DK-TM4C129X User`s Guide
Contents
1. 14 2 pP MEE cp Lm 17 SPMUS60 October 2013 List of Figures 3 Submit Documentation Feedback Copyright O 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS Chapter 1 SPMUS60 October 2013 DK TM4C129X Overview The Tiva TM4C129X development kit is an evaluation platform for the Tiva TM4C129x series ARM Cortex M4 based microcontrollers The evaluation board s design highlights the TM4C129X microcontroller s USB 2 0 On The Go Host Device OTG Host Device interface the 10BASE T 100BASE TX Ethernet controller with internal PHY QuadSSI bus to communicate with an external flash device 12 bit Analog to Digital Converter ADC LCD controller and the 2 module BoosterPack2 EM 3 3V JTAG S UART 3 Jumper sa C 42 94V 0 carp 189010 512Mb Flash microSD p Card Slot Power Select Jumper 5V Barrel Connector SPEAKER CON 42 Audio Amp Speaker Tiva C Series TM4C129XNCAD Microcontroller Power LEDs Up Button Tri color User LED Down Button SPI DAT3 Regulator Measure Header N SPI_DAT SPI DATI E4 R21 lt I d RESET JB RATE E27 026 Le o 842 23 BOOSTER PACK 1 Pulse HX1188NL 1229 PP CHINA 122224432 qs weather Austin TX Scattered Clouds Humidity 62 BAF os eor Figure 1 1 Board Picture2. 11 2 3 Booster PACK 2 uu ee A 12 2 4 MII 13 2 5 Resistive TOUCA dyu 16 2 6 LOD Pini iei x 16 A 1 DK TM4C129X Component Locations Top 20 A 2 DK TM4C129X Component Locations Bottom 21 A 3 Jumper and Shunt Locations sen iem nnn n rhe i Y RE 22 List of Tables 151 DK TMA C129X SpecifiCallOliS saisie nis uu Gn tree ends in 6 2 1 JTAG Pin Table c 9 2 2 USB Host Device OTG Sighals icin seve ec rere reete e ewes candied dance ete RHEEN amid peu pan 10 2 3 User Buttons and LED ne enhn nnn nnne nnn 10
3. INSTRUMENTS Appendix B www ti com Item Ref Qty Description Mfg Part Number Diode Schottky 60V 15ma 23 D13 1 SOD 323 Diodes Inc SD101AWS 7 F Diode 8 chan 15KV ESD 24 D14 1 Protection Array SO 8 Semtech SLVU2 8 4 TBT 25 D16 Lite On LTST C171EKT 26 D3 D4 05 06 07 oe EPCOS B72590D0050H160 27 D8 D9 a Lite On LTST C170AKT Header 2x10 2 00mm SMT 28 Ji 1 Vertical Unshrouded Samtec ASP17298501 Header 1x2 T Hole Vertical 29 J10 1 unshrouded stacking Samtec ZW 02 15 F S 265 090 Header 1x3 0 100 T Hole 30 J11 J12 J13 J16 J17 J35 6 Vertical Unshrouded 0 220 FCI 68001 103HLF Mate Connector DC Jack SMT 31 J15 1 2 5x5 5mm CUI Inc PJ 002B SMT Header 2x10 0 050 SMT 32 J19 J31 2 Vertical Shrouded Socket Samtec TFM 110 02 S D K A Header 1x2 0 100 T Hole 33 2 98 J14 J18 J20 421 J22 vertical Unshrouded 0 220 3M 961102 6404 AR J23 J26 M ate Connector USB micro AB 34 24 1 Receptacle Reversed SMD Hirose ZX62R AB 5P Header 2x4 0 100 T Hole 35 J25 1 Vertical Unshrouded 0 230 FCI 67997 108HLF Mate gold Header 2x16 0 100 T Hole 36 J27 J28 2 Vertical Unshrouded 0 230 FCI 67997 132HLF Mate gold Header 2x10 T Hole Vertical 37 J29 J30 2 unshrouded stacking Samtec ZW 10 15 F D 265 090 Header 2x10 0 100 T Hole 38 J3 1 Vertical Unshrouded 0 230 FCI 67997 220HLF Mate gold Connector RJ45 NO MAG 39 J32 1 shielded THRU HOLE TE Connecti
4. 14 2 1 10 EEPROM SD seem UO YR 14 21 11 Temperature SENSON inae sees u Samana 15 2 12 ee EC NR NE AU A WRN FN 15 2 1 13 Ethernet ss O i aime 17 ZR E 119 eet 17 Software Development 000000 18 3 1 Software Descriptio M seseo eE 18 3 2 Source Code 18 3 3 MOOLODIIONS m 18 3 4 Programming the DK TM4C129X Board E e wi E EEE TEE EEEE 18 Component LOCATIONS seesteinen inan ni mentale tiens kaai 20 Bill of Materials ne meine ni nuu Dee na Ra Nue TRAE NE RR Ra TER 23 References T uE 27 citu mee An 28 Contents SPMUS360 October 2013 Copyright 2013 Texas Instruments Incorporated Submit Documentation Feedback 13 TEXAS INSTRUMENTS www ti com List of Figures Het Board Picture va vex os 4 2 1 DK TM4C129X Development Board Block nen 7 2 2 Booster
5. R27 10K 3 3V_MAIN TEXAS INSTRUMENTS TIVA C SERIES MICROCONTROLLERS PROJECT TM4C129X Development Kit 108 WILD BASIN ROAD SUITE 350 AUSTIN TX 78746 DESCRIPTION www ti com tiva c Schematic DK TM4C129X C SERIES FILENAME DK TM4C129X_3 0 sch PART NO DK TM4C129X mE 3 3V MAIN 3 3V MAIN C37 Bess 0 1UF cs VCC SIO1 SIO3 5102 SCLK GND 5100 FLASH DAT3 FLASH CLK MX66L5 J21 C14 PB2 USBOSTP 0 047uF PO1 SSI3SS 3 3V_MAIN PO2 SSI3XDATO PFO SSI3DAT1 PF4 SSI3DAT2 PF5 SSI3DAT3 FLASH_BUS LM4819 microSD CARD I NTERFACE CON HDR 100 2X7 TH 3 3V_MAIN 51 01 DTC114EET1G PD4 T3CCPO PB6 12C6SCL 3 3V MAIN 3 3V MAIN PB7 12C6SDA lt 2 3 3V MAIN R28 2 2K 3 3V_MAIN TMP100 DESIGNER REVISION DATE SL 3 0 8 6 2013 TEXAS INSTRUMENTS TIVA C SERIES MICROCONTROLLERS PROJECT TMAC129X Development Kit 108 WILD BASIN ROAD SUITE 350 AUSTIN TX 78746 DESCRIPTION Schematic DK TM4C129X C SERIES www ti com tiva c UART Selection J12 1 EM_RX PJ 0 U3RX h 3 BOOSTER_PACK2_RX 3POS HEADER J13 1 EM TX PUUSTA L BOOSTER_PACK2_TX 3POS HEADER 3 3V_MAIN 5V 3 3V_MAIN C73 C79 de O 1uF PDO AIN15 BOOSTER_PACK2_RX lt BOOSTER_PACK2 TX 5V PD1 TOCCPO C74 C80 0 1 luF
6. Analog Y Timers poko Jui E ug High speed USB PHY 4 USB ULPI p USB Highspeed Full speed PHY JTAG UARTO assi3 123 lt UARTS BoosterPack XL2 MI RMI Ethernet MAC ds SPI Expansion Header 2 Texas Instruments Ethernet w LEDs Fthernet Internal snes UART Ethernet PHY TM4C129XNCZADI CSN Ame 3 EPI Partial Host Bus si Boop 12c7 lt g LCD LIDD 8 UART3 4 D 05 4 QVGA LCD 1266 ee ket Touch ADC GPIO Timer Pins Seen CANO CAN Bw L Up Select Down Magnetic Switches speaker driven by 2 5 Tri color PWM through active Ee 4 pass filter Figure 2 1 DK TM4C129X Development Board Block Diagram SPMUS60 October 2013 Hardware Description 7 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS Functional Description www ti com 2 1 Functional Description 2 1 1 Microcontroller The Tiva TM4C129XNCZAD is an ARM Cortex M4 based microcontroller with 1024 KB flash memory 256 KB SRAM 120 MHz operation USB Host Device OTG Ethernet Controller Intergrated Ethernet PHY Hibernation module and a wide range of other peripherals See the TM4C129XNCZAD microcontroller data sheet for complete device details Most of the microcontroller signals are routed to 0 1 pitch break out pads and labeled with their GPIO reference An internal multip
7. Standard 20 pin JTAG header without ETM functionality debug in and out capable Shunt resistors to measure current on and Var to the TM4C129X Reset button 1 4 Specifications Table 1 1 shows the specifications for the DK TM4C129X development board Table 1 1 DK TM4C129X Specifications Parameter Value Board supply voltage 4 75 5 25V Dimensions 6 45 x 4 5 x 0 84 LXWxH RoHS status Compliant 6 DK TM4C129X Overview SPMUS60 October 2013 TEXAS Submit Documentation Feedback Copyright O 2013 Texas Instruments Incorporated Chapter 2 I MENTIS SPMU360 October 2013 Hardware Description In addition to a TM4C129XNCZAD microcontroller the evaluation board includes a range of useful peripheral features and an integrated in circuit debug interface ICDI This chapter describes how these peripherals operate and interface to the microcontroller USB Mini B 20 PIN JTAG connector A y SPI ICDI Use JTAG Sd Card 512 Mbit Logic EEPROM F 12C OTG Micro A B gt i gt UART e
8. ee ee lt 3 20 Figure 2 6 LCD Pin Out 16 Hardware Description SPMUS60 October 2013 Submit Documentation Feedback Copyright O 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS Description Table 2 6 434 FUNCTION PIN LCD PIN NAME LCD FUNCTION 1 N A 5V 2 N A 5V 3 N A 3 3V 4 N A 3 3V 5 PE7 AIN21 6 XR TOUCH ANALOG 7 PT2 GPIO 8 YD TOUCH IO 9 PT3 GPIO 10 XL TOUCH IO 11 PP7 AIN22 12 YU TOUCH ANALOG 13 PF6 LCDMCLK 14 RST SYSTEM RESET 15 PJ6 LCDAC 16 cs CHIP SELECT 17 PR4 LCDDATAO0 18 D1 amp D10 LCD DATA 19 PR5 LCDDATAO1 20 D2 amp D11 LCD DATA 21 PF7 LCDDATA02 22 03 amp 012 LCD DATA 23 PR3 LCDDATA03 24 04 8 D13 LCD DATA 25 PR6 LCDDATA04 26 05 amp 014 LCD DATA 27 PR7 LCDDATA05 28 D6 amp D15 LCD DATA 29 PS4 LCDDATA06 30 D7 amp 016 LCD DATA 31 PS5 LCDDATAO7 32 D8 amp D17 LCD DATA 33 PRI LCDFP 34 DC PARALLEL INTERFACE 35 PRO LCDCP 36 RD READ SIGNAL 37 PR2 LCDLP 38 WR WRITE SIGNAL 39 N A GND 40 N A GND 2 1 13 Ethernet The DK TM4C129X supports 10 100 Mbps Ethernet through J32 Each DK has been assigned a unique MAC address that is stored in USER REGO and USER The value of the MAC address can be viewed on the Configuration display in the quickstart weather display example J32 is driven from the internal PHY of the TM4C129XNCZAD and the PHY
9. BoosterPack2 DESIGNER REVISION DATE SLJ 3 0 8 6 2013 PROJECT TM4C129X Development Kit DESCRIPTION Schematic DK TM4C129X C SERIES FILENAME PART NO DK TM4C129X_3 0 sch 3 3V_MAIN 5V 3 3V MAIN EM_Connectors 1 C77 PE2 AINO1 PH6 U5RX PE3 AINOO OduF luF VDD2 1 8V OPTION PH7 U5TX PE6 AIN20 PJ4 U3RTS RF_UART_CTS VDD2 1 8V OPTION PN7 PKO AIN16 C 32K RF_SLOW_CLK 32K VDD2 1 8V OPTION PF3 SSI3CLK PK1 AIN17 RF_UART_RX VDD1 3 3V PG7 SSI2CLK PK2 AIN18 RF_UART_TX VDD1 3 3V 2 PK3 AIN19 PB7 12C6SDA RF_I2C_SDA BT FM AUD 125 FS ___ gt PEO AINO3 PB6 12C6SCL RF I2C SCL RF GPIO2 a 50 2 PJ7 lt gt PE1 AINO2 Se RF_SDIO_CLK RF_CC_RSTN lt gt PS2 T3CCPO RF SDIO CMD BT FM AUD 125 vss RF_WCS_NSHUTD lt PS1 T2CCP1 I RF_SDIO_DO 55 RF_SDIO_D1 ANA_AUDIO_FM_LEFT I C72 C78 SDIO D2 ANA AUDIO FM RIGHT PM5 T4CCP1 RF_SDIO_D3 BT FM AUD I2S DX PD3 T1CCP1 PS2 T3CCPO luF PD2 T1CCPO GPIO0 GDOO BT FM AUD I2S RX PS3 T3CCP1 PQ7 LED_G PD3 T1CCP1 RF_GPIO1 GDO2 USBM PL5 TOCCP1 USBOD5 EPI0S33 5510 55 RF_SPI_CSn USBP PL4 TOCCPO USBOD4 RESET PA2 SSIOCLK RF SPI CLK NC PSO T2CCPO PG5 SSI2XDATO PA4 SSI0XDAT0 SCL RF_SPI_MOSI RF_UART_RTS PJ5 U3CTS D PS1 T2CCP1 PG4 SSIXDAT1 _ PA5 SSI0XDAT1 SDA RF_SPI_MISO RF_GPIO3 PS3 T3CCP1 su D e 3 en CONECTOR EY CORTECTOR 2 1 PM7
10. All trademarks are the property of their respective owners 4 DK TM4C129X Overview Copyright 2013 Texas Instruments Incorporated ICDI Power LED ICDI Status LED 4 USB microB Debug power BoosterPack 2 2 or SPI Jumper Mics _ USB microAB 0 NK OTG Ethernet LEDs Ethernet Connector Backlight Jumper Backlight Driver SPMUS60 October 2013 Submit Documentation Feedback TEXAS INSTRUMENTS www ti com Kit Contents 11 Kit Contents The DK TM4C129X Development Kit comes with the following DK TM4C129X development board On board In Circuit Debug Interface ICDI Cables Two USB Micro B plug to USB A plug cables USB Micro A plug to USB A receptacle cable ethernet cable USB Flash drive containing Complete documentation TivaWare for Series Peripheral Driver Library and example source code A supported evaluation version of all of the following Texas Instruments Code Composer Studio IDE Keil M RealView Microcontroller Development Kit MDK ARM IAR Embedded Workbench development tools e Sourcery CodeBench development tools time limited GCC 1 2 Using the DK TM4C129X The recommended steps for using the DK TM4C129X development kit are 1 2 Follow the Getting Stated Guide document included in the kit The Getting Started Guide document will help get the DK TM4C129X development board up and running in minutes Use yo
11. PN3 Up SW2 J37 pins 3 and 4 PE5 Down SW3 J37 pins 5 and 6 PN5 Red LED J36 pins 1 and 2 PQ4 Blue LED J36 pins 3 and 4 PQ7 Green LED J36 pins 5 and 6 Hardware Description SPMUS60 October 2013 Submit Documentation Feedback Copyright O 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS www ti com 2 1 8 Headers The three main sets of headers on the board are on a 0 100 grid and separated for a particular function 2 1 8 1 BoosterPack 1 Functional Description Figure 2 2 is a BoosterPack XL connection defined in the BoosterPack Design Guide The port names and voltage rails are listed in the silk screen next to the pin of the header AC DB 10 ee e ee ee 040 44 090 ee 010 10 1 80 lt gt Figure 2 2 Booster Pack 1 J29 J30 CON A Booster Function a DK Function CON B Booster Function E 1 3 3V N A GND 1 GND N A 2 Analog In PE2 AINO1 2 Timer Output PS2 3 UART RX PH6 U5RX 3 INT GPIO PQ7 4 UART TX PH7 U5TX 4 Test N A NC 5 Int GPIO PN7 PN7 5 RESET RESET RESET 6 SPI CLK PF3 SSI3CLK 6 SPI_B_SIMO PGS 7 SPI CLK PG7 SSI2CLK 7 SPI B SOMI PG4 HU 8 GPIO PJ2 8 GPIO PNO PNO 9 GPIO PB4 9 GPIO PN1 PN1 10 GPIO PJ7 10 GPIO PN2 PN2 CON Booster Function a DK Function CON D EM Function ee
12. be reguired to take whatever measures may be reguired to correct this interference General Statement for EVMs including a radio User Power Freguency Use Obligations This radio is intended for development professional use only in legally allocated frequency and power limits Any use of radio freguencies and or power availability of this EVM and its development application s must comply with local laws governing radio spectrum allocation and power limits for this evaluation module It is the user s sole responsibility to only operate this radio in legally acceptable frequency space and within legally mandated power limitations Any exceptions to this are strictly prohibited and unauthorized by Texas Instruments unless user has obtained appropriate experimental development licenses from local regulatory authorities which is responsibility of user including its acceptable authorization For EVMs annotated as FCC FEDERAL COMMUNICATIONS COMMISSION Part 15 Compliant Caution This device complies with part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation Changes or modifications not expressly approved by the party responsible for compliance could void the user s authority to operate the equipment FCC Interference Statement for Class A EVM devices This eq
13. components as meeting ISO TS16949 requirements mainly for automotive use In any case of use of non designated products TI will not be responsible for any failure to meet ISO TS16949 Products Applications Audio www ti com audio Automotive and Transportation www ti com automotive Amplifiers amplifier ti com Communications and Telecom www ti com communications Data Converters DLP Products DSP Clocks and Timers Interface Logic Power Mgmt Microcontrollers RFID OMAP Applications Processors Wireless Connectivity dataconverter ti com www dlp com www ti com clocks interface ti com logic ti com microcontroller ti com www ti rfid com www ti com omap Computers and Peripherals Consumer Electronics Energy and Lighting Industrial Medical Security Space Avionics and Defense Video and Imaging TI E2E Community www ti com wirelessconnectivity www ti com computers www ti com consumer apps www ti com energy www ti com industrial www ti com medical www ti com security www ti com space avionics defense www ti com video Mailing Address Texas Instruments Post Office Box 655303 Dallas Texas 75265 Copyright 2013 Texas Instruments Incorporated
14. that if you could not follow the instructions above you will be subject to penalties of Radio Law of Japan Texas Instruments Japan Limited address 24 1 Nishi Shinjuku 6 chome Shinjuku ku Tokyo Japan http www tij co jp ORMOMRRTY LESBEWVCZOROZRSE 517 TULE KEFEN ETN CCHRB lt K 1 C EO lt FR 8 H28 981738 CEOSHLEREESO MBM C C EWC E 2 lt 3 EREKTA Ami co Esa COB IU BE DEU ad Ren 99 BATEYA Rae ie 6 TA 24815 PUT http Awww tij co jp EVALUATION BOARD KIT MODULE EVM WARNINGS RESTRICTIONS AND DISCLAIMERS For Feasibility Evaluation Only in Laboratory Development Environments Unless otherwise indicated this EVM is not a finished electrical equipment and not intended for consumer use It is intended solely for use for preliminary feasibility evaluation in laboratory development environments by technically qualified electronics experts who are familiar with the dangers and application risks associated with handling electrical mechanical components systems and subsystems It should not be used as all or part of a finished end product Your Sole Responsi
15. 0 and D1 on the board are lit Run LM Flash Programmer In the Configuration tab use the Quick Set control to select the DK TM4C129X development board Move to the Program tab and click the Browse button Navigate to the example applications directory the default location is C ti TivaWare_C_Series x x examples boards dk tm4c129x Each example application has its own directory Navigate to the example directory that you want to load and then into the directory that contains the binary bin files Select the binary file and click Open Set the Erase Method to Erase Necessary Pages check the Verify After Program box and check Reset MCU After Program 10 Click the Program button to start the Erase Download and Verify process The DEBUG ACTIVE LED D2 on the board turns on at this time Program execution starts once the Verify process is complete SPMUS60 October 2013 Software Development 19 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated 5 INSTRUMENTS ULPI LPC J27 Mim C31 eus Vie 43 3V PFS PF2 PM3 PC2 PAG 2 GND GND PMO PN4 PO5 PQ6 PC6 PKS PCS PG4 HB LAC LDO PP1 GREEN TOUCHI rail SD 054 SPI DAT3 SPI DAT SPI DATI SPI DATO 485 ris cs 8 3 3V POWER ND ur i MEAS BOOSTER P
16. 3 3V MAIN 3 3V MAIN DESIGNER 51 TEXAS INSTRUMENTS TIVA C SERIES MICROCONTROLLERS TM4C123 0 1uF 0 1uF 1 0uF 2 2uF PROJECT 7 TM4C129X Development Kit 108 WILD BASIN ROAD SUITE 350 AUSTIN TX 78746 DESCRIPTION www ti com tiva c Schematic DK TM4C129X C SERIES EVALUATION BOARD KIT MODULE EVM ADDITIONAL TERMS Texas Instruments provides the enclosed Evaluation Board Kit Module EVM under the following conditions The user assumes all responsibility and liability for proper and safe handling of the goods Further the user indemnifies TI from all claims arising from the handling or use of the goods Should this evaluation board kit not meet the specifications indicated in the User s Guide the board kit may be returned within 30 days from the date of delivery for a full refund THE FOREGOING LIMITED WARRANTY IS THE EXCLUSIVE WARRANTY MADE BY SELLER BUYER AND IS IN LIEU OF ALL OTHER WARRANTIES EXPRESSED IMPLIED OR STATUTORY INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE EXCEPT TO THE EXTENT OF THE INDEMNITY SET FORTH ABOVE NEITHER PARTY SHALL BE LIABLE TO THE OTHER FOR ANY INDIRECT SPECIAL INCIDENTAL OR CONSEQUENTIAL DAMAGES Please read the User s Guide and specifically the Warnings and Restrictions notice in the User s Guide prior to handling the product This notice contains important safety information about temperatures and voltages For
17. A 2 Analog In PDO AIN15 2 Timer Output PD1 TOCCPO 3 UART RX J12 Jumper 3 INT GPIO PQO 4 UART TX J13 Jumper 4 Test N A NC 5 INT GPIO PQ1 PQ1 5 RESET RESET RESET 6 SPI A CLK PF3 SSI3CLK 6 SPI B SIMO J17 J16 Jumper 7 SPI B CLK PA2 SSIOCLK 7 SPI B SOMI J16 J17 Jumper 8 GPIO PS6 8 GPIO PQ2 PQ2 9 GPIO PS7 9 GPIO PN1 PP6 10 GPIO PTO 10 GPIO PN2 PT1 Hardware Description Copyright 2013 Texas Instruments Incorporated SPMUS60 October 2013 Submit Documentation Feedback TEXAS INSTRUMENTS www ti com 2 1 8 3 ULPI RMII and There are two 16x2 headers on the left side of the board J28 and J27 The majority of the J28 pins are Functional Description for MII and RMII signals and the majority of J27 pins are for ULPI an external USB PHY Shared between J28 and J27 are the connections for an EPI host bus 16 8 There are also ground 5V 3 3V Hibernate and Wake pins mixed in with the connectors Both headers are on a 100 mil grid J27 J28 1e 2 ee ee a 1 31 32 310 32 lt 050 Figure 2 4 ULPI and RMII Table 2 4 J28 PIN PORT FUNCTION PIN PORT FUNCTION 1 5V 2 NC 3 PM6 ENOCRS 4 PF3 ENOMDIO 5 PF2 ENOMDC 6 PG7 ENORXDV 7 PG2 ENOTXCLK 8 PA6 058 9 GND Ground 10 GND 11 PM4 ENORREFCLK 12 PN6 ENOTXER 13 PPO ENOINTRN 14 3 3V 15 PQ5 ENORXDO 16 PG3 EN
18. ACK 2 J14 TM4C1 29X aM PA Development Board J 33 729 5 a cn PE2 PH6 35 BOOSTER PACK 1 PH7 INSTRUMENTS Tiva C Series ARM MCU QVGA LCD TOUCH_ANO TOUCHO TOUCH_AN1 LCDCLK LCDAC LCDDATAOO LCDDATAO LCDDATAO2 LCDDATAOS LCDDATAO4 LCDDATAOS LCDDATAO6 LCDDATAO7 LCDFP LCDCP LCDLP Appendix A SPMUS60 October 2013 Component Locations SATUS 02 RU gt y OO 015 mu 016 R46 LINK DB R45 SPEED gt 20 Component Locations SPMUS60 October 2013 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS www ti com Appendix A e 1 a 33 IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII imm 1562 on n Em woqMua amp e 0 2 08 Figure 2 DK TM4C129X Component Locations Bottom View SPMUS60 October 2013 Component Locations 21 Submit Documentation Feedback Copyright O 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS Appendix A www ti com ROMIR RU emo Q MEAS BOOSTER PACK 2 Li m sfe nt Board OS Re ULPI LPC CH R 2E 1 12 2 cu me ls g
19. ATAO2 21 22 23 LCDDATAO3 23 24 ll 24 LCDBUS LCDDATAO4 25 26 25 LCDDATAO5 27 26 LCDDATA06 29 l 27 LCDDATAO7 31 28 33 35 Ll 3 37 39 34 3 3V_MAIN C84 35 36 0 1uF 3 3V MAIN C69 C68 luF 0 1uF PROJ ECT TM4C129X Development Kit DESCRIPTION Schematic DK TM4C129X C SERIES 3 3V_MAIN 139 TEXAS INSTRUMENTS TIVA C SERIES MICROCONTROLLERS 108 WILD BASIN ROAD SUITE 350 AUSTIN TX 78746 www ti com tiva c TARGET_DEBUG COMM T_UTX U3 A 17 PAO UORX 1 0 PA2 SSI2CLK PA3 ICDI_VBUS 5 6K USB_DETECT R18 PBO PB1 PB2 PB3 R17 10K 1 ICDI USBODM 2 PA5 SSI2TX PB5 RESER ICDI USBODP PA6 PB6 TOCCPO PA7 PB7 D3 D4 R21 10k 3 3V MAIN PCO PDO PCI PD1 X gt lt PC2 PD2 PC3 PD3 PC4 PD4 USBODM PC5 PD5 USBODP 1M PC6 CO PD6 U2RX C1 PC7 CO PD7 R19 3 3V MAIN 14 Su 3300pF ICD PEO ICDI TMS PEL PF1 SSI1TX ICDI TDI PE2 PF2 SSI1CLK RESERVED_EN so TARGETS 50 PF4 ICDI JTAG PES J38 R6 33 TM4C123 TDI PE4 Pe B High UART Mode T TC2050 IDC NL N ICDI STATUS LED 5 3y MAIN POWER LED D2 01 STATUS_LED AA AA R10 330 Green 3 3V_MAIN 3 3V_MAIN J TAG DEBUG 3 3V_MAIN T_DISCONNECT EXTDBG 3 3V MAIN TARGET DEBUG COMM ETM Header
20. NEA 56 R20 1 EN Panasonic ERJ 3ROF1ROV 57 R26 R35 2 Resistor TOW 5 Yageo RC0603JR 0720KL 58 R3 R10 R45 R46 R47 5 Resistor RE Panasonic ERJ 3GEYJ331V 59 R33 4 Resistor 0 TOWNS 3 Panasonic ERJ 2GEORO0X 60 R37 R40 R41 R42 4 Resistor O 10W 1 Panasonic ERJ 3EKF49R9V 61 R38 Panasonic ERJ 3EKF4871V 62 R44 1 RES 1M OHM 5 1206 TF Panasonic ERJ 8GEYJ105V 63 R48 R49 Jd Yageo RC0402FR 07330RL R5 R24 R29 R31 R32 R43 64 R51 R52 R53 R54 R58 R59 14 Hesistor me cun TOW sx Panasonic ERJ 3GEYJ103V R60 R62 65 R50 4 Pesistor pea MOWI Panasonic ERJ 3EKF13ROV 66 R55 R56 R57 Panasonic ERJ 2GEJ122X 67 R6 q4 Resistor 33 2 EHOW 3 Panasonic ERJ 2GEJ330X 68 R63 Panasonic ERJ 2GEJ510X 69 R64 R65 R66 R67 4 Resistor 4 0W 1 Panasonic ERJ 3EKF75ROV R7 R11 R12 R13 R17 R21 Resistor 10k ohm 1 10W 596 70 R22 R27 R34 R39 R61 a 0402 Thick Film Yageo RC0402FR 0710KL 71 R8 4 Resistor 0 p 0603 Panasonic ERJ 3GEYOROOV 72 SW1 SW2 SW3 SW4 4 Switch Tact 6mm SMT 160gf Omron B3S 1000 73 Ti 1 Dd 1101 pulse Electronics HX1188NL 74 TL1 TL2 TL3 TL4 TLE TLG 6 Keystone 5000 Stellaris MCU 75 Ut 1 TM4C129XNCZAD 212 BGA Texas Instruments TM4C129XNCZAD super 76 02 1 MX66L51235FZ21 10G 77 U3 1 2 Texas Instruments TM4C123GH6PMI SPMUS60 October 2013 Submit Documentation Feedba
21. O a PP7 AIN22 TOUCH PJ6 LCDAC LCDDATAOO PR4 LCDDATAOO LCDDATAOO P3 P2 LCDDATAOL U KCBDATAOZ PF7 LCDDATAO2 LCDDATAO2 8 8 LCDDATAO3 9 V PR3 LCDDATA03 PR6 LCDDATA04 W9___ LCDDATA04 v9 TM4C129X PR7 LCDDATAOS R1O LCDDATAOS LCDDATAO6 Pe LCDDATAO LCDDATAO7 PS5 LCDDATAO7 L3 LCDDATAO7 LCDBUS U1 A PF3 ENOMDIO SSI3CLK PF3 SSI 3CLK PG7 ENORXDV PG7 SSI2CLK PG6 ENORXER PG6 ENORXER PG2 ENOTXCK M16 PG2 ENOTXCK PG3 ENOTXEN PG3 ENOTXEN PN6 ENOTXER PN6 ENOTXER PPO ENOINTRN N18 PPO ENOINTRN PM7 T5CCP1 ENOCOL N19 PM7 T5CCP1 ENOCOL MI I RMI EMG ENOCRS WT PMS ENOCRS External Ethernet PHY PO5 ENORXDO U15 PO5 ENORXDO PO6 ENORXD1 Vi7 PQ6 ENORXD1 PK5 ENORXD2 EPI 0531 U19 PK5 ENORXD2 EPIOS31 PK4 ENORXD3 M18 PK4 ENORXD3 LEDO PM4 ENORREF_CLK K17 PM4 ENORREF_CLK PG4 12C3SCL ENOTXDO K15 PG4 SSIXDAT1 PG5 12C3SDA ENOTXD1 V16 PG5 SSI2XDATO PK6 ENOTXD2 EPI0S25 W16 PK6 ENOTXD2 LED1 PK7 ENOTXD3 EPI0S24 W6 PK7 ENOTXD3 Y3 PF2 ENOMDC vc PF2 ENOMDC 32 768Khz PF1 TRD1 ENLED2 PF1 LED2 PKO AIN16 PK1 AIN17 C27 PK2 AIN18 12pF Cars B8 5 PO4 LED_B PNS LED 2 mM 2 a El PN7 PNO PAL PN2 C25 m Pr PMS TACCPI 9 50 2 PS1 T2CCP1 52 52 T3CCP1 PS3 PS3 T3CCP1 PQ3 T7CCP1 PQ3 T7CCP1 PD2 T1CCPO AIN13 2 PD3 T1CCP1 y PB2 U
22. OTXEN 17 PQ6 ENORXD1 18 PG6 ENORXER 19 PK5 ENORXD2 EPI0S31 ENOLED2 20 PHO 0500 21 PK4 ENORXD3 EPI0S32 ENOLEDO 22 PH1 0501 23 PG4 ENOTXDO 24 PH2 0502 25 PG5 ENOTXD1 26 PH3 0503 27 PK6 ENOTXD2 EPI0S25 ENOLED1 28 PC7 0504 29 ENOTXD3 EPI0S24 30 PM7 ENOCOL 31 GND Ground 32 GND SPMUS60 October 2013 Submit Documentation Feedback Copyright O 2013 Texas Instruments Incorporated Hardware Description 13 TEXAS INSTRUMENTS Functional Description www ti com Table 2 5 J27 PIN PORT FUNCTION PIN PORT FUNCTION 1 5V 2 NC 3 PB3 USBOCLK EPIOS28 ENOMDIO 4 NC 5 GND 6 3 3V 7 PL1 USBOD1 EPI0S17 8 PM3 0512 9 PLO USBODO EPI0S16 10 PM2 EPI0S13 11 PL2 USBOD2 EPI0S18 12 PM1 EPI0S14 13 PL3 USBOD3 EPI0S19 14 PMO EPI0S15 15 PL4 USBOD4 EPI0S26 16 PN4 0534 17 PL5 USBOD5 EPI0S23 18 PA7 0509 19 5 USBOD6 20 PC6 0505 21 PP4 USBOD7 22 PC5 0506 23 PP2 USBONXT EPIOS29 24 PC4 0507 25 PB2 USBOSTP EPIOS27 26 HIB 27 PP3 USBODIR EPI0S30 28 WARE 29 PG1 EPIOS10 30 GND 31 PGO EPIOS11 32 GND 2 1 9 Speaker The speaker circuit is driven by the PWM coming from PB2 T5CCPO to produce sound The amplifier U6 is a Texas Instruments LM4819 and is turned on and off by PD4 The circuit has two filters a high pass filter C14 and R26 and a low pass filter C24 and R35 The high pass filter removes any DC bias an
23. RXCK EPI 0508 PA7 EPIOSO9 4 2 EPI PGLEPIOSIOS __ s 0511 2 PIOS12 lt 2 PM2 EPIOS134 gt K19 5149 ag 0515 PP3 USBODIR lt gt A10 PN4 EPIOS34 lt _ gt PAO UORX PA1 UOTX PCO TCK SWDCLK PC1 TMS SWDIO PC2 TDI PC3 TDO SWO 1 5513 55 POO SSI3CLK PO2 SSI3XDATO 55 PF4 SSI3XDAT2 PF5 SSI3XDAT3 PH4 PP1 PN3 PE5 SSI1XDAT1 SSI1XDAT2 PD4 PD5 SSI1XDAT3 PH5 PJ 0 U3RX PJ 1 U3TX PA2 SSIOCLK PA3 SSIOFSS PA4 SSIOXDATO PA5 SSIOXDAT1 PB4 SSI1FSS PB5 SSI1CLK PS6 PS7 PTO PT1 PP6 AIN23 PDO AIN15 PD1 TOCCPO AIN14 SSI1XDATO PE4 PJ4 U3RTS PJ5 U3CTS PB6 12C6SCL PB7 12C6SDA PHO EPIOSOO PH1 EPIOSO1 2 0502 0503 7 0504 6 0505 5 0506 0507 7 0509 PG1 EPIOS10 PGO EPIOS11 PM3 EPIOS12 PM2 EPIOS13 1 0514 0515 0534 4 PA6 ENORXCK EPIOSO8 PP3 EPI 0S30 USBDIR USBONXT PP2 18 USBOD6 PP5 m PP5 USBOD6 PP4 USBOD7 lt gt PP4 USBOD7 PP2 USBONXT USBODP PL6 USBODP USBODM PL7 USBODM 218 USBODM 6USBOVBUSAUSB_OTG USBOVBUS PB1 5 580 805 USBOID PBo 426 USBOID B3 USBOEPEN PD6 USBOEPEN AI N5 PD7 USBOPFLT AIN4 USBOPLET PT2 PT3 B7 PF6 LCDMCLK PRO LCDCP PR1 LCDFP PR2 LCDLP OUCHO TOUCH AN
24. SBOSTP PEG AIN20 __ 2PE0AIN03 PE1 AIN02 PE2 AIN1 PE2 AIN01 PE3 AINO lt PE3 AINOO PB3 USBOCLK 817 PB3 USBOCLK PLO USBODO PLO USBODO PL1 USBOD1 PL1 USBOD1 PL2 USBOD2 PL2 USBOD2 PL3 USBOD3 PL3 USBOD3 ULPI USB PL4 USBOD4 PL4 TOCCPO USBOD4 PL5 USBOD5 EPIOS33 PL5 TOCCP1 USBOD5 EPIOS33 C23 10pF C26 12pF R33 3 3V 3 3V s NOTE To guarantee risetime requirements R34 10K P18 R39 10K xosco 118 XO T19 3 0_VREF NDX R18 WAKE Mosco 19 18 58 luF MU 0 01 uF NDX2 D18 3 3V G4 L10 L8 js 9 c33 C67 C63 C64 C22 C56 L12 0 1uF O 1uF O 1uF 11 3 3V K14 H9 o C29 C28 c52 C16 c39 c54 V18 V19 W18 W19 E13 C5 VDDC 4 129 MN cel m 2 2 uF C57 luF O luF 0 01 uF TEXAS INSTRUMENTS TIVA C SERIES MICROCONTROLLERS DESIGNER REVISION DATE SL 3 0 8 6 2013 PROJ ECT TM4C129X Development Kit 108 WILD BASIN ROAD SUITE 350 AUSTIN TX 78746 DESCRIPTION Schematic DK TM4C129X C SERIES FILENAME www ti com tiva c PART NO DK TM4C129X_3 0 sch DK TM4C129X NOTE Pull up resistors and decoupling cap should be located near U1 SPEED AMBER 0 1 3 3V 3 3V PK4 ENORXD3 LEDO ACTIVITY GREEN PK6 ENOTXD2 LED1 PF1 LED2 CON HDR 2X3 0100 C65 C62 LINK RED 0 1uF
25. T Rai R37 0 1uF 3 3V U1 C 49 9 49 9 49 9 49 9 ENOTxop V15_ ENOTX RIA X _R TX ENOTXON 14 H RS 1 ENORXIP TERM1B 45 6 TERM2A HX1188NL SLVU2 8 4 rme CHASIS ENORXIN R64 RJ45_NOMAG_NOLED R17 W15 mE u TM4C129X 0 1uF 0 1uF 2S 4 87 aem 1 R44 C90 C38 1000pF 4700 pF i NOTE C40 and C66 must be located near pin 2 and 7 of T1 C30 3300pF CON USB MICROAB REV VB D D ID HOST BUS16 8 45V 45V 3 3V MAIN MII RMII ULPI USB 127 C34 0 1uF 3 3V MAIN 3 as se mynna 1 4 7UF 6 3V 0 1uF 0 1uF PG2 ENOTXCK PA6 ENORXCK EPI 0508 PL1 USBOD1 7 PM3 EPI0S12 PLO USBODO 9 2 0513 USBODP O PM4 ENORREF_CLK PL2 USBOD2 1 0514 m PPO ENOINTRN PL3 USBOD3 0515 USBODMA PO5 ENORXDO PG3 ENOTXEN PL4 TOCCPO USBOD4 PN4 EPI0S34 1 552 USBOID PQ6 ENORXD1 PG6 ENORXER PL5 TOCCP1 USBOD5 EPI0S33 7 0509 MOH USBOVBUS 5 2 0531 0500 PP5 USBOD6 19 6 0505 fero E USBOEPEN PK4 ENORXD3 LEDO 1 0501 PP4 USBOD7 5 10506 8 USBOPLET PG4 SSIXDAT1 2 0502 cis PP2 USBONXT 0507 iS PG5 SSI2XDATO 0503 EE PB2 USBOSTP 52051 PK6 ENOTXD2 LED1 7 0504 PP3 USBODIR WAKE PK7 ENOTXD3 PM7 T5CCP1 ENOCOL PG1 EPIOS10 PGO EPIOS11 3 3V_MAIN C81 HDR 2X16 0100
26. T5CCP1 ENOCOL PN2 1 1 TEXAS INSTRUMENTS TIVA C SERIES MICROCONTROLLERS 108 WILD BASIN ROAD SUITE 350 AUSTIN TX 78746 www ti com tiva c DK TM4C129X 3 3 V MAIN C76 5V ILED L2 IND NR4018T 3 3V 3 0_VREF F 6 GND F V OUT GND S OUT S EN V_IN REF3230 PF1 LED2 P 35 0 1uF 3POS HEADER 0 1uF 13 3 3V_MAIN 3 3V Current Measure R20 U7 L1 TPS62177DQC IND WE 7440 sa on Q 1 Ohm 1 J14 sme 5V 3 3V MAIN C4 2 2uF 50V C2 22uF 6 3V 100K TL6 TL2 TL3 ICDI_ VBUS 3POS HEADER CON DC PJ 002BH SMT 0 1UF DESIGNER REVISION DATE TIVA C SERIES MICROCONTROLLERS PROJECT TM4C129X Development Kit 108 WILD BASIN ROAD SUITE 350 AUSTIN TX 78746 DESCRIPTION Schematic DK TM4C129X C SERIES www ti com tiva c 3 3V_MAIN 3 3V_MAIN 3 3V_MAIN BUTTONS 10K CON HDR 2X3 0100 PN5 LED_R PQ4 LED_B PQ7 LED_G 3 3V_MAIN SWI RESET 4 Ep PSE SW2 010 SW3 5 R57 Q2 DTC114EET1G RGB_LED_0404_LUMEX DTC114EET1G Q3 DTC114EET1G 5V o PSE 3 3V MAIN D9 5 Q C85 luF 0 1uF 5V O 87 6 luF O 1uF 3 3V_MAIN ILED mmmm 3 3V_MAIN lt x lt gt x G 3 3V_MAIN DDATA00 17 LCDDATAO1 19 20 LCDD
27. Tiva TM4C129X Development Board User s Guide 4 TEXAS INSTRUMENTS Literature Number SPMU360 October 2013 TEXAS INSTRUMENTS Contents DK TM4C129X urnes 4 1 1 Kit ero DIDI D Ud OD Da DNA LIYD 5 1 2 Using the DKSTMACT29X sacs ennemie nan UYD Yn RYDER Ua torse des ee bre 5 1 3 usa ae de Deus ess sc Ce NER 5 1 4 eL TI RS 6 Hardware Description nine hen nnn 7 2 1 Functional Description nme heme nnn nnn nnn n nn e nn nnn 8 2 1 Microcontroller uu 8 aM 8 Nas iln I ME HN YN FYFYR ER FU O FF T R 8 2 1 4 Debugging and Programming 8 21 29 POWET EIE 9 2 1 6 USB Host D vice OTG 10 2 1 7 User Buttoriszand User LED uwd us a Dwn Hu er UYFR O mra nete 10 2 1 8 Headers uuu ua u sasa HUN EON LE uu 11 21 9 Speaker c
28. additional information on TI s environmental and or safety programs please visit www ti com esh or contact TI No license is granted under any patent right or other intellectual property right of TI covering or relating to any machine process or combination in which such products or services might be or are used TI currently deals with a variety of customers for products and therefore our arrangement with the user is not exclusive TI assumes no liability for applications assistance customer product design software performance or infringement of patents or services described herein REGULATORY COMPLIANCE INFORMATION As noted in the EVM User s Guide and or EVM itself this EVM and or accompanying hardware may or may not be subject to the Federal Communications Commission FCC and Industry Canada IC rules For EVMs not subject to the above rules this evaluation board kit module is intended for use for ENGINEERING DEVELOPMENT DEMONSTRATION OR EVALUATION PURPOSES ONLY and is not considered by TI to be a finished end product fit for general consumer use lt generates uses and can radiate radio freguency energy and has not been tested for compliance with the limits of computing devices pursuant to part 15 of FCC or ICES 003 rules which are designed to provide reasonable protection against radio frequency interference Operation of the eguipment may cause interference with radio communications in which case the user at his own expense will
29. any combination machine or process in which TI components or services are used Information published by TI regarding third party products or services does not constitute a license to use such products or services or a warranty or endorsement thereof Use of such information may require a license from a third party under the patents or other intellectual property of the third party or a license from TI under the patents or other intellectual property of TI Reproduction of significant portions of TI information in data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties conditions limitations and notices is not responsible or liable for such altered documentation Information of third parties may be subject to additional restrictions Resale of TI components or services with statements different from or beyond the parameters stated by TI for that component or service voids all express and any implied warranties for the associated TI component or service and is an unfair and deceptive business practice Tl is not responsible or liable for any such statements Buyer acknowledges and agrees that it is solely responsible for compliance with all legal regulatory and safety related requirements concerning its products and any use of TI components in its applications notwithstanding any applications related information or support that may be provided by TI Buyer represen
30. asures Reorient or relocate the receiving antenna Increase the separation between the equipment and receiver Connect the equipment into an outlet on a circuit different from that to which the receiver is connected Consult the dealer or an experienced radio TV technician for help For EVMs annotated as IC INDUSTRY CANADA Compliant This Class A or B digital apparatus complies with Canadian ICES 003 Changes or modifications not expressly approved by the party responsible for compliance could void the user s authority to operate the equipment Concerning EVMs including radio transmitters This device complies with Industry Canada licence exempt RSS standard s Operation is subject to the following two conditions 1 this device may not cause interference and 2 this device must accept any interference including interference that may cause undesired operation of the device Concerning EVMs including detachable antennas Under Industry Canada regulations this radio transmitter may only operate using an antenna of a type and maximum or lesser gain approved for the transmitter by Industry Canada To reduce potential radio interference to other users the antenna type and its gain should be so chosen that the equivalent isotropically radiated power e i r p is not more than that necessary for successful communication This radio transmitter has been approved by Industry Canada to operate with the antenna types listed in t
31. bility and Risk You acknowledge represent and agree that 1 You have unique knowledge concerning Federal State and local regulatory requirements including but not limited to Food and Drug Administration regulations if applicable which relate to your products and which relate to your use and or that of your employees affiliates contractors or designees of the EVM for evaluation testing and other purposes 2 You have full and exclusive responsibility to assure the safety and compliance of your products with all such laws and other applicable regulatory requirements and also to assure the safety of any activities to be conducted by you and or your employees affiliates contractors or designees using the EVM Further you are responsible to assure that any interfaces electronic and or mechanical between the EVM and any human body are designed with suitable isolation and means to safely limit accessible leakage currents to minimize the risk of electrical shock hazard 3 Since the EVM is not a completed product it may not meet all applicable regulatory and safety compliance standards such as UL CSA VDE CE RoHS and WEEE which may normally be associated with similar items You assume full responsibility to determine and or assure compliance with any such standards and related certifications as may be applicable You will employ reasonable safeguards to ensure that your use of the EVM will not result in any property damage injury or death
32. ck Copyright O 2013 Texas Instruments Incorporated Bill of Materials BOM 25 TEXAS INSTRUMENTS Appendix B www ti com Item Ref Qty Description Mfg Part Number IC Digital Temperature Sensor 78 U4 1 55C to 125C 4 3C SOT23 6 Texas Instruments TMP100NA Load Switch 5 5V SOT23 5 79 U5 1 TPS2051BDBV Texas Instruments TPS2051BDBVT 80 U6 1 Op MONO Texas Instruments LM4819MM 81 U7 1 Regulator P aa Texas Instruments TPS62177DGC 82 U8 1 Precision 3 0V reference MSOP Texas Instruments REF3230AIDBVT White LED Driver IC 30V 1 5A 83 U9 1 SOT23 5 Texas Instruments TPS61042DRBR 84 Y1 j Crystal NX5032GA 16 000000MHZ 85 NDK NX5032GA 25 000000MHZ 86 Y3 1 Crystal 32 768KHz Radial Can Ee CMR200T 32 768KDZY UT BOARD Snowflake er 22 1 Development Kit Rev 2 0 PCB Do Not Populate List Shown for information only Capacitor 0 1uF 16V 10 88 C48 1 0402 X7R Taiyo Yuden EMK105B7104KV F Resistor 10K OHM 1 10W 5 89 R25 R30 2 0603 SMD Panasonic ERJ 3GEYJ103V Resistor No Value 1 10W 5 90 R4 R9 R15 R16 4 0603 SMD Anyone R0603 OMIT Final Assembly Bill Of Materials Rubber Feet Adhesive Round 91 6 0 312 x 0 200 3M SJ 61A1 92 3M 969102 0000 DA pen LCD Module 320 x 240 3 5 93 1 4 wire touch White LED nana ver VHB Double Sided Foam Tape 94 4 0 012 x0 5 x1 0 3M 1 2 5 4926 26 Bi
33. controls three LED that indicate Link Activity and Speed The pins used for the Ethernet LEDs can be used for other functions but the shunts on jumper J33 must be removed to enable alternative uses Refer to the following table for pins Pin Function LED Color Jumper PK4 ENOLEDO Link RED J33 Pins 1 and 2 PK6 ENOLED1 Activity GREEN J33 Pins 3 and 4 PF1 ENOLED2 Speed AMBER J33 Pins 5 and 6 RBIAS RBIAS Note controlling the Speed LED can used to control the backlight for the LCD refer to the LCD section for information 2 1 14 Hibernation The DK TM4C129X provides a 32 768 kHz crystal Y3 as a clock source for the TM4C129X Hibernation module The board supports hibernation in VDD3ON mode To measure the current draw during this mode see Section 2 1 5 The sleep mode of the 3 3V regulator can be used by moving the 2 2 resistor from R2 to R16 which enables the low power mode of the switcher U7 when TM4C129XNCZAD U1 goes into hibernation SPMUS60 October 2013 Hardware Description 17 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated 3 1 3 2 3 3 3 4 j Chapter 3 TEXAS INSTRUMENTS SPMUS60 October 2013 Software Development This chapter provides general in
34. d and its subsidiaries Tl reserve the right to make corrections enhancements improvements and other changes to its semiconductor products and services per JESD46 latest issue and to discontinue any product or service per JESD48 latest issue Buyers should obtain the latest relevant information before placing orders and should verify that such information is current and complete All semiconductor products also referred to herein as components are sold subject to TI s terms and conditions of sale supplied at the time of order acknowledgment TI warrants performance of its components to the specifications applicable at the time of sale in accordance with the warranty in 5 terms and conditions of sale of semiconductor products Testing and other quality control techniques are used to the extent TI deems necessary to support this warranty Except where mandated by applicable law testing of all parameters of each component is not necessarily performed Tl assumes no liability for applications assistance or the design of Buyers products Buyers are responsible for their products and applications using TI components To minimize the risks associated with Buyers products and applications Buyers should provide adequate design and operating safeguards TI does not warrant or represent that any license either express or implied is granted under any patent right copyright mask work right or other intellectual property right relating to
35. d inaudible frequencies which the low pass filter removes the high frequencies from the PWM pulses The amplifier is turned off by default when PD4 is high the amplifier turns on and when PD4 is low the amplifier turns off 2 1 10 EEPROM and SD Card Included on the development kit is a Macronix MX66L51235F 512 Mb EEPROM U2 and a microSD card slot J5 CAUTION Do not hot plug the SD card turn off power before adding or removing SD card To communicate with these memory devices use SSI port 3 The EEPROM can use QUAD SSI or standard SSI while the SD card uses standard SSI Port Function Jumper J7 pins to shunt PO1 EEPROM Chip select 1and 2 SSI 3 Clock used by EEPROM and SD card 3 and 4 PQ2 SSI 3 Data 0 EEPROM or Data out SD Card 6 PFO SSI 3 Data 1 EEPROM or Data in SD Card 7 and 8 PF4 SSI 3 Data 2 9 and 10 PF5 SSI 3 Data 4 11 and 12 PH4 SD card Chip Select 13 and 14 14 Hardware Description SPMUS60 October 2013 Submit Documentation Feedback Copyright O 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS www ti com Functional Description 2 1 11 Temperature Sensor The ambient temperature is measured by the Texas Instruments TMP100 temperature sensor U4 which is connected to the TM4C129X by 2 2 module 6 is used to interface with the temperature sensor which has a maximum resolution of 12 bits The TMP100 is accurate t
36. d or debug all examples Instructions on installing and using each of the evaluation tools can be found in the Quickstart guides for example in the Keil Quickstart or IAR Quickstart in the References section of this document For detailed information on using the tools see the documentation included in the tool chain installation or visit the website of the tools supplier Programming the DK TM4C129X Board The DK TM4C129X software package includes pre built binaries for each of the example applications If you installed the TivaWare software to the default installation path of TivaWare you can find the example applications in C ti TivaWare_C_Series x x examples boards dk tm4c129x The on board ICDI is used with the LM Flash Programmer tool to program applications on the DK TM4C 129X board Follow these steps to program example applications into the DK TM4C129X development board using the ICDI Software Development SPMUS60 October 2013 Submit Documentation Feedback Copyright O 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS www ti com 1 m 9 Programming the DK TM4C129X Board Install the Stellaris ICDI drivers on a Windows PC Refer to the README First and the Stellaris Driver Installation Guide Install LM Flash Programmer on the PC Connect the USB A cable plug to an available port on the PC and the Mini B plug to the board Verify that the power LEDs D9 D1
37. even if the EVM should fail to perform as described or expected 4 You will take care of proper disposal and recycling of the EVM s electronic components and packing materials Certain Instructions It is important to operate this EVM within recommended specifications and environmental considerations per the user guidelines Exceeding the specified EVM ratings including but not limited to input and output voltage current power and environmental ranges may cause property damage personal injury or death If there are questions concerning these ratings please contact a TI field representative prior to connecting interface electronics including input power and intended loads Any loads applied outside of the specified output range may result in unintended and or inaccurate operation and or possible permanent damage to the EVM and or interface electronics Please consult the EVM User s Guide prior to connecting any load to the EVM output If there is uncertainty as to the load specification please contact a TI field representative During normal operation some circuit components may have case temperatures greater than 60 C as long as the input and output are maintained at a normal ambient operating temperature These components include but are not limited to linear regulators switching transistors pass transistors and current sense resistors which can be identified using the EVM schematic located in the EVM User s Guide When placing measurement p
38. formation on software development as well as instructions for flash memory programming Software Description The software provided with the DK TM4C129X provides access to all of the peripheral devices supplied in the design The TivaWare for C Series Peripheral Driver Library is used to operate the on chip peripherals The software includes a set of example applications that use the TivaWare Peripheral Driver Library These applications demonstrate the capabilities of the TM4C129XNCZAD microcontroller as well as provide a starting point for the development of the applications for use on the DK TM4C129X development board Source Code The complete source code is provided on the DK TM4C129X USB flash drive See the README First document for a detailed description of hardware setup and how to install the source code The source code and binary files are installed in the TivaWare software tree Tool Options Le source code installation includes directories containing projects and makefiles for the following tool chains Keil ARM RealView Microcontroller Development System IAR Embedded Workbench for ARM Sourcery Codebench Generic GNU C Compiler Texas Instruments Code Composer Studio IDE Download evaluation versions of these tools from the Tools amp Software section of www ti com tiva Due to code size restrictions the evaluation tools may not build all example programs A full license is necessary to re buil
39. he user guide with the maximum permissible gain and required antenna impedance for each antenna type indicated Antenna types not included in this list having a gain greater than the maximum gain indicated for that type are strictly prohibited for use with this device Cet appareil num rique de la classe A ou B est conforme la norme NMB 003 du Canada Les changements ou les modifications pas express ment approuv s par la partie responsable de la conformit ont pu vider l autorit de l utilisateur pour actionner l quipement Concernant les EVMs avec appareils radio Le pr sent appareil est conforme aux CNR d Industrie Canada applicables aux appareils radio exempts de licence L exploitation est autoris e aux deux conditions suivantes 1 l appareil ne doit pas produire de brouillage et 2 l utilisateur de l appareil doit accepter tout brouillage radio lectrique subi m me si le brouillage est susceptible d en compromettre le fonctionnement Concernant les EVMs avec antennes d tachables Conform ment la r glementation d Industrie Canada le pr sent metteur radio peut fonctionner avec une antenne d un type et d un gain maximal ou inf rieur approuv pour l metteur par Industrie Canada Dans le but de r duire les risques de brouillage radio lectrique l intention des autres utilisateurs il faut choisir le type d antenne et son gain de sorte que la puissance isotrope rayonn e quivalente p i r e ne d passe pas l
40. ing the included USB micro B to USB A plug cable from the microUSB B connector J4 located in the upper right of the board to a USB port on your computer The on board ICDI can also be used to debug external boards using the ARM standard 20 pin connector J1 and pulling all the shunts from J3 External debugger an external debugger can be used through the ARM standard 20 pin connector J1 8 Hardware Description SPMUS60 October 2013 Submit Documentation Feedback Copyright O 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS Table 2 1 JTAG Pin Table JTAG J1 Pin GPIO Pin U1 Pin Functions Jumper J3 Pins 4 PCO TCK 5 6 2 PC1 TMS 3 4 8 PC2 TDI 9 10 6 PC3 TDO 7 8 16 PAO UORX 13 14 14 PA1 UOTX 15 16 10 RESET 11 12 18 TRST N A 1 3 3V with shunt 1 2 3 11 15 17 19 GND NA 9 T_DISCONNECT 19 20 5 EXTDBG with shunt 17 18 12 20 Reserved EXTDBG is a signal that gets pulled low when attached to an external debugger When pulled low the JTAG outputs of the ICDI controller are Z stated T_DISCONNECT is a signal used to tell the ICDI when a device is connected to it J2 is a reserved jumper that may add functionality later Leave unpopulated Note The 20 pin connector J1 is the ARM standard JTAG with ETM functionality connector While the TM4C129X devices support ETM functionality this board does not have the necessary circuitry 2 1 5 Po
41. intensit n cessaire l tablissement d une communication satisfaisante Le pr sent metteur radio a t approuv par Industrie Canada pour fonctionner avec les types d antenne num r s dans le manuel d usage et ayant un gain admissible maximal et l imp dance requise pour chaque type d antenne Les types d antenne non inclus dans cette liste ou dont le gain est sup rieur au gain maximal indiqu sont strictement interdits pour l exploitation de l metteur Important Notice for Users of EVMs for RF Products in Japan This development kit is NOT certified as Confirming to Technical Regulations of Radio Law of Japan If you use this product in Japan you are required by Radio Law of Japan to follow the instructions below with respect to this product 1 Use this product in a shielded room or any other test facility as defined in the notification 173 issued by Ministry of Internal Affairs and Communications on March 28 2006 based on Sub section 1 1 of Article 6 of the Ministry s Rule for Enforcement of Radio Law of Japan 2 Use this product only after you obtained the license of Test Radio Station as provided in Radio Law of Japan with respect to this product or 3 Use of this product only after you obtained the Technical Regulations Conformity Certification as provided in Radio Law of Japan with respect to this product Also please do not transfer this product unless you give the same notice above to the transferee Please note
42. lexer allows different peripheral functions to be assigned to each of these GPIO pads When adding external circuitry consideration should be given to the additional load on the development board s power rails The Tiva PinMux Utility can be used to quickly develop pin assignments and the code required to configure them The TM4C129XNCZAD microcontroller is factory programmed with a quickstart weather display program The quickstart program resides in on chip flash memory and runs each time power is applied unless the application has been replaced with a user program 2 1 2 Clocking The DK TM4C129X uses a 25 0 MHz crystal Y2 to complete the TM4C129XNCZAD microcontroller s main internal clock circuit An internal PLL configured in software can be used to multiply this clock to higher frequencies for core and peripheral timing The Hibernation module is clocked off of an external 32 768 kHz crystal Y3 2 1 3 Reset The RST signal into the TM4C129XNCZAD microcontroller connects to the RESET switch and to the ICDI circuit for a debugger controlled reset External reset is asserted active low under any one of these conditions Power on reset RESET switch held down By the ICDI circuit when instructed by the debugger this capability is optional and may not be supported by all debuggers 2 1 4 Debugging and Programming ICDI The DK TM4C129X has a built in debugger which be used by connection to a computer us
43. ll of Materials BOM SPMUS60 October 2013 Copyright O 2013 Texas Instruments Incorporated Submit Documentation Feedback H Appendix C I MENTIS SPMU360 October 2013 References In addition to this document the following references are included on the Tiva TM4C123GH6PGE Development Kit USB flash drive and are also available for download at www ti com TivaWare Driver Library TivaWare Driver Library User s Guide SPMU298 README First SPMU359 Getting Started Guide SPMU361 e Quick Start Guides Tiva C Series Development and Evaluation Kits for Code Composer Studio SPMU352 Tiva C Series Development and Evaluation Kits for Keil RealView amp MDK SPMU355 Tiva C Series Development and Evaluation Kits for Embedded Workbench SPMU354 Tiva C Series Development and Evaluation Kits for Sourcery CodeBench Development Tools SPMUS56 Stellaris Driver Installation Guide SPMU287 Information on development tool being used RealView MDK website at www keil com arm rvmdkkit asp AR Embedded Workbench website at www iar com Sourcery CodeBench development tools website at www codesourcery com gnu toolchains arm Texas Instruments Code Composer Studio IDE website at www ti com ccs SPMUS60 October 2013 References 27 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS Appendix D SPMUS60 Oct
44. o 2 C within the range of 25 to 85 C The initial value of the 2 slave address is 001001010 or 0x4A code required to configure them If the default address conflicts with another device you have added to the I2C bus the address can be changed by populating or unpopulating resistors R29 R30 R24 and or R25 Refer to the Serial Bus Address section of the TMP100 datasheet for the various address settings There are 2 2 pull up resistors on the SDA and SCL lines as required by the I2C specification Refer to the following table for connections to I2C temperature sensor Port Function Jumper to shunt PB6 12C6 SCL J18 PB7 12C6 SDA J20 2 1 12 LCD The DK TM4C129X is equipped with a Kentec K350QVG V2 F 320x240 RGB resistive touch screen that is controlled by the LCD Controller of the TM4C129X MCU using the LCD Interface Display Driver LIDD in 8 bit mode The backlight of the LCD is driven by a TI TPS61042 constant current supply U9 The control line of U9 has multiple settings that are set by moving the shunt on J35 Shunt Across Effect Pins 1 and 2 default Always on Backlight control is handled by PF1 This pin is also used as an Ethernet LED remove the shunt on pin 5 and 6 for jumper J33 Pins 2 and 3 None Always off CAUTION If the LCD is disconnected remove the shunt otherwise the U9 current supply will get very hot and may be damaged The
45. ober 2013 Schematics This section contains the schematics for the DK TM4C129X board Microcontroller crystals and decoupling capacitors page 1 Ethernet USB and MII RMII ULPI and EPI headers page 2 SD card solt SPI flash temperature sensor and speaker with amplifier page 3 BoosterPack headers and EM connectors page 4 LCD backlight driver VREF regulator 3 3V and 5V voltage sources page 5 LCD headers LCD connector Power LEDs user LEDs and user buttons page 6 Debug headers debug jumpers and ICDI microcontroler page 7 28 Schematics SPMUS60 October 2013 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated DEBUG_RX V3 8 ws PQ1 SSI3SS E2 PQO SSI3CLK E3 FLASH BUS PO2 SSI3XDATO H4 PFO SSI3DAT1 U6 PF4 SSI3DAT2 V7 PF5 SSI3DAT3 W7 BUTTONS SEL D7 UP B10 DOWN B5 A4 Speaker PD4 T3CCPO B4 PJO U3RX cs PJ 1 U3TX TG PA2 SSIOCLK 05 PA3 SSIOFSS VA PA4 SSIOXDATO SCL Booster Pack 2 PA5 SSIOXDAT1 SDA PB4 B6 PB5 PSE 570 2 w PoS 2 PS PER PDO AIN15 S T PD1 TOCCPO PEAS PJ4 U3RTS 7 PJ5 U3CTS lt gt F2 PB6 12C6SCL gt 7 12 65 lt ___ gt PC5 EPIOSO6 32K 0 00 lt 4 lt gt lt 1 0501 0 04 2 0502 S Ti PH3 EPI0S03 T PC7 EPI0S04 PC6 EPIOSO5 lt ML sma 2 J23 0507 a PA6 ENO
46. on DK Function 1 5V N A 1 Timer Output PM5 2 GND 2 Timer Output PD3 T1CCP1 3 Analog IN PE3 AINOO 3 Timer Output PS3 4 Analog IN PE6 AIN20 4 Timer Output PL5 TOCCP1 5 Analog IN PKO AIN16 5 Timer Output PL4 TOCCPO 6 Analog IN PK1 AIN17 6 Timer Output PSO T2CCPO 7 Analog IN PK2 AIN18 7 Timer Output PS1 T2CCP1 8 Analog IN PK3 AIN19 8 Timer Output PQ3 T7CCP1 9 Analog IN PEO AINO3 9 Timer Output NC 10 Analog IN PE1 AINO2 10 Timer Output PM7 T5CCP1 SPMUS60 October 2013 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated Hardware Description 11 Functional Description 2 1 8 2 BoosterPack 2 Figure 2 3 is a standard 20 pin BoosterPack defined in the BoosterPack Design Guide The port name functionality and voltage rail are printed on the silk screen near the pin For the BoosterPack 2 UART port the following jumpers must be set J10 and J12 must have the shunts moved to pins 2 and 3 this is the side that says BOOSTER2 UART For SPI set jumpers J17 and J16 to pin 1 and 2 respectively for 2 set jumpers 16 and 17 to pins 2 and 3 12 TEXAS INSTRUMENTS www ti com A B Ay o 0 10 5 0 90 e e 1 80 Figure 2 3 Booster Pack 2 J6 J9 Booster CON A Booster Function TM4C129X DK Function CONB Function TM4C129X DK Function 1 3 3V N A GND 1 GND N
47. r E Sean TDK C2012X5R0J226M 1 25 Capacitor 0 47uF 10V 1096 7 C20 1 5 TDK C1608X5R1A474K 8 C21 1 Capacitor 10 1608 5 1 105 Capacitor 750pF 50V 10 9 C24 1 0603 X7R Samsung CL10B751KB8NNNC 10 C26 C27 2 Capacitor k 3280402 Murata GRM1555C1H120JZ01D C3 C6 C22 C45 C46 C56 Capacitor 0 1uF 16V 10 11 dos 7 SOR Taiyo Yuden EMK105B7104KV F Capacitor 4700pF 2kV 1095 12 C38 1 JUR ete AVX 1812GC472KAT1A 13 C4 1 Capacitor ur ud C2012X5R1H225K 14 C43 1 Capacitor 010 mam TDK C1608X5R1A475K 0 50 C5 C11 C18 C41 C57 C59 15 C69 C76 C77 C78 C79 14 Capacitor X5R 10V TDK C1005X5R1A105M050BB 0402 C85 C87 C7 C47 C49 C58 C61 C63 Capacitor 0 01uF 25V 10 16 be 7 Un Taiyo Yuden TMK105B7103KV F Capacitor 10pF 50V 596 17 C8 C10 C23 C25 4 Murata GRM1555C1H100JZ01D 18 C9 C15 C44 C51 go TUE 50V 10 GRM188R71H104KA93D 0603 X7R Capacitor 1000pF 2kV 2096 19 C90 1 aa Kemet C1210C102MGRACTU 20 D1 D2 D10 D15 Lite On LTST C171GKT Diode Schottky 40V 200mA 21 D11 1 rales Fairchild FYV0704SMTF LED Tri Color RGB 0404 SMD 22 D12 1 Lumex SML LX0404SIUPGUSB SPMUS60 October 2013 Submit Documentation Feedback Copyright O 2013 Texas Instruments Incorporated Bill of Materials BOM 23 TEXAS
48. resistive touch screen works by reading one axis at a time For example to read the X axis set PE7 to high PT2 to ground and tri state PT3 Then read the analog value of PP7 The higher the voltage the farther left the user is on the touch screen To read the Y axis set PT3 to high PP7 to ground and tri state PT2 Then read the analog value of PE7 The higher the voltage the higher the user is on the touch screen Refer to Figure 2 5 SPMUS60 October 2013 Hardware Description 15 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated TEXAS INSTRUMENTS Functional Description www ti com PT3 YD PT2 XL pe lines PE7 XR PP7 YU Figure 2 5 Resistive Touch Screen Note The analog input PE7 AIN21 is under commit control and extra steps are required in software to enable the function of the pin to be changed see the Commit Control section of the datasheet for more information and the software steps required to enable proper operation of the touch screen J34 enables the use of another display or other uses of the LCD pins There are mounting holes under the LCD to facilitate the use and mounting of other displays refer to Figure 2 6 for dimensions If the default LCD is used the default shunts must be in place shown in Figure A 3 0 50 4 0 15x4 2 20
49. robes near these devices during normal operation please be aware that these devices may be very warm to the touch As with all electronic evaluation tools only qualified personnel knowledgeable in electronic measurement and diagnostics normally found in development environments should use these EVMs Agreement to Defend Indemnify and Hold Harmless You agree to defend indemnify and hold TI its licensors and their representatives harmless from and against any and all claims damages losses expenses costs and liabilities collectively Claims arising out of or in connection with any use of the EVM that is not in accordance with the terms of the agreement This obligation shall apply whether Claims arise under law of tort or contract or any other legal theory and even if the EVM fails to perform as described or expected Safety Critical or Life Critical Applications you intend to evaluate the components for possible use in safety critical applications such as life support where a failure of the TI product would reasonably be expected to cause severe personal injury or death such as devices which are classified as FDA Class III or similar classification then you must specifically notify TI of such intent and enter into a separate Assurance and Indemnity Agreement Mailing Address Texas Instruments Post Office Box 655303 Dallas Texas 75265 Copyright 2013 Texas Instruments Incorporated IMPORTANT NOTICE Texas Instruments Incorporate
50. tional Description 2 1 6 USB Host Device OTG The DK TM4C129X includes a USB Micro AB OTG connector J24 to allow for USB Host Device and OTG operation Table 2 2 shows the signals that are used for USB OTG TEXAS INSTRUMENTS www ti com Table 2 2 USB Host Device OTG Signals GPIO Pin Pin Function USB OTG PL6 USBODP D PL7 USBODM D PBO USBOID ID PB1 USBOVBUS USB VBUS Load Switch PG4 USBOEPEN USB VBUS Power Enable EN PG5 USBOPFLT Power Fault OC In USB Host mode the development board can provide power to the OTG connector The USBOEPEN signal controls the enable EN of a Texas Instruments TPS20511B Load Switch U5 which enables power to the connector s VBUS pin In Device mode the development board can be powered from either the ICDI or the 5 V power supply In OTG mode the USB controller is configured as Host or Device depending on the USBOID signal and the board is powered appropriately 2 1 7 User Buttons and User LED Three push buttons on the board provide navigation and selection for some of the example applications These buttons can be used for other purposes in the user s custom applications 10 The development board also has a tri color user LED Table 2 3 shows how these features are connected to the pins on the microcontroller Table 2 3 User Buttons and LED Pins Pin Pin Function Jumper PP1 Select SW4 J37 pins 1 and 2
51. ts and agrees that it has all the necessary expertise to create and implement safeguards which anticipate dangerous consequences of failures monitor failures and their consequences lessen the likelihood of failures that might cause harm and take appropriate remedial actions Buyer will fully indemnify TI and its representatives against any damages arising out of the use of any TI components in safety critical applications In some cases TI components may be promoted specifically to facilitate safety related applications With such components TI s goal is to help enable customers to design and create their own end product solutions that meet applicable functional safety standards and requirements Nonetheless such components are subject to these terms No TI components are authorized for use in FDA Class lll or similar life critical medical equipment unless authorized officers of the parties have executed a special agreement specifically governing such use Only those TI components which TI has specifically designated as military grade or enhanced plastic are designed and intended for use in military aerospace applications or environments Buyer acknowledges and agrees that any military or aerospace use of TI components which have not been so designated is solely at the Buyer s risk and that Buyer is solely responsible for compliance with all legal and regulatory requirements in connection with such use TI has specifically designated certain
52. uipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense FCC Interference Statement for Class B EVM devices This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following me
53. ur preferred ARM tool chain and the Tiva Peripheral Driver Library to develop an application Software applications are loaded using the on board In Circuit Debug Interface ICDI See Chapter 3 Software Development for the programming procedure The TivaWare Peripheral Driver Library User s Guide contains specific information on software structure and function Customize and integrate the hardware to suit an end application This user s manual is an important reference for understanding circuit operation and completing hardware modification 1 3 Features The DK TM4C129X development kit includes the following features Tiva TM4C129X Microcontroller 32 bit ARM Cortex M4F core QVGA color display with resistive touch screen 10BASE T 100BASE TX controller with internal PHY USB Micro AB connector for Host Device OTG microSD card slot 3 navigation buttons User tricolor LED Precision 3 0V reference Quad SSI to 512 Mbit flash BoosterPack XL connector for expansion BoosterPack connector for expansion EM connector for wireless applications Available I O brought out to headers on 0 1 grid USB external PHY for high speed USB 2 0 SPMU360 October 2013 DK TM4C129X Overview 5 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated INSTRUMENTS Specifications www ti com and MII external Ethernet PHY EPI Host bus 16 8 Debug Tiva In Circuit Debug Interface ICDI
54. vity 1 406541 5 Header 2x3 0 100 T Hole 40 J33 J36 J37 3 Vertical Unshrouded 0 230 FCI 67996 206HLF Mate gold Header 2x20 0 100 T Hole 41 J34 1 Vertical Unshrouded 0 230 FCI 67997 240HLF Mate gold Connector FPC 60P r a 42 J39 1 0 5mm pitch SMT FCI 10085901 6015ELF 43 1 Connector rcpt micro usb Hirose ZX62 B 5PA SMB Connector Micro SD card 44 J5 1 push push SMT 3M 2908 05WB MG Header 1x10 T Hole Vertical LAN EE 45 J6 J9 2 unshrouded stacking Samtec ZW 10 15 F S 265 090 Header 2x7 0 100 T Hole 46 J7 1 Vertical Unshrouded 0 230 FCI 67997 114HLF Mate Speaker 8 Ohm 15mm diam 47 K1 1 0 5W 87dB SM CUI Inc CVS 1508 Inductor 10uH SMD 48 L1 1 2 8x2 8mm 0 5A 0 47 Ohm Wurth 744029100 24 Bill of Materials BOM Copyright 2013 Texas Instruments Incorporated SPMUS60 October 2013 Submit Documentation Feedback TEXAS INSTRUMENTS www ti com Appendix B Item Ref Qty Description Mfg Part Number Inductor 6 8uH SMD 49 L2 LOO TaVo Yuden NR4018T6R8M 50 O1 02 03 04 4 NPN SC70 pre biased Diodes Inc DTC114EETIG 51 R1 Panasonic ERJ 3GEYJ104V 52 R14 ea L Panasonic ERJ 3GEYJ102V 53 R18 ERJ 2GEJ562X 54 R19 R36 Resistor 10W5 Panasonic ERJ 3GEYJ105V 55 R2 R23 R28 3 Resistor 1 IAE Vishay CRCWO6032K20J
55. wer The board is designed to be powered from one of two sources they are selected by populating J11 jumper differently The settings are as follows Setting the shunt between pins 1 and 2 selects the barrel connector J15 as the main 5 V source Setting the shunt between pins 2 and 3 selects the ICDI USB J4 as the power source J15 is a 6 5 mm diameter center power barrel connector An example of a functional power supply is CU EMSA05300 P6P Power Jumper J11 Options Shunt on pin 1 and 2 Shunt on pin 2 and 3 Powered by J15 Powered by J4 The current and power consumption of the TM4C129X can be calculated by removing the shunt on J14 and measuring the voltage over the two pins which are connected by a 1 Q series resistor between the pins To calculate the current and power use the following formulas 129 110 Via 10 TPS62177DQC 07 switching power regulator has many functions that are configured by omitting resistors and including feedback to change the voltage on the 3 3 V rail To learn more about these features refer to the TPS62177DQC data sheet To power the external 3 3 V power supply without using the onboard voltage regulator U7 remove the shunt from J8 and connect 3 3 V directly to pin 1 of J8 N SPMUS60 October 2013 Hardware Description 9 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated Func
56. y R xiv PMB mon m PF2 us 8 CONNECTOR C35 BOOSTER PACK 1 DS 2 ACTIV mi pe re MR dedd lm INSTRUMENTS seco ia i 04 ed TivaCSeries P E ARM MCU QVGA LCD _aol TOUCH_ANO ON J35 CEE LAC LCDAC Loo Leooataoo Lot LCDDATAO1 LD2 LCDDATA02 LCDDATAOS 4 LCDDATAO4 LDS LCDDATAOS LCDDATAOS LD7 LCODATAO7 LFP Lence LLP Loner Figure A 3 Jumper and Shunt Locations 22 Component Locations SPMUS60 October 2013 Submit Documentation Feedback Copyright 2013 Texas Instruments Incorporated Appendix B MENTIS SPMUS60 October 2013 Bill of Materials BOM Item Ref Qty Description Mfg Part Number Capacitor 3300pF 50V 10 1 C1 C30 2 on ieee TDK C1608X7R1H332K Capacitor 2 2uF 16V 10 2 C12 C55 2 age Murata GRM188R61C225KE15D C13 C16 C28 C29 C31 C32 C33 C34 C35 C36 C37 C39 C40 C42 C50 C52 C53 C54 Capacitor 0 1uF 50V 20 3 C62 C65 C66 C67 C68 C70 34 0603 X7R TOR C1608 7R1H104M C71 C72 C73 C74 C75 C81 C82 C83 C84 C86 Capacitor 047uF 16V 10 4 C14 1 te AVX 0805YC473KAT2A Capacitor 4 7uF 6 3V 10 5 17 19 2 p 0805 X5R JMK212BJ475KG T 6 C2 1 Capacito
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