SLAU748B October   2017  – September 2018 MSP432E401Y

 

  1.   SimpleLinkrep%#8482; Ethernet MSP432E401Y Microcontroller LaunchPad™ Development Kit (MSP-EXP432E401Y)
    1.     Trademarks
    2. 1 Board Overview
      1. 1.1 Kit Contents
      2. 1.2 Using the Ethernet LaunchPad Development Kit
      3. 1.3 Features
      4. 1.4 BoosterPack Plug-in Modules
      5. 1.5 Specifications
    3. 2 Hardware Description
      1. 2.1 Functional Description
        1. 2.1.1 Microcontroller
        2. 2.1.2 Ethernet Connectivity
          1. 2.1.2.1 RJ-45 Connections
        3. 2.1.3 USB Connectivity
        4. 2.1.4 Motion Control
        5. 2.1.5 User Switches and LEDs
        6. 2.1.6 BoosterPack Plug-in Modules and Headers
          1. 2.1.6.1 BoosterPack Plug-in Module Interface 1
          2. 2.1.6.2 BoosterPack Plug-in Module Interface 2
          3. 2.1.6.3 Breadboard Connection
          4. 2.1.6.4 Other Headers and Jumpers
        7. 2.1.7 Serial Bootloader
      2. 2.2 Power Management
        1. 2.2.1 Power Supplies
        2. 2.2.2 Low Power Modes
        3. 2.2.3 Clocking
        4. 2.2.4 Reset
      3. 2.3 Debug Interface
        1. 2.3.1 XDS-110 Debug Interface
        2. 2.3.2 External Debugger
        3. 2.3.3 Virtual COM Port
    4. 3 Software Development
      1. 3.1 Software Description
      2. 3.2 Source Code
      3. 3.3 Tool Options
      4. 3.4 Programming the Ethernet LaunchPad Development Kit
    5. 4 PCB Schematics
  2.   Revision History

Breadboard Connection

The breadboard adapter section of the board is a set of 98 holes on a 0.1-inch grid. Properly combined with a pair of right angle headers, the entire Ethernet LaunchPad development kit can be plugged directly into a standard 300-mil (0.3-in) wide solderless breadboard. The right angle headers and breadboard are not provided with this kit. Suggested part numbers are Samtec TSW-149-09-L-S-RE and TSW-149-08-L-S-RA right angle pin headers and Twin industries TW-E40-1020 solderless breadboard. Samtec TSW-149-09- F-S-RE and TSW-149-09-F-S-RA may be substituted.

Most microcontroller signals are made available at the breadboard adapter holes (J10). These signals are grouped by function where possible. For example, all EPI signals are grouped on one side of the connector. Many of the analog signals are grouped near VREF, and UART, SSI, and I2C signals are grouped by peripheral to make expansion and customization simpler.

Table 4 and Table 5 list the GPIO pin and signal muxing for the X11 breadboard adapter pads.

Table 4. X11 Breadboard Adapter Odd-Numbered Pad GPIO and Signal Muxing

Pin Port MCU Pin Analog Digital Function (GPIOPCTL Bit Encoding)
1 2 3 5 6 7 8 11 13 14 15
1 3V3
3 GND
5 PB4 121 AIN10 U0CTS I2C5SCL SSI1Fss
7 PB5 120 AIN11 U0RTS I2C5SDA SSI1Clk
9 PH0 29 U0RTS EPI0S0
11 PH1 30 U0CTS EPI0S1
13 PH2 31 U0DCD EPI0S2
15 PH3 32 U0DSR EPI0S3
17 PC7 22 C0- U5Tx EPI0S4
19 PC6 23 C0+ U5Rx EPI0S5
21 PC5 24 C1+ U7Tx RTCCLK EPI0S6
23 PC4 25 C1- U7Rx EPI0S7
25 PA6 40 U2Rx I2C6SCL T3CCP0 USB0EPEN SSI0XDAT2 EPI0S8
27 PA7 41 U2Tx I2C6SDA T3CCP1 USB0PFLT USB0EPEN SSI0XDAT3 EPI0S9
29 PG1 50 I2C1SDA M0PWM5 EPI0S10
31 PG0 49 I2C1SCL EN0PPS M0PWM4 EPI0S11
33 PM3 75 T3CCP1 EPI0S12
35 GND
37 PM2 76 T3CCP0 EPI0S13
39 PM1 77 T2CCP1 EPI0S14
41 PM0 78 T2CCP0 EPI0S15
43 PL0 81 I2C2SDA M0FAULT3 USB0D0 EPI0S16
45 PL1 82 I2C2SCL PhA0 USB0D1 EPI0S17
47 PL2 83 C0o PhB0 USB0D2 EPI0S18
49 PL3 84 C1o IDX0 USB0D3 EPI0S19
51 PQ0 5 SSI3Clk EPI0S20
53 PQ1 6 SSI3Fss EPI0S21
55 PQ2 11 SSI3XDAT0 EPI0S22
57 PQ3 27 SSI3XDAT1 EPI0S23
59 PK7 60 U0RI I2C4SDA EPI0S24
61 GND
63 PK6 61 I2C4SCL EN0LED1 M0FAULT1 EPI0S25
65 PL4 85 T0CCP0 USB0D4 EPI0S26
67 PB2 91 I2C0SCL T5CCP0 USB0STP EPI0S27
69 PB3 92 I2C0SDA T5CCP1 USB0CLK EPI0S28
71 PP2 103 U0DTR USB0NXT EPI0S29
73 PP3 104 U1CTS U0DCD RTCCLK USB0DIR EPI0S30
75 PK5 62 I2C3SDA EN0LED2 M0PWM7 EPI0S31
77 PK4 63 I2C3SCL EN0LED0 M0PWM6 EPI0S32
79 PL5 86 T0CCP1 USB0D5 EPI0S33
81 PN4 111 U1DTR U3RTS I2C2SDA EPI0S34
83 PN5 112 U1RI U3CTS I2C2SCL EPI0S35
85 PN0 107 U1RTS
87 PN1 108 U1CTS
89 PN2 109 U1DCD U2RTS EPI0S29
91 PN3 110 U1DSR U2CTS EPI0S30
93 PQ4 102 U1Rx DIVSCLK
95 WAKE
97 5 V

Table 5. X11 Breadboard Adapter Even-Numbered Pad GPIO and Signal Muxing

Pin Port MCU Pin Analog Digital Function (GPIOPCTL Bit Encoding)
1 2 3 5 6 7 8 11 13 14 15
2 5 V
4 GND
6 PA2 35 U4Rx I2C8SCL T1CCP0 SSI0Clk
8 PA3 36 U4Tx I2C8SDA T1CCP1 SSI0Fss
10 PA4 37 U3Rx I2C7SCL T2CCP0 SSI0XDAT0
12 PA5 38 U3Tx I2C7SDA T2CCP1 SSI0XDAT1
14 PE0 15 AIN3 U1RTS
16 PE1 14 AIN2 U1DSR
18 PE2 13 AIN1 U1DCD
20 PE3 12 AIN0 U1DTR
22 PE4 123 AIN9 U1RI SSI1XDAT0
24 PE5 124 AIN8 SSI1XDAT1
26 PK0 18 AIN16 U4Rx EPI0S0
28 PK1 19 AIN17 U4Tx EPI0S1
30 PK2 20 AIN18 U4RTS EPI0S2
32 PK3 21 AIN19 U4CTS EPI0S3
34 VREF
36 GND
38 PD5 126 AIN6 U2Tx T3CCP1 SSI1XDAT3
40 PD4 125 AIN7 U2Rx T3CCP0 SSI1XDAT2
42 PD7 128 AIN4 U2CTS T4CCP1 USB0PFLT NMI SSI2XDAT2
44 PD6 127 AIN5 U2RTS T4CCP0 USB0EPEN SSI2XDAT3
46 PD3 4 AIN12 I2C8SDA T1CCP1 SSI2Clk
48 PD1 2 AIN14 I2C7SDA T0CCP1 C1o SSI2XDAT0
50 PD0 1 AIN15 I2C7SCL T0CCP0 C0o SSI2XDAT1
52 PD2 3 AIN13 I2C8SCL T1CCP0 C2o SSI2Fss
54 PP0 118 C2+ U6Rx SSI3XDAT2
56 PP1 119 C2- U6Tx SSI3XDAT3
58 PB0 95 USB0ID U1Rx I2C5SCL T4CCP0 CAN1Rx
60 PB1 96 USB0VBUS U1Tx I2C5SDA T4CCP1 CAN1Tx
62 GND
64 PF4 46 EN0LED1 M0FAULT0 SSI3XDAT2 TRD3
66 PF0 42 EN0LED0 M0PWM0 SSI3XDAT1 TRD2
68 PF1 43 EN0LED2 M0PWM1 SSI3XDAT0 TRD1
70 PF2 44 M0PWM2 SSI3Fss TRD0
72 PF3 45 M0PWM3 SSI3Clk TRCLK
74 PA0 33 U0Rx I2C9SCL T0CCP0 CAN0Rx
76 PA1 34 U0Tx I2C9SDA T0CCP1 CAN0Tx
78 PP4 105 U3RTS U0DSR USB0D7
80 PP5 106 U3CTS I2C2SCL USB0D6
82 PJ0 116 U3Rx
84 PJ1 117 U3Tx
86 PM7 71 TMPR0 U0RI T5CCP1
88 PM6 72 TMPR1 U0DSR T5CCP0
90 PM5 73 TMPR2 U0DCD T4CCP1
92 PM4 74 TMPR3 U0CTS T4CCP0
94 RESET
96 GND
98 3V3