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Related Manuals for NXP Semiconductors S32M24xEVB-L064
Summary of Contents for NXP Semiconductors S32M24xEVB-L064
- Page 1 S32M24xEVB-L064 Evaluation Board for S32M24x LIN MCUs Hardware User Manual S32M24X-EVB L064 HWUM All Information provided in this document is subject to legal disclaimers © NXP B.V. 2024. All rights reserved REV A1 – 01/2024 NXP Semiconductors Page 1 of 22...
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Page 2: Table Of Contents
S32M24xEVB-L064 – VDDC_MCU ........................9 Motor Control Interface ............................... 10 S32M24xEVB-L064 – Programming and Debug Interface ..................12 S32M24xEVB-L064 – RESET switch and led indicator ................... 12 S32M24xEVB-L064 – On-board Debugger ....................... 13 S32M24xEVB-L064 – CAN PHY ..........................14 S32M24xEVB-L064 – LIN PHY ..........................15 S32M24xEVB-L064 –... -
Page 3: Definitions, Acronyms, And Abbreviations
Thin Film Transistor. UART Universal Asynchronous Receiver/Transmitter. Universal Serial Bus. S32M24X-EVB L064 HWUM All Information provided in this document is subject to legal disclaimers © NXP B.V. 2024. All rights reserved REV A1 – 01/2024 NXP Semiconductors Page 3 of 22... -
Page 4: S32M24Xevb-L064 - Block Diagram
VSSC UART_RX VSSA NXP TJA1462 CONNECTOR UART_TX Figure 1. S32M24xEVB-L064 – Block diagram S32M24X-EVB L064 HWUM All Information provided in this document is subject to legal disclaimers © NXP B.V. 2024. All rights reserved REV A1 – 01/2024 NXP Semiconductors... -
Page 5: S32M24Xevb-L064 - Features
• Before the S32M24xEVB-L064 Evaluation board is used or power is applied, please fully read this user manual. An incorrect configuration in the board may cause a irreparable damage on the component, MCU or EVB. Power must be removed from the EVB prior to:... -
Page 6: S32M24Xevb-L064 - Default Configuration
5. S32M24xEVB-L064 – Default Configuration Table 1. S32M24xEVB-L064 - Default Configuration Reference / Default Interface Description/Comment Signal Configuration S32M244L_64LQFP S32M246 PTC2 PTC2/LPUART0_RX is routed to NTS0102GD terminal B1 for serial interface to OnBoard K26FN2M0VMI18 Debugger PTC3 PTC3/LPUART0_TX is routed to NTS0102GD terminal B2 for serial interface to... -
Page 7: Power Supplies Options - Overview
BOM of materials. However, In order to reduce MCU power consumption and minimize potential thermal issues, VPRE is generated using the Gate Control pin to reduce the VSUP voltage to 6 volts and thus supply VPRE. 7.1 S32M24xEVB-L064 – Main Power Supply Figure 4.S32M24xEVB-L064– Main power supply input S32M24X-EVB L064 HWUM All Information provided in this document is subject to legal disclaimers ©... -
Page 8: Reference Position
TP10 CON_2_TB 0603 S32M2xx_BST page[4] CON 1X2 TB TH 5MM SP 394H -- Figure 5. S32M24xEVB-L064– Main power supply input Table 4. S32M24xEVB-L064 – VSUP jumpers description. Reference Position Interface Description / Comments (Option A) This jumper configuration routes the output from the fuse... -
Page 9: S32M24Xevb-L064 - Vpre
GCTL pin) or generated by a PMC internal regulator. VPRE is always powered (FPM and LPM). An external bypass capacitor in the range from 2.2uF to 4.7uF is required. Figure 6. S32M24xEVB-L064– VPRE generated with FET 7.3 S32M24xEVB-L064 VDD_AE10, VDD, VDDA The VDD_AE10 pin belongs to the analog die side and provides energy to the microcontroller over the VDD pin. -
Page 10: Motor Control Interface
7.6 S32M24xEVB-L064 – VDDE VDDE is a configurable source which can be used in two modes: digital mode, and analog mode. When used in analog mode, the VDDE pin can drive a strong VDD voltage or a weak GND. In the digital mode, can be set for CANPHY_TX, LINPHY_TX, or not used and not driven. - Page 11 VBS pins internally. The outputs from the MOSFETs to the motor are connected to J47. Figure 8.S32M24xEVB-L064– Motor Control Interface Table 6.- S32M24xEVB-L064 Motor control out Connector Reference...
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Page 12: S32M24Xevb-L064 - Programming And Debug Interface
9. S32M24xEVB-L064 – Programming and Debug Interface 9.1 S32M24xEVB-L064 – RESET switch and led indicator The RESET switch [SW1] provides an input signal for manual application RESET. The S32M2 MCU will drive the RESET signal to the reset pins in the EVB [PTA5 and RESET]. The RESET LED indicator [D10] will be ON for the duration of the RESET signal. -
Page 13: S32M24Xevb-L064 - On-Board Debugger
9.2 S32M24xEVB-L064 – On-board Debugger The S32M24xEVB-L064 incorporates an On-Board Debugger (the MK26FN2M0VMI18) as well as embedded JTAG connector [J27]. It bridges serial and debug communications between an USB host and an embedded target processor. Figure 11. S32M24xEVB-L064– On-board Debugger... -
Page 14: S32M24Xevb-L064 - Can Phy
The EVB incorporates a CAN interface connected to the S32M24 MCU. Using an NXP CAN transceiver the TJA1462 enables both interfaces in this EVB, the output of this transceiver is connected to J50. Figure 13. S32M24xEVB-L064 – CAN Interface S32M24X-EVB L064 HWUM All Information provided in this document is subject to legal disclaimers ©... -
Page 15: S32M24Xevb-L064 - Lin Phy
Figure 14. S32M24xEVB-L064– CAN PHY S32M24xEVB-L064 – LIN PHY The S32M24xEVB-L064 incorporates internally a LIN interface but is necessary connect the passive components at the output pin LIN. The connection in the EVB supports both master and slave mode (jumper selectable).That signals are connected to J53 and J54 respectively. - Page 16 Figure 15. S32M24xEVB-L064– LIN Interface Table 9.- S32M24xEVB-L064 LIN Connector Connector Reference Signal/Connection Number VBAT VBAT S32M24X-EVB L064 HWUM All Information provided in this document is subject to legal disclaimers © NXP B.V. 2024. All rights reserved REV A1 – 01/2024...
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Page 17: S32M24Xevb-L064 - User Peripherals
Color Default USER_LED0 PTD15 USER_LED1 PTD16 Figure 17. S32M24xEVB-L064– User LED indicators S32M24X-EVB L064 HWUM All Information provided in this document is subject to legal disclaimers © NXP B.V. 2024. All rights reserved REV A1 – 01/2024 NXP Semiconductors Page 17 of 22... -
Page 18: S32M24Xevb-L064 - User Push Buttons
USER_LED1 BC847B R163 Figure 18. S32M24xEVB-L064– User LED indicators 12.2 S32M24xEVB-L064 – User Push buttons There are 2 push-buttons active high (pulled low, driven to VDD_MCU_PERH), the push button switches (SW2 and SW3) are connected to MCU ports. The switches are connected as follows: Table 11. - Page 19 Figure 19. S32M24xEVB-L064– User Push buttons VDD_MCU_PERH 1825967-2 TP171 TP170 T PAD_040 T PAD_040 SILK = USER_SW 0 R198 USER_SW0 page[4] R157 0.22UF 0.22UF 0402 0402 VDD_MCU_PERH 1825967-2 TP173 TP172 T PAD_040 T PAD_040 SILK = USER_SW 1 R160 USER_SW1...
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Page 20: S32M24Xevb-L064 - Adc Rotary Potentiometer
12.3 S32M24xEVB-L064 – ADC Rotary Potentiometer The EVB incorporates an ADC Rotary Potentiometer (which routes a voltage between 0v to VDD_MCU_PERH) connected to an ADC Input Channel of the S32M24 Microcontroller after a low band filter in order to avoid noise in the signal, specifically ADC1_SE11. -
Page 21: S32M24Xevb-L064 - Revision History
S32M24xEVB-L064 – Revision history Table 13. Revision history Schematic/ Document Schematic/ Board Date Changes Author Board Revision Revision Number 02/2023 54842 Internal version Luis Rico 01/2024 54842 Release Luis Rico 02/2024 54842 Document format and block diagram in the Figure 1 updated... -
Page 22: Legal Information
Terms and conditions of commercial sale of NXP Semiconductors. 14.3 Trademarks Right to make changes — NXP Semiconductors reserves the right to make changes to information published in this document, Notice: All referenced brands, product names, service names and including without limitation specifications and product descriptions, trademarks are the property of their respective owners.
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