF1_14 IOM reference input ASCLIN0_TX O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT63 O7 CCU60 output IOM_MON1_6 IOM monitor input IOM_REF1_0 IOM reference input Data Sheet 2-32 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-7 Port 14 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function E13 P14.2 I A1 / PU / VDDP3 General-purpose input TIM0_5 SCU_HWCFG2_EVR13 B14 GTM_TIN SCU input P14.2 O0 General-purpose output TOM0_5 O1 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_REF1_15 IOM reference input — O2 Reserved QSPI2_SLSO1 O3 QSPI2 output (aka: SLSO21) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P14.3 I TIM0_6 A1 / PU / VDDP3 General-purpose input GTM_TIN SCU_REQ10 SCU input SCU_HWCFG3_BMI SCU input P14.3 O0 General-purpose output TOM0_6 O1 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_REF2_4 IOM reference input — O2 Reserved QSPI2_SLSO3 O3 QSPI2 output (aka: SLSO23) ASCLIN1_SLSO O4 ASCLIN1 output (aka: ASLSO1) — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-33 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-7 Port 14 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function B15 P14.4 I A1+ / HighZ / VDDP3 General-purpose input TIM0_7 A14 P14.4 O0 TOM0_7 O1 GTM_TIN General-purpose output GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) IOM_REF2_8 IOM reference input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P14.5 I TIM0_0 P14.5 O0 TOM0_0 O1 A1+ / HighZ / VDDP3 General-purpose input GTM_TIN General-purpose output GTM_TOUT TOM1_0 GTM_TOUT IOM_REF2_11 IOM reference input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved ERAY0_TXDB O6 ERAY0 output — O7 Reserved Data Sheet 2-34 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-7 Port 14 Functions (cont’d) Ball Symbol Ctrl. Buffer Type B13 P14.6 I A1+ / PU / General-purpose input VDDP3 GTM_TIN TIM0_1 D13 Function SCU_HWCFG0_DCLD O SCU input QSPI0_MRSTD QSPI0 input (aka: MRST0D) P14.6 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 GTM_TOUT IOM_REF2_14 IOM reference input — O2 Reserved QSPI2_SLSO2 O3 QSPI2 output (aka: SLSO22) — O4 Reserved — O5 Reserved ERAY0_TXENB O6 ERAY0 output — O7 Reserved P14.7 I TIM0_0 ERAY0_RXDB0 A1 / HighZ / VDDP3 General-purpose input GTM_TIN ERAY0 input P14.7 O0 General-purpose output TOM0_0 O1 GTM_TOUT IOM_REF2_15 IOM reference input ASCLIN0_RTS O2 ASCLIN0 output (aka: ARTS0) QSPI2_SLSO4 O3 QSPI2 output (aka: SLSO24) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-35 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-7 Port 14 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function A13 P14.8 I A1 / HighZ / VDDP3 General-purpose input ASCLIN1_RXD CAN2_RXDD ERAY0_RXDA0 ASCLIN1 input (aka: ARX1D) CAN node 2 input (aka: RXDCAN2D) ERAY0 input P14.8 O0 General-purpose output TOM0_2 O1 GTM_TOUT — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Table 2-8 Port 15 Functions Ball Symbol Ctrl. Buffer Type Function B20 P15.0 I General-purpose input P15.0 O0 TOM1_3 O1 A1 / HighZ / VDDP3 General-purpose output GTM_TOUT TOM0_11 GTM_TOUT TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI0_SLSO13 O3 QSPI0 output (aka: SLSO013) — O4 Reserved CAN2_TXD O5 CAN node 2 output (aka: TXDCAN2) IOM_MON2_7 IOM monitor input IOM_REF2_7 IOM reference input ASCLIN1_SCLK O6 ASCLIN1 output (aka: ASCLK1) — O7 Reserved Data Sheet 2-36 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-8 Port 15 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function A18 P15.1 I A1 / HighZ / VDDP3 General-purpose input ASCLIN1_RXA QSPI2_SLSIB QSPI2 input (aka: SLSI2B) CAN2_RXDA CAN node 2 input (aka: RXDCAN2A) SCU_REQ16 SCU input SCU_EVRWUPB AI SCU input P15.1 O0 General-purpose output TOM1_4 O1 GTM_TOUT (= DTM5_OUT4) TOM0_12 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) ASCLIN1_TX C19 ASCLIN1 input (aka: ARX1A) O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI2_SLSO5 O3 QSPI2 output (aka: SLSO25) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P15.2 I QSPI2_MRSTE QSPI2_SLSIA QSPI2_HSICINA A1 / HighZ / VDDP3 General-purpose input QSPI2 input (aka: MRST2E) QSPI2 input (aka: SLSI2A) QSPI2 input (aka: HSIC2INA) P15.2 O0 General-purpose output TOM1_5 O1 GTM_TOUT (= DTM5_OUT5) TOM0_13 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) ASCLIN0_TX O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input QSPI2_SLSO0 O3 QSPI2 output (aka: SLSO20) — O4 Reserved CAN1_TXD O5 CAN node 1 output (aka: TXDCAN1) IOM_MON2_6 IOM monitor input IOM_REF2_6 IOM reference input ASCLIN0_SCLK O6 ASCLIN0 output (aka: ASCLK0) — O7 Reserved Data Sheet 2-37 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-8 Port 15 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function B17 P15.3 I A1 / HighZ / VDDP3 General-purpose input ASCLIN0_RXB QSPI2_SCLKA QSPI2 input (aka: SCLK2A) QSPI2_HSICINB QSPI2 input (aka: HSIC2INB) CAN1_RXDA CAN node 1 input (aka: RXDCAN1A) P15.3 O0 General-purpose output TOM1_6 O1 GTM_TOUT (= DTM5_OUT6) TOM0_14 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) ASCLIN0_TX A17 ASCLIN0 input (aka: ARX0B) O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input QSPI2_SCLK O3 QSPI2 output (aka: SCLK2) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P15.4 I QSPI2_MRSTA SCU_REQ0 A1 / HighZ / VDDP3 General-purpose input QSPI2 input (aka: MRST2A) SCU input P15.4 O0 General-purpose output TOM1_7 O1 GTM_TOUT (= DTM5_OUT7) TOM0_15 ASCLIN1_TX GTM_TOUT O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI2_MRST O3 QSPI2 output (aka: MRST2) IOM_MON2_2 IOM monitor input IOM_REF2_2 IOM reference input — O4 Reserved — O5 Reserved — O6 Reserved CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input Data Sheet 2-38 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-8 Port 15 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function E14 P15.5 I A1 / HighZ / VDDP3 General-purpose input ASCLIN1_RXB QSPI2_MTSRA SCU_REQ13 QSPI2 input (aka: MTSR2A) SCU input P15.5 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) ASCLIN1_TX A16 ASCLIN1 input (aka: ARX1B) O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI2_MTSR O3 QSPI2 output (aka: MTSR2) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input P15.6 I TIM0_0 QSPI2_MTSRB A1 / HighZ / VDDP3 General-purpose input GTM_TIN QSPI2 input (aka: MTSR2B) P15.6 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT — O2 Reserved QSPI2_MTSR O3 QSPI2 output (aka: MTSR2) — O4 Reserved QSPI2_SCLK O5 QSPI2 output (aka: SCLK2) — O6 Reserved CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Data Sheet 2-39 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-8 Port 15 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function D15 P15.7 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 QSPI2_MRSTB QSPI2 input (aka: MRST2B) P15.7 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 D14 GTM_TIN GTM_TOUT — O2 Reserved QSPI2_MRST O3 QSPI2 output (aka: MRST2) IOM_MON2_2 IOM monitor input IOM_REF2_2 IOM reference input — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT60 O7 CCU60 output IOM_MON1_3 IOM monitor input IOM_REF1_3 IOM reference input P15.8 I TIM0_2 QSPI2_SCLKB SCU_REQ1 A1 / HighZ / VDDP3 General-purpose input GTM_TIN QSPI2 input (aka: SCLK2B) SCU input P15.8 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_2 GTM_TOUT — O2 Reserved QSPI2_SCLK O3 QSPI2 output (aka: SCLK2) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT61 O7 CCU60 output IOM_MON1_4 IOM monitor input IOM_REF1_2 IOM reference input Data Sheet 2-40 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-9 Port 20 Functions Ball Symbol Ctrl. Buffer Type Function H20 P20.0 I A1 / HighZ / VDDP3 General-purpose input TIM0_6 SCU_REQ9 OCDS input GPT120_T6EUDA GPT120 input CAN11_RXDC CAN1 node 1 input (aka: RXDCAN11C) CAN12_RXDC CAN1 node 2 input (aka: RXDCAN12C) P20.0 O0 General-purpose output TOM0_6 O1 GTM_TOUT (= DTM1_OUT6) GTM_TOUT (= DTM5_OUT6) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved OCDS_TGO0 O OCDS P20.2 I Input Only General-purpose input / PU / Factory Test Mode Enable VDDP3 I A1 / HighZ / VDDP3 TESTMODE G20 SCU input OCDS_TGI0 TOM1_6 H19 GTM_TIN P20.3 TIM0_4 GPT120_T6INA General-purpose input GTM_TIN GPT120 input P20.3 O0 General-purpose output TOM1_12 O1 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) IOM_MON1_14 IOM monitor input — O2 Reserved QSPI0_SLSO9 O3 QSPI0 output (aka: SLSO09) QSPI2_SLSO9 O4 QSPI2 output (aka: SLSO29) CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) — O6 Reserved — O7 Reserved Data Sheet 2-41 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-9 Port 20 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function F17 P20.6 I A1 / HighZ / VDDP3 General-purpose input TIM0_6 F19 P20.6 O0 TOM1_10 O1 GTM_TIN General-purpose output GTM_TOUT TOM0_10 GTM_TOUT IOM_MON1_15 IOM monitor input ASCLIN1_RTS O2 ASCLIN1 output (aka: ARTS1) QSPI0_SLSO8 O3 QSPI0 output (aka: SLSO08) QSPI2_SLSO8 O4 QSPI2 output (aka: SLSO28) — O5 Reserved — O6 Reserved — O7 Reserved P20.7 I TIM0_7 ASCLIN1_CTSA CAN0_RXDB A1 / HighZ / VDDP3 General-purpose input GTM_TIN ASCLIN1 input (aka: ACTS1A) CAN node 0 input (aka: RXDCAN0B) P20.7 O0 General-purpose output TOM1_11 O1 GTM_TOUT TOM0_11 GTM_TOUT IOM_MON2_4 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved CCU61_COUT63 O7 CCU61 output IOM_MON1_7 IOM monitor input IOM_REF1_7 IOM reference input Data Sheet 2-42 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-9 Port 20 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function F20 P20.8 I A1 / HighZ / VDDP3 General-purpose input TIM0_7 E17 P20.8 O0 TOM1_7 O1 GTM_TIN General-purpose output GTM_TOUT (= DTM5_OUT7) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_MON2_8 IOM monitor input ASCLIN1_SLSO O2 ASCLIN1 output (aka: ASLSO1) QSPI0_SLSO0 O3 QSPI0 output (aka: SLSO00) QSPI1_SLSO0 O4 QSPI1 output (aka: SLSO10) CAN0_TXD O5 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input SCU_WDT0LCK O6 SCU output CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input P20.9 I ASCLIN1_RXC QSPI0_SLSIB A1 / HighZ / VDDP3 General-purpose input ASCLIN1 input (aka: ARX1C) QSPI0 input (aka: SLSI0B) SCU_REQ11 SCU input CAN12_RXDE CAN1 node 2 input (aka: RXDCAN12E) P20.9 O0 General-purpose output TOM1_13 O1 GTM_TOUT TOM0_13 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_MON2_11 IOM monitor input — O2 Reserved QSPI0_SLSO1 O3 QSPI0 output (aka: SLSO01) QSPI1_SLSO1 O4 QSPI1 output (aka: SLSO11) — O5 Reserved SCU_WDTSLCK O6 SCU output CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input Data Sheet 2-43 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-9 Port 20 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function E19 P20.10 I General-purpose input P20.10 O0 TOM1_14 O1 A1 / HighZ / VDDP3 GTM_TOUT TOM0_14 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_MON2_14 IOM monitor input ASCLIN1_TX E20 General-purpose output O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI0_SLSO6 O3 QSPI0 output (aka: SLSO06) QSPI2_SLSO7 O4 QSPI2 output (aka: SLSO27) CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) ASCLIN1_SCLK O6 ASCLIN1 output (aka: ASCLK1) CCU61_CC62 O7 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input P20.11 I QSPI0_SCLKA P20.11 O0 TOM1_15 O1 A1+ / HighZ / VDDP3 General-purpose input QSPI0 input (aka: SCLK0A) General-purpose output GTM_TOUT TOM0_15 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_MON2_15 IOM monitor input — O2 Reserved QSPI0_SCLK O3 QSPI0 output (aka: SCLK0) — O4 Reserved CAN11_TXD O5 CAN1 node 1 output (aka: TXDCAN11) — O6 Reserved CCU61_COUT60 O7 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input Data Sheet 2-44 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-9 Port 20 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function D19 P20.12 I A1 / HighZ / VDDP3 General-purpose input QSPI0_MRSTA CAN11_RXDH IOM_PIN13 D20 QSPI0 input (aka: MRST0A) CAN1 node 1 input (aka: RXDCAN11H) IOM pad input P20.12 O0 General-purpose output TOM1_0 O1 GTM_TOUT TOM0_8 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_MON0_13 IOM monitor input — O2 Reserved QSPI0_MRST O3 QSPI0 output (aka: MRST0) IOM_MON2_0 IOM monitor input IOM_REF2_0 IOM reference input QSPI0_MTSR O4 QSPI0 output (aka: MTSR0) — O5 Reserved — O6 Reserved CCU61_COUT61 O7 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input P20.13 I QSPI0_SLSIA CAN12_RXDH IOM_PIN14 A1+ / HighZ / VDDP3 General-purpose input QSPI0 input (aka: SLSI0A) CAN1 node 2 input (aka: RXDCAN12H) IOM pad input P20.13 O0 General-purpose output TOM1_1 O1 GTM_TOUT TOM0_9 GTM_TOUT TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_MON0_14 IOM monitor input — O2 Reserved QSPI0_SLSO2 O3 QSPI0 output (aka: SLSO02) QSPI1_SLSO2 O4 QSPI1 output (aka: SLSO12) QSPI0_SCLK O5 QSPI0 output (aka: SCLK0) — O6 Reserved CCU61_COUT62 O7 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input Data Sheet 2-45 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-9 Port 20 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function C20 P20.14 I A1+ / HighZ / VDDP3 General-purpose input QSPI0_MTSRA IOM_PIN15 QSPI0 input (aka: MTSR0A) IOM pad input P20.14 O0 General-purpose output TOM1_2 O1 GTM_TOUT TOM0_10 GTM_TOUT TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_MON0_15 IOM monitor input — O2 Reserved QSPI0_MTSR O3 QSPI0 output (aka: MTSR0) — O4 Reserved CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) — O6 Reserved — O7 Reserved Table 2-10 Port 21 Functions Ball Symbol Ctrl. Buffer Type Function K19 P21.2 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 SCU_EMGSTOPB GTM_TIN SCU input P21.2 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-46 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-10 Port 21 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function J19 P21.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 K20 P21.3 O0 TOM0_1 O1 GTM_TIN General-purpose output GTM_TOUT TOM1_1 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P21.4 I TIM0_2 P21.4 O0 TOM0_2 O1 A1 / HighZ / VDDP3 General-purpose input GTM_TIN General-purpose output GTM_TOUT TOM1_2 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-47 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-10 Port 21 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function J20 P21.5 I A1 / HighZ / VDDP3 General-purpose input TIM0_3 H17 P21.5 O0 TOM0_3 O1 GTM_TIN General-purpose output GTM_TOUT TOM1_3 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P21.6 I TIM0_4 A1 / PU / VDDP3 General-purpose input GTM_TIN TDI OCDS input OCDS_TGI2 OCDS input GPT120_T5EUDA GPT120 input P21.6 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved GPT120_T3OUT O7 GPT120 output OCDS_TGO2 O OCDS Data Sheet 2-48 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-10 Port 21 Functions (cont’d) Function Ball Symbol Ctrl. Buffer Type H16 P21.7 I A1+ / PU / General-purpose input VDDP3 GTM_TIN TIM0_5 OCDS_DAP2 OCDS input OCDS_TGI3 OCDS input GPT120_T5INA GPT120 input P21.7 O0 General-purpose output TOM0_5 O1 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved GPT120_T6OUT O7 GPT120 output OCDS_TGO3 O OCDS OCDS_DAP2 O OCDS Output TDO O JTAG Output Table 2-11 Port 22 Functions Ball Symbol Ctrl. Buffer Type Function P20 P22.0 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 QSPI3_MTSRE GTM_TIN QSPI3 input (aka: MTSR3E) P22.0 O0 General-purpose output TOM0_9 O1 GTM_TOUT TOM1_1 GTM_TOUT — O2 Reserved QSPI3_MTSR O3 QSPI3 output (aka: MTSR3) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-49 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-11 Port 22 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function P19 P22.1 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 QSPI3_MRSTE R20 GTM_TIN QSPI3 input (aka: MRST3E) P22.1 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) — O2 Reserved QSPI3_MRST O3 QSPI3 output (aka: MRST3) IOM_MON2_3 IOM monitor input IOM_REF2_3 IOM reference input — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P22.2 I TIM0_3 QSPI3_SLSID A1 / HighZ / VDDP3 General-purpose input GTM_TIN QSPI3 input (aka: SLSI3D) P22.2 O0 General-purpose output TOM0_11 O1 GTM_TOUT TOM1_3 GTM_TOUT TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) — O2 Reserved QSPI3_SLSO12 O3 QSPI3 output (aka: SLSO312) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-50 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-11 Port 22 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function R19 P22.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_4 QSPI3_SCLKE P16 GTM_TIN QSPI3 input (aka: SCLK3E) P22.3 O0 General-purpose output TOM0_12 O1 GTM_TOUT TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) — O2 Reserved QSPI3_SCLK O3 QSPI3 output (aka: SCLK3) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P22.4 I P22.4 O0 TOM0_7N O1 TOM1_7N A1 / HighZ / VDDP3 General-purpose input General-purpose output GTM_TOUT (= DTM1_OUT7_N) GTM_TOUT (= DTM5_OUT7_N) — O2 Reserved — O3 Reserved QSPI0_SLSO12 O4 QSPI0 output (aka: SLSO012) — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-51 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-12 Port 23 Functions Ball Symbol Ctrl. Buffer Type Function U19 P23.1 I A1+ / HighZ / VDDP3 General-purpose input TIM0_6 P23.1 O0 TOM0_6 O1 GTM_TIN General-purpose output GTM_TOUT (= DTM1_OUT6) TOM0_15 GTM_TOUT ASCLIN1_RTS O2 ASCLIN1 output (aka: ARTS1) QSPI3_SLSO13 O3 QSPI3 output (aka: SLSO313) GTM_CLK0 O4 GTM output SCU_EXTCLK1 O5 SCU output SCU_EXTCLK0 O6 SCU output — O7 Reserved Table 2-13 Port 33 Functions Ball Symbol Ctrl. Buffer Type Function W10 P33.0 I A1 / HighZ / VDDP3 General-purpose input TIM0_4 IOM_PIN0 GTM_TIN IOM pad input P33.0 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_MON0_0 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved VADC_G1BFL0 O6 VADC output — O7 Reserved Data Sheet 2-52 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-13 Port 33 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function Y10 P33.1 I A1 / HighZ / VDDP3 General-purpose input TIM0_5 IOM_PIN1 W11 GTM_TIN IOM pad input P33.1 O0 General-purpose output TOM0_5 O1 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_MON0_1 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved VADC_EMUX02 O5 VADC output VADC_G1BFL1 O6 VADC output — O7 Reserved P33.2 I TIM0_6 IOM_PIN2 A1 / HighZ / VDDP3 General-purpose input GTM_TIN IOM pad input P33.2 O0 General-purpose output TOM0_6 O1 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_MON0_2 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved VADC_EMUX01 O5 VADC output VADC_G1BFL2 O6 VADC output CCU61_COUT63 O7 CCU61 output IOM_MON1_7 IOM monitor input IOM_REF1_7 IOM reference input Data Sheet 2-53 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-13 Port 33 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function Y11 P33.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_7 IOM_PIN3 W12 GTM_TIN IOM pad input P33.3 O0 General-purpose output TOM0_7 O1 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_MON0_3 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved VADC_EMUX00 O5 VADC output VADC_G1BFL3 O6 VADC output CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input P33.4 I TIM0_0 CCU61_CTRAPC IOM_PIN4 A1 / HighZ / VDDP3 General-purpose input GTM_TIN CCU61 input IOM pad input P33.4 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT IOM_MON0_4 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved VADC_EMUX12 O5 VADC output VADC_G0BFL0 O6 VADC output — O7 Reserved Data Sheet 2-54 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-13 Port 33 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function Y12 P33.5 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 CCU61_CCPOS2C GTM_TIN CCU61 input GPT120_T4EUDB GPT120 input IOM_PIN5 IOM pad input P33.5 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_MON0_5 IOM monitor input QSPI0_SLSO7 O2 QSPI0 output (aka: SLSO07) QSPI1_SLSO7 O3 QSPI1 output (aka: SLSO17) — O4 Reserved VADC_EMUX11 O5 VADC output VADC_G0BFL1 O6 VADC output CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input Data Sheet 2-55 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-13 Port 33 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function W13 P33.6 I A1 / HighZ / VDDP3 General-purpose input TIM0_2 ASCLIN1_RXF GTM_TIN ASCLIN1 input (aka: ARX1F) CCU61_CCPOS1C CCU61 input GPT120_T2EUDB GPT120 input CAN10_RXDH CAN1 node 0 input (aka: RXDCAN10H) IOM_PIN6 IOM pad input P33.6 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_2 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_MON0_6 IOM monitor input — O2 Reserved — O3 Reserved ASCLIN1_TX O4 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input VADC_EMUX10 O5 VADC output VADC_G0BFL2 O6 VADC output CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input HSM_HSM1 Data Sheet O HSM output 2-56 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-13 Port 33 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function Y13 P33.7 I A1+ / HighZ / VDDP3 General-purpose input TIM0_3 CAN0_RXDE GTM_TIN CAN node 0 input (aka: RXDCAN0E) SCU_REQ8 SCU input CCU61_CCPOS0C CCU61 input GPT120_T2INB GPT120 input IOM_PIN7 IOM pad input P33.7 O0 General-purpose output TOM0_3 O1 GTM_TOUT TOM1_3 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_MON0_7 IOM monitor input — O2 Reserved QSPI3_SLSO7 O3 QSPI3 output (aka: SLSO37) — O4 Reserved CAN10_TXD O5 CAN1 node 0 output (aka: TXDCAN10) VADC_G0BFL3 O6 VADC output CCU61_COUT60 O7 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input HSM_HSM2 Data Sheet O HSM output 2-57 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-13 Port 33 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function W14 P33.8 I A1+ / HighZ / VDDP3 General-purpose input TIM0_4 SCU_EMGSTOPA IOM_PIN8 GTM_TIN SCU input IOM pad input P33.8 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_MON0_8 IOM monitor input — O2 Reserved QSPI3_SLSO2 O3 QSPI3 output (aka: SLSO32) — O4 Reserved CAN0_TXD O5 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input — O6 Reserved CCU61_COUT62 O7 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input SMU_FSP Data Sheet O SMU 2-58 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-13 Port 33 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function Y14 P33.9 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 QSPI3_HSICINA IOM_PIN9 W15 GTM_TIN QSPI3 input (aka: HSIC3INA) IOM pad input P33.9 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_MON0_9 IOM monitor input — O2 Reserved QSPI3_SLSO1 O3 QSPI3 output (aka: SLSO31) — O4 Reserved — O5 Reserved — O6 Reserved CCU61_CC62 O7 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input P33.10 I TIM0_0 QSPI3_SLSIC A1+ / HighZ / VDDP3 General-purpose input GTM_TIN QSPI3 input (aka: SLSI3C) QSPI3_HSICINB QSPI3 input (aka: HSIC3INB) IOM_PIN10 IOM pad input P33.10 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) IOM_MON0_10 IOM monitor input QSPI1_SLSO6 O2 QSPI1 output (aka: SLSO16) QSPI3_SLSO11 O3 QSPI3 output (aka: SLSO311) ASCLIN1_SLSO O4 ASCLIN1 output (aka: ASLSO1) GTM_CLK1 O5 GTM output SCU_EXTCLK1 O6 SCU output CCU61_COUT61 O7 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input Data Sheet 2-59 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-13 Port 33 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function Y15 P33.11 I A1 / HighZ / VDDP3 General-purpose input TIM0_2 QSPI3_SCLKD W16 GTM_TIN QSPI3 input (aka: SCLK3D) SCU_REQ17 SCU input IOM_PIN11 IOM pad input P33.11 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_2 GTM_TOUT IOM_MON0_11 IOM monitor input ASCLIN1_SCLK O2 ASCLIN1 output (aka: ASCLK1) QSPI3_SCLK O3 QSPI3 output (aka: SCLK3) — O4 Reserved — O5 Reserved SMPS_DCDCSYNC O6 SCU output CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input SMPS_DCDCSYNC O P33.12 I TIM0_0 QSPI3_MTSRD IOM_PIN12 SCU output A1 / HighZ / VDDP3 General-purpose input GTM_TIN QSPI3 input (aka: MTSR3D) IOM pad input P33.12 O0 General-purpose output TOM1_12 O1 GTM_TOUT TOM0_12 GTM_TOUT IOM_MON0_12 IOM monitor input ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI3_MTSR O3 QSPI3 output (aka: MTSR3) ASCLIN1_SCLK O4 ASCLIN1 output (aka: ASCLK1) — O5 Reserved — O6 Reserved CCU61_COUT60 O7 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input Data Sheet 2-60 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-14 Port 34 Functions Ball Symbol Ctrl. Buffer Type Function U10 P34.0 I General-purpose input P34.0 O0 TOM1_12 O1 A1 / HighZ / VDDP3 — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P34.1 I P34.1 O0 TOM1_13 O1 ASCLIN0_TX O2 U11 T12 A1 / HighZ / VDDP3 General-purpose output GTM_TOUT General-purpose input General-purpose output GTM_TOUT ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input — O3 Reserved CAN0_TXD O4 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input — O5 Reserved — O6 Reserved — O7 Reserved P34.2 I ASCLIN0_RXD CAN0_RXDG A1 / HighZ / VDDP3 General-purpose input ASCLIN0 input (aka: ARX0D) CAN node 0 input (aka: RXDCAN0G) P34.2 O0 General-purpose output TOM1_14 O1 GTM_TOUT — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-61 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-14 Port 34 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Function U12 P34.3 I A1 / HighZ / VDDP3 General-purpose input ASCLIN1_CTSB ASCLIN1 input (aka: ACTS1B) P34.3 O0 TOM1_15 O1 GTM_TOUT — O2 Reserved — O3 Reserved QSPI2_SLSO10 O4 QSPI2 output (aka: SLSO210) — O5 Reserved — O6 Reserved — O7 Reserved General-purpose output Table 2-15 Port 40 Functions Function Ball Symbol Ctrl. Buffer Type W9 P40.0 I S / VDDM General-purpose input VADCG0_0 AI P40.1 I VADCG0_1 AI P40.2 I VADCG0_2 AI P40.3 I VADCG0_3 AI P40.4 I VADCG0_4 AI P40.5 I VADCG0_5 AI P40.6 I VADCG0_6 AI P40.7 I VADCG0_7 AI P40.8 I VADCG0_8 AI P40.9 I VADCG0_9 AI Y9 W8 Y8 W7 W6 W5 W4 W3 Y3 Data Sheet VADC input channel 0 of group 0 S / VDDM General-purpose input VADC input channel 1 of group 0 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 2 of group 0 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 3 of group 0 S / VDDM General-purpose input VADC input channel 4 of group 0 S / VDDM General-purpose input VADC input channel 5 of group 0 S / VDDM General-purpose input VADC input channel 6 of group 0 S / VDDM General-purpose input VADC input channel 7 of group 0 (with pull down diagnostics) S / VDDM General-purpose input VADC input channel 8 of group 0 S / VDDM General-purpose input VADC input channel 9 of group 0 (with multiplexer diagnostics) 2-62 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-15 Port 40 Functions (cont’d) Ball Symbol Ctrl. Buffer Type Y2 P40.10 I S / VDDM General-purpose input VADCG0_10 AI P40.11 I W1 Function VADC input channel 10 of group 0 (with multiplexer diagnostics) S / VDDM General-purpose input SENT_SENT0A SENT input CCU60_CCPOS0D CCU60 input VADCG0_11 AI VADC input channel 11 of group 0 Table 2-16 Port 41 Functions Ball Symbol Ctrl. Buffer Type V2 P41.0 I S / VDDM General-purpose input V1 U2 U1 R1 R2 P2 P1 N1 Function SENT_SENT1A SENT input CCU60_CCPOS1B CCU60 input VADCG1_0 AI P41.1 I VADCG1_1 AI P41.2 I VADC input channel 0 of group 1 S / VDDM General-purpose input VADC input channel 1 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input SENT_SENT2A SENT input CCU61_CCPOS1B CCU61 input VADCG1_2 AI P41.3 I VADC input channel 2 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input SENT_SENT3A SENT input CCU61_CCPOS1D CCU61 input VADCG1_3 AI P41.4 I VADCG1_4 AI P41.5 I VADCG1_5 AI P41.6 I VADCG1_6 AI P41.7 I VADCG1_7 AI P41.8 I VADCG1_8 AI Data Sheet VADC input channel 3 of group 1 (with pull down diagnostics) S / VDDM General-purpose input VADC input channel 4 of group 1 S / VDDM General-purpose input VADC input channel 5 of group 1 S / VDDM General-purpose input VADC input channel 6 of group 1 S / VDDM General-purpose input VADC input channel 7 of group 1 S / VDDM General-purpose input VADC input channel 8 of group 1 2-63 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-16 Port 41 Functions (cont’d) Ball Symbol Ctrl. Buffer Type N2 P41.9 I S / VDDM General-purpose input VADCG1_9 AI P41.10 I VADCG1_10 AI P41.11 I VADCG1_11 AI M1 M2 Function VADC input channel 9 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 10 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 11 of group 1 Table 2-17 System I/O Ball Symbol Ctrl. Buffer Type Function M20 XTAL1 I VDDP3 Main Oscillator/PLL/Clock Generator Input M19 XTAL2 O VDDP3 Main Oscillator/PLL/Clock Generator Output K16 TMS/DAP1 I DAP1 I/O A1+ / PD / Debug Interface VDDP3 Device Access Port LIne 1 L19 TRST I Input Only JTAG Module Reset/Enable Input / PD / VDDP3 J16 TCK/DAP0 I DAP0 I Input Only OCDS input / PD / Device Access Port LIne 0 VDDP3 ESR1 I/O EVRWUP I G17 PORST I Input Only Power On Reset / PD / Additional strong PD in case of power fail. VDDP3 F16 ESR0 I/O EVRWUP I A1+ / OD / SCU input/output VDDP3 EVR Wakeup Pin G16 A1+ / PU / SCU input VDDP3 EVR Wakeup Pin Table 2-18 Supply Ball Symbol Ctrl. Buffer Type Function Y7 VAGND I — Negative Analog Reference Voltage 0 Y6 VAREF I — Positive Analog Reference Voltage 0 Data Sheet 2-64 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-18 Supply (cont’d) Ball Symbol Ctrl. Buffer Type Function H7, G8, P8, N7, P13, N14, H14, G13 VDD I — Digital Core Power Supply (1.3V) A2, B3, W20, V19, T11, A19, B18, D16, E15, D5 VDDP3 I — Digital I/O Power Supply (3.3V) Y4 VSSM I — Analog Ground for VDDM Y5 VDDM I — ADC Power Supply (5.0V) M14, L14, J14, M13, L13, K13, J13 VSS I — Digital Core Ground (0V) P12, N12, L12, K12, H12, G12 VSS I — Digital Core Ground (0V) P11, N11, M11, L11, K11, J11, H11, G11 VSS I — Digital Core Ground (0V) Data Sheet 2-65 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-18 Supply (cont’d) Ball Symbol Ctrl. Buffer Type Function P10, N10, M10, L10, K10, J10, H10, G10 VSS I — Digital Core Ground (0V) VSS P9, N9, L9, K9, H9, G9 I — Digital Core Ground (0V) VSS M8, L8, K8, J8, M7, L7, K7, J7 I — Digital Core Ground (0V) VSS Y20, W19, U17, T16, A20, B19, D17, E16, B2, D4, E5 I — Digital Core Ground (0V) L20 VSS I — Digital Core Ground (0V) N19 VDD I — Digital Core Power Supply (1.3V) This pin supplies also the main XTAL Oscillator/PLL (1.3V). A higher decoupling capacitor is therefore recommended to the VSS pin for better noise immunity. N20 VDDP3 I — Digital I/O Power Supply (3.3V) This pin supplies also the main XTAL Oscillator/PLL (3.3V). A higher decoupling capacitor is therefore recommended to the VSS pin for better noise immunity. Data Sheet 2-66 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-18 Supply (cont’d) Ball Symbol A1, L1, NC T1, Y1, T2, W2, A3, B4, E4, F4, G4, H4, L4, M4, N4, P4, R4, T4, U4, F5, G5, H5, J5, K5, L5, M5, N5, P5, R5, T5, U5 Data Sheet Ctrl. Buffer Type Function I — Not connected These pins are reserved for future extensions and shall not be connected externally. 2-67 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-18 Supply (cont’d) Ball Symbol Ctrl. Buffer Type Function B6, D6, E6, T6, U6, A7, D7, T7, U7, D8, E8, T8, U8, E9, T9, U9, D10, E10, T10, D11, E11, D12, E12, T13, U13, K14, T14, U14 NC I — Not connected These pins are reserved for future extensions and shall not be connected externally. Data Sheet 2-68 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-LFBGA-292-6 Package Variant Pin Table 2-18 Supply (cont’d) Ball Symbol Ctrl. Buffer Type Function T15, U15, L16, M16, N16, R16, U16, Y16, J17, K17, L17, M17, N17, P17, R17, T17, W17, W18, G19, T19, Y19, T20, U20, V20 NC I — Not connected These pins are reserved for future extensions and shall not be connected externally. 2.1.2 Pull-Up/Pull-Down Reset Behavior of the Pins Table 2-19 List of Pull-Up/Pull-Down Reset Behavior of the Pins Pins PORST = 0 all GPIOs High-Z TDI, TESTMODE Pull-up 1) PORST Pull-down with IPORST relevant TRST, TCK, TMS Pull-down ESR0 The open-drain driver is used to drive low.2) ESR1 Pull-up3) P14.2, P14.3, P14.6 Pull-up P21.7 / TDO Pull-up 1) 2) 3) 4) PORST = 1 Pull-down with IPDLI relevant Pull-up3) High-Z/Pull-up4) Pull-down with IPORST relevant is always activated when a primary supply monitor detects a violation. Valid additionally after deactivation of PORST until the internal reset phase has finished. See the SCU chapter for details. See the SCU_IOCR register description. Depends on JTAG/DAP selection with TRST. Data Sheet 2-69 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin 2.2 PG-TQFP-144-27 Package Variant Pin Configuration of TC23x-ADAS 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 P10.6 P10.5 P10.3 P10.2 P10.1 P11.12 P11.11 P11.10 P11.8 P11.9 P11.6 P11.3 P11.2 P13.3 P13.2 P13.1 P13.0 P14.8 V DDP3 P14.7 P14.6 P14.5 P14.4 P14.3 P14.2 P14.1/B ootloader P14.0/B ootloader P15.8 P15.7 P15.6 P15.5 P15.4 P15.3 P15.2 P15.1 P15.0 Figure 2-1 is showing the TC23x pinout for the package variant: PG-TQFP-144-27. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 TC23x‐ADAS (Top View) 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 P20.14 P20.13 P20.12 P20.11 P20.10 P20.9 P20.8 P20.7 P20.6 VDD ESR0 PORST ESR1 P20.3 P20.2/TESTMODE P20.0 TCK/ DAP0 TRST P21.7/TDO/DAP2 TMS/DAP1 P21.6/TDI P21.5 P21.4 P21.3 P21.2 VDDP 3 XTAL2 XTAL1 VS S VDD P22.4 P22.3 P22.2 P22.1 P22.0 P23.1 AN10/P 40.10 AN9/P 40.9 AN8/P 40.8 AN7/P 40.7 VAGND VAR E F VS SM VDDM AN6/P 40.6 AN5/P 40.5 AN4/P 40.4 AN3/P 40.3 AN2/P 40.2 AN1/P 40.1 AN0/P 40.0 P 34.0 P 34.1 P 34.2 P 34.3 P 33.0 P 33.1 P 33.2 P 33.3 P 33.4 P 33.5 P 33.6 P 33.7 P 33.8 P 33.9 P 33.10 P 33.11 P 33.12 V DDP 3 VDD VC AP0 VC AP1 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 P02.0 P02.1 P02.2 P02.3 P02.4 P02.5 P02.6 P02.7 P02.8 V DD/V DDS B P00.0 P00.1 P00.2 P00.3 P00.4 P00.5 P00.6 P00.7 P00.8 P00.9 P00.12 VDD V DDP3 AN23/P41.11 AN22/P41.10 AN21/P41.9 AN20/P41.8 AN19/P41.7 AN18/P41.6 AN17/P41.5 AN16/P41.4 AN15/P41.3 AN14/P41.2 AN13/P41.1 AN12/P41.0 AN11/P40.11 Figure 2-2 TC23x-ADAS Pinout for the package variant PG-TQFP-144-27. Data Sheet 2-70 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin 2.2.1 Port Functions and Pinning Tables 2.2.1.1 How to Read the Following Port Function Tables Some hints for interpreting the following tables. Column “Ctrl.”: I = Input (for GPIO port Lines with IOCR bit field Selection PCx = 0XXXB) AI = Analog input O = Output O0 = Output with IOCR bit field selection PCx = 1X000B O1 = Output with IOCR bit field selection PCx = 1X001B (ALT1) O2 = Output with IOCR bit field selection PCx = 1X010B (ALT2) O3 = Output with IOCR bit field selection PCx = 1X011B (ALT3) O4 = Output with IOCR bit field selection PCx = 1X100B (ALT4) O5 = Output with IOCR bit field selection PCx = 1X101B (ALT5) O6 = Output with IOCR bit field selection PCx = 1X110B (ALT6) O7 = Output with IOCR bit field selection PCx = 1X111B (ALT7) Table 2-20 Example Port Table Pin Symbol Ctrl. Buffer Type 10 Pxx.y I A1 / HighZ / General-purpose input VDDP3 GTM_TIN TIMm_n TOMa_b O1 Function GTM_TOUT TOMc_d GTM_TOUT IOM_REFv_w IOM reference input To each input several functions can be connected. The peripherals’ configuration defines if this input is used. The port module (see corresponding chapter) decides which of the 8 output signals O0 to O7 drives the pad. Some Ox rows list more than one function, e.g. several GTM_TOUT and IOM reference inputs. The GTM module (see corresponding chapter) has its own sub-multiplexer structure that defines which of the GTM sub-units drives this signal. Additionally the IOM modules “listens” on these output signals (see IOM chapter). Column “Type”: IN = Input only A1 = Pad class A1 (3.3V) A1+ = Pad class A1+ (3.3V) S = ADC with digital input. Pad class D for analog input “AI”, pad class S for digital input “I”. PU = with pull-up device connected during reset (PORST = 0) PD = with pull-down device connected during reset (PORST = 0) High-Z = High-Z during reset (PORST = 0) Vx = Supply (the Exposed Pad is also considered as VSS and shall be connected to ground) 2.2.1.2 Tables Port function and pinning tables. Data Sheet 2-71 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-21 Port 00 Functions Pin Symbol Ctrl. Buffer Type Function 11 P00.0 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 CCU61_CTRAPA GTM_TIN CCU61 input CCU60_T12HRE CCU60 input ETH0_MDIOA Ethernet input P00.0 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_REF0_9 IOM reference input ASCLIN0_SCLK O2 ASCLIN0 output (aka: ASCLK0) ASCLIN0_TX O3 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input — O4 Reserved CAN1_TXD O5 CAN node 1 output (aka: TXDCAN1) IOM_MON2_6 IOM monitor input IOM_REF2_6 IOM reference input — O6 Reserved CCU60_COUT63 O7 CCU60 output IOM_MON1_6 IOM monitor input IOM_REF1_0 IOM reference input ETH0_MDIO Data Sheet O Ethernet output 2-72 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-21 Port 00 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 12 P00.1 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 ASCLIN0_RXC GTM_TIN ASCLIN0 input (aka: ARX0C) CAN1_RXDD CAN node 1 input (aka: RXDCAN1D) SENT_SENT0B SENT input CCU60_CC60INB CCU60 input CCU61_CC60INA CCU61 input P00.1 O0 General-purpose output TOM0_9 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_REF0_10 IOM reference input ASCLIN0_TX O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input — O3 Reserved — O4 Reserved — O5 Reserved SENT_SPC0 O6 SENT output CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input Data Sheet 2-73 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-21 Port 00 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 13 P00.2 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 SENT_SENT1B 14 GTM_TIN SENT input P00.2 O0 General-purpose output TOM0_9 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_REF0_11 IOM reference input ASCLIN0_SCLK O2 ASCLIN0 output (aka: ASCLK0) — O3 Reserved — O4 Reserved CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) — O6 Reserved CCU61_COUT60 O7 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input P00.3 I SENT_SENT2B CCU60_CC61INB A1 / HighZ / VDDP3 General-purpose input SENT input CCU60 input CCU61_CC61INA CCU61 input CAN11_RXDA CAN1 node 1 input (aka: RXDCAN11A) CAN12_RXDA CAN1 node 2 input (aka: RXDCAN12A) P00.3 O0 General-purpose output TOM0_10 O1 GTM_TOUT TOM1_2 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_REF0_12 IOM reference input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved SENT_SPC2 O6 SENT output CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input Data Sheet 2-74 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-21 Port 00 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 15 P00.4 I A1 / HighZ / VDDP3 General-purpose input SCU_REQ7 SENT_SENT3B 16 SCU input SENT input P00.4 O0 General-purpose output TOM0_11 O1 GTM_TOUT TOM1_3 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_REF0_13 IOM reference input — O2 Reserved CAN10_TXD O3 CAN1 node 0 output (aka: TXDCAN10) — O4 Reserved VADC_G1BFL0 O5 VADC output SENT_SPC3 O6 SENT output CCU61_COUT61 O7 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input P00.5 I CCU60_CC62INB CCU61_CC62INA CAN10_RXDG A1 / HighZ / VDDP3 General-purpose input CCU60 input CCU61 input CAN1 node 0 input (aka: RXDCAN10G) P00.5 O0 General-purpose output TOM0_12 O1 GTM_TOUT TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_REF0_14 IOM reference input — O2 Reserved — O3 Reserved — O4 Reserved VADC_G1BFL1 O5 VADC output — O6 Reserved CCU61_CC62 O7 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input Data Sheet 2-75 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-21 Port 00 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 17 P00.6 I A1 / HighZ / VDDP3 General-purpose input CAN11_RXDG 18 P00.6 O0 TOM0_13 O1 CAN1 node 1 input (aka: RXDCAN11G) General-purpose output GTM_TOUT TOM1_5 GTM_TOUT (= DTM5_OUT5) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_REF0_15 IOM reference input — O2 Reserved VADC_G1BFL2 O3 VADC output — O4 Reserved VADC_EMUX10 O5 VADC output — O6 Reserved CCU61_COUT62 O7 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input P00.7 I CCU61_CC60INC CCU61_CCPOS0A A1 / HighZ / VDDP3 General-purpose input CCU61 input CCU61 input CCU60_T12HRB CCU60 input GPT120_T2INA GPT120 input P00.7 O0 General-purpose output TOM0_14 O1 GTM_TOUT TOM1_6 GTM_TOUT (= DTM5_OUT6) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) CAN11_TXD O2 CAN1 node 1 output (aka: TXDCAN11) VADC_G1BFL3 O3 VADC output — O4 Reserved VADC_EMUX11 O5 VADC output — O6 Reserved CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input Data Sheet 2-76 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-21 Port 00 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 19 P00.8 I A1 / HighZ / VDDP3 General-purpose input CCU61_CC61INC CCU61_CCPOS1A CCU61 input CCU60_T13HRB CCU60 input GPT120_T2EUDA GPT120 input CAN12_RXDG CAN1 node 2 input (aka: RXDCAN12G) P00.8 O0 General-purpose output TOM0_15 O1 GTM_TOUT TOM1_7 20 CCU61 input GTM_TOUT (= DTM5_OUT7) QSPI3_SLSO6 O2 QSPI3 output (aka: SLSO36) — O3 Reserved — O4 Reserved VADC_EMUX12 O5 VADC output — O6 Reserved CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input P00.9 I TIM0_0 CCU61_CC62INC A1 / HighZ / VDDP3 General-purpose input GTM_TIN CCU61 input CCU61_CCPOS2A CCU61 input CCU60_T13HRC CCU60 input CCU60_T12HRC CCU60 input GPT120_T4EUDA GPT120 input P00.9 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT QSPI3_SLSO7 O2 QSPI3 output (aka: SLSO37) ASCLIN0_RTS O3 ASCLIN0 output (aka: ARTS0) — O4 Reserved CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) — O6 Reserved CCU61_CC62 O7 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input Data Sheet 2-77 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-21 Port 00 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 21 P00.12 I A1 / HighZ / VDDP3 General-purpose input TIM0_3 ASCLIN0_CTSA GTM_TIN ASCLIN0 input (aka: ACTS0A) P00.12 O0 General-purpose output TOM0_3 O1 GTM_TOUT TOM1_3 GTM_TOUT — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved CCU61_COUT63 O7 CCU61 output IOM_MON1_7 IOM monitor input IOM_REF1_7 IOM reference input Data Sheet 2-78 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-22 Port 02 Functions Pin Symbol Ctrl. Buffer Type Function 1 P02.0 I A1+ / HighZ / VDDP3 General-purpose input TIM0_0 SCU_REQ6 GTM_TIN SCU input CCU60_CC60INA CCU60 input CCU61_CC60INB CCU61 input P02.0 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_8 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_REF0_0 IOM reference input — O2 Reserved QSPI3_SLSO1 O3 QSPI3 output (aka: SLSO31) — O4 Reserved CAN0_TXD O5 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input ERAY0_TXDA O6 ERAY0 output CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Data Sheet 2-79 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-22 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 2 P02.1 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 CAN0_RXDA GTM_TIN CAN node 0 input (aka: RXDCAN0A) ERAY0_RXDA2 ERAY0 input SCU_REQ14 SCU input P02.1 O0 General-purpose output TOM0_9 O1 GTM_TOUT TOM1_9 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_REF0_1 IOM reference input — O2 Reserved QSPI3_SLSO2 O3 QSPI3 output (aka: SLSO32) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT60 O7 CCU60 output IOM_MON1_3 IOM monitor input IOM_REF1_3 IOM reference input Data Sheet 2-80 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-22 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 3 P02.2 I A1+ / HighZ / VDDP3 General-purpose input TIM0_2 CCU60_CC61INA CCU61_CC61INB GTM_TIN CCU60 input CCU61 input P02.2 O0 General-purpose output TOM0_10 O1 GTM_TOUT TOM1_10 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_REF0_2 IOM reference input ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI3_SLSO3 O3 QSPI3 output (aka: SLSO33) — O4 Reserved CAN2_TXD O5 CAN node 2 output (aka: TXDCAN2) IOM_MON2_7 IOM monitor input IOM_REF2_7 IOM reference input ERAY0_TXDB O6 ERAY0 output CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input Data Sheet 2-81 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-22 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 4 P02.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_3 ASCLIN1_RXG GTM_TIN ASCLIN1 input (aka: ARX1G) CAN2_RXDB CAN node 2 input (aka: RXDCAN2B) ERAY0_RXDB2 ERAY0 input P02.3 O0 General-purpose output TOM0_11 O1 GTM_TOUT TOM1_11 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_REF0_3 IOM reference input — O2 Reserved QSPI3_SLSO4 O3 QSPI3 output (aka: SLSO34) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT61 O7 CCU60 output IOM_MON1_4 IOM monitor input IOM_REF1_2 IOM reference input Data Sheet 2-82 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-22 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 5 P02.4 I A1+ / HighZ / VDDP3 General-purpose input TIM0_4 QSPI3_SLSIA GTM_TIN QSPI3 input (aka: SLSI3A) CAN0_RXDD CAN node 0 input (aka: RXDCAN0D) CCU60_CC62INA CCU60 input CCU61_CC62INB CCU61 input P02.4 O0 General-purpose output TOM0_12 O1 GTM_TOUT TOM1_12 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_REF0_4 IOM reference input — O2 Reserved QSPI3_SLSO0 O3 QSPI3 output (aka: SLSO30) — O4 Reserved CAN10_TXD O5 CAN1 node 0 output (aka: TXDCAN10) ERAY0_TXENA O6 ERAY0 output CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input Data Sheet 2-83 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-22 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 6 P02.5 I A1+ / HighZ / VDDP3 General-purpose input TIM0_5 QSPI3_MRSTA SENT_SENT3C GTM_TIN QSPI3 input (aka: MRST3A) SENT input P02.5 O0 General-purpose output TOM0_13 O1 GTM_TOUT TOM1_13 GTM_TOUT TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_REF0_5 IOM reference input CAN0_TXD O2 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input QSPI3_MRST O3 QSPI3 output (aka: MRST3) IOM_MON2_3 IOM monitor input IOM_REF2_3 IOM reference input — O4 Reserved CAN11_TXD O5 CAN1 node 1 output (aka: TXDCAN11) ERAY0_TXENB O6 ERAY0 output CCU60_COUT62 O7 CCU60 output IOM_MON1_5 IOM monitor input IOM_REF1_1 IOM reference input Data Sheet 2-84 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-22 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 7 P02.6 I A1 / HighZ / VDDP3 General-purpose input TIM0_6 QSPI3_MTSRA GTM_TIN QSPI3 input (aka: MTSR3A) SENT_SENT2C SENT input CCU60_CC60INC CCU60 input CCU60_CCPOS0A CCU60 input CCU61_T12HRB CCU61 input GPT120_T3INA GPT120 input CAN10_RXDF CAN1 node 0 input (aka: RXDCAN10F) P02.6 O0 General-purpose output TOM0_14 O1 GTM_TOUT TOM1_14 GTM_TOUT TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_REF0_6 IOM reference input — O2 Reserved QSPI3_MTSR O3 QSPI3 output (aka: MTSR3) — O4 Reserved VADC_EMUX00 O5 VADC output — O6 Reserved CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Data Sheet 2-85 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-22 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 8 P02.7 I A1 / HighZ / VDDP3 General-purpose input TIM0_7 QSPI3_SCLKA GTM_TIN QSPI3 input (aka: SCLK3A) SENT_SENT1C SENT input CCU60_CC61INC CCU60 input CCU60_CCPOS1A CCU60 input CCU61_T13HRB CCU61 input GPT120_T3EUDA GPT120 input CAN11_RXDF CAN1 node 1 input (aka: RXDCAN11F) PMU_FDEST PMU input P02.7 O0 General-purpose output TOM0_15 O1 GTM_TOUT TOM1_15 GTM_TOUT TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) IOM_REF0_7 IOM reference input — O2 Reserved QSPI3_SCLK O3 QSPI3 output (aka: SCLK3) — O4 Reserved VADC_EMUX01 O5 VADC output SENT_SPC1 O6 SENT output CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input Data Sheet 2-86 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-22 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 9 P02.8 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 SENT_SENT0C GTM_TIN SENT input CCU60_CC62INC CCU60 input CCU60_CCPOS2A CCU60 input CCU61_T12HRC CCU61 input CCU61_T13HRC CCU61 input GPT120_T4INA GPT120 input P02.8 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_REF0_8 IOM reference input QSPI3_SLSO5 O2 QSPI3 output (aka: SLSO35) — O3 Reserved — O4 Reserved VADC_EMUX02 O5 VADC output ETH0_MDC O6 Ethernet output CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input Data Sheet 2-87 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-23 Port 10 Functions Pin Symbol Ctrl. Buffer Type Function 140 P10.1 I A1+ / HighZ / VDDP3 General-purpose input TIM0_1 QSPI1_MRSTA QSPI1 input (aka: MRST1A) GPT120_T5EUDB GPT120 input ETH0_CRSC Ethernet input P10.1 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_9 141 GTM_TIN GTM_TOUT QSPI1_MTSR O2 QSPI1 output (aka: MTSR1) QSPI1_MRST O3 QSPI1 output (aka: MRST1) IOM_MON2_1 IOM monitor input IOM_REF2_1 IOM reference input — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P10.2 I TIM0_2 QSPI1_SCLKA A1+ / HighZ / VDDP3 General-purpose input GTM_TIN QSPI1 input (aka: SCLK1A) CAN2_RXDE CAN node 2 input (aka: RXDCAN2E) SCU_REQ2 SCU input GPT120_T6INB GPT120 input ETH0_COLB Ethernet input P10.2 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_10 GTM_TOUT IOM_MON2_9 IOM monitor input — O2 Reserved QSPI1_SCLK O3 QSPI1 output (aka: SCLK1) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-88 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-23 Port 10 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 142 P10.3 I A1+ / HighZ / VDDP3 General-purpose input TIM0_3 QSPI1_MTSRA 143 GTM_TIN QSPI1 input (aka: MTSR1A) SCU_REQ3 SCU input GPT120_T5INB GPT120 input ETH0_RXERC Ethernet input P10.3 O0 General-purpose output TOM0_3 O1 GTM_TOUT TOM1_11 GTM_TOUT IOM_MON2_10 IOM monitor input — O2 Reserved QSPI1_MTSR O3 QSPI1 output (aka: MTSR1) — O4 Reserved — O5 Reserved CAN2_TXD O6 CAN node 2 output (aka: TXDCAN2) IOM_MON2_7 IOM monitor input IOM_REF2_7 IOM reference input — O7 P10.5 I TIM0_2 SCU_HWCFG4 Reserved A1 / HighZ / VDDP3 General-purpose input GTM_TIN SCU input CAN10_RXDA CAN1 node 0 input (aka: RXDCAN10A) ETH0_RXD3B Ethernet input P10.5 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_10 GTM_TOUT IOM_REF2_9 IOM reference input — O2 Reserved QSPI3_SLSO8 O3 QSPI3 output (aka: SLSO38) QSPI1_SLSO9 O4 QSPI1 output (aka: SLSO19) GPT120_T6OUT O5 GPT120 output — O6 Reserved — O7 Reserved Data Sheet 2-89 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-23 Port 10 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 144 P10.6 I A1 / HighZ / VDDP3 General-purpose input TIM0_3 QSPI3_MTSRB SCU_HWCFG5 GTM_TIN QSPI3 input (aka: MTSR3B) SCU input P10.6 O0 General-purpose output TOM0_3 O1 GTM_TOUT TOM1_11 GTM_TOUT IOM_REF2_10 IOM reference input — O2 Reserved QSPI3_MTSR O3 QSPI3 output (aka: MTSR3) GPT120_T3OUT O4 GPT120 output CAN10_TXD O5 CAN1 node 0 output (aka: TXDCAN10) QSPI1_MRST O6 QSPI1 output (aka: MRST1) IOM_MON2_1 IOM monitor input IOM_REF2_1 IOM reference input — O7 Reserved Table 2-24 Port 11 Functions Pin Symbol Ctrl. Buffer Type Function 132 P11.2 I General-purpose input P11.2 O0 TOM0_8 O1 A1+ / HighZ / VDDP3 General-purpose output GTM_TOUT TOM1_1 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) — O2 Reserved QSPI0_SLSO5 O3 QSPI0 output (aka: SLSO05) QSPI1_SLSO5 O4 QSPI1 output (aka: SLSO15) CCU61_COUT63 O5 CCU61 output IOM_MON1_7 IOM monitor input IOM_REF1_7 IOM reference input ETH0_TXD1 O6 Ethernet output CCU60_COUT63 O7 CCU60 output IOM_MON1_6 IOM monitor input IOM_REF1_0 IOM reference input Data Sheet 2-90 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-24 Port 11 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 133 P11.3 I A1+ / HighZ / VDDP3 General-purpose input QSPI1_MRSTB 134 P11.3 O0 TOM0_10 O1 QSPI1 input (aka: MRST1B) General-purpose output GTM_TOUT TOM1_2 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) — O2 Reserved QSPI1_MRST O3 QSPI1 output (aka: MRST1) IOM_MON2_1 IOM monitor input IOM_REF2_1 IOM reference input ERAY0_TXDA O4 ERAY0 output CCU61_COUT62 O5 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input ETH0_TXD0 O6 Ethernet output CCU60_COUT62 O7 CCU60 output IOM_MON1_5 IOM monitor input IOM_REF1_1 IOM reference input P11.6 I QSPI1_SCLKB P11.6 O0 TOM0_11 O1 A1+ / HighZ / VDDP3 General-purpose input QSPI1 input (aka: SCLK1B) General-purpose output GTM_TOUT TOM1_3 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) ERAY0_TXENB O2 ERAY0 output QSPI1_SCLK O3 QSPI1 output (aka: SCLK1) ERAY0_TXENA O4 ERAY0 output CCU61_COUT61 O5 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input ETH0_TXEN O6 Ethernet output CCU60_COUT61 O7 CCU60 output IOM_MON1_4 IOM monitor input IOM_REF1_2 IOM reference input Data Sheet 2-91 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-24 Port 11 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 136 P11.8 I A1 / HighZ / VDDP3 General-purpose input QSPI1_MTSRC ETH0_RXD2A Ethernet input P11.8 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 135 QSPI1 input (aka: MTSR1C) GTM_TOUT (= DTM5_OUT4) — O2 Reserved QSPI1_SLSO10 O3 QSPI1 output (aka: SLSO110) QSPI1_MTSR O4 QSPI1 output (aka: MTSR1) — O5 Reserved — O6 Reserved — O7 Reserved P11.9 I QSPI1_MTSRB ERAY0_RXDA1 ETH0_RXD1A A1+ / HighZ / VDDP3 General-purpose input QSPI1 input (aka: MTSR1B) ERAY0 input Ethernet input P11.9 O0 General-purpose output TOM0_12 O1 GTM_TOUT TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) — O2 Reserved QSPI1_MTSR O3 QSPI1 output (aka: MTSR1) — O4 Reserved CCU61_COUT60 O5 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input — O6 Reserved CCU60_COUT60 O7 CCU60 output IOM_MON1_3 IOM monitor input IOM_REF1_3 IOM reference input Data Sheet 2-92 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-24 Port 11 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 137 P11.10 I A1+ / HighZ / VDDP3 General-purpose input ASCLIN1_RXE ERAY0_RXDB1 ASCLIN1 input (aka: ARX1E) ERAY0 input SCU_REQ12 SCU input CAN12_RXDD CAN1 node 2 input (aka: RXDCAN12D) ETH0_RXD0A Ethernet input P11.10 O0 General-purpose output TOM0_13 O1 GTM_TOUT TOM1_5 GTM_TOUT (= DTM5_OUT5) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) — O2 Reserved QSPI0_SLSO3 O3 QSPI0 output (aka: SLSO03) QSPI1_SLSO3 O4 QSPI1 output (aka: SLSO13) CCU61_CC62 O5 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input — O6 Reserved CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input Data Sheet 2-93 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-24 Port 11 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 138 P11.11 I A1+ / HighZ / VDDP3 General-purpose input ETH0_RXDVA ETH0_CRSDVA ETH0_CRSB Ethernet input Ethernet input Ethernet input P11.11 O0 General-purpose output TOM0_14 O1 GTM_TOUT TOM1_6 GTM_TOUT (= DTM5_OUT6) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) — O2 Reserved QSPI0_SLSO4 O3 QSPI0 output (aka: SLSO04) QSPI1_SLSO4 O4 QSPI1 output (aka: SLSO14) CCU61_CC61 O5 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input ERAY0_TXENB O6 ERAY0 output CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input Data Sheet 2-94 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-24 Port 11 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 139 P11.12 I A1+ / HighZ / VDDP3 General-purpose input ETH0_REFCLK ETH0_RXCLKA ETH0_TXCLKB Ethernet input Ethernet input Ethernet input P11.12 O0 General-purpose output TOM0_15 O1 GTM_TOUT TOM1_7 GTM_TOUT (= DTM5_OUT7) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input GTM_CLK2 O3 GTM output ERAY0_TXDB O4 ERAY0 output CCU61_CC60 O5 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input SCU_EXTCLK1 O6 SCU output CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Data Sheet 2-95 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-25 Port 13 Functions Pin Symbol Ctrl. Buffer Type Function 128 P13.0 I A1 / HighZ / VDDP3 General-purpose input CCU60_CTRAPA GPT120_T6EUDB 129 CCU60 input GPT120 input P13.0 O0 General-purpose output TOM0_5 O1 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) — O2 Reserved QSPI2_SCLK O3 QSPI2 output (aka: SCLK2) — O4 Reserved — O5 Reserved ETH0_TXER O6 Ethernet output CAN10_TXD O7 CAN1 node 0 output (aka: TXDCAN10) P13.1 I CCU60_CCPOS0C GPT120_T3INB A1 / HighZ / VDDP3 General-purpose input CCU60 input GPT120 input CAN10_RXDB CAN1 node 0 input (aka: RXDCAN10B) ETH0_TXCLKC Ethernet input P13.1 O0 General-purpose output TOM0_6 O1 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-96 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-25 Port 13 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 130 P13.2 I A1+ / HighZ / VDDP3 General-purpose input CCU60_CCPOS1C GPT120_T3EUDB GPT120_CAPINA 131 CCU60 input GPT120 input GPT120 input P13.2 O0 General-purpose output TOM0_7 O1 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) CAN11_TXD O2 CAN1 node 1 output (aka: TXDCAN11) — O3 Reserved — O4 Reserved — O5 Reserved ETH0_TXD3 O6 Ethernet output — O7 Reserved P13.3 I CCU60_CCPOS2C GPT120_T4INB CAN11_RXDB A1+ / HighZ / VDDP3 General-purpose input CCU60 input GPT120 input CAN1 node 1 input (aka: RXDCAN11B) P13.3 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) — O2 Reserved QSPI2_MTSR O3 QSPI2 output (aka: MTSR2) — O4 Reserved — O5 Reserved ETH0_TXD2 O6 Ethernet output — O7 Reserved Data Sheet 2-97 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-26 Port 14 Functions Pin Symbol Ctrl. Buffer Type Function 118 P14.0 I A1+ / HighZ / VDDP3 General-purpose input TIM0_3 P14.0 O0 TOM0_3 O1 GTM_TIN General-purpose output GTM_TOUT TOM1_3 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) ASCLIN0_TX O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input ERAY0_TXDA O3 ERAY0 output ERAY0_TXDB O4 ERAY0 output CAN1_TXD O5 CAN node 1 output (aka: TXDCAN1) IOM_MON2_6 IOM monitor input IOM_REF2_6 IOM reference input ASCLIN0_SCLK O6 ASCLIN0 output (aka: ASCLK0) CCU60_COUT62 O7 CCU60 output IOM_MON1_5 IOM monitor input IOM_REF1_1 IOM reference input Data Sheet 2-98 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-26 Port 14 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 119 P14.1 I A1+ / HighZ / VDDP3 General-purpose input TIM0_4 ASCLIN0_RXA GTM_TIN ASCLIN0 input (aka: ARX0A) CAN1_RXDB CAN node 1 input (aka: RXDCAN1B) ERAY0_RXDA3 ERAY0 input SCU_REQ15 SCU input ERAY0_RXDB3 ERAY0 input SCU_EVRWUPA AI SCU input P14.1 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_REF1_14 IOM reference input ASCLIN0_TX O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT63 O7 CCU60 output IOM_MON1_6 IOM monitor input IOM_REF1_0 IOM reference input Data Sheet 2-99 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-26 Port 14 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 120 P14.2 I A1 / PU / VDDP3 General-purpose input TIM0_5 SCU_HWCFG2_EVR13 121 GTM_TIN SCU input P14.2 O0 General-purpose output TOM0_5 O1 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_REF1_15 IOM reference input — O2 Reserved QSPI2_SLSO1 O3 QSPI2 output (aka: SLSO21) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P14.3 I TIM0_6 A1 / PU / VDDP3 General-purpose input GTM_TIN SCU_REQ10 SCU input SCU_HWCFG3_BMI SCU input P14.3 O0 General-purpose output TOM0_6 O1 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_REF2_4 IOM reference input — O2 Reserved QSPI2_SLSO3 O3 QSPI2 output (aka: SLSO23) ASCLIN1_SLSO O4 ASCLIN1 output (aka: ASLSO1) — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-100 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-26 Port 14 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 122 P14.4 I A1+ / HighZ / VDDP3 General-purpose input TIM0_7 123 P14.4 O0 TOM0_7 O1 GTM_TIN General-purpose output GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) IOM_REF2_8 IOM reference input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P14.5 I TIM0_0 P14.5 O0 TOM0_0 O1 A1+ / HighZ / VDDP3 General-purpose input GTM_TIN General-purpose output GTM_TOUT TOM1_0 GTM_TOUT IOM_REF2_11 IOM reference input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved ERAY0_TXDB O6 ERAY0 output — O7 Reserved Data Sheet 2-101 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-26 Port 14 Functions (cont’d) Pin Symbol Ctrl. Buffer Type 124 P14.6 I A1+ / PU / General-purpose input VDDP3 GTM_TIN TIM0_1 125 Function SCU_HWCFG0_DCLD O SCU input QSPI0_MRSTD QSPI0 input (aka: MRST0D) P14.6 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 GTM_TOUT IOM_REF2_14 IOM reference input — O2 Reserved QSPI2_SLSO2 O3 QSPI2 output (aka: SLSO22) — O4 Reserved — O5 Reserved ERAY0_TXENB O6 ERAY0 output — O7 Reserved P14.7 I TIM0_0 ERAY0_RXDB0 A1 / HighZ / VDDP3 General-purpose input GTM_TIN ERAY0 input P14.7 O0 General-purpose output TOM0_0 O1 GTM_TOUT IOM_REF2_15 IOM reference input ASCLIN0_RTS O2 ASCLIN0 output (aka: ARTS0) QSPI2_SLSO4 O3 QSPI2 output (aka: SLSO24) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-102 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-26 Port 14 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 127 P14.8 I A1 / HighZ / VDDP3 General-purpose input ASCLIN1_RXD CAN2_RXDD ERAY0_RXDA0 ASCLIN1 input (aka: ARX1D) CAN node 2 input (aka: RXDCAN2D) ERAY0 input P14.8 O0 General-purpose output TOM0_2 O1 GTM_TOUT — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Table 2-27 Port 15 Functions Pin Symbol Ctrl. Buffer Type Function 109 P15.0 I General-purpose input P15.0 O0 TOM1_3 O1 A1 / HighZ / VDDP3 General-purpose output GTM_TOUT TOM0_11 GTM_TOUT TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI0_SLSO13 O3 QSPI0 output (aka: SLSO013) — O4 Reserved CAN2_TXD O5 CAN node 2 output (aka: TXDCAN2) IOM_MON2_7 IOM monitor input IOM_REF2_7 IOM reference input ASCLIN1_SCLK O6 ASCLIN1 output (aka: ASCLK1) — O7 Reserved Data Sheet 2-103 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-27 Port 15 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 110 P15.1 I A1 / HighZ / VDDP3 General-purpose input ASCLIN1_RXA QSPI2_SLSIB QSPI2 input (aka: SLSI2B) CAN2_RXDA CAN node 2 input (aka: RXDCAN2A) SCU_REQ16 SCU input SCU_EVRWUPB AI SCU input P15.1 O0 General-purpose output TOM1_4 O1 GTM_TOUT (= DTM5_OUT4) TOM0_12 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) ASCLIN1_TX 111 ASCLIN1 input (aka: ARX1A) O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI2_SLSO5 O3 QSPI2 output (aka: SLSO25) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P15.2 I QSPI2_MRSTE QSPI2_SLSIA QSPI2_HSICINA A1+ / HighZ / VDDP3 General-purpose input QSPI2 input (aka: MRST2E) QSPI2 input (aka: SLSI2A) QSPI2 input (aka: HSIC2INA) P15.2 O0 General-purpose output TOM1_5 O1 GTM_TOUT (= DTM5_OUT5) TOM0_13 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) ASCLIN0_TX O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input QSPI2_SLSO0 O3 QSPI2 output (aka: SLSO20) — O4 Reserved CAN1_TXD O5 CAN node 1 output (aka: TXDCAN1) IOM_MON2_6 IOM monitor input IOM_REF2_6 IOM reference input ASCLIN0_SCLK O6 ASCLIN0 output (aka: ASCLK0) — O7 Reserved Data Sheet 2-104 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-27 Port 15 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 112 P15.3 I A1+ / HighZ / VDDP3 General-purpose input ASCLIN0_RXB QSPI2_SCLKA QSPI2 input (aka: SCLK2A) QSPI2_HSICINB QSPI2 input (aka: HSIC2INB) CAN1_RXDA CAN node 1 input (aka: RXDCAN1A) P15.3 O0 General-purpose output TOM1_6 O1 GTM_TOUT (= DTM5_OUT6) TOM0_14 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) ASCLIN0_TX 113 ASCLIN0 input (aka: ARX0B) O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input QSPI2_SCLK O3 QSPI2 output (aka: SCLK2) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P15.4 I QSPI2_MRSTA SCU_REQ0 A1+ / HighZ / VDDP3 General-purpose input QSPI2 input (aka: MRST2A) SCU input P15.4 O0 General-purpose output TOM1_7 O1 GTM_TOUT (= DTM5_OUT7) TOM0_15 ASCLIN1_TX GTM_TOUT O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI2_MRST O3 QSPI2 output (aka: MRST2) IOM_MON2_2 IOM monitor input IOM_REF2_2 IOM reference input — O4 Reserved — O5 Reserved — O6 Reserved CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input Data Sheet 2-105 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-27 Port 15 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 114 P15.5 I A1 / HighZ / VDDP3 General-purpose input ASCLIN1_RXB QSPI2_MTSRA SCU_REQ13 QSPI2 input (aka: MTSR2A) SCU input P15.5 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) ASCLIN1_TX 115 ASCLIN1 input (aka: ARX1B) O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI2_MTSR O3 QSPI2 output (aka: MTSR2) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input P15.6 I TIM0_0 QSPI2_MTSRB A1 / HighZ / VDDP3 General-purpose input GTM_TIN QSPI2 input (aka: MTSR2B) P15.6 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT — O2 Reserved QSPI2_MTSR O3 QSPI2 output (aka: MTSR2) — O4 Reserved QSPI2_SCLK O5 QSPI2 output (aka: SCLK2) — O6 Reserved CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Data Sheet 2-106 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-27 Port 15 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 116 P15.7 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 QSPI2_MRSTB QSPI2 input (aka: MRST2B) P15.7 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 117 GTM_TIN GTM_TOUT — O2 Reserved QSPI2_MRST O3 QSPI2 output (aka: MRST2) IOM_MON2_2 IOM monitor input IOM_REF2_2 IOM reference input — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT60 O7 CCU60 output IOM_MON1_3 IOM monitor input IOM_REF1_3 IOM reference input P15.8 I TIM0_2 QSPI2_SCLKB SCU_REQ1 A1 / HighZ / VDDP3 General-purpose input GTM_TIN QSPI2 input (aka: SCLK2B) SCU input P15.8 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_2 GTM_TOUT — O2 Reserved QSPI2_SCLK O3 QSPI2 output (aka: SCLK2) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT61 O7 CCU60 output IOM_MON1_4 IOM monitor input IOM_REF1_2 IOM reference input Data Sheet 2-107 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-28 Port 20 Functions Pin Symbol Ctrl. Buffer Type Function 93 P20.0 I A1 / HighZ / VDDP3 General-purpose input TIM0_6 SCU_REQ9 OCDS input GPT120_T6EUDA GPT120 input CAN11_RXDC CAN1 node 1 input (aka: RXDCAN11C) CAN12_RXDC CAN1 node 2 input (aka: RXDCAN12C) P20.0 O0 General-purpose output TOM0_6 O1 GTM_TOUT (= DTM1_OUT6) GTM_TOUT (= DTM5_OUT6) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved OCDS_TGO0 O OCDS P20.2 I Input Only General-purpose input / PU / Factory Test Mode Enable VDDP3 I A1 / HighZ / VDDP3 TESTMODE 95 SCU input OCDS_TGI0 TOM1_6 94 GTM_TIN P20.3 TIM0_4 GPT120_T6INA General-purpose input GTM_TIN GPT120 input P20.3 O0 General-purpose output TOM1_12 O1 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) IOM_MON1_14 IOM monitor input — O2 Reserved QSPI0_SLSO9 O3 QSPI0 output (aka: SLSO09) QSPI2_SLSO9 O4 QSPI2 output (aka: SLSO29) CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) — O6 Reserved — O7 Reserved Data Sheet 2-108 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-28 Port 20 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 100 P20.6 I A1 / HighZ / VDDP3 General-purpose input TIM0_6 101 P20.6 O0 TOM1_10 O1 GTM_TIN General-purpose output GTM_TOUT TOM0_10 GTM_TOUT IOM_MON1_15 IOM monitor input ASCLIN1_RTS O2 ASCLIN1 output (aka: ARTS1) QSPI0_SLSO8 O3 QSPI0 output (aka: SLSO08) QSPI2_SLSO8 O4 QSPI2 output (aka: SLSO28) — O5 Reserved — O6 Reserved — O7 Reserved P20.7 I TIM0_7 ASCLIN1_CTSA CAN0_RXDB A1 / HighZ / VDDP3 General-purpose input GTM_TIN ASCLIN1 input (aka: ACTS1A) CAN node 0 input (aka: RXDCAN0B) P20.7 O0 General-purpose output TOM1_11 O1 GTM_TOUT TOM0_11 GTM_TOUT IOM_MON2_4 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved CCU61_COUT63 O7 CCU61 output IOM_MON1_7 IOM monitor input IOM_REF1_7 IOM reference input Data Sheet 2-109 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-28 Port 20 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 102 P20.8 I A1 / HighZ / VDDP3 General-purpose input TIM0_7 103 P20.8 O0 TOM1_7 O1 GTM_TIN General-purpose output GTM_TOUT (= DTM5_OUT7) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_MON2_8 IOM monitor input ASCLIN1_SLSO O2 ASCLIN1 output (aka: ASLSO1) QSPI0_SLSO0 O3 QSPI0 output (aka: SLSO00) QSPI1_SLSO0 O4 QSPI1 output (aka: SLSO10) CAN0_TXD O5 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input SCU_WDT0LCK O6 SCU output CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input P20.9 I ASCLIN1_RXC QSPI0_SLSIB A1 / HighZ / VDDP3 General-purpose input ASCLIN1 input (aka: ARX1C) QSPI0 input (aka: SLSI0B) SCU_REQ11 SCU input CAN12_RXDE CAN1 node 2 input (aka: RXDCAN12E) P20.9 O0 General-purpose output TOM1_13 O1 GTM_TOUT TOM0_13 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_MON2_11 IOM monitor input — O2 Reserved QSPI0_SLSO1 O3 QSPI0 output (aka: SLSO01) QSPI1_SLSO1 O4 QSPI1 output (aka: SLSO11) — O5 Reserved SCU_WDTSLCK O6 SCU output CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input Data Sheet 2-110 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-28 Port 20 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 104 P20.10 I General-purpose input P20.10 O0 TOM1_14 O1 A1 / HighZ / VDDP3 GTM_TOUT TOM0_14 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_MON2_14 IOM monitor input ASCLIN1_TX 105 General-purpose output O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI0_SLSO6 O3 QSPI0 output (aka: SLSO06) QSPI2_SLSO7 O4 QSPI2 output (aka: SLSO27) CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) ASCLIN1_SCLK O6 ASCLIN1 output (aka: ASCLK1) CCU61_CC62 O7 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input P20.11 I QSPI0_SCLKA P20.11 O0 TOM1_15 O1 A1+ / HighZ / VDDP3 General-purpose input QSPI0 input (aka: SCLK0A) General-purpose output GTM_TOUT TOM0_15 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_MON2_15 IOM monitor input — O2 Reserved QSPI0_SCLK O3 QSPI0 output (aka: SCLK0) — O4 Reserved CAN11_TXD O5 CAN1 node 1 output (aka: TXDCAN11) — O6 Reserved CCU61_COUT60 O7 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input Data Sheet 2-111 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-28 Port 20 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 106 P20.12 I A1 / HighZ / VDDP3 General-purpose input QSPI0_MRSTA CAN11_RXDH IOM_PIN13 107 QSPI0 input (aka: MRST0A) CAN1 node 1 input (aka: RXDCAN11H) IOM pad input P20.12 O0 General-purpose output TOM1_0 O1 GTM_TOUT TOM0_8 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_MON0_13 IOM monitor input — O2 Reserved QSPI0_MRST O3 QSPI0 output (aka: MRST0) IOM_MON2_0 IOM monitor input IOM_REF2_0 IOM reference input QSPI0_MTSR O4 QSPI0 output (aka: MTSR0) — O5 Reserved — O6 Reserved CCU61_COUT61 O7 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input P20.13 I QSPI0_SLSIA CAN12_RXDH IOM_PIN14 A1+ / HighZ / VDDP3 General-purpose input QSPI0 input (aka: SLSI0A) CAN1 node 2 input (aka: RXDCAN12H) IOM pad input P20.13 O0 General-purpose output TOM1_1 O1 GTM_TOUT TOM0_9 GTM_TOUT TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_MON0_14 IOM monitor input — O2 Reserved QSPI0_SLSO2 O3 QSPI0 output (aka: SLSO02) QSPI1_SLSO2 O4 QSPI1 output (aka: SLSO12) QSPI0_SCLK O5 QSPI0 output (aka: SCLK0) — O6 Reserved CCU61_COUT62 O7 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input Data Sheet 2-112 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-28 Port 20 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 108 P20.14 I A1+ / HighZ / VDDP3 General-purpose input QSPI0_MTSRA IOM_PIN15 QSPI0 input (aka: MTSR0A) IOM pad input P20.14 O0 General-purpose output TOM1_2 O1 GTM_TOUT TOM0_10 GTM_TOUT TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_MON0_15 IOM monitor input — O2 Reserved QSPI0_MTSR O3 QSPI0 output (aka: MTSR0) — O4 Reserved CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) — O6 Reserved — O7 Reserved Table 2-29 Port 21 Functions Pin Symbol Ctrl. Buffer Type Function 84 P21.2 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 SCU_EMGSTOPB GTM_TIN SCU input P21.2 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) — O2 Reserved — O3 Reserved — O4 Reserved ETH0_MDC O5 Ethernet output — O6 Reserved — O7 Reserved Data Sheet 2-113 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-29 Port 21 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 85 P21.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 ETH0_MDIOD 86 GTM_TIN Ethernet input P21.3 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved ETH0_MDIO O Ethernet output P21.4 I TIM0_2 P21.4 O0 TOM0_2 O1 A1 / HighZ / VDDP3 General-purpose input GTM_TIN General-purpose output GTM_TOUT TOM1_2 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-114 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-29 Port 21 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 87 P21.5 I A1 / HighZ / VDDP3 General-purpose input TIM0_3 88 P21.5 O0 TOM0_3 O1 GTM_TIN General-purpose output GTM_TOUT TOM1_3 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P21.6 I TIM0_4 A1 / PU / VDDP3 General-purpose input GTM_TIN TDI OCDS input OCDS_TGI2 OCDS input GPT120_T5EUDA GPT120 input P21.6 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved GPT120_T3OUT O7 GPT120 output OCDS_TGO2 O OCDS Data Sheet 2-115 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-29 Port 21 Functions (cont’d) Pin Symbol Ctrl. Buffer Type 90 P21.7 I A1+ / PU / General-purpose input VDDP3 GTM_TIN TIM0_5 Function OCDS_DAP2 OCDS input OCDS_TGI3 OCDS input GPT120_T5INA GPT120 input ETH0_RXERB Ethernet input P21.7 O0 General-purpose output TOM0_5 O1 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved GPT120_T6OUT O7 GPT120 output OCDS_TGO3 O OCDS OCDS_DAP2 O OCDS Output TDO O JTAG Output Table 2-30 Port 22 Functions Pin Symbol Ctrl. Buffer Type Function 74 P22.0 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 QSPI3_MTSRE GTM_TIN QSPI3 input (aka: MTSR3E) P22.0 O0 General-purpose output TOM0_9 O1 GTM_TOUT TOM1_1 GTM_TOUT — O2 Reserved QSPI3_MTSR O3 QSPI3 output (aka: MTSR3) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-116 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-30 Port 22 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 75 P22.1 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 QSPI3_MRSTE 76 GTM_TIN QSPI3 input (aka: MRST3E) P22.1 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) — O2 Reserved QSPI3_MRST O3 QSPI3 output (aka: MRST3) IOM_MON2_3 IOM monitor input IOM_REF2_3 IOM reference input — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P22.2 I TIM0_3 QSPI3_SLSID A1 / HighZ / VDDP3 General-purpose input GTM_TIN QSPI3 input (aka: SLSI3D) P22.2 O0 General-purpose output TOM0_11 O1 GTM_TOUT TOM1_3 GTM_TOUT TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) — O2 Reserved QSPI3_SLSO12 O3 QSPI3 output (aka: SLSO312) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-117 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-30 Port 22 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 77 P22.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_4 QSPI3_SCLKE 78 GTM_TIN QSPI3 input (aka: SCLK3E) P22.3 O0 General-purpose output TOM0_12 O1 GTM_TOUT TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) — O2 Reserved QSPI3_SCLK O3 QSPI3 output (aka: SCLK3) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P22.4 I P22.4 O0 TOM0_7N O1 TOM1_7N A1 / HighZ / VDDP3 General-purpose input General-purpose output GTM_TOUT (= DTM1_OUT7_N) GTM_TOUT (= DTM5_OUT7_N) — O2 Reserved — O3 Reserved QSPI0_SLSO12 O4 QSPI0 output (aka: SLSO012) — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-118 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-31 Port 23 Functions Pin Symbol Ctrl. Buffer Type Function 73 P23.1 I A1+ / HighZ / VDDP3 General-purpose input TIM0_6 P23.1 O0 TOM0_6 O1 GTM_TIN General-purpose output GTM_TOUT (= DTM1_OUT6) TOM0_15 GTM_TOUT ASCLIN1_RTS O2 ASCLIN1 output (aka: ARTS1) QSPI3_SLSO13 O3 QSPI3 output (aka: SLSO313) GTM_CLK0 O4 GTM output SCU_EXTCLK1 O5 SCU output SCU_EXTCLK0 O6 SCU output — O7 Reserved Table 2-32 Port 33 Functions Pin Symbol Ctrl. Buffer Type Function 56 P33.0 I A1 / HighZ / VDDP3 General-purpose input TIM0_4 IOM_PIN0 GTM_TIN IOM pad input P33.0 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_MON0_0 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved VADC_G1BFL0 O6 VADC output — O7 Reserved Data Sheet 2-119 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-32 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 57 P33.1 I A1 / HighZ / VDDP3 General-purpose input TIM0_5 IOM_PIN1 58 GTM_TIN IOM pad input P33.1 O0 General-purpose output TOM0_5 O1 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_MON0_1 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved VADC_EMUX02 O5 VADC output VADC_G1BFL1 O6 VADC output — O7 Reserved P33.2 I TIM0_6 IOM_PIN2 A1 / HighZ / VDDP3 General-purpose input GTM_TIN IOM pad input P33.2 O0 General-purpose output TOM0_6 O1 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_MON0_2 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved VADC_EMUX01 O5 VADC output VADC_G1BFL2 O6 VADC output CCU61_COUT63 O7 CCU61 output IOM_MON1_7 IOM monitor input IOM_REF1_7 IOM reference input Data Sheet 2-120 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-32 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 59 P33.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_7 IOM_PIN3 60 GTM_TIN IOM pad input P33.3 O0 General-purpose output TOM0_7 O1 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_MON0_3 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved VADC_EMUX00 O5 VADC output VADC_G1BFL3 O6 VADC output CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input P33.4 I TIM0_0 CCU61_CTRAPC IOM_PIN4 A1 / HighZ / VDDP3 General-purpose input GTM_TIN CCU61 input IOM pad input P33.4 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT IOM_MON0_4 IOM monitor input — O2 Reserved — O3 Reserved — O4 Reserved VADC_EMUX12 O5 VADC output VADC_G0BFL0 O6 VADC output — O7 Reserved Data Sheet 2-121 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-32 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 61 P33.5 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 CCU61_CCPOS2C GTM_TIN CCU61 input GPT120_T4EUDB GPT120 input IOM_PIN5 IOM pad input P33.5 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_MON0_5 IOM monitor input QSPI0_SLSO7 O2 QSPI0 output (aka: SLSO07) QSPI1_SLSO7 O3 QSPI1 output (aka: SLSO17) — O4 Reserved VADC_EMUX11 O5 VADC output VADC_G0BFL1 O6 VADC output CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input Data Sheet 2-122 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-32 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 62 P33.6 I A1 / HighZ / VDDP3 General-purpose input TIM0_2 ASCLIN1_RXF GTM_TIN ASCLIN1 input (aka: ARX1F) CCU61_CCPOS1C CCU61 input GPT120_T2EUDB GPT120 input CAN10_RXDH CAN1 node 0 input (aka: RXDCAN10H) IOM_PIN6 IOM pad input P33.6 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_2 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_MON0_6 IOM monitor input — O2 Reserved — O3 Reserved ASCLIN1_TX O4 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input VADC_EMUX10 O5 VADC output VADC_G0BFL2 O6 VADC output CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input HSM_HSM1 Data Sheet O HSM output 2-123 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-32 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 63 P33.7 I A1+ / HighZ / VDDP3 General-purpose input TIM0_3 CAN0_RXDE GTM_TIN CAN node 0 input (aka: RXDCAN0E) SCU_REQ8 SCU input CCU61_CCPOS0C CCU61 input GPT120_T2INB GPT120 input IOM_PIN7 IOM pad input P33.7 O0 General-purpose output TOM0_3 O1 GTM_TOUT TOM1_3 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_MON0_7 IOM monitor input — O2 Reserved QSPI3_SLSO7 O3 QSPI3 output (aka: SLSO37) — O4 Reserved CAN10_TXD O5 CAN1 node 0 output (aka: TXDCAN10) VADC_G0BFL3 O6 VADC output CCU61_COUT60 O7 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input HSM_HSM2 Data Sheet O HSM output 2-124 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-32 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 64 P33.8 I A1+ / HighZ / VDDP3 General-purpose input TIM0_4 SCU_EMGSTOPA IOM_PIN8 GTM_TIN SCU input IOM pad input P33.8 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_MON0_8 IOM monitor input — O2 Reserved QSPI3_SLSO2 O3 QSPI3 output (aka: SLSO32) — O4 Reserved CAN0_TXD O5 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input — O6 Reserved CCU61_COUT62 O7 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input SMU_FSP Data Sheet O SMU 2-125 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-32 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 65 P33.9 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 QSPI3_HSICINA IOM_PIN9 66 GTM_TIN QSPI3 input IOM pad input P33.9 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_MON0_9 IOM monitor input — O2 Reserved QSPI3_SLSO1 O3 QSPI3 output (aka: SLSO31) — O4 Reserved — O5 Reserved — O6 Reserved CCU61_CC62 O7 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input P33.10 I TIM0_0 QSPI3_SLSIC A1+ / HighZ / VDDP3 General-purpose input GTM_TIN QSPI3 input (aka: SLSI3C) QSPI3_HSICINB QSPI3 input IOM_PIN10 IOM pad input P33.10 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) IOM_MON0_10 IOM monitor input QSPI1_SLSO6 O2 QSPI1 output (aka: SLSO16) QSPI3_SLSO11 O3 QSPI3 output (aka: SLSO311) ASCLIN1_SLSO O4 ASCLIN1 output (aka: ASLSO1) GTM_CLK1 O5 GTM output SCU_EXTCLK1 O6 SCU output CCU61_COUT61 O7 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input Data Sheet 2-126 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-32 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 67 P33.11 I A1 / HighZ / VDDP3 General-purpose input TIM0_2 QSPI3_SCLKD 68 GTM_TIN QSPI3 input (aka: SCLK3D) SCU_REQ17 SCU input IOM_PIN11 IOM pad input P33.11 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_2 GTM_TOUT IOM_MON0_11 IOM monitor input ASCLIN1_SCLK O2 ASCLIN1 output (aka: ASCLK1) QSPI3_SCLK O3 QSPI3 output (aka: SCLK3) — O4 Reserved — O5 Reserved SMPS_DCDCSYNC O6 SCU output CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input SMPS_DCDCSYNC O P33.12 I TIM0_0 QSPI3_MTSRD IOM_PIN12 SCU output A1 / HighZ / VDDP3 General-purpose input GTM_TIN QSPI3 input (aka: MTSR3D) IOM pad input P33.12 O0 General-purpose output TOM1_12 O1 GTM_TOUT TOM0_12 GTM_TOUT IOM_MON0_12 IOM monitor input ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI3_MTSR O3 QSPI3 output (aka: MTSR3) ASCLIN1_SCLK O4 ASCLIN1 output (aka: ASCLK1) — O5 Reserved — O6 Reserved CCU61_COUT60 O7 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input Data Sheet 2-127 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-33 Port 34 Functions Pin Symbol Ctrl. Buffer Type Function 52 P34.0 I General-purpose input P34.0 O0 TOM1_12 O1 A1 / HighZ / VDDP3 — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P34.1 I P34.1 O0 TOM1_13 O1 ASCLIN0_TX O2 53 54 A1 / HighZ / VDDP3 General-purpose output GTM_TOUT General-purpose input General-purpose output GTM_TOUT ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input — O3 Reserved CAN0_TXD O4 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input — O5 Reserved — O6 Reserved — O7 Reserved P34.2 I ASCLIN0_RXD CAN0_RXDG A1 / HighZ / VDDP3 General-purpose input ASCLIN0 input (aka: ARX0D) CAN node 0 input (aka: RXDCAN0G) P34.2 O0 General-purpose output TOM1_14 O1 GTM_TOUT — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-128 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-33 Port 34 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 55 P34.3 I A1 / HighZ / VDDP3 General-purpose input ASCLIN1_CTSB ASCLIN1 input (aka: ACTS1B) P34.3 O0 TOM1_15 O1 GTM_TOUT — O2 Reserved — O3 Reserved QSPI2_SLSO10 O4 QSPI2 output (aka: SLSO210) — O5 Reserved — O6 Reserved — O7 Reserved General-purpose output Table 2-34 Port 40 Functions Function Pin Symbol Ctrl. Buffer Type 51 P40.0 I S / VDDM General-purpose input VADCG0_0 AI P40.1 I VADCG0_1 AI 50 VADCG2_0 49 48 47 46 45 40 39 38 S / VDDM General-purpose input VADC input channel 1 of group 0 (with multiplexer diagnostics) VADC input channel 0 of group 2 P40.2 I VADCG0_2 AI P40.3 I VADCG0_3 AI P40.4 I VADCG0_4 AI P40.5 I VADCG0_5 AI P40.6 I VADCG0_6 AI P40.7 I VADCG0_7 AI P40.8 I VADCG0_8 AI P40.9 I VADCG0_9 AI Data Sheet VADC input channel 0 of group 0 S / VDDM General-purpose input VADC input channel 2 of group 0 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 3 of group 0 S / VDDM General-purpose input VADC input channel 4 of group 0 S / VDDM General-purpose input VADC input channel 5 of group 0 S / VDDM General-purpose input VADC input channel 6 of group 0 S / VDDM General-purpose input VADC input channel 7 of group 0 (with pull down diagnostics) S / VDDM General-purpose input VADC input channel 8 of group 0 S / VDDM General-purpose input VADC input channel 9 of group 0 (with multiplexer diagnostics) 2-129 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-34 Port 40 Functions (cont’d) Pin Symbol Ctrl. Buffer Type 37 P40.10 I S / VDDM General-purpose input VADCG0_10 AI P40.11 I 36 Function VADC input channel 10 of group 0 (with multiplexer diagnostics) S / VDDM General-purpose input SENT_SENT0A SENT input CCU60_CCPOS0D CCU60 input VADCG0_11 AI VADC input channel 11 of group 0 Table 2-35 Port 41 Functions Pin Symbol Ctrl. Buffer Type 35 P41.0 I S / VDDM General-purpose input 34 SENT_SENT1A SENT input CCU60_CCPOS1B CCU60 input VADCG1_0 AI P41.1 I VADCG1_1 AI VADCG3_0 33 32 31 30 29 28 27 Function P41.2 VADC input channel 0 of group 1 S / VDDM General-purpose input VADC input channel 1 of group 1 (with multiplexer diagnostics) VADC input channel 0 of group 3 I S / VDDM General-purpose input SENT_SENT2A SENT input CCU61_CCPOS1B CCU61 input VADCG1_2 AI P41.3 I VADC input channel 2 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input SENT_SENT3A SENT input CCU61_CCPOS1D CCU61 input VADCG1_3 AI P41.4 I VADCG1_4 AI P41.5 I VADCG1_5 AI P41.6 I VADCG1_6 AI P41.7 I VADCG1_7 AI P41.8 I VADCG1_8 AI Data Sheet VADC input channel 3 of group 1 (with pull down diagnostics) S / VDDM General-purpose input VADC input channel 4 of group 1 S / VDDM General-purpose input VADC input channel 5 of group 1 S / VDDM General-purpose input VADC input channel 6 of group 1 S / VDDM General-purpose input VADC input channel 7 of group 1 S / VDDM General-purpose input VADC input channel 8 of group 1 2-130 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-144-27 Package Variant Pin Table 2-35 Port 41 Functions (cont’d) Pin Symbol Ctrl. Buffer Type 26 P41.9 I S / VDDM General-purpose input VADCG1_9 AI P41.10 I VADCG1_10 AI P41.11 I VADCG1_11 AI 25 24 Function VADC input channel 9 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 10 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 11 of group 1 Table 2-36 System I/O Pin Symbol Ctrl. Buffer Type Function 81 XTAL1 I VDDP3 Main Oscillator/PLL/Clock Generator Input 82 XTAL2 O VDDP3 Main Oscillator/PLL/Clock Generator Output 89 TMS/DAP1 I DAP1 I/O A1+ / PD / Debug Interface VDDP3 Device Access Port LIne 1 91 TRST I Input Only JTAG Module Reset/Enable Input / PD / VDDP3 92 TCK/DAP0 I DAP0 I Input Only OCDS input / PD / Device Access Port LIne 0 VDDP3 ESR1 I/O EVRWUP I 97 PORST I Input Only Power On Reset / PD / Additional strong PD in case of power fail. VDDP3 98 ESR0 I/O EVRWUP I A1+ / OD / SCU input/output VDDP3 EVR Wakeup Pin 96 A1+ / PU / SCU input VDDP3 EVR Wakeup Pin Table 2-37 Supply Pin Symbol Ctrl. Buffer Type Function 41 VAGND I — Negative Analog Reference Voltage 0 42 VAREF I — Positive Analog Reference Voltage 0 126 VDDP3 I — Digital I/O Power Supply (3.3V) This pin supplies also the Flash 3.3V. 69 VDDP3 I — Digital I/O Power Supply (3.3V) 70 VDD I — Digital Core Power Supply (1.3V) Output of EVR13. Data Sheet 2-131 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-37 Supply (cont’d) Pin Symbol Ctrl. Buffer Type Function 79 VDD I — Digital Core Power Supply (1.3V) This pin supplies also the main XTAL Oscillator/PLL (1.3V). A higher decoupling capacitor is therefore recommended to the VSS pin for better noise immunity. 83 VDDP3 I — Digital I/O Power Supply (3.3V) This pin supplies also the main XTAL Oscillator/PLL (3.3V). A higher decoupling capacitor is therefore recommended to the VSS pin for better noise immunity. 44 VDDM I — ADC Power Supply (5.0V) 23 VDDP3 I — Digital I/O Power Supply (3.3V) 10 VDD/VDDSB I — Digital Core Power Supply (1.3V) 22 VDD I — Digital Core Power Supply (1.3V) 99 VDD I — Digital Core Power Supply (1.3V) 43 VSSM I — Analog Ground for VDDM 80 VSS I — Digital Ground 2.2.2 Pull-Up/Pull-Down Reset Behavior of the Pins Table 2-38 List of Pull-Up/Pull-Down Reset Behavior of the Pins Pins PORST = 0 all GPIOs High-Z TDI, TESTMODE Pull-up 1) PORST Pull-down with IPORST relevant TRST, TCK, TMS Pull-down ESR0 The open-drain driver is used to drive low.2) ESR1 Pull-up3) P14.2, P14.3, P14.6 Pull-up P21.7 / TDO Pull-up 1) 2) 3) 4) PORST = 1 Pull-down with IPDLI relevant Pull-up3) High-Z/Pull-up4) Pull-down with IPORST relevant is always activated when a primary supply monitor detects a violation. Valid additionally after deactivation of PORST until the internal reset phase has finished. See the SCU chapter for details. See the SCU_IOCR register description. Depends on JTAG/DAP selection with TRST. 2.3 PG-TQFP-100-23 Package Variant Pin Configuration of TC233x Figure 2-1 is showing the TC233x pinout for the package variant: PG-TQFP-100-23. Data Sheet 2-132 V 1.0 2017-03 TC233 / TC234 / TC237 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 P10.6 P10.5 P11.12 P11.11 P11.10 P11.8 P11.9 P11.6 P11.3 P11.2 P13.3 P13.2 P13.1 P13.0 VDDP3 P14.6 P14.4 P14.3 P14.1/Boo tloader P14.0/Boo tloader P15.5 P15.3 P15.2 P15.1 P15.0 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 TC23x (Top View) 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 P20.14 P20.13 P20.12 P20.11 P20.10 P20.9 P20.8 VDD ESR0 PORST ESR1 P20.2/TESTMODE TCK/DAP0 TRST P21.7/TDO/DAP2 TMS/DAP1 P21.6/TDI P21.4 P21.3 P21.2 VDDP3 XTAL2 XTAL1 VDD P23.1 AN10/P40.10 AN9/P40.9 AN8/P40.8 AN7/P40.7 VAGND VAR EF VS SM VDDM AN6/P40.6 AN5/P40.5 AN4/P40.4 AN3/P40.3 AN2/P40.2 AN1/P40.1 AN0/P40.0 P33.5 P33.6 P33.7 P33.8 P33.9 P33.10 VDDP3 VDD VC AP0 VC AP1 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 P02.0 P02.1 P02.2 P02.3 P02.4 P02.5 P02.6 P02.7 P02.8 P00.0 VDD VDDP3 AN23/P41.11 AN22/P41.10 AN21/P41.9 AN20/P41.8 AN19/P41.7 AN18/P41.6 AN17/P41.5 AN16/P41.4 AN15/P41.3 AN14/P41.2 AN13/P41.1 AN12/P41.0 AN11/P40.11 Figure 2-3 TC233x Pinout for the package variant PG-TQFP-100-23. Data Sheet 2-133 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin 2.3.1 Port Functions and Pinning Tables 2.3.1.1 How to Read the Following Port Function Tables Some hints for interpreting the following tables. Column “Ctrl.”: I = Input (for GPIO port Lines with IOCR bit field Selection PCx = 0XXXB) AI = Analog input O = Output O0 = Output with IOCR bit field selection PCx = 1X000B O1 = Output with IOCR bit field selection PCx = 1X001B (ALT1) O2 = Output with IOCR bit field selection PCx = 1X010B (ALT2) O3 = Output with IOCR bit field selection PCx = 1X011B (ALT3) O4 = Output with IOCR bit field selection PCx = 1X100B (ALT4) O5 = Output with IOCR bit field selection PCx = 1X101B (ALT5) O6 = Output with IOCR bit field selection PCx = 1X110B (ALT6) O7 = Output with IOCR bit field selection PCx = 1X111B (ALT7) Table 2-39 Example Port Table Pin Symbol Ctrl. Buffer Type 10 Pxx.y I A1 / HighZ / General-purpose input VDDP3 GTM_TIN TIMm_n TOMa_b O1 Function GTM_TOUT TOMc_d GTM_TOUT IOM_REFv_w IOM reference input ASCLINz_RTS O2 ASCLIN0 output (aka ARTSz) To each input several functions can be connected. The peripherals’ configuration defines if this input is used. The port module (see corresponding chapter) decides which of the 8 output signals O0 to O7 drives the pad. Some Ox rows list more than one function, e.g. several GTM_TOUT outputs and IOM reference inputs. The GTM module (see corresponding chapter) has its own sub-multiplexer structure that defines which of the GTM sub-units drives this signal. Additionally the IOM modules “listens” on these output signals (see IOM chapter). Some pin symbol names were changed in this AURIX device compared to other AURIX devices to improve naming systematics. The previously used symbol name is documented in the “Function” column with the text “(aka …)”1). Column “Type”: IN = Input only A1 = Pad class A1 (3.3V) A1+ = Pad class A1+ (3.3V) S = ADC with digital input. Pad class D for analog input “AI”, pad class S for digital input “I”. PU = with pull-up device connected during reset (PORST = 0) PD = with pull-down device connected during reset (PORST = 0) 1) “aka” as abbreviation for “also known as”. Data Sheet 2-134 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin High-Z = High-Z during reset (PORST = 0) Vx = Supply (the Exposed Pad is also considered as VSS and shall be connected to ground) 2.3.1.2 Tables Port function and pinning tables. Table 2-40 Port 00 Functions Pin Symbol Ctrl. Buffer Type Function 10 P00.0 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 CCU61_CTRAPA CCU60_T12HRE GTM_TIN CCU61 input CCU60 input P00.0 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_REF0_9 IOM reference input ASCLIN0_SCLK O2 ASCLIN0 output (aka: ASCLK0) ASCLIN0_TX O3 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input — O4 Reserved CAN1_TXD O5 CAN node 1 output (aka: TXDCAN1) IOM_MON2_6 IOM monitor input IOM_REF2_6 IOM reference input — O6 Reserved CCU60_COUT63 O7 CCU60 output IOM_MON1_6 IOM monitor input IOM_REF1_0 IOM reference input Data Sheet 2-135 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-41 Port 02 Functions Pin Symbol Ctrl. Buffer Type Function 1 P02.0 I A1+ / HighZ / VDDP3 General-purpose input TIM0_0 SCU_REQ6 GTM_TIN SCU input CCU60_CC60INA CCU60 input CCU61_CC60INB CCU61 input P02.0 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_8 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_REF0_0 IOM reference input — O2 Reserved QSPI3_SLSO1 O3 QSPI3 output (aka: SLSO31) — O4 Reserved CAN0_TXD O5 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input ERAY0_TXDA O6 ERAY0 output CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Data Sheet 2-136 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-41 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 2 P02.1 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 CAN0_RXDA GTM_TIN CAN node 0 input (aka: RXDCAN0A) ERAY0_RXDA2 ERAY0 input SCU_REQ14 SCU input P02.1 O0 General-purpose output TOM0_9 O1 GTM_TOUT TOM1_9 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_REF0_1 IOM reference input — O2 Reserved QSPI3_SLSO2 O3 QSPI3 output (aka: SLSO32) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT60 O7 CCU60 output IOM_MON1_3 IOM monitor input IOM_REF1_3 IOM reference input Data Sheet 2-137 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-41 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 3 P02.2 I A1+ / HighZ / VDDP3 General-purpose input TIM0_2 CCU60_CC61INA CCU61_CC61INB GTM_TIN CCU60 input CCU61 input P02.2 O0 General-purpose output TOM0_10 O1 GTM_TOUT TOM1_10 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_REF0_2 IOM reference input ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI3_SLSO3 O3 QSPI3 output (aka: SLSO33) — O4 Reserved CAN2_TXD O5 CAN node 2 output (aka: TXDCAN2) IOM_MON2_7 IOM monitor input IOM_REF2_7 IOM reference input ERAY0_TXDB O6 ERAY0 output CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input Data Sheet 2-138 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-41 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 4 P02.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_3 ASCLIN1_RXG GTM_TIN ASCLIN1 input (aka: ARX1G) CAN2_RXDB CAN node 2 input (aka: RXDCAN2B) ERAY0_RXDB2 ERAY0 input P02.3 O0 General-purpose output TOM0_11 O1 GTM_TOUT TOM1_11 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_REF0_3 IOM reference input — O2 Reserved QSPI3_SLSO4 O3 QSPI3 output (aka: SLSO34) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT61 O7 CCU60 output IOM_MON1_4 IOM monitor input IOM_REF1_2 IOM reference input Data Sheet 2-139 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-41 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 5 P02.4 I A1+ / HighZ / VDDP3 General-purpose input TIM0_4 QSPI3_SLSIA GTM_TIN QSPI3 input (aka: SLSI3A) CAN0_RXDD CAN node 0 input (aka: RXDCAN0D) CCU60_CC62INA CCU60 input CCU61_CC62INB CCU61 input P02.4 O0 General-purpose output TOM0_12 O1 GTM_TOUT TOM1_12 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_REF0_4 IOM reference input — O2 Reserved QSPI3_SLSO0 O3 QSPI3 output (aka: SLSO30) — O4 Reserved CAN10_TXD O5 CAN1 node 0 output (aka: TXDCAN10) ERAY0_TXENA O6 ERAY0 output CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input Data Sheet 2-140 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-41 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 6 P02.5 I A1+ / HighZ / VDDP3 General-purpose input TIM0_5 QSPI3_MRSTA SENT_SENT3C GTM_TIN QSPI3 input (aka: MRST3A) SENT input P02.5 O0 General-purpose output TOM0_13 O1 GTM_TOUT TOM1_13 GTM_TOUT TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_REF0_5 IOM reference input CAN0_TXD O2 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input QSPI3_MRST O3 QSPI3 output (aka: MRST3) IOM_MON2_3 IOM monitor input IOM_REF2_3 IOM reference input — O4 Reserved CAN11_TXD O5 CAN1 node 1 output (aka: TXDCAN11) ERAY0_TXENB O6 ERAY0 output CCU60_COUT62 O7 CCU60 output IOM_MON1_5 IOM monitor input IOM_REF1_1 IOM reference input Data Sheet 2-141 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-41 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 7 P02.6 I A1 / HighZ / VDDP3 General-purpose input TIM0_6 QSPI3_MTSRA GTM_TIN QSPI3 input (aka: MTSR3A) SENT_SENT2C SENT input CCU60_CC60INC CCU60 input CCU60_CCPOS0A CCU60 input CCU61_T12HRB CCU61 input GPT120_T3INA GPT120 input CAN10_RXDF CAN1 node 0 input (aka: RXDCAN10F) P02.6 O0 General-purpose output TOM0_14 O1 GTM_TOUT TOM1_14 GTM_TOUT TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_REF0_6 IOM reference input — O2 Reserved QSPI3_MTSR O3 QSPI3 output (aka: MTSR3) — O4 Reserved VADC_EMUX00 O5 VADC output — O6 Reserved CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Data Sheet 2-142 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-41 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 8 P02.7 I A1 / HighZ / VDDP3 General-purpose input TIM0_7 QSPI3_SCLKA GTM_TIN QSPI3 input (aka: SCLK3A) SENT_SENT1C SENT input CCU60_CC61INC CCU60 input CCU60_CCPOS1A CCU60 input CCU61_T13HRB CCU61 input GPT120_T3EUDA GPT120 input CAN11_RXDF CAN1 node 1 input (aka: RXDCAN11F) PMU_FDEST PMU input P02.7 O0 General-purpose output TOM0_15 O1 GTM_TOUT TOM1_15 GTM_TOUT TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) IOM_REF0_7 IOM reference input — O2 Reserved QSPI3_SCLK O3 QSPI3 output (aka: SCLK3) — O4 Reserved VADC_EMUX01 O5 VADC output SENT_SPC1 O6 SENT output CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input Data Sheet 2-143 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-41 Port 02 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 9 P02.8 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 SENT_SENT0C GTM_TIN SENT input CCU60_CC62INC CCU60 input CCU60_CCPOS2A CCU60 input CCU61_T12HRC CCU61 input CCU61_T13HRC CCU61 input GPT120_T4INA GPT120 input P02.8 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_REF0_8 IOM reference input QSPI3_SLSO5 O2 QSPI3 output (aka: SLSO35) — O3 Reserved — O4 Reserved VADC_EMUX02 O5 VADC output — O6 Reserved CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input Data Sheet 2-144 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-42 Port 10 Functions Pin Symbol Ctrl. Buffer Type Function 99 P10.5 I A1 / HighZ / VDDP3 General-purpose input TIM0_2 SCU_HWCFG4 CAN10_RXDA 100 GTM_TIN SCU input CAN1 node 0 input (aka: RXDCAN10A) P10.5 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_10 GTM_TOUT IOM_REF2_9 IOM reference input — O2 Reserved QSPI3_SLSO8 O3 QSPI3 output (aka: SLSO38) QSPI1_SLSO9 O4 QSPI1 output (aka: SLSO19) GPT120_T6OUT O5 GPT120 output — O6 Reserved — O7 Reserved P10.6 I TIM0_3 QSPI3_MTSRB SCU_HWCFG5 A1 / HighZ / VDDP3 General-purpose input GTM_TIN QSPI3 input (aka: MTSR3B) SCU input P10.6 O0 General-purpose output TOM0_3 O1 GTM_TOUT TOM1_11 GTM_TOUT IOM_REF2_10 IOM reference input — O2 Reserved QSPI3_MTSR O3 QSPI3 output (aka: MTSR3) GPT120_T3OUT O4 GPT120 output CAN10_TXD O5 CAN1 node 0 output (aka: TXDCAN10) QSPI1_MRST O6 QSPI1 output (aka: MRST1) IOM_MON2_1 IOM monitor input IOM_REF2_1 IOM reference input — Data Sheet O7 Reserved 2-145 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-43 Port 11 Functions Pin Symbol Ctrl. Buffer Type Function 91 P11.2 I General-purpose input P11.2 O0 TOM0_8 O1 A1+ / HighZ / VDDP3 92 General-purpose output GTM_TOUT TOM1_1 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) — O2 Reserved QSPI0_SLSO5 O3 QSPI0 output (aka: SLSO05) QSPI1_SLSO5 O4 QSPI1 output (aka: SLSO15) CCU61_COUT63 O5 CCU61 output IOM_MON1_7 IOM monitor input IOM_REF1_7 IOM reference input — O6 Reserved CCU60_COUT63 O7 CCU60 output IOM_MON1_6 IOM monitor input IOM_REF1_0 IOM reference input P11.3 I QSPI1_MRSTB P11.3 O0 TOM0_10 O1 A1+ / HighZ / VDDP3 General-purpose input QSPI1 input (aka: MRST1B) General-purpose output GTM_TOUT TOM1_2 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) — O2 Reserved QSPI1_MRST O3 QSPI1 output (aka: MRST1) IOM_MON2_1 IOM monitor input IOM_REF2_1 IOM reference input ERAY0_TXDA O4 ERAY0 output CCU61_COUT62 O5 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input — O6 Reserved CCU60_COUT62 O7 CCU60 output IOM_MON1_5 IOM monitor input IOM_REF1_1 IOM reference input Data Sheet 2-146 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-43 Port 11 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 93 P11.6 I A1+ / HighZ / VDDP3 General-purpose input QSPI1_SCLKB 95 P11.6 O0 TOM0_11 O1 QSPI1 input (aka: SCLK1B) General-purpose output GTM_TOUT TOM1_3 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) ERAY0_TXENB O2 ERAY0 output QSPI1_SCLK O3 QSPI1 output (aka: SCLK1) ERAY0_TXENA O4 ERAY0 output CCU61_COUT61 O5 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input — O6 Reserved CCU60_COUT61 O7 CCU60 output IOM_MON1_4 IOM monitor input IOM_REF1_2 IOM reference input P11.8 I QSPI1_MTSRC P11.8 O0 TOM0_4 O1 TOM1_4 A1 / HighZ / VDDP3 General-purpose input QSPI1 input (aka: MTSR1C) General-purpose output GTM_TOUT (= DTM1_OUT4) GTM_TOUT (= DTM5_OUT4) — O2 Reserved QSPI1_SLSO10 O3 QSPI1 output (aka: SLSO110) QSPI1_MTSR O4 QSPI1 output (aka: MTSR1) — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-147 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-43 Port 11 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 94 P11.9 I A1+ / HighZ / VDDP3 General-purpose input QSPI1_MTSRB ERAY0_RXDA1 96 QSPI1 input (aka: MTSR1B) ERAY0 input P11.9 O0 General-purpose output TOM0_12 O1 GTM_TOUT TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) — O2 Reserved QSPI1_MTSR O3 QSPI1 output (aka: MTSR1) — O4 Reserved CCU61_COUT60 O5 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input — O6 Reserved CCU60_COUT60 O7 CCU60 output IOM_MON1_3 IOM monitor input IOM_REF1_3 IOM reference input P11.10 I ASCLIN1_RXE ERAY0_RXDB1 A1+ / HighZ / VDDP3 General-purpose input ASCLIN1 input (aka: ARX1E) ERAY0 input SCU_REQ12 SCU input CAN12_RXDD CAN1 node 2 input (aka: RXDCAN12D) P11.10 O0 General-purpose output TOM0_13 O1 GTM_TOUT TOM1_5 GTM_TOUT (= DTM5_OUT5) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) — O2 Reserved QSPI0_SLSO3 O3 QSPI0 output (aka: SLSO03) QSPI1_SLSO3 O4 QSPI1 output (aka: SLSO13) CCU61_CC62 O5 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input — O6 Reserved CCU60_CC62 O7 CCU60 output IOM_MON1_0 IOM monitor input IOM_REF1_4 IOM reference input Data Sheet 2-148 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-43 Port 11 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 97 P11.11 I General-purpose input P11.11 O0 TOM0_14 O1 A1+ / HighZ / VDDP3 98 General-purpose output GTM_TOUT TOM1_6 GTM_TOUT (= DTM5_OUT6) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) — O2 Reserved QSPI0_SLSO4 O3 QSPI0 output (aka: SLSO04) QSPI1_SLSO4 O4 QSPI1 output (aka: SLSO14) CCU61_CC61 O5 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input ERAY0_TXENB O6 ERAY0 output CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input P11.12 I P11.12 O0 TOM0_15 O1 A1+ / HighZ / VDDP3 General-purpose input General-purpose output GTM_TOUT TOM1_7 GTM_TOUT (= DTM5_OUT7) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input GTM_CLK2 O3 GTM output ERAY0_TXDB O4 ERAY0 output CCU61_CC60 O5 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input SCU_EXTCLK1 O6 SCU output CCU60_CC60 O7 CCU60 output IOM_MON1_2 IOM monitor input IOM_REF1_6 IOM reference input Data Sheet 2-149 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-44 Port 13 Functions Pin Symbol Ctrl. Buffer Type Function 87 P13.0 I A1 / HighZ / VDDP3 General-purpose input CCU60_CTRAPA GPT120_T6EUDB 88 CCU60 input GPT120 input P13.0 O0 General-purpose output TOM0_5 O1 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) — O2 Reserved QSPI2_SCLK O3 QSPI2 output (aka: SCLK2) — O4 Reserved — O5 Reserved — O6 Reserved CAN10_TXD O7 CAN1 node 0 output (aka: TXDCAN10) P13.1 I CCU60_CCPOS0C GPT120_T3INB CAN10_RXDB A1 / HighZ / VDDP3 General-purpose input CCU60 input GPT120 input CAN1 node 0 input (aka: RXDCAN10B) P13.1 O0 General-purpose output TOM0_6 O1 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-150 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-44 Port 13 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 89 P13.2 I A1 / HighZ / VDDP3 General-purpose input CCU60_CCPOS1C GPT120_T3EUDB GPT120_CAPINA 90 CCU60 input GPT120 input GPT120 input P13.2 O0 General-purpose output TOM0_7 O1 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) CAN11_TXD O2 CAN1 node 1 output (aka: TXDCAN11) — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P13.3 I CCU60_CCPOS2C GPT120_T4INB CAN11_RXDB A1 / HighZ / VDDP3 General-purpose input CCU60 input GPT120 input CAN1 node 1 input (aka: RXDCAN11B) P13.3 O0 General-purpose output TOM0_8 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) — O2 Reserved QSPI2_MTSR O3 QSPI2 output (aka: MTSR2) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-151 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-45 Port 14 Functions Pin Symbol Ctrl. Buffer Type Function 81 P14.0 I A1+ / HighZ / VDDP3 General-purpose input TIM0_3 P14.0 O0 TOM0_3 O1 GTM_TIN General-purpose output GTM_TOUT TOM1_3 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) ASCLIN0_TX O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input ERAY0_TXDA O3 ERAY0 output ERAY0_TXDB O4 ERAY0 output CAN1_TXD O5 CAN node 1 output (aka: TXDCAN1) IOM_MON2_6 IOM monitor input IOM_REF2_6 IOM reference input ASCLIN0_SCLK O6 ASCLIN0 output (aka: ASCLK0) CCU60_COUT62 O7 CCU60 output IOM_MON1_5 IOM monitor input IOM_REF1_1 IOM reference input Data Sheet 2-152 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-45 Port 14 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 82 P14.1 I A1+ / HighZ / VDDP3 General-purpose input TIM0_4 ASCLIN0_RXA ASCLIN0 input (aka: ARX0A) CAN1_RXDB CAN node 1 input (aka: RXDCAN1B) ERAY0_RXDA3 ERAY0 input SCU_REQ15 SCU input ERAY0_RXDB3 ERAY0 input SCU_EVRWUPA AI SCU input P14.1 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_REF1_14 IOM reference input ASCLIN0_TX 83 GTM_TIN O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved CCU60_COUT63 O7 CCU60 output IOM_MON1_6 IOM monitor input IOM_REF1_0 IOM reference input P14.3 I TIM0_6 A1 / PU / VDDP3 General-purpose input GTM_TIN SCU_REQ10 SCU input SCU_HWCFG3_BMI SCU input P14.3 O0 General-purpose output TOM0_6 O1 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_REF2_4 IOM reference input — O2 Reserved QSPI2_SLSO3 O3 QSPI2 output (aka: SLSO23) ASCLIN1_SLSO O4 ASCLIN1 output (aka: ASLSO1) — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-153 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-45 Port 14 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 84 P14.4 I A1+ / HighZ / VDDP3 General-purpose input TIM0_7 85 P14.4 O0 TOM0_7 O1 GTM_TIN General-purpose output GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) IOM_REF2_8 IOM reference input — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P14.6 I TIM0_1 A1+ / PU / General-purpose input VDDP3 GTM_TIN SCU_HWCFG0_DCLD O SCU input QSPI0_MRSTD QSPI0 input (aka: MRST0D) P14.6 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 GTM_TOUT IOM_REF2_14 IOM reference input — O2 Reserved QSPI2_SLSO2 O3 QSPI2 output (aka: SLSO22) — O4 Reserved — O5 Reserved ERAY0_TXENB O6 ERAY0 output — O7 Reserved Data Sheet 2-154 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-46 Port 15 Functions Pin Symbol Ctrl. Buffer Type Function 76 P15.0 I General-purpose input P15.0 O0 TOM1_3 O1 A1 / HighZ / VDDP3 GTM_TOUT TOM0_11 GTM_TOUT TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) ASCLIN1_TX 77 General-purpose output O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI0_SLSO13 O3 QSPI0 output (aka: SLSO013) — O4 Reserved CAN2_TXD O5 CAN node 2 output (aka: TXDCAN2) IOM_MON2_7 IOM monitor input IOM_REF2_7 IOM reference input ASCLIN1_SCLK O6 ASCLIN1 output (aka: ASCLK1) — O7 Reserved P15.1 I ASCLIN1_RXA QSPI2_SLSIB A1 / HighZ / VDDP3 General-purpose input ASCLIN1 input (aka: ARX1A) QSPI2 input (aka: SLSI2B) CAN2_RXDA CAN node 2 input (aka: RXDCAN2A) SCU_REQ16 SCU input SCU_EVRWUPB AI SCU input P15.1 O0 General-purpose output TOM1_4 O1 GTM_TOUT (= DTM5_OUT4) TOM0_12 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI2_SLSO5 O3 QSPI2 output (aka: SLSO25) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-155 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-46 Port 15 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 78 P15.2 I A1 / HighZ / VDDP3 General-purpose input QSPI2_MRSTE QSPI2_SLSIA QSPI2_HSICINA QSPI2 input (aka: SLSI2A) QSPI2 input (aka: HSIC2INA) P15.2 O0 General-purpose output TOM1_5 O1 GTM_TOUT (= DTM5_OUT5) TOM0_13 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) ASCLIN0_TX 79 QSPI2 input (aka: MRST2E) O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input QSPI2_SLSO0 O3 QSPI2 output (aka: SLSO20) — O4 Reserved CAN1_TXD O5 CAN node 1 output (aka: TXDCAN1) IOM_MON2_6 IOM monitor input IOM_REF2_6 IOM reference input ASCLIN0_SCLK O6 ASCLIN0 output (aka: ASCLK0) — O7 Reserved P15.3 I ASCLIN0_RXB QSPI2_SCLKA A1 / HighZ / VDDP3 General-purpose input ASCLIN0 input (aka: ARX0B) QSPI2 input (aka: SCLK2A) QSPI2_HSICINB QSPI2 input (aka: HSIC2INB) CAN1_RXDA CAN node 1 input (aka: RXDCAN1A) P15.3 O0 General-purpose output TOM1_6 O1 GTM_TOUT (= DTM5_OUT6) TOM0_14 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) ASCLIN0_TX O2 ASCLIN0 output (aka: ATX0) IOM_MON2_12 IOM monitor input IOM_REF2_12 IOM reference input QSPI2_SCLK O3 QSPI2 output (aka: SCLK2) — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-156 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-46 Port 15 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 80 P15.5 I A1 / HighZ / VDDP3 General-purpose input ASCLIN1_RXB QSPI2_MTSRA SCU_REQ13 ASCLIN1 input (aka: ARX1B) QSPI2 input (aka: MTSR2A) SCU input P15.5 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) ASCLIN1_TX O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI2_MTSR O3 QSPI2 output (aka: MTSR2) — O4 Reserved — O5 Reserved — O6 Reserved CCU60_CC61 O7 CCU60 output IOM_MON1_1 IOM monitor input IOM_REF1_5 IOM reference input Table 2-47 Port 20 Functions Pin Symbol Ctrl. Buffer Type 64 P20.2 I Input Only General-purpose input / PU / Factory Test Mode Enable VDDP3 TESTMODE Data Sheet Function 2-157 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-47 Port 20 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 69 P20.8 I A1 / HighZ / VDDP3 General-purpose input TIM0_7 70 P20.8 O0 TOM1_7 O1 GTM_TIN General-purpose output GTM_TOUT (= DTM5_OUT7) TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) IOM_MON2_8 IOM monitor input ASCLIN1_SLSO O2 ASCLIN1 output (aka: ASLSO1) QSPI0_SLSO0 O3 QSPI0 output (aka: SLSO00) QSPI1_SLSO0 O4 QSPI1 output (aka: SLSO10) CAN0_TXD O5 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input SCU_WDT0LCK O6 SCU output CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input P20.9 I ASCLIN1_RXC QSPI0_SLSIB A1 / HighZ / VDDP3 General-purpose input ASCLIN1 input (aka: ARX1C) QSPI0 input (aka: SLSI0B) SCU_REQ11 SCU input CAN12_RXDE CAN1 node 2 input (aka: RXDCAN12E) P20.9 O0 General-purpose output TOM1_13 O1 GTM_TOUT TOM0_13 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) IOM_MON2_11 IOM monitor input — O2 Reserved QSPI0_SLSO1 O3 QSPI0 output (aka: SLSO01) QSPI1_SLSO1 O4 QSPI1 output (aka: SLSO11) — O5 Reserved SCU_WDTSLCK O6 SCU output CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input Data Sheet 2-158 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-47 Port 20 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 71 P20.10 I General-purpose input P20.10 O0 TOM1_14 O1 A1 / HighZ / VDDP3 GTM_TOUT TOM0_14 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_MON2_14 IOM monitor input ASCLIN1_TX 72 General-purpose output O2 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input QSPI0_SLSO6 O3 QSPI0 output (aka: SLSO06) QSPI2_SLSO7 O4 QSPI2 output (aka: SLSO27) CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) ASCLIN1_SCLK O6 ASCLIN1 output (aka: ASCLK1) CCU61_CC62 O7 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input P20.11 I QSPI0_SCLKA P20.11 O0 TOM1_15 O1 A1+ / HighZ / VDDP3 General-purpose input QSPI0 input (aka: SCLK0A) General-purpose output GTM_TOUT TOM0_15 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_MON2_15 IOM monitor input — O2 Reserved QSPI0_SCLK O3 QSPI0 output (aka: SCLK0) — O4 Reserved CAN11_TXD O5 CAN1 node 1 output (aka: TXDCAN11) — O6 Reserved CCU61_COUT60 O7 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input Data Sheet 2-159 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-47 Port 20 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 73 P20.12 I A1 / HighZ / VDDP3 General-purpose input QSPI0_MRSTA CAN11_RXDH IOM_PIN13 74 QSPI0 input (aka: MRST0A) CAN1 node 1 input (aka: RXDCAN11H) IOM pad input P20.12 O0 General-purpose output TOM1_0 O1 GTM_TOUT TOM0_8 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_MON0_13 IOM monitor input — O2 Reserved QSPI0_MRST O3 QSPI0 output (aka: MRST0) IOM_MON2_0 IOM monitor input IOM_REF2_0 IOM reference input QSPI0_MTSR O4 QSPI0 output (aka: MTSR0) — O5 Reserved — O6 Reserved CCU61_COUT61 O7 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input P20.13 I QSPI0_SLSIA CAN12_RXDH IOM_PIN14 A1+ / HighZ / VDDP3 General-purpose input QSPI0 input (aka: SLSI0A) CAN1 node 2 input (aka: RXDCAN12H) IOM pad input P20.13 O0 General-purpose output TOM1_1 O1 GTM_TOUT TOM0_9 GTM_TOUT TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_MON0_14 IOM monitor input — O2 Reserved QSPI0_SLSO2 O3 QSPI0 output (aka: SLSO02) QSPI1_SLSO2 O4 QSPI1 output (aka: SLSO12) QSPI0_SCLK O5 QSPI0 output (aka: SCLK0) — O6 Reserved CCU61_COUT62 O7 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input Data Sheet 2-160 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-47 Port 20 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 75 P20.14 I A1+ / HighZ / VDDP3 General-purpose input QSPI0_MTSRA IOM_PIN15 QSPI0 input (aka: MTSR0A) IOM pad input P20.14 O0 General-purpose output TOM1_2 O1 GTM_TOUT TOM0_10 GTM_TOUT TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_MON0_15 IOM monitor input — O2 Reserved QSPI0_MTSR O3 QSPI0 output (aka: MTSR0) — O4 Reserved CAN12_TXD O5 CAN1 node 2 output (aka: TXDCAN12) — O6 Reserved — O7 Reserved Table 2-48 Port 21 Functions Pin Symbol Ctrl. Buffer Type Function 56 P21.2 I A1 / HighZ / VDDP3 General-purpose input TIM0_0 SCU_EMGSTOPB GTM_TIN SCU input P21.2 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_4 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-161 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-48 Port 21 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 57 P21.3 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 58 P21.3 O0 TOM0_1 O1 GTM_TIN General-purpose output GTM_TOUT TOM1_1 GTM_TOUT TOM0_4N GTM_TOUT (= DTM1_OUT4_N) TOM1_4N GTM_TOUT (= DTM5_OUT4_N) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved P21.4 I TIM0_2 P21.4 O0 TOM0_2 O1 A1 / HighZ / VDDP3 General-purpose input GTM_TIN General-purpose output GTM_TOUT TOM1_2 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved — O7 Reserved Data Sheet 2-162 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-48 Port 21 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 59 P21.6 I A1 / PU / VDDP3 General-purpose input TIM0_4 TDI OCDS input OCDS_TGI2 OCDS input GPT120_T5EUDA GPT120 input P21.6 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 61 GTM_TIN GTM_TOUT (= DTM5_OUT4) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved GPT120_T3OUT O7 GPT120 output OCDS_TGO2 O OCDS P21.7 I TIM0_5 A1+ / PU / General-purpose input VDDP3 GTM_TIN OCDS_DAP2 OCDS input OCDS_TGI3 OCDS input GPT120_T5INA GPT120 input P21.7 O0 General-purpose output TOM0_5 O1 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) — O2 Reserved — O3 Reserved — O4 Reserved — O5 Reserved — O6 Reserved GPT120_T6OUT O7 GPT120 output OCDS_TGO3 O OCDS OCDS_DAP2 O OCDS Output TDO O JTAG Output Data Sheet 2-163 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-49 Port 23 Functions Pin Symbol Ctrl. Buffer Type Function 51 P23.1 I A1+ / HighZ / VDDP3 General-purpose input TIM0_6 P23.1 O0 TOM0_6 O1 GTM_TIN General-purpose output GTM_TOUT (= DTM1_OUT6) TOM0_15 GTM_TOUT ASCLIN1_RTS O2 ASCLIN1 output (aka: ARTS1) QSPI3_SLSO13 O3 QSPI3 output (aka: SLSO313) GTM_CLK0 O4 GTM output SCU_EXTCLK1 O5 SCU output SCU_EXTCLK0 O6 SCU output — O7 Reserved Table 2-50 Port 33 Functions Pin Symbol Ctrl. Buffer Type Function 41 P33.5 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 CCU61_CCPOS2C GTM_TIN CCU61 input GPT120_T4EUDB GPT120 input IOM_PIN5 IOM pad input P33.5 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_5 GTM_TOUT (= DTM1_OUT5) TOM1_5 GTM_TOUT (= DTM5_OUT5) IOM_MON0_5 IOM monitor input QSPI0_SLSO7 O2 QSPI0 output (aka: SLSO07) QSPI1_SLSO7 O3 QSPI1 output (aka: SLSO17) — O4 Reserved VADC_EMUX11 O5 VADC output VADC_G0BFL1 O6 VADC output CCU61_CC60 O7 CCU61 output IOM_MON1_8 IOM monitor input IOM_REF1_13 IOM reference input Data Sheet 2-164 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-50 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 42 P33.6 I A1 / HighZ / VDDP3 General-purpose input TIM0_2 ASCLIN1_RXF GTM_TIN ASCLIN1 input (aka: ARX1F) CCU61_CCPOS1C CCU61 input GPT120_T2EUDB GPT120 input CAN10_RXDH CAN1 node 0 input (aka: RXDCAN10H) IOM_PIN6 IOM pad input P33.6 O0 General-purpose output TOM0_2 O1 GTM_TOUT TOM1_2 GTM_TOUT TOM0_5N GTM_TOUT (= DTM1_OUT5_N) TOM1_5N GTM_TOUT (= DTM5_OUT5_N) IOM_MON0_6 IOM monitor input — O2 Reserved — O3 Reserved ASCLIN1_TX O4 ASCLIN1 output (aka: ATX1) IOM_MON2_13 IOM monitor input IOM_REF2_13 IOM reference input VADC_EMUX10 O5 VADC output VADC_G0BFL2 O6 VADC output CCU61_CC61 O7 CCU61 output IOM_MON1_9 IOM monitor input IOM_REF1_12 IOM reference input HSM_HSM1 Data Sheet O HSM output 2-165 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-50 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 43 P33.7 I A1+ / HighZ / VDDP3 General-purpose input TIM0_3 CAN0_RXDE GTM_TIN CAN node 0 input (aka: RXDCAN0E) SCU_REQ8 SCU input CCU61_CCPOS0C CCU61 input GPT120_T2INB GPT120 input IOM_PIN7 IOM pad input P33.7 O0 General-purpose output TOM0_3 O1 GTM_TOUT TOM1_3 GTM_TOUT TOM0_6 GTM_TOUT (= DTM1_OUT6) TOM1_6 GTM_TOUT (= DTM5_OUT6) IOM_MON0_7 IOM monitor input — O2 Reserved QSPI3_SLSO7 O3 QSPI3 output (aka: SLSO37) — O4 Reserved CAN10_TXD O5 CAN1 node 0 output (aka: TXDCAN10) VADC_G0BFL3 O6 VADC output CCU61_COUT60 O7 CCU61 output IOM_MON1_11 IOM monitor input IOM_REF1_10 IOM reference input HSM_HSM2 Data Sheet O HSM output 2-166 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-50 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 44 P33.8 I A1+ / HighZ / VDDP3 General-purpose input TIM0_4 SCU_EMGSTOPA IOM_PIN8 GTM_TIN SCU input IOM pad input P33.8 O0 General-purpose output TOM0_4 O1 GTM_TOUT (= DTM1_OUT4) TOM1_4 GTM_TOUT (= DTM5_OUT4) TOM0_6N GTM_TOUT (= DTM1_OUT6_N) TOM1_6N GTM_TOUT (= DTM5_OUT6_N) IOM_MON0_8 IOM monitor input — O2 Reserved QSPI3_SLSO2 O3 QSPI3 output (aka: SLSO32) — O4 Reserved CAN0_TXD O5 CAN node 0 output (aka: TXDCAN0) IOM_MON2_5 IOM monitor input IOM_REF2_5 IOM reference input — O6 Reserved CCU61_COUT62 O7 CCU61 output IOM_MON1_13 IOM monitor input IOM_REF1_8 IOM reference input SMU_FSP Data Sheet O SMU 2-167 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-50 Port 33 Functions (cont’d) Pin Symbol Ctrl. Buffer Type Function 45 P33.9 I A1 / HighZ / VDDP3 General-purpose input TIM0_1 QSPI3_HSICINA IOM_PIN9 46 GTM_TIN QSPI3 input (aka: HSIC3INA) IOM pad input P33.9 O0 General-purpose output TOM0_1 O1 GTM_TOUT TOM1_1 GTM_TOUT TOM0_7 GTM_TOUT (= DTM1_OUT7) TOM1_7 GTM_TOUT (= DTM5_OUT7) IOM_MON0_9 IOM monitor input — O2 Reserved QSPI3_SLSO1 O3 QSPI3 output (aka: SLSO31) — O4 Reserved — O5 Reserved — O6 Reserved CCU61_CC62 O7 CCU61 output IOM_MON1_10 IOM monitor input IOM_REF1_11 IOM reference input P33.10 I TIM0_0 QSPI3_SLSIC A1+ / HighZ / VDDP3 General-purpose input GTM_TIN QSPI3 input (aka: SLSI3C) QSPI3_HSICINB QSPI3 input (aka: HSIC3INB) IOM_PIN10 IOM pad input P33.10 O0 General-purpose output TOM0_0 O1 GTM_TOUT TOM1_0 GTM_TOUT TOM0_7N GTM_TOUT (= DTM1_OUT7_N) TOM1_7N GTM_TOUT (= DTM5_OUT7_N) IOM_MON0_10 IOM monitor input QSPI1_SLSO6 O2 QSPI1 output (aka: SLSO16) QSPI3_SLSO11 O3 QSPI3 output (aka: SLSO311) ASCLIN1_SLSO O4 ASCLIN1 output (aka: ASLSO1) GTM_CLK1 O5 GTM output SCU_EXTCLK1 O6 SCU output CCU61_COUT61 O7 CCU61 output IOM_MON1_12 IOM monitor input IOM_REF1_9 IOM reference input Data Sheet 2-168 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-51 Port 40 Functions Pin Symbol Ctrl. Buffer Type 40 P40.0 I S / VDDM General-purpose input VADCG0_0 AI P40.1 I VADCG0_1 AI P40.2 I VADCG0_2 AI P40.3 I VADCG0_3 AI P40.4 I VADCG0_4 AI P40.5 I VADCG0_5 AI P40.6 I VADCG0_6 AI P40.7 I VADCG0_7 AI P40.8 I VADCG0_8 AI P40.9 I VADCG0_9 AI P40.10 I VADCG0_10 AI P40.11 I 39 38 37 36 35 34 29 28 27 26 25 Function VADC input channel 0 of group 0 S / VDDM General-purpose input VADC input channel 1 of group 0 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 2 of group 0 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 3 of group 0 S / VDDM General-purpose input VADC input channel 4 of group 0 S / VDDM General-purpose input VADC input channel 5 of group 0 S / VDDM General-purpose input VADC input channel 6 of group 0 S / VDDM General-purpose input VADC input channel 7 of group 0 (with pull down diagnostics) S / VDDM General-purpose input VADC input channel 8 of group 0 S / VDDM General-purpose input VADC input channel 9 of group 0 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 10 of group 0 (with multiplexer diagnostics) S / VDDM General-purpose input SENT_SENT0A SENT input CCU60_CCPOS0D CCU60 input VADCG0_11 Data Sheet AI VADC input channel 11 of group 0 2-169 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-52 Port 41 Functions Pin Symbol Ctrl. Buffer Type 24 P41.0 I S / VDDM General-purpose input 23 22 21 20 19 18 17 16 15 14 13 Function SENT_SENT1A SENT input CCU60_CCPOS1B CCU60 input VADCG1_0 AI P41.1 I VADCG1_1 AI P41.2 I VADC input channel 0 of group 1 S / VDDM General-purpose input VADC input channel 1 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input SENT_SENT2A SENT input CCU61_CCPOS1B CCU61 input VADCG1_2 AI P41.3 I VADC input channel 2 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input SENT_SENT3A SENT input CCU61_CCPOS1D CCU61 input VADCG1_3 AI P41.4 I VADCG1_4 AI P41.5 I VADCG1_5 AI P41.6 I VADCG1_6 AI P41.7 I VADCG1_7 AI P41.8 I VADCG1_8 AI P41.9 I VADCG1_9 AI P41.10 I VADCG1_10 AI P41.11 I VADCG1_11 AI Data Sheet VADC input channel 3 of group 1 (with pull down diagnostics) S / VDDM General-purpose input VADC input channel 4 of group 1 S / VDDM General-purpose input VADC input channel 5 of group 1 S / VDDM General-purpose input VADC input channel 6 of group 1 S / VDDM General-purpose input VADC input channel 7 of group 1 S / VDDM General-purpose input VADC input channel 8 of group 1 S / VDDM General-purpose input VADC input channel 9 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 10 of group 1 (with multiplexer diagnostics) S / VDDM General-purpose input VADC input channel 11 of group 1 2-170 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-53 System I/O Pin Symbol Ctrl. Buffer Type Function 53 XTAL1 I VDDP3 Main Oscillator/PLL/Clock Generator Input 54 XTAL2 O VDDP3 Main Oscillator/PLL/Clock Generator Output 60 TMS/DAP1 I DAP1 I/O A1+ / PD / Debug Interface VDDP3 Device Access Port LIne 1 62 TRST I Input Only JTAG Module Reset/Enable Input / PD / VDDP3 63 TCK/DAP0 I DAP0 I Input Only OCDS input / PD / Device Access Port LIne 0 VDDP3 ESR1 I/O EVRWUP I 66 PORST I Input Only Power On Reset Additional strong PD in case of power fail. / PD / VDDP3 67 ESR0 I/O EVRWUP I A1+ / OD / SCU input/output VDDP3 EVR Wakeup Pin 65 A1+ / PU / SCU input VDDP3 EVR Wakeup Pin Table 2-54 Supply Pin Symbol Ctrl. Buffer Type Function 30 VAGND I — Negative Analog Reference Voltage 0 31 VAREF I — Positive Analog Reference Voltage 0 86 VDDP3 I — Digital I/O Power Supply (3.3V) This pin supplies also the Flash 3.3V. 47 VDDP3 I — Digital I/O Power Supply (3.3V) 48 VDD I — Digital Core Power Supply (1.3V) Output of EVR13. 52 VDD I — Digital Core Power Supply (1.3V) This pin supplies also the main XTAL Oscillator/PLL (1.3V). A higher decoupling capacitor is therefore recommended to the VSS pin for better noise immunity. 55 VDDP3 I — Digital I/O Power Supply (3.3V) This pin supplies also the main XTAL Oscillator/PLL (3.3V). A higher decoupling capacitor is therefore recommended to the VSS pin for better noise immunity. 33 VDDM I — ADC Power Supply (5.0V) 12 VDDP3 I — Digital I/O Power Supply (3.3V) 11 VDD I — Digital Core Power Supply (1.3V) Data Sheet 2-171 V 1.0 2017-03 TC233 / TC234 / TC237 Package and Pinning DefinitionsPG-TQFP-100-23 Package Variant Pin Table 2-54 Supply (cont’d) Pin Symbol Ctrl. Buffer Type Function 68 VDD I — Digital Core Power Supply (1.3V) 32 VSSM I — Analog Ground for VDDM 2.3.2 Pull-Up/Pull-Down Reset Behavior of the Pins Table 2-55 List of Pull-Up/Pull-Down Reset Behavior of the Pins Pins PORST = 0 all GPIOs High-Z TDI, TESTMODE Pull-up 1) PORST Pull-down with IPORST relevant TRST, TCK, TMS Pull-down ESR0 The open-drain driver is used to drive low.2) ESR1 Pull-up3) P14.2, P14.3, P14.6 Pull-up P21.7 / TDO Pull-up 1) 2) 3) 4) PORST = 1 Pull-down with IPDLI relevant Pull-up3) High-Z/Pull-up4) Pull-down with IPORST relevant is always activated when a primary supply monitor detects a violation. Valid additionally after deactivation of PORST until the internal reset phase has finished. See the SCU chapter for details. See the SCU_IOCR register description. Depends on JTAG/DAP selection with TRST. Data Sheet 2-172 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationParameter Interpretation 3 Electrical Specification 3.1 Parameter Interpretation The parameters listed in this section partly represent the characteristics of the TC233 / TC234 / TC237 and partly its requirements on the system. To aid interpreting the parameters easily when evaluating them for a design, they are marked with an two-letter abbreviation in column “Symbol”: • CC Such parameters indicate Controller Characteristics which are a distinctive feature of the TC233 / TC234 / TC237 and must be regarded for a system design. • SR Such parameters indicate System Requirements which must provided by the microcontroller system in which the TC233 / TC234 / TC237 designed in. Data Sheet 3-173 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationAbsolute Maximum Ratings 3.2 Absolute Maximum Ratings Stresses above the values listed under “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the Operational Conditions of this specification is not implied. Exposure to absolute maximum rating conditions may affect device reliability. Table 3-1 Absolute Maximum Ratings Parameter Symbol Values Min. Typ. Max. Unit Note / Test Condition upto 65h @ TJ = 150°C; upto 15h @ TJ = 170°C Storage Temperature TST SR -65 - 170 °C Voltage at VDD power supply pins with respect to VSS 1) VDD SR - - 1.9 V Voltage at VDDP3 power supply VDDP3 SR pins with respect to VSS - - 4.43 V Voltage at VDDM power supply pin with respect to VSS - - 7.0 V Voltage on all analog and class VIN SR S input pins with respect to VSS -0.5 - 7.0 V VIN SR -0.5 - min( V VDDM SR 2) Voltage on all other input pins with respect to VSS 1)2) Whatever is lower VDDP3 + 0.6 , 4.23 ) Input current on any pin during IIN SR overload condition 3) -10 - 10 mA Absolute maximum sum of all input circuit currents during overload condition 3) -100 - 100 mA ΣIIN SR 1) Valid for cumulated for up to 2.8h and pulse forms following a power supply switch on phase, where the rise and fall times are releated to the system capacities and coils. 2) Voltages below VINmin have no Impact to the device reliabiltiy as Long as the times and currents defined in section Pin Reliability in Overload for the affected pad(s) are not violated. 3) This parameter is an Absolute Maximum Rating. Exposure to Absolute Maximum Ratings for extended periods of time may damage the device. Data Sheet 3-174 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPin Reliability in Overload 3.3 Pin Reliability in Overload When receiving signals from higher voltage devices, low-voltage devices experience overload currents and voltages that go beyond their own IO power supplies specification. The following table defines overload conditions that will not cause any negative reliability impact if all the following conditions are met: • full operation life-time is not exceeded • Operating Conditions are met for • – pad supply levels – temperature Parameters defined in Absolute Maximum Ratings are not violated If a pin current is out of the Operating Conditions but within the overload parameters, then the parameters functionality of this pin as stated in the Operating Conditions can no longer be guaranteed. Operation is still possible in most cases but with relaxed parameters. Note: An overload condition on one or more pins does not require a reset. Table 3-2 Overload Parameters Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. Input current on any digital pin IIN during overload condition -5 - 5 mA Input current on analog input pin during overload condition -1 - 3 mA -5 - 5 mA Absolute sum of all ADC inputs IINSCA during overload condition -20 - 20 mA Absolute maximum sum of all input circuit currents during overload condition ΣIINS -100 - 100 mA Inactive device pin current during overload condtion 1) IID -1 - 1 mA Sum of all inactive device pin currents 1) IIDS -100 - 100 mA Overload coupling factor for digital inputs, negative 2) KOVDN CC - - 1.5*10-3 Overload injected on GPIO pad and affecting neighbor GPIO pad Overload coupling factor for digital inputs, positive 2) KOVDP CC - - 1*10-5 Overload injected on GPIO pad and affecting neighbor GPIO pad Overload coupling factor for analog inputs, negative KOVAN CC - - 1*10-3 Analog Inputs overlaid with pull down diagnostics - - 1*10-4 else Data Sheet IINANA 3-175 limited to 60h over lifetime All power supply voltages VDDx = 0 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPin Reliability in Overload Table 3-2 Overload Parameters (cont’d) Parameter Symbol Overload coupling factor for analog inputs, positive KOVAP CC Values Unit Note / Test Condition Min. Typ. Max. - - 1*10-4 Analog Inputs overlaid with pull down diagnostics - - 1*10-5 else 1) Limitations for time and supply levels specified in this section are not valid for this parameter. 2) Overload is measured as increase of pad leakage caused by injection on neighbor pad. Table 3-3 PN-Junction Characteristics for positive Overload Pad Type IIN = 3 mA IIN = 5 mA A1 / A1+ UIN = VDDP3 + 0.5 V UIN = VDDP3 + 0.6 V D UIN = VDDM + 0.75 V - Table 3-4 PN-Junction Characteristics for negative Overload Pad Type IIN = -3 mA IIN = -5 mA A1 / A1+ UIN = VSS - 0.5 V UIN = VSS - 0.6 V D UIN = VSS - 0.75 V - Data Sheet 3-176 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationOperating Conditions 3.4 Operating Conditions The following operating conditions must not be exceeded in order to ensure correct operation and reliability of the TC233 / TC234 / TC237. All parameters specified in the following tables refer to these operating conditions, unless otherwise noticed. Digital supply voltages applied to the TC233 / TC234 / TC237 must be static regulated voltages. All parameters specified in the following tables refer to these operating conditions (see table below), unless otherwise noticed in the Note / Test Condition column. Table 3-5 Operating Conditions Parameter SRI frequency Max System Frequency CPU0 Frequency PLL output frequency PLL_ERAY output frequency Symbol fSRI SR fMAX SR fCPU0 SR fPLL SR Values Unit Min. Typ. Max. - - 200 MHz - - 133 MHz - - 200 MHz - - 133 MHz - - 200 MHz - - 133 MHz 20 - 200 MHz - - 133 MHz - 160 MHz - - 80 MHz fPLLERAY SR 20 SPB frequency fSPB SR - - 100 MHz ASCLIN fast frequency fASCLINF SR - - 200 MHz - - 133 MHz ASCLIN slow frequency fASCLINS SR - - 100 MHz Baud2 frequency fBAUD2 SR - - 200 MHz - - 133 MHz - - 200 MHz - - 133 MHz FSI2 frequency fFSI2 SR FSI frequency fFSI SR - - 100 MHz GTM frequency fGTM SR - - 100 MHz STM frequency fSTM SR - - 100 MHz ERAY frequency fERAY SR - - 80 MHz BBB frequency fBBB SR - - 100 MHz MultiCAN frequency fCAN SR - - 100 MHz Data Sheet 3-177 Note / Test Condition vaild only for SAKTC233LC-24F133F vaild only for SAKTC233LC-24F133F vaild only for SAKTC233LC-24F133F vaild only for SAKTC233LC-24F133F vaild only for SAKTC233LC-24F133F vaild only for SAKTC233LC-24F133F vaild only for SAKTC233LC-24F133F vaild only for SAKTC233LC-24F133F V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationOperating Conditions Table 3-5 Operating Conditions (cont’d) Parameter Symbol Values Unit Min. Typ. Max. Note / Test Condition Absolute sum of short circuit currents of the device ΣISC_D SR - - 100 mA Ambient Temperature TA SR -40 - 125 °C valid for all SAK products -40 - 150 °C valid for all SAL products -40 - 150 °C valid for all SAK products -40 - 165 °C valid for all SAL products Only required if externally supplied Junction Temperature TJ SR Core Supply Voltage 1) VDD SR 1.17 1.3 1.43 2) V ADC analog supply voltage VDDM SR 2.97 5.0 5.5 3) V Digital ground voltage VSS SR 0 - - V Analog ground voltage for VDDM VSSM CC -0.1 0 0.1 V Voltage to ensure defined pad states 4) 0.72 - - V 2.97 3.3 3.63 V VDDPPA CC Digital supply voltage for GPIO VDDP3 SR pads and EVR 5) 1) No external inductive load permissible if EVR is used. All VDD pins shall be connected together externally on the PCB. 2) Voltage overshoot to 1.69V is permissible, provided the duration is less than 2h cumulated. Reduced ADC accuracy and leakage is increased. 3) Voltage overshoot to 6.5V is permissible, provided the duration is less than 2h cumulated. Reduced ADC accuracy and leakage is increased. 4) This parameter is valid under the assumption the PORST signal is constantly at low level during the power-up/power-down of VDDP3. 5) All VDDP3 pins shall be connected together externally on the PCB. Data Sheet 3-178 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical Specification3.3 V Pads 3.5 3.3 V Pads Table 3-6 Standard Pads Parameter Symbol Values Unit Min. Typ. Max. Note / Test Condition Pin capacitance (digital inputs/outputs) CIO CC - 6 10 pF Spike filter always blocked pulse duration tSF1 CC - - 80 ns PORST only Spike filter pass-through pulse tSF2 CC duration 220 - - ns PORST only PORST pad output current 1) 10.1 - - mA VDDP3 = 3.0V; VPORST = 0.9V; TJ = 150°C; IPORST CC 1) Pull-down with IPORST relevant is always activated when a primary supply monitor detects a violation. Table 3-7 Class_A1 Parameter Symbol Values Unit Min. Typ. Max. - - 100 MHz Note / Test Condition Input frequency fIN SR Input Hysteresis A1 HYSA1 CC 0.1 * VDDP3 - - V else Input Leakage Current Class A1 IOZA1 CC -400 - 400 nA (0.1*VDDP3) < VIN < (0.9*VDDP3) -475 - 475 nA (0.1*VDDP3) < VIN < (0.9*VDDP3); only vaild for P0.0 -800 - 800 nA else - - |120| µA VIHmin |15| - - µA VILmax |15| - - µA VIHmin - - |120| µA VILmax 50 125 200 Ohm IOH=2mA; IOL=2mA On-Resistance of the class A1 RDSONA1W CC pad, weak driver 250 500 800 Ohm IOH=0.5mA; IOL=0.5mA Input high voltage class A1 pads VIHA1 CC 0.7 * - - V CMOS Input low voltage, class A1 pads VILA1 CC - 0.3 * V CMOS Pull-down current class A1 pads IPDLA1 CC Pull-up current class A1 pads IPUHA1 CC On-Resistance of the A1 pad, medium driver Data Sheet RDSONA1M CC VDDP3 - VDDP3 3-179 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical Specification3.3 V Pads Table 3-7 Class_A1 (cont’d) Parameter Symbol Rise/fall time 1) tA1 CC Values Min. Typ. Max. - - 10+0.4 * Unit Note / Test Condition ns CL≤100pF; pin out driver=medium ns CL≤100pF; pin out driver=weak Unit Note / Test Condition CL - - 30+2.0 * CL 1) Rise / fall times are defined 10% - 90% of VDDP3. Table 3-8 Class_A1+ Parameter Symbol Values Min. Typ. Max. Input frequency fIN SR - - 75 MHz Input Leakage Current Class A1+ IOZA1+ CC -1 - 1 µA (0.1*VDDP3) < VIN < (0.9*VDDP3) -2 - 2 µA else - - |120| µA VIHmin |15| - - µA VILmax |15| - - µA VIHmin - - |120| µA VILmax On-Resistance of the A1+ pad, RDSONA1+M medium driver CC 50 125 200 Ohm IOH=2mA; IOL=2mA On-Resistance of the A1+ pad, RDSONA1+S CC strong driver 10 40 65 Ohm IOH=6mA; IOL=6mA On-Resistance of the A1+ pad, RDSONA1+W CC weak driver 250 500 800 Ohm IOH=0.5mA; IOL=0.5mA Input high voltage, Class A1+ pads VIHA1+ CC 0.7 * - - V CMOS Input low voltage Class A1+ pads VILA1+ CC - 0.3 * V CMOS Rise/fall time 1) tA1+ CC ns CL≤100pF; edge=slow ; pin out driver=strong (sw) ns CL≤100pF; edge=soft ; pin out driver=strong (sf) ns CL≤100pF; pin out Pull-down current class A1+ pads IPDLA1+ CC Pull-up current class A1+ pads IPUHA1+ CC VDDP3 - VDDP3 - - 8+0.14 * CL - - 1+0.14 * CL - - 10+0.4 * driver=medium CL - - 30+2.0 * ns CL≤100pF; pin out driver=weak V else CL Input Hysteresis A1+ HYSA1+ CC 0.1 * - - VDDP3 1) Rise / fall times are defined 10% - 90% of VDDP3. Data Sheet 3-180 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical Specification3.3 V Pads Table 3-9 Class_S Parameter Symbol Input frequency Input Hysteresis for S pad 1) Pull-up current for S pad Pull-down current for S pad Values Unit Note / Test Condition Min. Typ. Max. fIN SR - - 75 MHz HYSS CC 0.3 - - V IPUHS CC |11| - - µA VIHmin - - |120| µA VILmax - - |120| µA VIHmin |30| - - µA VILmax -350 - 350 nA Analog Inputs overlaid with pull down diagnosis -150 - 150 nA else IPDLS CC Input Leakage current Class S IOZS CC 2) Input voltage high for S pad VIHS SR - - 3.8 Input voltage low for S pad VILS SR 1.39 3) - - V Input low threshold variation for VILSD SR S pad 4) -50 - 50 mV Input capacitance for S pad CINS CC - - 10 pF Pad set-up time for S pad tSETS CC - - 100 ns V max. variation of 1ms; VDDM=constant 1) Hysteresis is implemented to avoid metastable states and switching due to internal ground bounce. It can't be guaranteed that it suppresses switching due to external system noise. 2) VILx = 0.65 * VDDM 3) VILx = 0.41 * VDDM 4) VILSD is implemented to ensure J2716 specification. For details of dedicated pins please see AP32286 for details. Table 3-10 Class I Parameter Symbol Input frequency Input Hysteresis for I pad 1) Values Unit Note / Test Condition Min. Typ. Max. fIN SR - - 100 MHz HYSI CC 0.1 * - - V |15| - - µA VIHImin - - |120| µA VILImax - - |120| µA VIHImin |15| - - µA VILImax -150 - 150 nA (0.1*VDDP3) < VIN < (0.9*VDDP3) -500 - 350 nA else 0.7 * - - V CMOS VDDP3 Pull-up current for I pad Pull-down current for I pad IPUHI CC IPDLI CC Input Leakage Current for I pad IOZI CC Input high voltage for I pad VIHI SR VDDP3 Data Sheet 3-181 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical Specification3.3 V Pads Table 3-10 Class I (cont’d) Parameter Symbol Input low voltage for I pad VILI SR Values Min. Typ. Max. - - 0.3 * Unit Note / Test Condition V CMOS VDDP3 tSETI CC Pad set-up time for I pad - - 100 ns 1) Hysteresis is implemented to avoid metastable states and switching due to internal ground bounce. It can't be guaranteed that it suppresses switching due to external system noise. Table 3-11 Driver Mode Selection for A1 Pads PDx.2 PDx.1 PDx.0 Port Functionality Driver Setting X X 0 Speed grade 1 medium (A1m) X X 1 Speed grade 2 weak (A1w) Table 3-12 Driver Mode Selection for A1+ Pads PDx.2 PDx.1 PDx.0 Port Functionality Driver Setting X 0 0 Speed grade 1 Strong soft edge (A1+sf) X 0 1 Speed grade 2 Strong slow edge (A1+sw) X 1 0 Speed grade 3 medium (A1+m) X 1 1 Speed grade 4 weak (A1+w) Data Sheet 3-182 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationVADC Parameters 3.6 VADC Parameters VADC parameter are valid for VDDM = 4.5 V to 5.5 V. This table also covers the parameters for Class D pads. Table 3-13 VADC Parameter Symbol Analog reference voltage 1) VAREF SR Values Min. Typ. Max. VAGND + - VDDM + 1.0 Analog reference ground VAGND SR Unit VSSM - Note / Test Condition V 0.05 - 0.05 VSSM + V 0.05 Analog input voltage range VAIN SR VAGND - VAREF V Converter reference clock fADCI SR 2 - 20 MHz Charge consumption per conversion 2) 3) QCONV CC - 50 75 pC VAIN = 5 V, charge consumed from reference pin, precharging disabled - 10 22 pC VAIN = 5 V, charge consumed from reference pin, precharging enabled Conversion time for 12-bit result tC12 CC - (16 + STC) x tADCI + 2 x Includes sample time and post calibration tVADC Conversion time for 10-bit result tC10 CC - (14 + STC) x tADCI + 2 x Includes sample time tVADC Conversion time for 8-bit result tC8 CC - (12 + STC) x tADCI + 2 x Includes sample time tVADC Conversion time for fast compare mode tCF CC - (4 + STC) x tADCI + 2 x tVADC Broken wire detection delay against VAGND 4) tBWG CC - - 120 cycles Result below 10% Broken wire detection delay against VAREF 5) tBWR CC - - 60 cycles Result above 80% Input leakage at analog inputs IOZ1 CC -350 - 350 nA Analog Inputs overlaid with pull down diagnosis -150 - 150 nA else LSB 12-bit resolution Total Unadjusted Error Data Sheet 1) TUE CC -4 6) - 3-183 4 Includes sample time 6) V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationVADC Parameters Table 3-13 VADC (cont’d) Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. EAINL CC -3 - 3 LSB 12-bit resolution EAGAIN CC -3.5 - 3.5 LSB 12-bit resolution EADNL CC -3 - 3 LSB 12-bit resolution EAOFF CC -4 - 4 LSB 12-bit resolution Total capacitance of an analog CAINT CC input - - 30 pF CAINS CC 2 - 7 pF - - 1.5 kOhm INL Error Gain Error DNL error 1) 1) Offset Error 1) Switched capacitance of an analog input Resistance of the analog input RAIN CC path Switched capacitance of a reference input CAREFS CC - - 30 pF RMS Noise 7) ENRMS CC - 0.5 0.8 6)8) LSB Positive reference VAREFx pin leakage IOZ2 CC -2 - 2 µA VAREFx = VAREF; TJ>150°C -1 - 1 µA VAREFx = VAREF; TJ≤150°C -2.5 - 2.5 µA VAGNDx = VAGND; TJ>150°C -1.5 - 1.5 µA VAGNDx = VAGND; TJ≤150°C Negative reference VAGNDx pin leakage IOZ3 CC Resistance of the reference input path RAREF CC - - 1 kOhm CSD resistance 9) RCSD CC - - 28 kOhm Resistance of the multiplexer diagnostics pull-down device RMDD CC 25 + 1*VIN - 35 - 8*VIN kOhm 0 V ≤ VIN ≤ 2.5 V -5 + 13*VIN - 15 + 16*VIN kOhm 2.5 V ≤ VIN ≤ VDDM Resistance of the multiplexer diagnostics pull-up device RMDU CC 45 - 6*VIN - 90 16*VIN kOhm 0 V ≥ VIN ≤ 2.5 V 40 - 4*VIN - 65 - 6*VIN kOhm Resistance of the pull-down test device 10) RPDD CC - - 0.3 kOhm CSD voltage accuracy 11) 12) dVCSD CC - - 10 % Wakeup time tWU CC - 12 µs - 2.5 V ≤ VIN ≤ VDDM 1) If the reference voltage is reduced by the factor k (k < 1), TUE,DNL,INL,Gain, and Offset errors increase also by the factor 1/k. VAREF must be decoupled with an external capacitor. 2) For QCONV = X pC and a conversion time of 1 µs a rms value of X µA results for IAREFx. 3) For the details of the mapping for a VADC group to pin VAREFx please see the User's Manual. 4) The broken wire detection delay against VAGND is measured in numbers of consecutive precharge cycles at a conversion rate higher than 1 conversion per 500 ms. 5) The broken wire detection delay against VAREF is measured in numbers of consecutive precharge cycles at a conversion rate higher than 1 conversion per 10 ms. This function is influenced by leakage current, in particular at high temperature. Data Sheet 3-184 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationVADC Parameters 6) Resulting worst case combined error is arithmetic combination of TUE and ENRMS. 7) This parameter is valid for soldered devices and requires careful analog board design. 8) Value is defined for one sigma Gauss distribution. 9) In order to avoid an additional error due to incomplete sampling, the sampling time shall be set greater than 5 * RCSD * CAINS. 10) The pull-down resistor RPDD is connected between the input pad and the analog multiplexer. The input pad itself adds another 200-Ohm series resistance, when measuring through the pin. 11) CSD: Converter Self Diagnostics, for details please consult the User's Manual. 12) Note, that in case CSD voltage is chosen to nom. 1/3 or 2/3 of VAREF voltage, the reference voltage is loaded with a current of max. VAREF / 45 kOhm. VADC parameter are valid for VDDM = 2.97 V to 4.5 V. Table 3-14 VADC_33 Parameter Analog reference voltage Symbol 1) VAREF SR Values Min. Typ. Max. VAGND + - VDDM + 1.0 Analog reference ground VAGND SR Unit VSSM - Note / Test Condition V 0.05 - 0.05 VSSM + V 0.05 Analog input voltage range VAIN SR VAGND - VAREF V Converter reference clock fADCI SR 2 - 20 MHz Charge consumption per conversion 2) 3) QCONV CC - 35 50 pC VAIN = 3.3 V, charge consumed from reference pin, precharging disabled - 8 17 pC VAIN = 3.3 V, charge consumed from reference pin, precharging enabled Conversion time for 12-bit result tC12 CC - (16 + STC) x tADCI + 2 x Includes sample time and post calibration tVADC Conversion time for 10-bit result tC10 CC - (14 + STC) x tADCI + 2 x Includes sample time tVADC Conversion time for 8-bit result tC8 CC - (12 + STC) x tADCI + 2 x Includes sample time tVADC Conversion time for fast compare mode tCF CC - (4 + STC) x tADCI + 2 x tVADC Broken wire detection delay against VAGND 4) tBWG CC - - Data Sheet 3-185 120 Includes sample time cycles Result below 10% V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationVADC Parameters Table 3-14 VADC_33 (cont’d) Parameter Symbol Values Unit Min. Typ. Max. Note / Test Condition Broken wire detection delay against VAREF 5) tBWR CC - - 60 cycles Result above 80% Input leakage at analog inputs IOZ1 CC -350 - 350 nA Analog Inputs overlaid with pull down diagnostics -150 - 150 nA else -12 - 12 LSB 12-bit Resolution; TJ > 150 °C -6 - 6 LSB 12-bit Resolution; TJ ≤ 150 °C -12 - 12 LSB 12-bit Resolution; TJ > 150 °C -5 - 5 LSB 12-bit Resolution; TJ ≤ 150 °C -6 - 6 LSB 12-bit Resolution; TJ > 150 °C -5.5 - 5.5 LSB 12-bit Resolution; TJ ≤ 150 °C EADNL CC -4 - 4 LSB 12-bit resolution EAOFF CC -6 - 6 LSB 12-bit Resolution; TJ > 150 °C -5 - 5 LSB 12-bit Resolution; TJ ≤ 150 °C Total capacitance of an analog CAINT CC input - - 30 pF Switched capacitance of an analog input 2 4 7 pF - - 4.5 kOhm Total Unadjusted Error 1) INL Error EAINL CC Gain Error 1) DNL error 1) Offset Error TUE CC 1) EAGAIN CC CAINS CC Resistance of the analog input RAIN CC path Switched capacitance of a reference input CAREFS CC - - 30 pF RMS Noise 6) ENRMS CC - - 1.7 LSB Positive reference VAREFx pin leakage IOZ2 CC -2 - 2 µA VAREFx = VAREF; TJ>150°C -1 - 1 µA VAREFx = VAREF; TJ≤150°C -2.5 - 2.5 µA VAGNDx = VAGND; TJ>150°C -1 - 1 µA VAGNDx = VAGND; TJ≤150°C - - 3 kOhm Negative reference VAGNDx pin leakage Resistance of the reference input path Data Sheet IOZ3 CC RAREF CC 3-186 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationVADC Parameters Table 3-14 VADC_33 (cont’d) Parameter CSD resistance Symbol 7) Resistance of the multiplexer diagnostics pull-down device Resistance of the multiplexer diagnostics pull-up device Values Unit Note / Test Condition Min. Typ. Max. RCSD CC - - 28 kOhm RMDD CC 25 + 3*VIN - 40 + 12*VIN kOhm 0 + 18*VIN - 0 + 18*VIN kOhm 1.667 V ≤ VIN ≤ VDDM 60 12*VIN - 120 30*VIN kOhm 0 V ≤ VIN ≤ 1.667 V 55 - 9*VIN - 95 15*VIN kOhm 1.667 V ≤ VIN ≤ VDDM RMDU CC Resistance of the pull-down test device 8) RPDD CC - - 0.9 kOhm CSD voltage accuracy 9) 10) dVCSD CC - - 10 % Wakeup time tWU CC - 12 µs - 0 V ≤ VIN ≤ 1.667 V 1) If the reference voltage is reduced by the factor k (k < 1), TUE,DNL,INL,Gain, and Offset errors increase also by the factor 1/k. VAREF must be decoupled with an external capacitor. 2) For QCONV = X pC and a conversion time of 1 µs a rms value of X µA results for IAREFx. 3) For the details of the mapping for a VADC group to pin VAREFx please see the User's Manual. 4) The broken wire detection delay against VAGND is measured in numbers of consecutive precharge cycles at a conversion rate higher than 1 conversion per 500 ms. 5) The broken wire detection delay against VAREF is measured in numbers of consecutive precharge cycles at a conversion rate higher than 1 conversion per 10 ms. This function is influenced by leakage current, in particular at high temperature. 6) This parameter is valid for soldered devices and requires careful analog board design. 7) In order to avoid an additional error due to incomplete sampling, the sampling time shall be set greater than 5 * RCSD * CAINS. 8) The pull-down resistor RPDD is connected between the input pad and the analog multiplexer. The input pad itself adds another 200-Ohm series resistance, when measuring through the pin. 9) CSD: Converter Self Diagnostics, for details please consult the User's Manual. 10) Note, that in case CSD voltage is chosen to nom. 1/3 or 2/3 of VAREF voltage, the reference voltage is loaded with a current of max. VAREF / 45 kOhm. RSource V AIN R AIN, On C AINT - C AINS C Ext A/D Converter CAINS MCS05570 Figure 3-1 Equivalent Circuitry for Analog Inputs Data Sheet 3-187 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationMHz Oscillator 3.7 MHz Oscillator OSC_XTAL is used as accurate and exact clock source. OSC_XTAL supports 8 MHz to 40 MHz crystals external outside of the device. Support of ceramic resonators is also provided. Table 3-15 OSC_XTAL Parameter Symbol Values Min. Typ. Max. Unit Note / Test Condition Input current at XTAL1 IIX1 CC -25 - 25 µA VIN>0V; VIN 25MHz 0.5 Input low voltage at XTAL1 VILBX SR -0.5 - Input voltage at XTAL1 VIX SR -0.5 - 0.5 Input amplitude (peak to peak) VPPX SR at XTAL1 0.3 * - 1.0 VDDP3 0.4 * VDDP3 + If shaper is not bypassed; fOSC ≤ 25MHz 1) tOSCS is defined from the moment when VDDP3 = 3.13V until the oscillations reach an amplitude at XTAL1 of 0.3 * VDDP3. - VDDP3 + V 1.0 VDDP3 The external oscillator circuitry must be optimized by the customer and checked for negative resistance as recommended and specified by crystal suppliers. 2) This value depends on the frequency of the used external crystal. For faster crystal frequencies this value decrease. Note: It is strongly recommended to measure the oscillation allowance (negative resistance) in the final target system (layout) to determine the optimal parameters for the oscillator operation. Please refer to the limits specified by the crystal or ceramic resonator supplier. Data Sheet 3-188 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationBack-up Clock 3.8 Back-up Clock The back-up clock provides an alternative clock source. Table 3-16 Back-up Clock Parameter Symbol Values Unit Min. Typ. Max. 75 100 125 MHz Slow speed Back-up clock fBACKSS CC 75 100 125 kHz Back-up clock after trimming fBACKT CC 100 102.5 MHz Back-up clock before trimming fBACKUT CC Data Sheet 97.5 3-189 Note / Test Condition V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationTemperature Sensor 3.9 Temperature Sensor Table 3-17 DTS Parameter Symbol Values Unit Min. Typ. Max. - - 100 µs Calibration reference accuracy TCALACC CC -1 - 1 °C Non-linearity accuracy over temperature range TNL CC -2 - 2 °C Temperature sensor range TSR SR -40 - 170 °C Start-up time after resets inactive tTSST SR - - 20 µs Measurement time tM CC Note / Test Condition calibration points @ TJ=-40°C and TJ=127°C The following formula calculates the temperature measured by the DTS in [oC] from the RESULT bit field of the DTSSTAT register. (3.1) DTSSTATRESULT – ( 607 ) Tj = ---------------------------------------------------------------------------2, 13 Data Sheet 3-190 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPower Supply Current 3.10 Power Supply Current The total power supply current defined below consists of leakage and switching component. Application relevant values are typically lower than those given in the following table and depend on the customer's system operating conditions (e.g. thermal connection or used application configurations). The operating conditions for the parameters in the following table are: The real (realisic) power pattern defines the following conditions: • • TJ = 150 °C fSRI = fMAX = fCPU0 = 200 MHz fSPB = fSTM = fGTM = fBAUD1 = fBAUD2 = fASCLIN = 40 MHz VDD = 1.326 V VDDP3 = 3.366 V VDDM = 5.1 V • core is active • the following peripherals are inactive: HSM, Ethernet, and MTU • • • • The max power pattern defines the following conditions: • • TJ = 150 °C fSRI = fMAX = fCPU0 = 200 MHz fSPB = fSTM = fGTM = fBAUD1 = fBAUD2 = fASCLIN = 100 MHz VDD = 1.43 V VDDP3 = 3.63 V VDDM = 5.5 V • core is active • all peripherals are active • • • • Table 3-18 Power Supply Parameter ∑ Sum of IDD 1.3 V core and peripheral supply currents Data Sheet Symbol IDD CC Values Unit Note / Test Condition Min. Typ. Max. - - 215 1) mA valid for Feature Package L, LC, LP, S, and SP; max power pattern - - 160 mA valid for Feature Package L, LC, LP, S, and SP; real power pattern 3-191 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPower Supply Current Table 3-18 Power Supply (cont’d) Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. - - 85 mA valid for Feature Package L, LC, LP, S, and SP; TJ=165°C - - 60 mA valid for Feature Package L, LC, LP, S, and SP; TJ=150°C - - 40 mA valid for Feature Package L, LC, LP, S, and SP; TJ=125°C IDDC01 CC - - 34 mA real power pattern IDD core current added by HSM IDDHSM CC - - 20 mA HSM running at 100MHz. IDD core current added by FFT IDDFFT CC - - 40 mA FFT running at 200MHz ∑ Sum of 3.3 V supply currents IDDx3RAIL CC without pad activity - 34 2) mA real power pattern; incl. OSC, EVR and Pflash read current - - 44 mA incl. OSC, EVR, Pflash read and Pflash programming current. IDD core current during active power-on reset (PORST held low) IDD core current of CPU0 lockstep core active IDDPORST CC IDDM supply current IDDM CC - - 6 mA max pattern; current for 2x VADC modules. Σ Sum of all currents with DCDC EVR13 regulator active 3) IDDTOTDC3 - - 129 mA real power pattern; VDDP3 = 3.3V ∑ Sum of all currents (incl. IDDP3RAIL+IDD+IDDM) IDDTOTL CC - - 200 mA valid for Feature Package L, LC, LP, S, and SP; real power pattern ∑ Sum of all currents (STANDBY mode) IEVRSB CC - - 150 4) µA Standby RAM is active. Power to remaining domains switched off. TJ = 25°C; VEVRSB = 5V ∑ Sum of all currents (SLEEP mode) ISLEEP CC - - 10 mA CPU is in idle, All peripherals in sleep, fSRI/SPB = 1 MHz; TJ = 55°C Data Sheet CC 3-192 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPower Supply Current Table 3-18 Power Supply (cont’d) Parameter Symbol Maximum power dissipation PD CC Values Unit Note / Test Condition Min. Typ. Max. - - 460 mW valid for Feature Package L, LC, LP, S, and SP; max power pattern - - 360 5) mW valid for Feature Package L, LC, LP, S, and SP; real power pattern 1) It shall be ensured when using the SC DC DC EVR13 that the current is limited to the maximum value documented in the EVR section. EVR SRCSCDC Interrupt shall be kept active to indicate violations of max current and temperature shall be monitored to keep leakage current within limits. 2) Realistic Pflash read pattern with 50% Pflash bandwidth utlilization and a code mix of 50% 0s and 50% 1s. Dynamic Flash Idle via FCON.IDLE is activated bringing a benefit of 4 mA. A decoupling capacitor of atleast 100nF is used. Dflash read current is also included. In TC23x, separate VDDFL3 pin is not available, so only the total VDDx3RAIL is measured and characterized. 3) The total current drawn from external regulator is estimated with 72% EVR13 SMPS regulator Efficiency. IDDTOTDCx is calculated from IDDTOT using the scaled core current [(IDD x VDD)/(VinxEfficiency)] and constitutes all other rail currents and IDDM. 4) The current during STANDBY mode is drawn at VDDP3 supply pin. During RUN-STANDBY mode transition the current drawn at VDDP3 supply pin is less than 6mA. 5) Incase of EVR13 SCDCDC mode, 50 mW need to be additionally added for the real pattern usecase considering 72% SCDCDC efficiency. Incase of EVR13 LDO mode, 320 mW need to be additionally added to consider the pass device power drop out. 3.10.1 Calculating the 1.3 V Current Consumption The current consumption of the 1.3 V rail compose out of two parts: • Static current consumption • Dynamic current consumption The static current consumption is related to the device temperature TJ and the dynamic current consumption depends of the configured clocking frequencies and the software application executed. These two parts needs to be added in order to get the rail current consumption. Valid for Feature Package L, LC, LP, S, and SP products: (3.2) mA I 0 = 1, 2092 --------- × e 0, 01792 × T J [ C ] C (3.3) mA I 0 = 3, 196 --------- × e 0, 01982 × T J [ C ] C Function 2 defines the typical static current consumption and Function 3 defines the maximum static current consumption. Both functions are valid for VDD = 1.326 V. Data Sheet 3-193 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPower-up and Power-down 3.11 Power-up and Power-down 0 1 2 3 4 VDDP3 (externally supplied ) 3.63 V 3.30 V 2.97 V Primary Reset Threshold 0V PORST (output ) PORST (input ) VDD (internally generated 1.33 V by EVR13) 1.30 V 1.17 V Primary Reset Threshold 0V T0 T1 Basic Supply & Clock Infrastructure T2 EVR13 Ramp-up Phase Firmware Execution T3 User Code Execution f CPU =100 MHz default on firmware exit T4 Power Ramp-down phase Startup_Diag_4 v 0.1 Figure 3-2 Single Supply mode - 3.3 V single supply Data Sheet 3-194 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPower-up and Power-down 3.11.1 Single Supply mode 3.3 V single supply mode. 1.3 V is generated internally by the EVR13 regulator. • The rate at which current is drawn from the external regulator (dIEXT /dt) is limited during the basic infrastructure and EVR13 regulator start-up phase (T0 upto T2) to a maximum of 100 mA/100 us. EVR13 is also robust against a voltage ramp-up starting from a residual voltage between 0 - 1 V. Start-up slew rates for supply rails should comply to datasheet values. • Furthermore it is also ensured that the current drawn from the external regulator (dIEXT /dt) is limited during the Firmware start-up phase (T2 upto T3) to a maximum of 100 mA/100 us. • PORST is active/ asserted when either PORST (input) or PORST (output) is active/ asserted. • PORST (input) active means that the reset is held active by external agents by pulling the PORST pin low. It is recommended to keep the PORST (input) asserted until the external supply is above the respective primary reset threshold. • PORST (output) active means that µC asserts the reset internally and drives the PORST pin low thus propagating the reset to external devices. The PORST (output) is asserted by the µC when atleast one among the two supply domains (1.3 V or 3.3 V) violate their primary under-voltage reset thresholds.The PORST (output) is deasserted by the µC when all supplies are above their primary reset thresholds and the basic supply and clock infrastructure is available. • The power sequence as shown in Figure 3-2 is enumerated below – T1 refers to the point in time when basic supply and clock infrastructure is available as the external supply ramps up. The supply mode is evaluated based on the HWCFG[0,2] pins and consequently a soft start of EVR13 regulator is initiated. – T2 refers to the point in time when all supplies are above their primary reset thresholds. EVR13 regulator has ramped up. PORST (output) is deasserted and HWCFG[3:5] pins are latched on PORST rising edge. Firmware execution is initiated. – T3 refers to the point in time when Firmware execution is completed. User code execution starts with a default frequency of 100 MHz. – T4 refers to the point in time during the Ramp-down phase when atleast one of the externally provided or generated supplies (1.3 V or 3.3 V) drop below their respective primary under-voltage reset thresholds. Data Sheet 3-195 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPower-up and Power-down VDDP3 (externally supplied ) 0 1 2 3 3.63 V 3.30 V 2.97 V Primary Reset Threshold 0V VDD (externally supplied) 1.33 V 1.30 V 1.17 V Primary Reset Threshold 0V PORST (output ) PORST (input ) T0 T1 Basic Supply & Clock Infrastructure T2 Firmware Execution T3 User Code Execution f CPU =100 MHz default on firmware exit Power Ramp -down phase Startup_Diag_5 v 0.1 Figure 3-3 External Supply mode - 3.3 V and 1.3 V external supply Data Sheet 3-196 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPower-up and Power-down 3.11.2 External Supply mode All supplies, namely 3.3 V & 1.3 V, are externally supplied. • External supplies VDDP3 & VDD may ramp-up or ramp-down independent of each other with regards to start, rise and fall time(s). The supply system is also robust against a voltage ramp-up starting from a residual voltage between 0 - 1 V. Start-up slew rates for supply rails should comply to datasheet values. • The rate at which current is drawn from the external regulator (dIEXT /dt, dIDD /dt) is limited in the Start-up phase to a maximum of 50 mA/100 us. • PORST is active/ asserted when either PORST (input) or PORST (output) is active/ asserted. • PORST (input) active means that the reset is held active by external agents by pulling the PORST pin low. It is recommended to keep the PORST (input) asserted until all the external supplies are above their primary reset thresholds. • PORST (output) active means that µC asserts the reset internally and drives the PORST pin low thus propagating the reset to external devices. The PORST (output) is asserted by the µC when atleast one among the two supply domains (1.3 V or 3.3 V) violate their primary under-voltage reset thresholds.The PORST (output) is deasserted by the µC when all supplies are above their primary reset thresholds and the basic supply and clock infrastructure is available. • The power sequence as shown in Figure 3-3 is enumerated below – T1 refers to the point in time when all supplies are above their primary reset thresholds and basic clock infrastructure is available. The supply mode is evaluated based on the HWCFG[0,2] pins. PORST (output) is deasserted and HWCFG[3:5] pins are latched on PORST rising edge. Firmware execution is initiated. – T2 refers to the point in time when Firmware execution is completed. User code execution starts with a default frequency of 100 MHz. – T3 refers to the point in time during the Ramp-down phase when atleast one of the externally provided supplies (1.3 V or 3.3 V) drop below their respective primary under-voltage reset thresholds. Data Sheet 3-197 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationReset Timing 3.12 Reset Timing Table 3-19 Reset Timings Parameter Symbol Application Reset Boot Time 1) System Reset Boot Time Power on Reset Boot Time 2) EVR start-up or ramp-up time Values Unit Note / Test Condition operating with max. frequencies Min. Typ. Max. tB CC - - 350 µs tBS CC - - 1 ms tBP CC - - 2.5 ms dV/dT=1V/ms. including EVR rampup and Firmware execution time - - 1.1 ms Firmware execution time; without EVR operation (external supply only) - - 1 ms dV/dT=1V/ms tEVRstartup CC Minimum PORST active hold time after power supplies are stable at operating levels 3) tPOA CC 1 - - ms HWCFG pins hold time from ESR0 rising edge tHDH CC 16 / fSPB - - ns HWCFG pins setup time to ESR0 rising edge tHDS CC 0 - - ns - - 8/fSPB ns Ports inactive after ESR0 reset tPI CC active Ports inactive after PORST reset active 4) tPIP CC - - 150 ns Hold time from PORST rising edge tPOH SR 150 - - ns Setup time to PORST rising edge tPOS SR 0 - - ns 1) The duration of the boot time is defined between the rising edge of the internal application reset and the clock cycle when the first user instruction has entered the CPU pipeline and its processing starts. 2) The duration of the boot time is defined by all external supply voltages are inside there operation condictions and the clock cycle when the first user instruction has entered the CPU pipeline and its processing starts. 3) The regulator that supplies VEXT should ensure that VEXT is in the operational region before PORST is externally released by the regulator. Incase of 5V nominal supply, it should be ensured that VEXT > 4V before PORST is released. Incase of 3.3V nominal supply , it should be ensured that VEXT > 3V before PORST is released. The additional minimum PORST hold time is required as an additional mechanism to avoid consecutive PORST toggling owing to slow supply slopes or residual supply ramp-ups. It is also required to activate external PORST atleast 100us before power-fail is recognised to avoid consecutive PORST toggling on a power fail event. 4) This parameter includes the delay of the analog spike filter in the PORST pad. Data Sheet 3-198 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationReset Timing VDDP V D DPPA VDD PPA V DDPR VDD tPOA tPOA PORST Warm Cold ESR0 t PI tP I tP IP Tristate Z / pullup H Pads Programmed Z/ H Programmed Z /H Programmed Padstate undefined TRST Padstate undefined t P OS t P OS t P OH tP OH TESTMODE t HDH HWCFG power -on config t HDA t HDH config t HDA t HDH config reset_beh_aurix Figure 3-4 Power, Pad and Reset Timing Data Sheet 3-199 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationEVR 3.13 EVR Table 3-20 LDO Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. VIN SR 2.97 - 3.63 V pass device=on chip VOUT CC 1.17 1.3 1.43 V pass device=on chip VOUTT CC Output VDD static voltage accuracy after trimming without dynamic load/line regulation with aging incase of LDO regulator. 1.275 1.3 1.325 V product load equal to IDD of max power Output buffer capacitance on COUT CC 1.4 2.2 3 µF On chip pass device usage restricted to IDD < 230mA.; pass device=on chip Primary undervoltage reset threshold for VDD 3) VRST13 CC - - 1.17 4) V pass device=on chip Startup time tSTR CC - - 1000 µs pass device=on chip dVin/dT - 1 50 V/ms pass device=on chip dVout/dIout - - 100 mV dI=-100mA; Tsettle=20µs; pass Input voltage range 1) Output voltage operational range including load/line regulation and aging incase of LDO regulator VOUT 2) External VIN supply ramp 5) pattern; either TJ≤150°C and pass device=on chip or TJ≤170°C and pass device=off chip SR Load step response CC device=on chip -100 - - mV dI=75mA; Tsettle=20µs; pass device=on chip Line step response dVout/dVin -10 - CC 10 mV dV/dT=1V/ms; pass device=on chip 1) A maximum pass device dropout voltage of 700mV is included in the minimum input voltage to ensure optimal pass device operation. 2) It is recommended to select a capacitor with ESR less than 50 mOhm (0.5MHz - 10 MHz). It is also recommended that the resistance of the supply trace from the pin to the EVR output capacitor is less than 100 mOhm. 3) The reset release on supply ramp-up is delayed by a time duration 30-60 µs after reaching undervoltage reset threshold. This serves as a time hysteresis to avoid multiple consecutive cold PORST events during slow supply ramp-ups owing to voltage drop/current jumps when reset is released.The reset limit of 1,17V at pin is for the case with 1.3V generated internally from EVR13. In case the 1.3V supply is provided externally, the bondwire drop will cause a reset at a higher voltage of 1.18V at the VDD pin. 4) In TQFP-100 pin package, only VDDPRIUV is tested instead of VRST13 as HWCFG2 pin is absent. 5) EVR robust against residual voltage ramp-up starting between 0-1 V. Data Sheet 3-200 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationEVR Table 3-21 Supply Monitoring Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. 2.86 2.92 2.97 V 1.13 1.15 1.17 V 3.23 3.30 3.37 V SWDxxVAL VDDP3 monitoring threshold=3.3V=91h VDD secondary supply monitor VDDMON CC 1.27 1.30 1.33 V EVR13xxVAL VDD monitoring threshold=1.3V=E4h - 1.8 µs VDDP3 primary undervoltage monitor accuracy after trimming 1) VDDP3PRIUV SR VDD primary undervoltage VDDPRIUV monitor accuracy after trimming 1) SR VDDP3 secondary supply monitor accuracy VDDP3MON CC accuracy EVR primary and secondary monitor measurement latency for a new supply value tEVRMON CC - 1) The monitor tolerances constitute the inherent variation of the bandgap and ADC over process, voltage and temperature operational ranges. The xxxPRIUV parameters are device individually tested in production with ±1% tolerance about the min and max xxxPRIUV limits. In TQFP100 and QFP80 pin packages, VDDPRIUV is not tested as HWCFG2 pin is absent. Table 3-22 EVR13 SMPS Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. 2.97 - 3.63 V SMPS regulator output voltage VDDDC CC range including load/line regulation and aging 1) - - 1.43 V VDDP3 > 2.97V; IDDDC < 200mA; fDCDC = 1MHz 1.17 - - V VDDP3 > 2.97V; IDDDC < 250mA; fDCDC = 1MHz SMPS regulator static voltage VDDDCT CC output accuracy after trimming without dynamic load/line Regulation with aging. 2) 1.275 1.3 1.325 V VDDP3 > 2.97V; IDDDC < 230mA; fDCDC = 1MHz Programmable switching frequency 0.4 - 2.0 MHz Maximum ripple at IMAX (peak- ∆VDDDC CC to-peak) 3) - 26 mV VDDP3 > 2.97V; IDDDC < 230mA; fDCDC = 1MHz SMPS regulator load transient response - 90 mV dI < 100mA ; fDCDC=1MHz; tr=0.1µs; tf=0.1µs; VDDDC=1.3V Input VDDP3 voltage range Data Sheet VIN CC fDCDC CC dVout/dIout -90 CC 3-201 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationEVR Table 3-22 EVR13 SMPS (cont’d) Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. Maximum output current of the IMAX SR regulator - - 250 4) mA VDDP3 > 2.97V; VDD = 1.17V; fDCDC = 1MHz SMPS regulator efficiency - 72 - % VIN=3.3V; IDDDC=200mA; fDCDC=1MHz nDC CC 1) Incase of SMPS mode, It shall be ensured that the VDD output pin shall be connected on PCB level to all other VDD Input pins. 2) Incase of fSRI running with max frequency, it shall be ensured that the VDD operating range is limited to 1.235V upto 1.430V. The DCDC may be configured in this case with a nominal voltage of 1.33V±7.5%. The static accuracy and regulation parameter ranges remain also valid for this case. 3) If frequency spreading (SDFREQSPRD = 1) is activated, an additional ripple of 1% need to be considered. 4) It shall be ensured when using the SC DC DC EVR13 that the current is limited to the maximum value. EVR SRCSCDC Interrupt shall be kept active to indicate violations of max current and temperature shall be monitored to keep leakage current within limits. Table 3-23 EVR13 SMPS External components Parameter Symbol Values Unit Note / Test Condition IDDDC=230mA Min. Typ. Max. 6.5 10 13.5 µF External output capacitor ESR CDC_ESR SR - - 50 mOhm f≥0.5MHz; f≤10MHz - - 100 Ohm f=10Hz 3.29 4.7 6.11 µF IDDDC=230mA CIN_ESR SR - - 50 mOhm f≥0.5MHz; f≤10MHz - - 100 Ohm f=100Hz 1.3 µF IDDDC=230mA External output capacitor value COUTDC SR 1) External input capacitor value 1) External input capacitor ESR External flying capacitor value 1) Flying capacitor ESR CIN SR 2) CFLY SR 0.7 1 CFLY_ESR - - 50 mOhm f≥0.5MHz ; f≤10MHz SR - - 100 Ohm f=100Hz 1) Capacitor min-max range represent typical ±35% tolerance including DC bias effect. The trace resistance from the capacitor to the supply or ground rail should be limited to 25 mOhm. 2) It is recommended to place the flying capacitor close to the pins without vias to have minimal routing resistance from pin to the capacitor terminal of less than 25mOhm. Data Sheet 3-202 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPhase Locked Loop (PLL) 3.14 Phase Locked Loop (PLL) Table 3-24 PLL Parameter Symbol Values Min. Unit Typ. Max. Note / Test Condition PLL base frequency fPLLBASE CC 80 150 360 MHz VCO frequency range fVCO SR 400 - 800 MHz VCO Input frequency range fREF CC 8 - 24 MHz Modulation Amplitude MA CC 0 - 2 % Peak Period jitter DP CC -200 - 200 ps Peak Accumulated Jitter DPP CC -5 - 5 ns without modulation Total long term jitter JTOT CC - - 12.2 ns including modulation; MA ≤ 1% - - 11.5 ns including modulation; MA≤0.9% - - 0.01 % with active modulation Modulation variation frequency fMV CC 2 3.6 5.4 MHz PLL lock-in time 11.5 - 200 µs System frequency deviation fSYSD CC tL CC Note: The specified PLL jitter values are valid if the capacitive load per pin does not exceed CL = 20 pF with the maximum driver and soft edge (speed grade 1). Note: The maximum peak-to-peak noise on the power supply voltage, is limited to a peak-to-peak voltage of VPP = 100 mV for noise frequencies below 300 KHz and VPP = 40 mV for noise frequencies above 300 KHz. These conditions can be achieved by appropriate blocking of the supply voltage as near as possible to the supply pins and using PCB supply and ground planes. Data Sheet 3-203 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationERAY Phase Locked Loop (ERAY_PLL) 3.15 ERAY Phase Locked Loop (ERAY_PLL) Table 3-25 PLL_ERAY Parameter Symbol Values Min. PLL Base Frequency of the ERAY PLL VCO frequency range of the ERAY PLL Unit Typ. Max. 200 320 MHz 400 - 480 MHz fPLLBASE_ERA 50 Note / Test Condition Y CC fVCO_ERAY SR VCO input frequency of the ERAY PLL fREF SR 16 - 24 MHz Accumulated_Jitter DP CC -0.5 - 0.5 ns Accumulated jitter at SYSCLK pin DPP CC -0.8 - 0.8 ns PLL lock-in time tL CC 5.6 - 200 µs Note: The specified PLL jitter values are valid if the capacitive load per pin does not exceed CL = 20 pF with the maximum driver and soft edge (speed grade 1). Note: The maximum peak-to-peak noise on the power supply voltage, is limited to a peak-to-peak voltage of VPP = 100 mV for noise frequencies below 300 KHz and VPP = 40 mV for noise frequencies above 300 KHz. These conditions can be achieved by appropriate blocking of the supply voltage as near as possible to the supply pins and using PCB supply and ground planes. Data Sheet 3-204 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationAC Specifications 3.16 AC Specifications All AC parameters are specified for the complette operating range defined in Chapter 3.4 unless otherwise noted in colum Note / test Condition. Unless otherwise noted in the figures the timings are defined with the following guidelines: VD D P3 90% VSS 90% 10% 10% tr tf rise_fall Figure 3-5 Definition of rise / fall times VD D P3 VD D P3 2 VSS Timing Reference Points VD D P3 2 timing_reference Figure 3-6 Time Reference Point Definition Data Sheet 3-205 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationJTAG Parameters 3.17 JTAG Parameters The following parameters are applicable for communication through the JTAG debug interface. The JTAG module is fully compliant with IEEE1149.1-2000. Table 3-26 JTAG Parameter Symbol Values Unit Min. Typ. Max. Note / Test Condition TCK clock period t1 SR 25 - - ns TCK high time t2 SR 10 - - ns TCK low time t3 SR 10 - - ns TCK clock rise time t4 SR - - 4 ns TCK clock fall time t5 SR - - 4 ns TDI/TMS setup to TCK rising edge t6 SR 6.0 - - ns TDI/TMS hold after TCK rising t7 SR edge 6.0 - - ns TDO valid after TCK falling edge (propagation delay) 1) t8 CC 3.0 - - ns CL≤20pF - - 16 ns CL≤50pF TDO hold after TCK falling edge 1) t18 CC 2 - - ns TDO high impedance to valid from TCK falling edge 1)2) t9 CC - - 14 ns CL≤50pF TDO valid output to high impedance from TCK falling edge 1) t10 CC - - 13.5 ns CL≤50pF 1) The falling edge on TCK is used to generate the TDO timing. 2) The setup time for TDO is given implicitly by the TCK cycle time. t1 0.9 VD D P 0.5 VD D P t5 t2 t4 0.1 VD D P t3 MC_ JTAG_ TCK Figure 3-7 Test Clock Timing (TCK) Data Sheet 3-206 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationJTAG Parameters TCK t6 t7 t6 t7 TMS TDI t9 t8 t1 0 TDO t18 MC_JTAG Figure 3-8 JTAG Timing Data Sheet 3-207 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationDAP Parameters 3.18 DAP Parameters The following parameters are applicable for communication through the DAP debug interface. Table 3-27 DAP Parameter Symbol Values Unit Min. Typ. Max. Note / Test Condition DAP0 clock period t11 SR 6.25 - - ns DAP0 high time t12 SR 2 - - ns DAP0 low time t13 SR 2 - - ns DAP0 clock rise time t14 SR - - 1 ns f=160MHz - - 2 ns f=80MHz - - 1 ns f=160MHz - - 2 ns f=80MHz DAP0 clock fall time t15 SR DAP1 setup to DAP0 rising edge t16 SR 4 - - ns DAP1 hold after DAP0 rising edge t17 SR 2 - - ns DAP1 valid per DAP0 clock period 1) t19 CC 3 - - ns CL=20pF; f=160MHz 8 - - ns CL=20pF; f=80MHz 10 - - ns CL=50pF; f=40MHz 1) The Host has to find a suitable sampling point by analyzing the sync telegram response. t11 0.9 VD D P 0.5 VD D P t1 5 t1 2 t14 0.1 VD D P t1 3 MC_DAP0 Figure 3-9 Test Clock Timing (DAP0) DAP0 t1 6 t1 7 DAP1 MC_ DAP1_RX Figure 3-10 DAP Timing Host to Device Data Sheet 3-208 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationDAP Parameters t1 1 DAP1 t1 9 MC_ DAP1_TX Figure 3-11 DAP Timing Device to Host (DAP1 and DAP2 pins) Note: The DAP1 and DAP2 device to host timing is individual for both pins. There is no guaranteed max. signal skew. Data Sheet 3-209 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationASCLIN SPI Master Timing 3.19 ASCLIN SPI Master Timing This section defines the timings for the ASCLIN in the TC233 / TC234 / TC237. Table 3-28 Master Mode A1+strong soft (sf) output pads Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. 20 - - ns CL=25pF Deviation from ideal duty cycle t500 CC -3 - 3 ns CL=25pF MTSR delay from ASCLKO shifting edge t51 CC -4 - 4 ns CL=25pF ASLSOn delay from the first ASCLKO edge t510 CC -4 - 4 ns CL=25pF MRST setup to ASCLKO latching edge t52 SR 20 - - ns CL=25pF MRST hold from ASCLKO latching edge t53 SR -3 - - ns CL=25pF ASCLKO clock period 1) t50 CC 2) 1) PLL Jitter not included. Should be considered additionally, corresponding to the used baudrate. The duty cycle can be adjusted using the BITCON.SAMPLEPOINT bitfield with the finest granularity of TMAX = 1 / fMAX. 2) Positive deviation lenghtens the high time and shortens the low time of a clock period. Negative deviation does the opposite. Table 3-29 Master Mode A1+strong slow (sw) output pads Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. 80 - - ns CL=50pF Deviation from ideal duty cycle t500 CC -8 - 8 ns CL=50pF MTSR delay from ASCLKO shifting edge t51 CC -12 - 12 ns CL=50pF ASLSOn delay from the first ASCLKO edge t510 CC -12 - 12 ns CL=50pF MRST setup to ASCLKO latching edge t52 SR 40 - - ns CL=50pF MRST hold from ASCLKO latching edge t53 SR -3 - - ns CL=50pF ASCLKO clock period 1) t50 CC 2) 1) PLL Jitter not included. Should be considered additionally, corresponding to the used baudrate. The duty cycle can be adjusted using the BITCON.SAMPLEPOINT bitfield with the finest granularity of TMAX = 1 / fMAX. 2) Positive deviation lenghtens the high time and shortens the low time of a clock period. Negative deviation does the opposite. Data Sheet 3-210 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationASCLIN SPI Master Timing Table 3-30 Master Mode medium output pads Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. 100 - - ns CL=50pF Deviation from ideal duty cycle t500 CC -10 - 10 ns CL=50pF MTSR delay from ASCLKO shifting edge t51 CC -15 - 15 ns CL=50pF ASLSOn delay from the first ASCLKO edge t510 CC -15 - 15 ns CL=50pF MRST setup to ASCLKO latching edge t52 SR 50 - - ns CL=50pF MRST hold from ASCLKO latching edge t53 SR -5 - - ns CL=50pF ASCLKO clock period 1) t50 CC 2) 1) PLL Jitter not included. Should be considered additionally, corresponding to the used baudrate. The duty cycle can be adjusted using the BITCON.SAMPLEPOINT bitfield with the finest granularity of TMAX = 1 / fMAX. 2) Positive deviation lenghtens the high time and shortens the low time of a clock period. Negative deviation does the opposite. Table 3-31 Master Mode weak output pads Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. 1000 - - ns CL=50pF Deviation from ideal duty cycle t500 CC -25 - 25 ns CL=50pF MTSR delay from ASCLKO shifting edge t51 CC -65 - 65 ns CL=50pF ASLSOn delay from the first ASCLKO edge t510 CC -65 - 65 ns CL=50pF MRST setup to ASCLKO latching edge t52 SR 150 - - ns CL=50pF MRST hold from ASCLKO latching edge t53 SR -10 - - ns CL=50pF ASCLKO clock period 1) t50 CC 2) 1) PLL Jitter not included. Should be considered additionally, corresponding to the used baudrate. The duty cycle can be adjusted using the BITCON.SAMPLEPOINT bitfield with the finest granularity of TMAX = 1 / fMAX. 2) Positive deviation lenghtens the high time and shortens the low time of a clock period. Negative deviation does the opposite. Data Sheet 3-211 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationQSPI Timings, Master and Slave Mode t50 ASCLKO t51 t51 t500 MTSR t52 MRST t53 Data valid Data valid t510 ASLSO ASCLIN_TmgMM.vsd Figure 3-12 ASCLIN SPI Master Timing 3.20 QSPI Timings, Master and Slave Mode This section defines the timings for the QSPI in the TC233 / TC234 / TC237. It is assumed that SCLKO, MTSR, and SLSO pads have the same pad settings: Table 3-32 Master Mode timing A1+ strong soft (sf) output pads Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. t50 CC 20 - - ns CL=25pF Deviation from the ideal duty cycle 2) 3) t500 CC -3 - 3 ns CL=25pF MTSR delay from SCLKO shifting edge t51 CC -4 - 4 ns CL=25pF SLSOn deviation from the ideal t510 CC programmed position -4 - 4 ns CL=25pF MRST setup to SCLK latching edge 4) t52 SR 20 4) - - ns CL=25pF MRST hold from SCLK latching t53 SR edge -3 4) - - ns CL=25pF SCLKO clock period 1) 1) Documented value is valid for master transmit or slave receive only. For full duplex the external SPI counterpart timing has to be taken into account. 2) The PLL jitter is not included. It should be considered additionally, corresponding to the used baudrate. The duty cycle can be adjusted using the bit fields ECONz.A, B and C with the finest granularity of TMAX = 1 / fMAX. 3) Positive deviation lenghtens the high time and shortens the low time of a clock period. Negative deviation does the opposite. 4) For compensation of the average on-chip delay the QSPI module provides the bit fields ECONz.A, B and C. Data Sheet 3-212 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationQSPI Timings, Master and Slave Mode Table 3-33 Master Mode timing A1+ strong slow (sw) output pads Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. t50 CC 80 - - ns CL=50pF Deviation from the ideal duty cycle 2) 3) t500 CC -8 - 8 ns CL=50pF MTSR delay from SCLKO shifting edge t51 CC -12 - 12 ns CL=50pF SLSOn deviation from the ideal t510 CC programmed position -12 - 12 ns CL=50pF MRST setup to SCLK latching edge 4) 40 4) - - ns CL=50pF -3 - - ns CL=50pF SCLKO clock period 1) t52 SR MRST hold from SCLK latching t53 SR edge 1) Documented value is valid for master transmit or slave receive only. For full duplex the external SPI counterpart timing has to be taken into account. 2) The PLL jitter is not included. It should be considered additionally, corresponding to the used baudrate. The duty cycle can be adjusted using the bit fields ECONz.A, B and C with the finest granularity of TMAX = 1 / fMAX. 3) Positive deviation lenghtens the high time and shortens the low time of a clock period. Negative deviation does the opposite. 4) For compensation of the average on-chip delay the QSPI module provides the bit fields ECONz.A, B and C. Table 3-34 Master Mode timing A1+m/A1m output pads Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. t50 CC 100 - - ns CL=50pF Deviation from the ideal duty cycle 2) 3) t500 CC -3 - 3 ns CL=50pF MTSR delay from SCLKO shifting edge t51 CC -8 - 8 ns CL=50pF SLSOn deviation from the ideal t510 CC programmed position -15 - 15 ns CL=50pF MRST setup to SCLK latching edge 4) t52 SR 50 4) - - ns CL=50pF MRST hold from SCLK latching t53 SR edge -5 4) - - ns CL=50pF SCLKO clock period 1) 1) Documented value is valid for master transmit or slave receive only. For full duplex the external SPI counterpart timing has to be taken into account. 2) The PLL jitter is not included. It should be considered additionally, corresponding to the used baudrate. The duty cycle can be adjusted using the bit fields ECONz.A, B and C with the finest granularity of TMAX = 1 / fMAX. 3) Positive deviation lenghtens the high time and shortens the low time of a clock period. Negative deviation does the opposite. 4) For compensation of the average on-chip delay the QSPI module provides the bit fields ECONz.A, B and C. Data Sheet 3-213 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationQSPI Timings, Master and Slave Mode Table 3-35 Master Mode Weak output pads Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. t50 CC 1000 - - ns CL=50pF Deviation from the ideal duty cycle 2) 3) t500 CC -25 - 25 ns CL=50pF MTSR delay from SCLKO shifting edge t51 CC -65 - 65 ns CL=50pF SLSOn deviation from the ideal t510 CC programmed position -65 - 65 ns CL=50pF MRST setup to SCLK latching edge 4) t52 SR 150 4) - - ns CL=50pF MRST hold from SCLK latching t53 SR edge -10 4) - - ns CL=50pF SCLKO clock period 1) 1) Documented value is valid for master transmit or slave receive only. For full duplex the external SPI counterpart timing has to be taken into account. 2) The PLL jitter is not included. It should be considered additionally, corresponding to the used baudrate. The duty cycle can be adjusted using the bit fields ECONz.A, B and C with the finest granularity of TMAX = 1 / fMAX. 3) Positive deviation lenghtens the high time and shortens the low time of a clock period. Negative deviation does the opposite. 4) For compensation of the average on-chip delay the QSPI module provides the bit fields ECONz.A, B and C. Table 3-36 Slave mode timing Parameter Symbol Values Unit Min. Typ. Max. Note / Test Condition SCLK clock period t54 SR 4 x TMAX - - ns SCLK duty cycle t55/t54 SR 40 - 60 % MTSR setup to SCLK latching edge t56 SR 3 - - ns MTSR hold from SCLK latching t57 SR edge 3 - - ns SLSI setup to first SCLK shift edge t58 SR 3 - - ns SLSI hold from last SCLK latching edge t59 SR 3 - - ns MRST delay from SCLK shift edge t60 CC 5 - 50 ns A1+m/A1m; CL=50pF 3 - 20 ns A1+sf; CL=25pF 5 - 40 ns A1+sw; CL=50pF 10 - 150 ns A1+w/A1w; CL=50pF - - 9 ns SLSI to valid data on MRST Data Sheet t61 SR 3-214 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationQSPI Timings, Master and Slave Mode t50 t500 0.5 VDD3 SCLK1)2) t51 SAMPLING POINT MTSR1) 0.5 VDD3 t52 t53 Data valid MRST1) Data valid t 510 0.5 VDD3 SLSOn 2) 1) This timing is based on the following setup : ECON.CPH = 1, ECON.CPOL = 0, ECON.B=0 (no sampling point delay ). 2) t510 is the deviation from the ideal position configured with the leading delay , BACON.LPRE and BACON.LEAD > 0. QSPI_TmgMM_EP.vsd Figure 3-13 Master Mode Timing t54 Last latching SCLK edge First latching SCLK edge First shift SCLK edge SCLKI1) t55 t56 t55 t56 t57 Data valid MTSR1) t60 MRST1) 0.5 VDD3 t57 Data valid t60 0.5 VDD3 t58 t59 t61 SLSI 1) This timing is based on the following setup : ECON.CPH = 1, ECON.CPOL = 0. QSPI_TmgSM_EP.vsd Figure 3-14 Slave Mode Timing Data Sheet 3-215 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationEthernet Interface (ETH) Characteristics 3.21 Ethernet Interface (ETH) Characteristics 3.21.1 ETH Measurement Reference Points ETH Clock 1.4 V 1.4 V ETH I/O 2.0 V 0.8 V 2.0 V 0.8 V tR tF ETH_Testpoints.vsd Figure 3-15 ETH Measurement Reference Points Data Sheet 3-216 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationEthernet Interface (ETH) Characteristics 3.21.2 ETH Management Signal Parameters (ETH_MDC, ETH_MDIO) Table 3-37 ETH Management Signal Parameters Parameter Symbol Values Min. Typ. Max. Unit Note / Test Condition ETH_MDC period t1 CC 400 - - ns CL=25pF ETH_MDC high time t2 CC 160 - - ns CL=25pF ETH_MDC low time t3 CC 160 - - ns CL=25pF ETH_MDIO setup time (output) t4 CC 10 - - ns CL=25pF ETH_MDIO hold time (output) t5 CC 10 - - ns CL=25pF ETH_MDIO data valid (input) t6 SR 0 - 300 ns CL=25pF t1 t3 t2 ETH_MDC ETH_MDIO sourced by controller : ETH_MDC t4 ETH_MDIO (output ) t5 Valid Data ETH_MDIO sourced by PHY: ETH_MDC t6 ETH_MDIO (input ) Valid Data ETH_Timing-Mgmt.vsd Figure 3-16 ETH Management Signal Timing Data Sheet 3-217 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationEthernet Interface (ETH) Characteristics 3.21.3 ETH MII Parameters In the following, the parameters of the MII (Media Independent Interface) are described. Table 3-38 ETH MII Signal Timing Parameters Parameter Symbol Clock period t7 SR Values Min. Typ. Max. 40 - - Unit Note / Test Condition ns CL=25pF; baudrate=100Mbps 400 - - ns CL=25pF; baudrate=10Mbps Clock high time t8 SR 14 - 26 ns CL=25pF; baudrate=100Mbps 140 1) - 260 2) ns CL=25pF; baudrate=10Mbps Clock low time t9 SR 14 - 26 ns CL=25pF; baudrate=100Mbps 140 1) - 260 2) ns CL=25pF; baudrate=10Mbps Input setup time t10 SR 10 - - ns CL=25pF Input hold time t11 SR 10 - - ns CL=25pF Output valid time t12 CC 0 - 25 ns CL=25pF 1) Defined by 35% of clock period. 2) Defined by 65% of clock period. t7 t9 ETH_MII_RX_CLK ETH_MII_TX_CLK t8 ETH_MII_RX_CLK t1 0 ETH_MII_RXD[3:0] ETH_MII_RX_DV ETH_MII_RX_ER (sourced by PHY ) t1 1 Valid Data ETH_MII_TX_CLK t1 2 ETH_MII_TXD[3:0] ETH_MII_TXEN (sourced by controller ) Valid Data ETH_Timing-MII.vsd Figure 3-17 ETH MII Signal Timing Data Sheet 3-218 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationEthernet Interface (ETH) Characteristics 3.21.4 ETH RMII Parameters In the following, the parameters of the RMII (Reduced Media Independent Interface) are described. Table 3-39 ETH RMII Signal Timing Parameters Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. 20 - - ns CL=25pF; 50ppm ETH_RMII_REF_CL clock high t14 CC time 7 1) - 13 2) ns CL=25pF ETH_RMII_REF_CL clock low t15 CC time 7 1) - 13 2) ns CL=25pF ETHTXEN, ETHTXD[1:0], ETHRXD[1:0], ETHCRSDV, ETHRXER; setup time t16 CC 4 - - ns CL=25pF ETHTXEN, ETHTXD[1:0], ETHRXD[1:0], ETHCRSDV, ETHRXER; hold time t17 CC 2 - - ns CL=25pF ETH_RMII_REF_CL clock period t13 CC 1) Defined by 35% of clock period. 2) Defined by 65% of clock period. t1 3 t1 5 t14 ETH_RMII_REF_CL ETH_RMII_REF_CL t1 6 ETHTXEN, ETHTXD[1:0], ETHRXD[1:0], ETHCRSDV, ETHRXER t17 Valid Data ETH_Timing-RMII .vsd Figure 3-18 ETH RMII Signal Timing Data Sheet 3-219 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationE-Ray Parameters 3.22 E-Ray Parameters The timings of this section are valid for the strong driver and sharp edge settings of the output drivers with CL = 25 pF. Table 3-40 Transmit Parameters Parameter Symbol Values Min. Rise time of TxEN tdCCTxENRise2 5 Fall time of TxEN Unit Note / Test Condition Typ. Max. - 9 ns CL=25pF - 9 ns CL=25pF - 9 ns 20% - 80%; CL=25pF CC tdCCTxENFall25 CC Sum of rise and fall time tdCCTxRise25+ dCCTxFall25 CC Sum of delay between TP1_FF tdCCTxEN01 and TP1_CC and delays CC derived from TP1_FFi, rising edge of TxEN - - 25 ns Sum of delay between TP1_FF tdCCTxEN10 and TP1_CC and delays CC derived from TP1_FFi, falling edge of TxEN - - 25 ns Asymmetry of sending -2.45 - 2.45 ns Sum of delay between TP1_FF tdCCTxD01 CC and TP1_CC and delays derived from TP1_FFi, rising edge of TxD - - 25 ns Sum of delay between TP1_FF tdCCTxD10 CC and TP1_CC and delays derived from TP1_FFi, falling edge of TxD - - 25 ns TxD signal sum of rise and fall ttxd_sum CC time at TP1_BD - - 9 ns ttx_asym CC CL=25pF Table 3-41 Receive Parameters Parameter Symbol Values Min. Max. - 43.0 ns CL=25pF - 44.0 ns CL=15pF 35 - 70 % 30 - 65 % tdCCTxAsymAcc -30.5 Acceptance of asymmetry at receiving part tdCCTxAsymAcc -31.5 Threshold for detecting logical high TuCCLogic1 Threshold for detecting logical low TuCCLogic0 Data Sheet Note / Test Condition Typ. Acceptance of asymmetry at receiving part ept25 Unit SR ept15 SR SR SR 3-220 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationE-Ray Parameters Table 3-41 Receive Parameters (cont’d) Parameter Symbol Values Unit Min. Typ. Max. Sum of delay between TP4_CC tdCCRxD01 and TP4_FF and delays CC derived from TP4_FFi, rising edge of RxD - - 10 ns Sum of delay between TP1_CC tdCCRxD10 and TP1_CC and delays CC derived from TP4_FFi, falling edge of RxD - - 10 ns Data Sheet 3-221 Note / Test Condition V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationFlash Parameters 3.23 Flash Parameters Program Flash program and erase operation is only allowed up the TJ = 150°C. Table 3-42 Flash Parameter Symbol Program Flash Erase Time per tERP CC logical sector Program Flash Erase Time per tMERP CC Multi-Sector Command Values Unit Note / Test Condition Min. Typ. Max. - - 1 s cycle count < 1000 - 0.207 + 0.003 * (S [KByte]) / (fFSI [MHz])1) s cycle count < 1000, for sector of size S - - 1 s For consecutive logical sectors in a physical sector, cycle count < 1000 - 0.207 + 0.003 * (S [KByte]) / (fFSI [MHz])1) s For consecutive logical sector range of size S in a physical sector, cycle count < 1000 Program Flash program time per page in 3.3 V mode tPRP3 CC - - µs 81 + 3400/(fFSI [MHz]) 32 Byte Program Flash program time per burst in 3.3 V mode tPRPB3 CC - - µs 410 + 12000/(fF SI [MHz]) 256 Byte Program Flash program time for 1 MByte with burst programming in 3 V mode excluding communication tPRPB3_1MB - - 2.2 s Derived value for documentation purpose, valid for fFSI = 100MHz Write Page Once adder tADD CC - - 15 + 500/(fFSI [MHz]) µs Adder to Program Time when using Write Page Once Program Flash suspend to read tSPNDP CC latency - - 12000/(fF µs SI [MHz]) For Write Burst, Verify Erased and for multi(logical) sector erase commands Data Flash Erase Time per Sector 2) - 0.12 + 0.08/(fFSI [MHz])1) - s cycle count < 1000 - 0.57 + 0.15/(fFSI [MHz])1) 0.928 + 0.15/(fFSI [MHz]) s cycle count < 125000 Data Sheet CC tERD CC 3-222 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationFlash Parameters Table 3-42 Flash (cont’d) Parameter Data Flash Erase Time per Multi-Sector Command 2) Symbol tMERD CC Values Unit Note / Test Condition s For consecutive logical sector range of size S, cycle count < 1000 For consecutive logical sector range of size S, cycle count < 125000 Min. Typ. Max. - 0.12 + 0.01 * (S [KByte]) / (fFSI [MHz])1) - 0.57 + 0.019 * (S [KByte]) / (fFSI [MHz])1) 0.928 + s 0.019 * (S [KByte]) / (fFSI [MHz]) Data Flash erase disturb limit NDFD CC - - 50 Program time data flash per page 3) tPRD CC - - 50 + µs 2500/(fFSI [MHz]) 3) 8 Byte Data Flash program time per burst 3) tPRDB CC - - 96 + µs 4400/(fFSI [MHz]) 3) 32 Bytes Data Flash suspend to read latency tSPNDD CC - - 12000/(fF µs SI [MHz]) tFL_MarginDel - - 10 µs Program Flash Retention Time, tRET CC Sector 20 - - years Data Flash Endurance per EEPROMx sector 4) 125000 - - CC cycles Max. data retention time 10 years UCB Retention Time tRTU CC 20 - - years Max. 100 erase/program cycles per UCB, max 400 erase/program cycles in total Data Flash access delay tDF CC - - 100 ns see PMU_FCON.WSDFLA SH Data Flash ECC Delay tDFECC CC - - 20 ns see PMU_FCON.WSECD F Program Flash access delay tPF CC - - 30 ns see PMU_FCON.WSPFLA SH Program Flash ECC delay tPFECC CC - - 10 ns see PMU_FCON.WSECP F Wait time after margin change cycles CC Data Sheet NE_EEP10 3-223 Max. 1000 erase/program cycles V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationFlash Parameters Table 3-42 Flash (cont’d) Parameter Symbol Values Unit Min. Typ. Max. Number of erase operations on NERD0 CC DF0 over lifetime - - 750000 cycles Junction temperature limit for PFlash program/erase operations - - 150 °C TJPFlash SR Note / Test Condition 1) All typical values were characterised, but are not tested. Typical values are safe median values at room temperature 2) Under out-of-spec conditions (e.g. over-cycling) or in case of activation of WL oriented defects, the duration of erase processes may be increased by up to 50%. 3) Time is not dependent on program mode (5V or 3.3V). 4) Only valid when a robust EEPROM emulation algorithm is used. For more details see the Users Manual. Data Sheet 3-224 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPackage Outline Package Outline 17 ±0. 1 B 1 .7 MAX A 292 x 0.15 M C A B 0.08 M C 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 1 7 ±0.1 0.1 C CODE COPLANARITY INDEX MARKING (LASERED ) SEATIN G PLAN E 292 x 0.15 C Y W V U T R P N M L K J HG F E D C B A 19 x 0 .8 = 1 5.2 0 .5 ±0.05 0 .8 3.24 INDEX MARKING 0.8 19 x 0.8 = 15 .2 0.33 MIN STANDOFF Figure 3-19 Package Outlines PG-LFBGA-292-6 Data Sheet 3-225 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPackage Outline Figure 3-20 Package Outlines PG-TQFP-144-27 Table 3-43 Exposed Pad Dimensions Ex; vaild for Feature Package L and LP (nominal EPad size) 5.7 mm ± 50 µm Ey; vaild for Feature Package L and LP (nominal EPad size) 5.7 mm ± 50 µm Ax; vaild for Feature Package L and LP (solder able EPad size) 4.9 mm ± 50 µm Ay; vaild for Feature Package L and LP (solder able EPad size) 4.9 mm ± 50 µm Note: It is recommended to use dimensions Ex and Ey for board layout considerations. Solder wetting between Ex / Ey and Ax / Ay and lead between Ex / Ey and Ax / Ay will not case any harm. Data Sheet 3-226 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPackage Outline Figure 3-21 Package Outlines PG-TQFP-100-23 Table 3-44 Exposed Pad Dimensions Ex; vaild for Feature Package L, LC, LP, S, and SP (nominal EPad size) 5.7 mm ± 50 µm Ey; vaild for Feature Package L, LC, LP, S, and SP (nominal EPad size) 5.7 mm ± 50 µm Ax; vaild for Feature Package L, LC, LP, S, and SP (solder able EPad size) 4.9 mm ± 50 µm Ay; vaild for Feature Package L, LC, LP, S, and SP (solder able EPad size) 4.9 mm ± 50 µm Note: It is recommended to use dimensions Ex and Ey for board layout considerations. Solder wetting between Ex / Ey and Ax / Ay and lead between Ex / Ey and Ax / Ay will not case any harm. You can find all of our packages, sorts of packing and others in our Infineon Internet Page “Products”: http://www.infineon.com/products. 3.24.1 Package Parameters Table 3-45 Thermal Characteristics of the Package Device TC233 Package PG-TQFP-100-23 RQJCT1) 21.2 11.9 Data Sheet RQJCB1) Unit Note 12.1 2) 30.4 K/W with soldered exposed pad and internal pass device 2.9 20.42) K/W with soldered exposed pad and DCDC EVR 3-227 RQJA V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationPackage Outline Table 3-45 Thermal Characteristics of the Package Device Package RQJCT1) RQJCB1) RQJA Unit Note TC234 PG-TQFP-144-27 20.9 11.7 30.02) K/W with soldered exposed pad and internal pass device 2.8 19.82) K/W with soldered exposed pad and DCDC EVR 21.0 33.12) K/W with internal pass device 11.7 TC237 PG-LFBGA-292-6 13.7 25.42) K/W with DCDC EVR 1) The top and bottom thermal resistances between the case and the ambient (RTCAT, RTCAB) are to be combined with the thermal resistances between the junction and the case given above (RTJCT, RTJCB), in order to calculate the total thermal resistance between the junction and the ambient (RTJA). The thermal resistances between the case and the ambient (RTCAT, RTCAB) depend on the external system (PCB, case) characteristics, and are under user responsibility. The junction temperature can be calculated using the following equation: TJ = TA + RTJA * PD, where the RTJA is the total thermal resistance between the junction and the ambient. This total junction ambient resistance RTJA can be obtained from 7.6 14.1 the upper four partial thermal resistances. Thermal resistances as measured by the ’cold plate method’ (MIL SPEC-883 Method 1012.1). 2) Value is defined in accordance with JEDEC JESD51-3, JESD51-5, and JESD51-7. Data Sheet 3-228 V 1.0 2017-03 TC233 / TC234 / TC237 Electrical SpecificationQuality Declarations 3.25 Quality Declarations Table 3-46 Quality Parameters Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. - - 24500 hour ESD susceptibility according to VHBM Human Body Model (HBM) - - 2000 V Conforming to JESD22-A114-B ESD susceptibility according to VCDM Charged Device Model (CDM) - - 500 V for all other balls/pins; conforming to JESD22-C101-C - - 750 V for corner balls/pins; conforming to JESD22-C101-C - - 3 Operation Lifetime Moisture Sensitivity Level Data Sheet tOP MSL 3-229 Conforming to Jedec J-STD--020C for 240C V 1.0 2017-03 TC233 / TC234 / TC237 HistoryChanges from Version TC23x_DS_v1.1 to Version TC23xAC_DS_v1.0 4 History 4.1 Changes from Version TC23x_DS_v1.1 to Version TC23xAC_DS_v1.0 This Data Sheet is only valid for the Feature Packages L, LC, LP, S, and SP. Feature Packages S and SP are newly added. • PG-LFBGA-292-6 Package Varinat Pin Configuration of TC237x – • Overload – • • – add footenote ‘ VILx = 0.65 * VDDM’ to VIHS – add footenote ‘ VILx = 0.41 * VDDM’ to VILS Back-up Clock • • Update footnote of LDO to 'LDO operation is only possible for TJ≤150°C.' Changes in table 'VOUTT TC23xAC' of EVR/LDO – • Update footnote of EVR to 'It is recommended to place the flying capacitor close to the pins without vias to have minimal routing resistance from pin to the capacitor terminal of less than 25mOhm. Likewise it is recommended to limit the routing resistance to input and output capacitor is to less than 25mOhm.' EVR/LDO – • Add parameter fBACKSS EVR – • Remove parameter IING changes in table’ Class_S’ of Standard_Pads – • Remove pin U17 from the NC list Change of VOUTT13 from load equal to IDD of max power pattern; either TJ≤150°C and pass device=on chip or TJ≤170°C and pass device=off chip to load equal to IDD of max power pattern; pass device=on chip VADC – Add parameter tWU – Add parameter RMDU – Add parameter RMDD VADC_33 – Add parameter tWU – Add parameter RMDU – Add parameter RMDD Power Supply – Change max value of IEVRSB from 650 µA to 150 µA – Change note of IEVRSB from 'Standby RAM is active. Power to remaining domains switched off. TJ =25°C' to 'Standby RAM is active. Power to remaining domains switched off. TJ = 25°C; VEVRSB = 5V' – Change max value of IDDPORST from 70 mA to 85 mA for Note ‘valid for Feature Package L, LC, and LP; TJ=165°C’ – Change max value of IDDPORST from 45 mA to 60 mA for Note ‘valid for Feature Package L, LC, and LP; TJ=150°C’ Data Sheet 4-231 V 1.0 2017-03 TC233 / TC234 / TC237 HistoryChanges from Version TC23x_DS_v1.1 to Version TC23xAC_DS_v1.0 – Change max value of IDDPORST from 25 mA to 40 mA for Note ‘valid for Feature Package L, LC, and LP; TJ=125°C’ – Update formulas 3.2 and 3.3 – add formulas 3.4 and 3.5 Data Sheet 4-232 V 1.0 2017-03 w w w . i n f i n e o n . c o m Published by Infineon Technologies AG
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