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Infineon KIT PSC3M5 EVK PSOC Control C3M5 Manual
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Infineon KIT PSC3M5 EVK PSOC Control C3M5 Manual

Infineon KIT PSC3M5 EVK PSOC Control C3M5 Manual

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KIT_PSC3M5_EVK PSOC
Control C3M5 Evaluation
Kit guide
About this document
Scope and purpose
This document provides a comprehensive understanding of the KIT_PSC3M5_EVK PSOC
Control C3 Evaluation
Kit, which includes kit operation, an out-of-the-box (OOB) example and its operation, and the hardware details
of the board.
Intended audience
This document is intended for all embedded developers using the KIT_PSC3M5_EVK PSOC
Control C3
Evaluation Kit.
User guide
Please read the sections "Important notice" and "Warnings" at the end of this document
002-39385 Rev. *A
www.infineon.com
2024-12-04

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Summary of Contents for Infineon KIT PSC3M5 EVK PSOC Control C3M5

  • Page 1 Intended audience This document is intended for all embedded developers using the KIT_PSC3M5_EVK PSOC Control C3 ™ Evaluation Kit. User guide Please read the sections "Important notice" and "Warnings" at the end of this document 002-39385 Rev. *A www.infineon.com 2024-12-04...
  • Page 2 Boards provided by Infineon Technologies. The design of the Evaluation Boards and Reference Boards has been tested by Infineon Technologies only as described in this document. The design is not qualified in terms of safety requirements, manufacturing and operation over the entire operating temperature range or lifetime.
  • Page 3 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ Safety precautions Safety precautions Note: Please note the following warnings regarding the hazards associated with development systems. Table 1 Safety precautions Caution: The evaluation or reference board contains parts and assemblies sensitive to electrostatic discharge (ESD).
  • Page 4 4.2.8.2 Infineon’s Shield2Go sensor shield compatible headers ....... . 31 4.2.8.3...
  • Page 5 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ Table of contents ETM trace and debug header ............41 Antialiasing filter for ADC input .
  • Page 6 Ambient temperature range: -40°C to 105°C Ta • Packages: VQFN-48, E-LQFP-48, VQFN-64, E-LQFP-64, E-LQFP-80 The evaluation board has two Infineon Shield2Go standard headers (S2GO) and one mikroBUS header for interfacing sensors. It also features headers compatible with Arduino shields. Additionally, the board has the following features: •...
  • Page 7 • Headers compatible with MIKROE’s mikroBUS shields • Headers compatible with Arduino Uno R3 • Headers compatible with Infineon's Shield2Go interface • Mode button and mode LED for KitProg3 • Potentiometer that can be used to simulate analog sensor outputs •...
  • Page 8 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 2 Kit details 20 21 Figure 2 KIT_PSC3M5_EVK board details Table 2 Sections KIT_PSC3M5_EVK blocks DC jack (J20) PSOC 5LP KitProg3 MCU (U2) ™ Power LED (LED4) KitProg status LED (LED3) USB Type-C connector (J15) KitProg mode switch (SW3) ETM header (J14) 10-pin SWD header (J11)
  • Page 9 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 2 Kit details Table 2 (continued) Sections KIT_PSC3M5_EVK blocks mikroBUS headers (J16, J12) Shield2Go-2 headers (J18, J21) CAN header (J23) Reset switch (SW1) PSOC Control C3 target MCU (U1) ™ DFU selection headers (J19, J22) Arduino headers (J1, J2, J3, J4) 40-pin expansion header2 (J24) Table 3...
  • Page 10 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 2 Kit details Table 3 (continued) PSOC Control C3M5 Evaluation Kit board pinout ™ Primary onboard Secondary onboard Connection details function function P3.0 Digital I/O on J4.8, and The signal is multiplexed between J5.24 PSC3M5, the Arduino-compatible header, and the expansion header.
  • Page 11 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 2 Kit details Table 3 (continued) PSOC Control C3M5 Evaluation Kit board pinout ™ Primary onboard Secondary onboard Connection details function function P6.0 UART_CTS_1 on J4.5 and J24.29 P6.1 UART_RTS_1 on J4.3 and J24.31 P6.2 UART_RX...
  • Page 12 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 2 Kit details Table 3 (continued) PSOC Control C3M5 Evaluation Kit board pinout ™ Primary onboard Secondary onboard Connection details function function AN_A1 AN_A1 Multiplexed with Arduino J2.2 and expansion header J24.25 AN_A2 AN_A2 Multiplexed with Arduino J2.3 and...
  • Page 13 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 2 Kit details Table 3 (continued) PSOC Control C3M5 Evaluation Kit board pinout ™ Primary onboard Secondary onboard Connection details function function P8.3 LPCOMP1_INN on J5.17 ETM_TRACE_D3. To use the pin as an ETM pin on the J14 SPI_CLK_FLASH(U3) header, remove R9 and mount R10.
  • Page 14 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 3 Kit operation Kit operation The PSOC Control C3M5 Evaluation Kit is built around the PSC3M5 MCU. The following section describes the ™ block diagram and peripherals on the board. For more information on device features, see the device datasheet. CPU Subsystem Real Time Control System Resources...
  • Page 15 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 3 Kit operation Figure 5 PSOC Control C3M5 Evaluation Kit top view ™ Figure 6 PSOC Control C3M5 Evaluation Kit bottom view ™ The PSOC Control C3M5 Evaluation Kit has the following peripherals: ™...
  • Page 16 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 3 Kit operation Table 4 Peripherals SI. No. Peripheral Description VIN connector External power supply via a DC jack. A DC adapter with 7 V–12 V and 1 A can be used as a power source for the kit.
  • Page 17 The LEDs are active LOW; therefore, the pins must be driven to ground to turn ON the LEDs. Shield2Go- S2GO21 (J6 and J8) Infineon’s Shield2Go-compatible header supports sensor functionality working with C, UART, or SPI interfaces. Shield2Go-S2GO2 (J18 and J21) Infineon’s Shield2Go-compatible header...
  • Page 18 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 3 Kit operation Board support package (BSP) selection The PSOC Control C3 Evaluation Board comes with a KIT_PSC3M5_EVK board support package within the ™ PSOC Control BSPs. To build and run the code examples on the kit, follow the instructions provided in the Create an application section of the ModusToolbox user...
  • Page 19 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 3 Kit operation Figure 8 Board support package in the new application window Click Next Select the application in the Select Application window and click Create Figure 9 Select application window To build and program an application in the Project Explorer, select a project. In the Quick Panel, scroll to the Launches section and click Program (KitProg3_MiniProg4) configuration User guide 002-39385 Rev.
  • Page 20 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 3 Kit operation Figure 10 Programming in the ModusToolbox ™ ModusToolbox software has an integrated debugger. To debug an application, in the Project ™ Explorer, select the project. In the Quick Panel, scroll to the Launches section and click Debug (KitProg3_MiniProg4) configuration User guide 002-39385 Rev.
  • Page 21 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 3 Kit operation Figure 11 Debugging in ModusToolbox ™ Using the out-of-the-box (OOB) example – PSOC Control C3 MCU: ™ OOB demo The PSOC Control C3M5 Evaluation board comes pre-programmed with the PSOC Control C3 MCU's OOB ™...
  • Page 22 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 3 Kit operation Connect the board's KitProg3 USB connector to the PC using the provided USB cable Open a terminal program and select the KitProg3 COM port. Set the serial port parameters to 8N1 and 115200 baud Press the Reset button (SW1) on the board and confirm that terminal application displays the code example title and other text as shown in...
  • Page 23 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Hardware The following section describes the hardware design. Schematics Schematic files are available in the PSOC Control C3 M5 Evaluation Kit webpage. ™ Hardware functional description 4.2.1 PSC3M5 (U1) ® ®...
  • Page 24 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Figure 13 MCU section 4.2.2 PSOC 5LP-based KitProg3 (U2) ™ An onboard PSOC 5LP (CY8C5868LTI-LP039) is used as KitProg3 to program and debug PSC3M5FDS2AFQ1. ™ The PSOC 5LP device connects to the USB port of a PC through a USB connector and to the SWD and other ™...
  • Page 25 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Visit the PSOC webpage, and for more information, see the CY8C58LPxx family datasheet. ™ Figure 14 PSOC 5LP-based KitProg3 (U2) ™ 4.2.3 Serial interconnection between PSOC 5LP and PSC3M5 ™ The PSOC 5LP device functions as an interface for USB-UART and USB-I C bridges in addition to being used as...
  • Page 26 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Figure 15 KP3 serial communication 4.2.4 Programming/debugging headers The PSOC Control C3M5 Evaluation Kit is designed with dedicated headers for programming the PSC3M5 ™ device. A 10-pin SWD/JTAG header (J11) allows you to program the target device using the SWD or JTAG interface. A 20- pin ETM standard header (J14) is provided for trace debugging.
  • Page 27 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Table 6 (continued) ETM trace rework J14 Reference designator Assembly Stuff Stuff R113 R104 R100 R159 Figure 16 Programming headers 4.2.5 Power supply system The power supply system on this board is versatile, allowing the input supply to come from the following sources: •...
  • Page 28 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Figure 17 Power supply input 4.2.6 Voltage regulators The power supply system is designed for the following voltage configurations: The evaluation kit has two switching regulators: • 3.3 V LDO regulator (U9) 3.3 V regulator (U9) output provides the supply to overall peripherals, including the MCU •...
  • Page 29 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Figure 18 Voltage regulator 4.2.7 Current measurement headers The current of the following domains have dedicated 2-pin headers to facilitate easy current measurement using an ammeter across the pins. The 2-pin header (J17) is used for checking the MCU current consumption. User guide 002-39385 Rev.
  • Page 30 I/O headers The evaluation kit (EVK) is provided with header interfaces to evaluate sensors and shields with different form factors, such as Arduino, mikroBUS from MIKROE, and Shield2Go from Infineon, which are supported on the EVK. A few of the I/O signals from the PSC3M5 device are multiplexed by sharing between Arduino, mikroBUS, and the shield2Go headers.
  • Page 31 4.2.8.2 Infineon’s Shield2Go sensor shield compatible headers The PSOC Control C3M5 Evaluation Kit is featured with a footprint compatible to Infineon’s Shield2Go sensor ™ shields. User can have these shields mounted directly on the board or this can be mounted on headers by having suitable connectors assembled on the board.
  • Page 32 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Figure 21 Shield2Go compatible headers 4.2.8.3 mikroBUS shield compatible headers The PSOC Control C3M5 Evaluation Kit has headers populated to interface with MIKROE standard mikroBUS ™ sensor shields. You can directly mount the respective mikroBUS sensor shields to evaluate the functionality. The mikroBUS shields are available with different working voltage levels, such as 3.3 V and 5 V.
  • Page 33 I/O expansion headers The PSOC Control C3M5 Evaluation Kit has two expansion headers with 40-pins each, which are J5 and J24. ™ These headers are made compatible with Infineon's latest motor control lite kit. Figure 23 I/O expansion headers 4.2.9...
  • Page 34 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Figure 24 CAN FD transceiver 4.2.10 LEDs The evaluation kit (EVK) has four LEDs: • LED3 (Yellow) indicates the status of Kitprog3 • LED4 (Red) indicates the power status of the evaluation kit •...
  • Page 35 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware • One user switch SW4 is connected to P5.0 and can be used to connect any I/O through jumper by removing R160 which can be connected to the J24.38. • A KitProg3 mode selection button (SW3) is connected to the PSOC 5LP device for programming mode ™...
  • Page 36 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Figure 27 Crystal oscillator 4.2.13 Potentiometer By default, the board contains a 10K potentiometer connected to AN_B4 pin of MCU. The same signal is connected to a 40-pin expansion header (J24.21). Remove R2 and mount R3 resistor to isolate the signal from the potentiometer.
  • Page 37 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Figure 28 Potentiometer 4.2.14 Reverse voltage protection The following circuit is used to protect the device from reverse supply. The kit includes a necessary reverse voltage protection circuit to prevent damage from the reverse supply to the board.
  • Page 38 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 4 Hardware Figure 29 Reverse voltage protection User guide 002-39385 Rev. *A 2024-12-04...
  • Page 39 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 5 Kit rework Kit rework The PSOC Control C3M5 Evaluation Kit needs to have the following rework to access the peripherals, which are ™ not supported by default. Table 3 for more details. SPI NOR flash The NOR flash U3 (S25FL128LAGMFV013) is accessible through SCB5 by performing the following rework as shown in...
  • Page 40 Note: Infineon’s standard S2GO sensors are voltage tolerant up to 4 V. User should configure the target voltage to 3.3 V (J8, J21) before working with sensor shields on S2GO headers (S2GO1 and S2GO2).
  • Page 41 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 5 Kit rework Figure 32 Shield2Go headers ETM trace and debug header By default, the ETM trace and debug headers are not populated on the kit. Populate the 20-pin ETM standard connector before using a third-party programmer for trace programming. Assemble the Trace, JTAG, and SWD respective resistor pins for functional validation of the ETM trace header interface.
  • Page 42 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 5 Kit rework Figure 33 ETM debug header Antialiasing filter for ADC input To evaluate the ADC pin functionality on the PSOC Control C3M5 Evaluation Kit, an antialiasing filter provision ™ is given for analog signals that are connected to J2 of the Arduino compatible header, J16 of the mikroBUS header, and J8 and J21 of the Shield2Go headers and 40-pin expansion header J24.
  • Page 43 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 5 Kit rework SMA connector (J7, J13) These connectors are used to probe the HRPWM output from the MCU. PERI_HRPWM0 and PERI_HRPWM1 are routed to the SMA connector for better measurement of the signal over the oscilloscope.
  • Page 44 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ 6 Frequently asked questions Frequently asked questions Can the evaluation kit be programmed or debugged through the JTAG interface using an external programmer/debugger through a 10-pin SWD/JTAG (J11) header or a 20-pin ETM/Trace header (J14)? •...
  • Page 45 KIT_PSC3M5_EVK PSOC Control C3M5 Evaluation Kit guide ™ Revision history Revision history Document revision Date Description of changes 2024-05-27 Initial release 2024-12-04 Updated the following: • Safety precautions • Block diagrams in Kit contents Board details section • Board images have been updated to 05 revision, and the board pinout has been revised as per the latest design in the operation...
  • Page 46 Infineon Technologies, Email: erratum@infineon.com Infineon Technologies’ products may not be used in any applications where a failure of the product or any   consequences of the use thereof can reasonably be Document reference expected to result in personal injury.