MSP432 Hardware Tools User's Guide Literature Number: SLAU571 March 2015 Contents Preface ........................................................................................................................................ 4 1 Hardware 1.1 1.2 1.3 2 ............................................................................................................................ 6 MSP-TS432PZ100 Rev1.0 ................................................................................................. 7 1.1.1 Board Configuration For External Target Power Supply ..................................................... 10 1.1.2 Board Configuration When Using ARM(R) Cortex(R)-M Debug Probes With Target Power Supply Capability .......................................................................................................... 11 1.1.3 Bill Of Materials .................................................................................................... 12 1.1.4 Kit Contents ........................................................................................................ 13 MSP-TS432PZ100 Rev1.1 ................................................................................................ 14 1.2.1 Board Configuration For External Target Power Supply ..................................................... 17 1.2.2 Board Configuration When Using ARM(R) Cortex(R)-M Debug Probes With Target Power Supply Capability .......................................................................................................... 18 1.2.3 Bill Of Materials .................................................................................................... 19 1.2.4 Kit Contents ........................................................................................................ 20 MSP-TS432PZ100 Revision History ..................................................................................... 20 Contents SLAU571 - March 2015 Submit Documentation Feedback Copyright (c) 2015, Texas Instruments Incorporated www.ti.com List of Figures 1-1. MSP-TS432PZ100 Target Socket Board, Schematic ................................................................... 8 1-2. MSP-TS432PZ100 Target Socket Board, PCB .......................................................................... 9 1-3. Board Configuration For External Target Power Supply .............................................................. 10 1-4. Board Configuration For Debugger-Supplied Target Power .......................................................... 11 1-5. MSP-TS432PZ100 Target Socket Board, Schematic ................................................................. 15 1-6. MSP-TS432PZ100 Target Socket Board, PCB 1-7. Board Configuration For External Target Power Supply .............................................................. 17 1-8. Board Configuration For Debugger-Supplied Target Power .......................................................... 18 ........................................................................ 16 List of Tables 1-1. Device and Hardware Tool Compatibility List ............................................................................ 6 1-2. Important Board Components .............................................................................................. 9 1-3. MSP-TS432PZ100 Bill Of Materials ..................................................................................... 12 1-4. Important Board Components ............................................................................................ 16 1-5. MSP-TS432PZ100 Bill Of Materials ..................................................................................... 19 SLAU571 - March 2015 Submit Documentation Feedback List of Figures Copyright (c) 2015, Texas Instruments Incorporated 3 Preface SLAU571 - March 2015 Read This First About This Manual This manual describes the hardware tools that support the Texas Instruments MSP432TM device family of ARM(R) Cortex(R)-M based microcontrollers. How to Use This Manual This manual describes the setup and operation of the hardware tools. It does not fully describe the MSP432 microcontrollers or the development software systems. For details of these items, see the appropriate TI documents listed in Important MSP432 Documents on the Web. This manual applies to the following hardware tool: * Stand-alone target socket board named MSP-TS432PZ100 Important MSP432 Documents on the Web The primary sources of MSP432 information are the device-specific data sheets and user's guides. The MSP432 web site (www.ti.com/msp432) contains the most recent versions of these documents. Documents that describe the Code Composer StudioTM tools (Code Composer StudioTM IDE, assembler, C compiler, linker, and librarian) can be found at www.ti.com/tool/ccstudio. A Wiki page (FAQ) that is specific to the Code Composer Studio tools is available at processors.wiki.ti.com/index.php/Category:CCS. The Texas Instruments E2ETM Community support forums at e2e.ti.com provide additional help. Documentation for third-party tools, such as the IAR Embedded Workbench(R) for ARM IDE or the Segger J-Link debug probe, can be found on the respective third-party website. If You Need Assistance Support for the MSP432 devices and the hardware development tools is provided by the Texas Instruments Product Information Center (PIC). Contact information for the PIC can be found on the TI web site at www.ti.com/support. The Texas Instruments E2E Community support forums for the MSP432 at e2e.ti.com provide open interaction with peer engineers, TI engineers, and other experts. Additional device-specific information can be found on the MSP432 web site at www.ti.com/msp432. MSP432, Code Composer Studio, E2E are trademarks of Texas Instruments. ARM, Cortex are registered trademarks of ARM Limited. IAR Embedded Workbench is a registered trademark of IAR Systems AB. 4 Read This First SLAU571 - March 2015 Submit Documentation Feedback Copyright (c) 2015, Texas Instruments Incorporated If You Need Assistance www.ti.com SLAU571 - March 2015 Submit Documentation Feedback Read This First Copyright (c) 2015, Texas Instruments Incorporated 5 Chapter 1 SLAU571 - March 2015 Hardware This chapter contains information relating to the hardware tools and includes schematics, PCB pictorials, and bills of materials. All other tools are described in separate product specific user's guides. Information about the Texas Instruments XDS100 and XDS200 debug probes is not included in this document, and can be found at www.ti.com/tool/xds100 and www.ti.com/tool/xds200, respectively. Table 1-1. Device and Hardware Tool Compatibility List Topic Socket Type Supported Devices MSP-TS432PZ100 100-pin QFP (PZ100) MSP432P401RIPZ ........................................................................................................................... 1.1 1.2 1.3 6 Part Number Page MSP-TS432PZ100 Rev1.0 ...................................................................................... 7 MSP-TS432PZ100 Rev1.1..................................................................................... 14 MSP-TS432PZ100 Revision History ...................................................................... 20 Hardware SLAU571 - March 2015 Submit Documentation Feedback Copyright (c) 2015, Texas Instruments Incorporated MSP-TS432PZ100 Rev1.0 www.ti.com 1.1 MSP-TS432PZ100 Rev1.0 The MSP-TS432PZ100 target socket board can be used to develop applications with the MSP432P401RPZ devices in 100-pin QFP package. Two standard ARM Cortex-M debug connectors provide connectivity to a large number of debug probes from Texas Instruments and third parties. All device pins are readily accessible through dedicated headers, which makes the board the ideal center of a prototype setup. SLAU571 - March 2015 Submit Documentation Feedback Hardware Copyright (c) 2015, Texas Instruments Incorporated 7 6 Vcc ext int J1 3 2 1 2 1 JP1 2 1 RSTN/NMI TDO 27R SWCLKTCK 27R SWDIOTMS 27R TDI DNP GND EVQ11 B R17 R18 R19 SW1 C5 1.1nF IC1 C TDO TDI SWDIOTMS SWCLKTCK RSTN/NMI TDO 27R JP8 R23 C15 1uF D VUSB GND 1 3 EN IN OUT 5 IC2 TLV70033DDC GND C16 1uF E GND DCOR INTVCC JP12 INTVCC HFXIN HFXOUT RSTN/NMI DNP DNP DNP DNP F DNP 10 27R 8 6 27R 4 27R 2 JB 9 7 5 3 1 J5 G VCC DVSS DVCC AVSS HFGND connection by via GND FTSH-105-01-F-D-K DNP C9 DNP C8 DVCC DVSS 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 C1 Q1 LFGND DNP QUARZ5 connection by via DNP C2 G DNP R10 9 7 5 3 1 VCC DNP R11 BSL.9 C6 GND BSLRX BSLTX C7 10 8 6 4 2 BSL DNP 1uF/10V 100nF 0R R15 JP3 GND I VCC J2 Ext_PWR BSLTX BSLRX JP3.2 BSL.9 JP5.1 I Seite 1/1 BSL.10 JP5.2 Rev.: 1.0 Bearb.: Dok: JP3.1 RSTN/NMI BSL.10 DNP DNP 0R R7 H P1.3 P3.7 P1.7 P1.2 P3.6 P1.6 P1.5 JP5 H P1.4 File: MSP-TS432PZ100 Datum:3/13/2014 8:35:07 AM Titel: MSP-TS432PZ100 AVSS FE25-1A3 Socket: Yamaichi IC357-1004-053N 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 DNP RSTN/NMI R22 TDI TDO SWCLKTCK R20 SWDIOTMS R21 2 DVSS 1 JP7 Q3 P9.3/TA3.4 P9.2/TA3.3 DVCC2 DVSS2 P5.7/TA2.2/VREF-/VEREF-/C1.6 P5.6/TA2.1/VREF+/VEREF+/C1.7 P5.5/A0 P5.4/A1 P5.3/A2 P5.2/A3 P5.1/A4 P5.0/A5 P4.7/A6 P4.6/A7 P4.5/A8 P4.4/HSMCLK/SVMHOUT/A9 P4.3/MCLK/RTCCLK/A10 P4.2/ACLK/TA2CLK/A11 P4.1/A12 P4.0/A13 P6.1/A14 P6.0/A15 P9.1/A16 P9.0/A17 P8.7/A18 LFXOUT LFXIN 91kOhm, 0.1%, 25ppm/C R16 GND QUARZ5 Q2 F 3 2 1 JA 19 17 15 13 11 9 7 5 3 1 R4 47k P1.0 P1.1 P1.2 P1.3 P1.4 P1.5 P1.6 P1.7 VCORE DVCC VSW DVSS P2.0 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 2 1 P10.1/UCB3CLK P10.2/UCB3SIMO/UCB3SDA P10.3/UCB3SOMI/UCB3SCL P1.0/UCA0STE P1.1/UCA0CLK P1.2/UCA0RXD/UCA0SOMI P1.3/UCA0TXD/UCA0SIMO P1.4/UCB0STE P1.5/UCB0CLK P1.6/UCB0SIMO/UCB0SDA P1.7/UCB0SOMI/UCB0SCL VCORE DVCC1 VSW DVSS1 P2.0/PM_UCA1STE P2.1/PM_UCA1CLK P2.2/PM_UCA1RXD/PM_UCA1SOMI P2.3/PM_UCA1TXD/PM_UCA1SIMO P2.4/PM_TA0.1 P2.5/PM_TA0.2 P2.6/PM_TA0.3 P2.7/PM_TA0.4 P10.4/TA3.0/C0.7 P10.5/TA3.1/C0.6 TM4L2001xx-100PZ AVCC AVSS E KX-7 A 20 18 16 14 12 10 8 6 4 2 ML20 EXTVCC VCC INTVCC DVCC AVCC C4 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 FE25-1A1 J3 P1.1 P2.0 P6.7 EVQ-11L05R P1.0 D A3 6 5 4 3 2 1 Copyright (c) 2015, Texas Instruments Incorporated GND JP2 100nF VSW C3 L1 4.7uH LQM2MPN4R7NG0 DVSS VCORE DVCC DVSS AVSS AVSS DVSS R14DNP R3 DNP JP11 JP10 C SPI 10uF/10V AVSS 0R R12 0R R13 D3 red DNP R2 DNP R1 330R D2 yellow DNP JP9 B I2C 5 4 3 2 1 D1 green A UART 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 3 1 R8 0R R9 0R R6 R5 0R 0R GND 2 2 1 FE25-1A4 J4 SLAU571 - March 2015 Submit Documentation Feedback Hardware 8 GND DVCC 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 C14 C11 J6 FE25-1A2 C13 100nF C10 100 99 98 97 96 95SWCLKTCK 94SWDIOTMS 93 92TDI 91 90 89 88 87AVCC 86 85 84AVSS 83RSTN/NMI 82 81P6.7 80 79 78 77 76 P7.4/PM_TA1.4/C0.5 P10.0/UCB3STE P7.5/PM_TA1.3/C0.4 P9.7/UCA3TXD/UCA3SIMO P7.6/PM_TA1.2/C0.3 P9.6/UCA3RXD/UCA3SOMI P7.7/PM_TA1.1/C0.2 P9.5/UCA3CLK P8.0/UCB3STE/TA1.0/C0.1 P9.4/UCA3STE P8.1/UCB3CLK/TA2.0/C0.0 SWCLKTCK P3.0/PM_UCA2STE SWDIOTMS P3.1/PM_UCA2CLK PJ.5/TDO/SWO P3.2/PM_UCA2RXD/PM_UCA2SOMI PJ.4/TDI/ADC14CLK P3.3/PM_UCA2TXD/PM_UCA2SIMO P7.3/PM_TA0.0 P3.4/PM_UCB2STE P7.2/PM_C1OUT/PM_TA1CLK P3.5/PM_UCB2CLK P7.1/PM_C0OUT/PM_TA0CLK P3.6/PM_UCB2SIMO/PM_UCB2SDA P7.0/PM_SMCLK/PM_DMAE0 P3.7/PM_UCB2SOMI/PM_UCB2SCL AVCC2 AVSS3 PJ.3/HFXIN PJ.0/LFXIN PJ.2/HFXOUT PJ.1/LFXOUT AVSS2 AVSS1 RSTN/NMI DCOR NC AVCC1 P6.7/TA2.4/UCB3SOMI/UCB3SCL/C1.0 P8.2/TA3.2/A23 P6.6/TA2.3/UCB3SIMO/UCB3SDA/C1.1 P8.3/TA3CLK/A22 P6.5/UCB1SOMI/UCB1SCL/C1.2 P8.4/A21 P6.4/UCB1SIMO/UCB1SDA/C1.3 P8.5/A20 P6.3/UCB1CLK/C1.4 P8.6/A19 P6.2/UCB1STE/C1.5 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 26 27 28 29 30 31 32 33 34 35 36 37 38P3.6 39P3.7 40AVSS 41 42 43AVSS 44DCOR 45AVCC 46 47 48 49 50 100nF SW2 C12 4u7 100nF TP1TP2 1uF/10V 2 1 2 1 2 1 www.ti.com MSP-TS432PZ100 Rev1.0 Figure 1-1. MSP-TS432PZ100 Target Socket Board, Schematic MSP-TS432PZ100 Rev1.0 85 75 JP7 65 C12 C13 C11 10 C10 1 1 IC1 60 15 JP9 D1 R1 20 P6.7 C14 Q1 SW2 C1 R5 R6 C2 R14 25 55 L1 TP1 51 J5 JP10 D2 R2 1 SW1 C3 C4 Q2 1 P1.0 JP11 D3 R3 P1.2 1 MSP-TS432PZ100 Rev. 1.0 RoHS R23 C7C6 P1.1 C5 R13RESET 5 DVCC JP1 JP2 AVCC Q3 J6 76 C9 R8 1 int R9 C8 J3 1 ext Vcc 80 BSL Selection R4 90 PWR J1 R11 R10 R18 95 R7 R15 C15 100 JA 70 Pwr. C16 GND GND Ext.J2 JP12 1 2 R12 R17 IC2 Vcc R19 R20 R21 GND TP2 10 1 2 JP8 JP5.2 JP5.1 JP3.2 JP3.1 20 JB 1 2 R22 9 10 SPI I2C UART BSL www.ti.com GND R16 26 J4 30 35 40 45 50 Figure 1-2. MSP-TS432PZ100 Target Socket Board, PCB Table 1-2. Important Board Components Reference Description IC1 Socket for PZ100 package JA 20-pin Cortex-M debug connector JB 10-pin Cortex-M debug connector JP8 Header to disconnect 3.3-V LDO voltage input from pin 19 of header JA. Pin 19 of header JA is used by some third party ARM Cortex-M debuggers (for example, Segger J-Link and IAR i-Jet) to supply a 5-V voltage to the target system. JP12 Header to disconnect 3.3-V LDO voltage output from INTVCC. Remove this header if your debugger does not supply power to avoid current draw by the unpowered LDO. J1 Selector between internal and external power supply. Keep J1-1 and J1-2 always connected. JP1 Header to disconnect DVCC from VCC supply. Connect an ampere meter to measure current flowing into the digital domain. JP2 Header to disconnect AVCC from VCC supply. Connect an ampere meter to measure current flowing into the analog domain. J2 VCC header. Can be used to observe device VCC when supplied by the debug probe or to feed in external power. SLAU571 - March 2015 Submit Documentation Feedback Hardware Copyright (c) 2015, Texas Instruments Incorporated 9 MSP-TS432PZ100 Rev1.0 www.ti.com 1.1.1 Board Configuration For External Target Power Supply If the application needs to operate in stand-alone mode (for example, to measure current consumption without debug overhead) or when using ARM Cortex-M debug probes that do not provide power for the target device (for example, TI XDS100, XDS200, Keil ULINK2, or Keil ULINK Pro), power must be supplied externally to the target socket board. Always follow the voltage limits defined in the device data sheet. Also make sure that the following jumpers have been set as shown here before connecting the debug probe and power supply: * JP8: Open * JP12: Open * J1: Close 1-2 * JP1: Closed * JP2: Closed * J2: Connect external VCC to pin 1, and external GND to pins 2 or 3 Figure 1-3. Board Configuration For External Target Power Supply 10 Hardware SLAU571 - March 2015 Submit Documentation Feedback Copyright (c) 2015, Texas Instruments Incorporated MSP-TS432PZ100 Rev1.0 www.ti.com (R) (R) 1.1.2 Board Configuration When Using ARM Cortex -M Debug Probes With Target Power Supply Capability Some third-party ARM Cortex-M debuggers (for example, Segger J-Link and IAR i-Jet) can optionally supply a 5-V voltage to the target system through pin 19 of the debug connector. The LDO IC2 uses this voltage to generate the 3.3-V target supply voltage. To use the LDO, make sure the following jumpers are set as shown here before connecting the debug probe: * JP8: Closed * JP12: Closed * J1: Close 1-2 * JP1: Closed * JP2: Closed Figure 1-4. Board Configuration For Debugger-Supplied Target Power SLAU571 - March 2015 Submit Documentation Feedback Hardware Copyright (c) 2015, Texas Instruments Incorporated 11 MSP-TS432PZ100 Rev1.0 www.ti.com 1.1.3 Bill Of Materials Table 1-3. MSP-TS432PZ100 Bill Of Materials 12 Pos. Ref Des. No. No. Per Board 1 C1, C2, C8, C9 4 DNP, CSMD0805 2 C3 1 10uF/10V, CSMD0805 490-1709-2-ND 3 C4, C6, C10,C13,C14 5 100nF, CSMD0805 490-1666-1-ND 4 C5 1 1.1nF, CSMD0805 490-1623-2-ND 5 C7,C11,C15,C16 4 1uF/10V, CSMD0805 490-1702-2-ND 6 C12 1 4u7, CSMD0805 445-1370-1-ND 7 D1 1 green LED, DIODE0805 P516TR-ND 8 D2 1 yellow LED, DIODE0805 Description Digi-Key Part No. Comment DNP DNP 9 D3 1 red LED, DIODE0805 10 R1 1 330R, 0805 541-330ATR-ND DNP 11 R2, R3, 2 330R, 0805 541-330ATR-ND DNP 12 R5, R6, R7, R8, R9, R15 8 0R, 0805 541-0.0ATR-ND DNP 13 R12, R13 2 0R, 0805 541-0.0ATR-ND 14 R4 1 47k, 0805 541-47KATR-ND 15 R10, R11 2 0R, 0805 541-0.0ATR-ND DNP 16 R14 1 47k, 0805 541-47KATR-ND DNP P91KDACT-ND 17 R16 1 91kOhm, 0.1%, 25ppm/C , 0805 18 R17, R18, R19, R20, R21, R22, R23 7 27R, 0805 541-27ATR-ND 19 JP1, JP2, JP9, JP7, JP8, JP12 6 2-pin header, male, TH SAM1035-02-ND place jumper on header 20 JP10, JP11 2 2-pin header, male, TH SAM1035-02-ND DNP 21 J1 1 3-pin header, male, TH SAM1035-03-ND place jumpers on pins 1-2 22 JP3, JP5 2 12-pin header, male, TH SAM1034-06-ND 23 J2 1 3-pin header, male, TH SAM1035-03-ND SAM1029-25-ND or SAM1213-25-ND HRP20H-ND 24 J3, J4, J5, J6 4 25-pin male or female header, TH DNP, male and female headers enclosed with kit 25 JA 1 20-pin connector, male, TH 26 JB 1 10-pin connector 27 BSL 1 10-pin connector, male, TH Manuf. Yamaichi DNP, enclosed with kit Samtec: FTSH-105-01-F-DK HRP10H-ND DNP 28 IC1 1 Socket: IC357-1004-053N, LQFP100 29 IC1 1 MSP432P401RPZ 30 L1 1 4.7uH, 0806 DNP, enclosed with kit 490-4044-1-ND Murata 31 Q1 1 MS3V-TR1 (32,768kHz/ 20ppm/12,5pF) 32 Q2 1 DNP, Crystal DNP Geyer Electronic - 12.88710 33 Q3 1 KX-7T 48MHz 12pF 30/30/50ppm 34 SW2 1 EVQ-11L05R P8079STB-ND 35 SW1 1 EVQ-11L05R P8079STB-ND 36 U1 1 TLV70033DDC, TSOT23-5 296-25276-2-ND Hardware SLAU571 - March 2015 Submit Documentation Feedback Copyright (c) 2015, Texas Instruments Incorporated MSP-TS432PZ100 Rev1.0 www.ti.com 1.1.4 Kit Contents * * * * * * One READ ME FIRST document One MSP-TS432PZ100 target socket board Two MSP432P401RPZ device samples One 32.768-kHz crystal from Micro Crystal Four SAM1029-25-ND 25-pin 100-mil through-hole male headers Four SAM1213-25-ND 25-pin 100-mil through-hole female headers SLAU571 - March 2015 Submit Documentation Feedback Hardware Copyright (c) 2015, Texas Instruments Incorporated 13 MSP-TS432PZ100 Rev1.1 1.2 www.ti.com MSP-TS432PZ100 Rev1.1 The MSP-TS432PZ100 target socket board can be used to develop applications with the MSP432P401RPZ devices in 100-pin QFP package. Two standard ARM Cortex-M debug connectors provide connectivity to a large number of debug probes from Texas Instruments and third parties. All device pins are readily accessible through dedicated headers, which makes the board the ideal center of a prototype setup. 14 Hardware SLAU571 - March 2015 Submit Documentation Feedback Copyright (c) 2015, Texas Instruments Incorporated MSP-TS432PZ100 Rev1.1 www.ti.com 6 Vcc ext int J1 3 2 1 19 17 15 13 11 9 7 5 3 1 RSTN/NMI TDO 27R SWCLKTCK 27R SWDIOTMS 27R TDI EVQ11 B R17 R18 R19 SW1 1.1nF C5 IC1 C TDO TDI SWDIOTMS SWCLKTCK RSTN/NMI 27R TDO JP8 R23 D VUSB GND C15 1uF 1 3 IN JP15 OUT 5 IC2 TLV70033DDC EN GND E GND C16 1uF JP12 INTVCC INTVCC HFXIN HFXOUT RSTN/NMI DNP DNP F DNP 10 27R 8 6 27R 4 27R 2 JB 9 7 5 3 1 J5 G VCC DVSS DVCC AVSS HFGND connection by via GND FTSH-105-01-F-D-K C9 22pF 22pF C8 DVCC DVSS 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 FE25-1A3 Socket: Yamaichi IC357-1004-053N 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 DNP RSTN/NMI R22 TDI TDO SWCLKTCK R20 SWDIOTMS R21 2 DVSS 1 JP7 DNP AVSS GND 1 2 3 DNP R7 H P1.5 0R R15 RSTN/NMI BSL.10 JP3A JP4A JP3B JP2X2 R10 4k7 1BJP14B 2B P1.4 P3.7 P1.6 P1.2 P1.3 P3.6 P1.7 10 8 6 4 2 BSL VCC C6 9 7 5 3 1 VCC J2 EXTVCC Ext_PWR BSL.9 BSLRX BSLTX C7 100nF GND 1uF/10V VCC P3.6 P3.7 J7 File: MSP-TS432PZ100 Date: 3/3/2015 3:32:52 PM G H JP4B JP5A JP5B JP6A JP6B BSLTX BSLRX BSL.9 I I Page 1/1 BSL.10 JP2X2 R11 4k7 1AJP14A 2A Rev.: 1.1 Target Socket Board for MSP432P401xIPZ device Title: MSP-TS432PZ100 C1 Q1 LFGND DNP QUARZ5 connection by via DNP C2 GND JA ML20 R4 47k GND 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 Q3 P9.3/TA3.4 P9.2/TA3.3 DVCC2 DVSS2 P5.7/TA2.2/VREF-/VEREF-/C1.6 P5.6/TA2.1/VREF+/VEREF+/C1.7 P5.5/A0 P5.4/A1 P5.3/A2 P5.2/A3 P5.1/A4 P5.0/A5 P4.7/A6 P4.6/A7 P4.5/A8 P4.4/HSMCLK/SVMHOUT/A9 P4.3/MCLK/RTCCLK/A10 P4.2/ACLK/TA2CLK/A11 P4.1/A12 P4.0/A13 P6.1/A14 P6.0/A15 P9.1/A16 P9.0/A17 P8.7/A18 LFXOUT LFXIN DNP 3 2 1 A 20 18 16 14 12 10 8 6 4 2 EXTVCC VCC INTVCC DVCC AVCC P1.4 P1.5 P1.6 P1.7 VCORE DVCC VSW DVSS P2.0 P1.3 P1.0 P1.1 P1.2 FE25-1A1 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 DCOR 91kOhm, 0.1%, 25ppm/C R16 GND QUARZ5 Q2 F A3 6 5 4 3 2 1 Copyright (c) 2015, Texas Instruments Incorporated 2 1 P10.1/UCB3CLK P10.2/UCB3SIMO/UCB3SDA P10.3/UCB3SOMI/UCB3SCL P1.0/UCA0STE P1.1/UCA0CLK P1.2/UCA0RXD/UCA0SOMI P1.3/UCA0TXD/UCA0SIMO P1.4/UCB0STE P1.5/UCB0CLK P1.6/UCB0SIMO/UCB0SDA P1.7/UCB0SOMI/UCB0SCL VCORE DVCC1 VSW DVSS1 P2.0/PM_UCA1STE P2.1/PM_UCA1CLK P2.2/PM_UCA1RXD/PM_UCA1SOMI P2.3/PM_UCA1TXD/PM_UCA1SIMO P2.4/PM_TA0.1 P2.5/PM_TA0.2 P2.6/PM_TA0.3 P2.7/PM_TA0.4 P10.4/TA3.0/C0.7 P10.5/TA3.1/C0.6 MSP432P401RIPZ AVCC AVSS E KX-7 15 Hardware SLAU571 - March 2015 Submit Documentation Feedback 2 1 JP1 2 1 JP2 2 1 JP16 C4 100nF VSW J3 P1.1 P2.0 P6.7 EVQ-11L05R P1.0 D SPI C3 10uF/10V AVSS L1 4.7uH LQM2MPN4R7NG0 DVSS VCORE DVCC DVSS AVSS AVSS DVSS R14DNP R3 DNP JP11 JP10 C I2C 5 4 0R R12 0R R13 D3 red DNP R2 DNP D2 yellow DNP R1 330R JP9 B UART 1A 2A 1B 2B 1A 2A 1B 2B 1A 2A 1B 2B 1A 2A 1B 2B 3 1 R8 0R R9 0R R6 R5 0R 0R 1 2 GND 2 2 1 FE25-1A4 J4 3 2 1 D1 green A GND DVCC 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 C14 C12 4u7 C11 100 99 98 97 96 95 SWCLKTCK 94 SWDIOTMS 93 92 TDI 91 90 89 88 87 AVCC 86 85 84 AVSS 83 RSTN/NMI 82 81 P6.7 80 79 78 77 76 P10.0/UCB3STE P7.4/PM_TA1.4/C0.5 P9.7/UCA3TXD/UCA3SIMO P7.5/PM_TA1.3/C0.4 P9.6/UCA3RXD/UCA3SOMI P7.6/PM_TA1.2/C0.3 P9.5/UCA3CLK P7.7/PM_TA1.1/C0.2 P9.4/UCA3STE P8.0/UCB3STE/TA1.0/C0.1 SWCLKTCK P8.1/UCB3CLK/TA2.0/C0.0 SWDIOTMS P3.0/PM_UCA2STE PJ.5/TDO/SWO P3.1/PM_UCA2CLK PJ.4/TDI/ADC14CLK P3.2/PM_UCA2RXD/PM_UCA2SOMI P7.3/PM_TA0.0 P3.3/PM_UCA2TXD/PM_UCA2SIMO P7.2/PM_C1OUT/PM_TA1CLK P3.4/PM_UCB2STE P7.1/PM_C0OUT/PM_TA0CLK P3.5/PM_UCB2CLK P7.0/PM_SMCLK/PM_DMAE0 P3.6/PM_UCB2SIMO/PM_UCB2SDA AVCC2 P3.7/PM_UCB2SOMI/PM_UCB2SCL PJ.3/HFXIN AVSS3 PJ.2/HFXOUT PJ.0/LFXIN AVSS2 PJ.1/LFXOUT RSTN/NMI AVSS1 NC DCOR P6.7/TA2.4/UCB3SOMI/UCB3SCL/C1.0 AVCC1 P6.6/TA2.3/UCB3SIMO/UCB3SDA/C1.1 P8.2/TA3.2/A23 P6.5/UCB1SOMI/UCB1SCL/C1.2 P8.3/TA3CLK/A22 P6.4/UCB1SIMO/UCB1SDA/C1.3 P8.4/A21 P6.3/UCB1CLK/C1.4 P8.5/A20 P6.2/UCB1STE/C1.5 P8.6/A19 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 26 27 28 29 30 31 32 33 34 35 36 37 38 P3.6 39 P3.7 40 AVSS 41 42 43 AVSS 44 DCOR 45 AVCC 46 47 48 49 50 100nF SW2 C13 100nF C10 J6 FE25-1A2 1uF/10V 2 1 2 1 2 1 100nF TP1TP2 GND Figure 1-5. MSP-TS432PZ100 Target Socket Board, Schematic MSP-TS432PZ100 Rev1.1 UART I2C SPI R4 75 SW1 R9 C8 C5 C3 C4 Q2 MSP-TS432PZ100 Rev. 1.1 RoHS 70 5 R13 RESET 1 65 C12 C13 C11 Klebpkt C10 IC1 60 10 15 D1 R1 D2 R2 JP6 JP5 C9 R8 1 J3 1 Q3 J6 76 L1 20 P6.7 C14 Q1 SW2 55 P1.0 R11 26 J4 30 35 TP1 R10 JP14 GND R16 51 J5 25 R6 C2 R14 C1 R5 P1.1 80 C7 C6 VCC GND GND D3 R3 R7 R15 85 R23 J7 JP11JP10 JP9 P1.2 JP4 JP7 90 JP1 DVCC JP2 JP16 AVCC JP3 BSL R12 C15 R18 95 1 2 JA R19 R17 IC2 C16 Ext. Pwr. JP15 Vcc JP12 GND GND J2 100 PWR J1 ext Vcc int 10 1 2 BSL Selection 20 JP8 JB R20 R21 TP2 GND 1 2 R22 9 10 www.ti.com 40 45 50 Figure 1-6. MSP-TS432PZ100 Target Socket Board, PCB Table 1-4. Important Board Components Reference IC1 Socket for PZ100 package JA 20-pin Cortex-M debug connector JB 10-pin Cortex-M debug connector JP8 Header to disconnect 3.3-V LDO voltage input from pin 19 of header JA. Pin 19 of header JA is used by some third party ARM Cortex-M debuggers (for example, Segger J-Link and IAR i-Jet) to supply a 5-V voltage to the target system. JP12 Header to disconnect 3.3-V LDO voltage output from INTVCC. Remove this header if your debugger does not supply power to avoid current draw by the unpowered LDO. J1 Selector between internal and external power supply. JP1 Header to measure current flowing into AVCC and DVCC power domains. JP2 Header to disconnect DVCC from VCC supply. Connect an ampere meter to measure current flowing into the digital domain. J2 Header to feed external voltage to device. If used, connect J1-2 and J1-3. JP15 Header to bypass 3V3 LDO in case a debug probe supplies a logic level voltage through pin 19 of header JA. JP16 Header to disconnect AVCC from VCC supply. Connect an ampere meter to measure current flowing into the analog domain. J7 16 Description VCC header. Can be used to observe device VCC when supplied by the debug probe or to feed in external power. Hardware SLAU571 - March 2015 Submit Documentation Feedback Copyright (c) 2015, Texas Instruments Incorporated MSP-TS432PZ100 Rev1.1 www.ti.com 1.2.1 Board Configuration For External Target Power Supply If the application needs to operate in stand-alone mode (for example, to measure current consumption without debug overhead) or when using ARM Cortex-M debug probes that do not provide power for the target device (for example, TI XDS100, XDS200, Keil ULINK2, or Keil ULINK Pro), power must be supplied externally to the target socket board. Always follow the voltage limits defined in the device data sheet. Also make sure that the following jumpers have been set as shown here before connecting the debug probe and power supply: * JP8: Open * JP12: Open * J1: Close 2-3 * JP1: Closed * JP2: Closed * J16: Closed * J2: Connect external VCC to pin 1, and external GND to pins 2 or 3 Feed external VCC here Feed external GND here Figure 1-7. Board Configuration For External Target Power Supply SLAU571 - March 2015 Submit Documentation Feedback Hardware Copyright (c) 2015, Texas Instruments Incorporated 17 MSP-TS432PZ100 Rev1.1 www.ti.com (R) (R) 1.2.2 Board Configuration When Using ARM Cortex -M Debug Probes With Target Power Supply Capability Some third-party ARM Cortex-M debuggers (for example, Segger J-Link and IAR i-Jet) can optionally supply a 5-V voltage to the target system through pin 19 of the debug connector. The LDO IC2 uses this voltage to generate the 3.3-V target supply voltage. To use the LDO, make sure the following jumpers are set as shown here before connecting the debug probe: * JP8: Closed * JP12: Closed * J1: Close 1-2 * JP1: Closed * JP2: Closed * JP16: Closed If the debug probe supplies a logic level voltage through pin 19, the LDO can be entirely bypassed using JP15. Always follow the voltage limits defined in the device data sheet. Figure 1-8. Board Configuration For Debugger-Supplied Target Power 18 Hardware SLAU571 - March 2015 Submit Documentation Feedback Copyright (c) 2015, Texas Instruments Incorporated MSP-TS432PZ100 Rev1.1 www.ti.com 1.2.3 Bill Of Materials Table 1-5. MSP-TS432PZ100 Bill Of Materials Pos. Ref Des. No. No. Per Board Description Digi-Key Part No. Comment 1 PCB 1 95.0 x 100.0 mm "MSP-TS432PZ100" Rev. 1.1 2 layers, green solder mask 2 C1, C2 2 12pF, CSMD0805 1276-1120-1-ND DNP 3 C8, C9 2 22pF, CSMD0805 490-3608-1-ND 4 C3 1 10uF/10V, CSMD0805 490-1709-2-ND 5 C4, C6, C10, C13, C14 5 100nF, CSMD0805 490-1666-1-ND 6 C5 1 1.1nF, CSMD0805 490-1623-2-ND 7 C7, C11, C15, C16 4 1uF/10V, CSMD0805 490-1702-2-ND 8 C12 1 4u7, CSMD0805 445-1370-1-ND 516-1434-1-ND 9 D1 1 green LED, HSMG-C170, DIODE0805 10 D2 1 yellow LED, DIODE0805 11 D3 1 red LED, DIODE0805 12 R1 1 330R, 0805 541-330ATR-ND 13 R2, R3, 2 330R, 0805 541-330ATR-ND DNP 14 R5, R6, R7, R8, R9 5 0R, 0805 541-0.0ATR-ND DNP 15 L1 1 4.7uH, 0806 490-4044-1-ND Murata 16 R12, R13, R15 3 0R, 0805 541-0.0ATR-ND 17 R4 1 47k, 0805 541-47KATR-ND 18 R10, R11 2 4k7, 0805 541-4.7KATR-ND 19 R14 1 47k, 0805 541-47KATR-ND P91KDACT-ND DNP DNP DNP 20 R16 1 91kOhm, 0.1%, 25ppm/C , 0805 21 R17, R18, R19, R20, R21, R22, R23 7 27R, 0805 541-27ATR-ND 22 JP1, JP2, JP9, JP7, JP16 4 2-pin header, male, TH SAM1035-02-ND place jumper on header 23 JP8, JP12, JP15 3 2-pin header, male, TH SAM1035-02-ND not jumpered 24 JP10, JP11 2 2-pin header, male, TH SAM1035-02-ND DNP, keep pads free of solder 25 J1 1 3-pin header, male, TH SAM1035-03-ND place jumpers on pins 1-2 26 JP3, JP4, JP5, JP6, JP14 5 2x2-pin header, male, TH SAM1034-02-ND 27 J2, J7 2 3-pin header, male, TH SAM1035-03-ND 28 J3, J4, J5, J6 4 25-pin header, TH SAM1029-25-ND DNP: Headers are enclosed in kit. Keep vias free of solder. 29 J3, J4, J5, J6 4 25-pin receptacle, TH SAM1213-25-ND DNP: Receptacles are enclosed in kit. Keep vias free of solder. 30 JA 1 20-pin connector, male, TH HRP20H-ND 31 JB 1 10-pin connector FTSH-105-01-F-D-K 32 BSL 1 10-pin connector, male, TH HRP10H-ND Manuf. Yamaichi Not enclosed in kit 33 IC1 1 Socket: IC357-1004-053N, LQFP100 34 IC1 2 MSP432P401RIPZ SLAU571 - March 2015 Submit Documentation Feedback Samtec: FTSH-105-01-F-DK Hardware Copyright (c) 2015, Texas Instruments Incorporated 19 MSP-TS432PZ100 Rev1.1 www.ti.com Table 1-5. MSP-TS432PZ100 Bill Of Materials (continued) Pos. No. Per Board Ref Des. No. Description Digi-Key Part No. Comment 35 Q1 1 MS3V-TR1 (32,768kHz/ 20ppm/12,5pF) depends on application DNP, Micro Crystal, enclosed in kit, keep vias free of solder 36 Q2 1 DNP, Crystal depends on application DNP, keep vias free of solder 37 Q3 1 KX-7T 48MHz 12pF 30/30/50ppm 38 SW2 1 EVQ-11L05R P8079STB-ND 39 SW1 1 EVQ-11L05R P8079STB-ND 40 IC2 1 TLV70033DDC, TSOT23-5 296-25276-2-ND Geyer Electronic - 12.88710 1.2.4 Kit Contents * * * * * * 1.3 20 One READ ME FIRST document One MSP-TS432PZ100 target socket board One TI Terms and Conditions for Evaluation Modules One 32.768-kHz crystal from Micro Crystal Four SAM1029-25-ND 25-pin 100-mil through-hole male headers Four SAM1213-25-ND 25-pin 100-mil through-hole female headers MSP-TS432PZ100 Revision History Revision Date Rev1.0 May 2014 Rev1.1 March 2015 Comments Internal revision First released revision Hardware SLAU571 - March 2015 Submit Documentation Feedback Copyright (c) 2015, Texas Instruments Incorporated IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries (TI) 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. 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