ST STM32L4R9I-EVAL User Manual
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ST STM32L4R9I-EVAL User Manual

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UM2248
User manual
Evaluation board with STM32L4R9AI MCU
Introduction
The STM32L4R9I-EVAL board is designed as a complete demonstration and development
®
®
platform for the STMicroelectronics Arm
Cortex
-M4 core-based STM32L4R9AI
microcontroller with four I²C buses, three SPI and six USART ports, CAN port, two SAI
ports, 12-bit ADC, 12-bit DAC, internal 640-Kbyte SRAM and 2-Mbyte Flash memory, two
Octo-SPI memory interfaces, touch-sensing capability, USB OTG FS port, LCD-TFT
®
controller, MIPI
DSI host controller, flexible memory controller (FMC), 8- to 14-bit camera
interface and JTAG debugging support.
The STM32L4R9I-EVAL, shown in
Figure
3,
Figure
4, and
Figure
5, is used as a reference
design for user application development before porting to the final product.
The full range of hardware features on the board helps the user to evaluate all the
peripherals (USB, USART, digital microphones, ADC and DAC, TFT LCD, MIPI DSI
SM
display, LDR, SRAM, NOR Flash memory device, Octo-SPI Flash memory device,
microSD™ card, sigma-delta modulators, CAN transceiver, EEPROM) and develop
applications. Extension headers allow easy connection of a daughterboard or wrapping
board for a specific application.
An ST-LINK/V2-1 is integrated on the board, as the embedded in-circuit debugger and
programmer for the STM32 MCU and the USB virtual COM port bridge.
September 2020
UM2248 Rev 4
1/72
www.st.com
1

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Summary of Contents for ST STM32L4R9I-EVAL

  • Page 1 Extension headers allow easy connection of a daughterboard or wrapping board for a specific application. An ST-LINK/V2-1 is integrated on the board, as the embedded in-circuit debugger and programmer for the STM32 MCU and the USB virtual COM port bridge.

  • Page 2: Table Of Contents

    Hardware layout and configuration ......11 STM32L4R9I-EVAL board views ....... 13 Mechanical dimensions .
  • Page 3 STM32L4R9I-EVAL used as a USB device ..... . 26 6.10.2 STM32L4R9I-EVAL used as a USB host ......27 6.10.3 Limitations in using USB OTG FS port .
  • Page 4 CN20 TFT LCD connector (RGB) ......61 7.17 CN21 ST-LINK/V2-1 USB Micro-B connector ..... 61 4/72...
  • Page 5 Appendix A I/O assignment ......... . 63 STM32L4R9I-EVAL board information ......69 Product marking .
  • Page 6 STM32L4R9I-EVAL I/O assignment ........
  • Page 7 STM32L4R9I-EVAL hardware block diagram ........11...

  • Page 8: Features

    Extension connector for the daughterboard – Motor-control connector on the daughterboard • Flexible power-supply options: power jack, ST-LINK/V2-1 USB connector, a. Arm is a registered trademark of Arm Limited (or its subsidiaries) in the US and/or elsewhere. 8/72 UM2248 Rev 4...

  • Page 9: Ordering Information

    Support of a wide choice of integrated development environments (IDEs) including IAR ® Embedded Workbench , MDK-ARM, and STM32CubeIDE Ordering information To order the STM32L4R9I-EVAL Evaluation board, refer to Table 1. Additional information is available from the datasheet and reference manual of the target STM32. Table 1. Ordering information...

  • Page 10: Development Environment

    The latest versions of the demonstration source code and associated documentation can be downloaded from www.st.com. Delivery recommendations Before the first use, make sure that no damage occurred to the boards during shipment and no socketed components are loosen in their sockets or fallen into the plastic bag.

  • Page 11: Hardware Layout And Configuration

    Figure Figure 4, and Figure 5 are the three images showing the STM32L4R9I-EVAL board top view with round DSI display, top view with TFT LCD, and bottom view. Figure 1. STM32L4R9I-EVAL hardware block diagram 3.3 V 1.8 V VDD ADJ...

  • Page 12: Figure 2. Stm32L4R9I-Eval Board (Top Side)

    Hardware layout and configuration UM2248 Figure 2. STM32L4R9I-EVAL board (top side) 12/72 UM2248 Rev 4...

  • Page 13: Stm32L4R9I-Eval Board Views

    UM2248 Hardware layout and configuration STM32L4R9I-EVAL board views Figure 3. STM32L4R9I-EVAL board (top view) with round DSI display MB1314 daughterboard Picture is not contractual UM2248 Rev 4 13/72...

  • Page 14: Figure 4. Stm32L4R9I-Eval Board (Top View) With Tft Lcd Mb1315 Daughterboard

    Hardware layout and configuration UM2248 Figure 4. STM32L4R9I-EVAL board (top view) with TFT LCD MB1315 daughterboard Picture is not contractual 14/72 UM2248 Rev 4...

  • Page 15: Figure 5. Stm32L4R9I-Eval Board (Bottom View)

    UM2248 Hardware layout and configuration Figure 5. STM32L4R9I-EVAL board (bottom view) Picture is not contractual UM2248 Rev 4 15/72...

  • Page 16: Mechanical Dimensions

    Hardware layout and configuration UM2248 Mechanical dimensions Figure 6. MB1313 STM32L4R9I-EVAL board 16/72 UM2248 Rev 4...

  • Page 17: St-Link/V2-1

    Hardware layout and configuration Figure 7. MB1314 DSI display daughterboard ST-LINK/V2-1 ST-LINK/V2-1 facility for debugging and flashing of the STM32L4R9AII6 is integrated on the STM32L4R9I-EVAL board. Compared to the ST-LINK/V2 stand-alone tool available from STMicroelectronics, ST- LINK/V2-1 offers new features and drops some others.

  • Page 18: Drivers

    6.3.1 Drivers Before connecting STM32L4R9I-EVAL to a Windows (XP, 7, 8 10) PC via USB, a driver for ST-LINK/V2-1 must be installed. It is available from www.st.com. In case the STM32L4R9I-EVAL board is connected to the PC before installing the driver, the Windows device manager may report some USB devices found on STM32L4R9I-EVAL as “Unknown”.

  • Page 19: Power Supply

    Flash memory usable capacity is reduced to 16 Mbits. Power Supply The STM32L4R9I-EVAL board is designed to be powered from 5 V DC power source. It incorporates a precise polymer Zener diode (Poly-Zen) protecting the board from damage due to the wrong power supply. One of the following four 5 V DC power inputs is usable with an appropriate board configuration: •...

  • Page 20: Supplying The Board Through St-Link/V2-1 Usb Port

    100 mA. It is enough because only the ST-LINK/V2-1 part of STM32L4R9I-EVAL draws power at that time. If the SB33 solder bridge is open, the U22 ST890 power switch is set in the OFF position, which isolates the remainder of STM32L4R9I-EVAL from the power source.

  • Page 21: Table 4. Power Supply Related Jumpers Settings

    Configuration bridge STM32L4R9I-EVAL is supplied through the CN18 power jack (marked PSU_DC5V). CN5 and CN6 extension connectors do not pass the 5 V of STM32L4R9I-EVAL to the daughterboard. STlk STM32L4R9I-EVAL is supplied through the CN3 Micro-AB USB connector. CN5 and CN6 extension connectors do not pass the 5 V of STM32L4R9I-EVAL to the daughterboard.

  • Page 22: Clock References

    USB charger) 1. On all ST-LINK/V2-1 boards, the target application is now able to run even if the ST-LINK/V2-1 is either not connected to a USB host, or is powered through a USB charger (or through a not-enumerating USB host).

  • Page 23: Reset Sources

    Closed R65 must be removed, in order not to disturb clock reference or source on the daughterboard. Reset sources The reset signal of the STM32L4R9I-EVAL board is active LOW. Sources of reset are listed below: • reset button B2 •...

  • Page 24: Bootloader Limitations

    The bootloader version is identified by reading the Bootloader ID at the address 0x1FFF6FFE: the content is 0x91 for bootloader V9.1 and 0x92 for V9.2. The STM32L4R9AII6 part soldered on the STM32L4R9I-EVAL main board is marked with a date code corresponding to its date of manufacturing. STM32L4R9AII6 parts with a date code prior or equal to week 37 of 2017 are fitted with bootloader V9.1 affected by the...

  • Page 25: Audio

    There are two digital microphones on the STM32L4R9I-EVAL board. 6.9.1 Digital microphones U30 and U31 on the STM32L4R9I-EVAL board are MP34DT01TR MEMS digital omnidirectional microphones providing PDM (pulse density modulation) outputs. To share the same data line, their outputs are interlaced. The combined data output of the microphones is directly routed to STM32L4R9AII6 terminals, thanks to the integrated input digital filters.

  • Page 26: Headphones Outputs

    The resistor R23 must be left open to prevent STM32L4R9I-EVAL from sourcing 5 V to the terminal, which would cause conflict with the 5 V sourced by the USB host. This may happen if the MFX_GPIO6 is controlled by the software of the MFX MCU such that, it enables the output of the U2 power switch.

  • Page 27: Stm32L4R9I-Eval Used As A Usb Host

    When a “USB device” connection to the CN3 Micro-AB USB connector is detected, the STM32L4R9I-EVAL board starts behaving like a “USB host”. It sources 5 V on the V terminal of the CN3 Micro-AB USB connector to power the USB device. For this to happen, the STM32L4R9AII6 sets the U2 power switch STMPS2151STR to ON state.

  • Page 28: Motor Control

    Hardware layout and configuration UM2248 6.13 Motor control The CN1 connector is designed to receive a motor-control (MC) module. Table 9 shows the assignment of CN1 and STM32L4R9AII6 terminals. Table 9 also lists the modifications to be made on the board versus its by-default configuration.
  • Page 29 UM2248 Hardware layout and configuration Table 9. Motor-control terminal and function assignment (continued) CN1 motor-control STM32L4R9AII6 microcontroller connector Alternate Terminal Port Board modifications for Terminal Function name name enabling motor control function Close SB37. PhaseB ADC1_IN2 current+ Remove R244. PhaseB current- Close SB43.

  • Page 30: Board Modifications To Enable Motor Control

    Hardware layout and configuration UM2248 Table 9. Motor-control terminal and function assignment (continued) CN1 motor-control STM32L4R9AII6 microcontroller connector Alternate Terminal Port Board modifications for Terminal Function name name enabling motor control function Close SB17. Remove SB18. Encoder B TIM4_CH2 ADC12_IN Remove R30 or no daughterboard.

  • Page 31: Figure 9. Pcb Top-Side Rework For Motor Control

    UM2248 Hardware layout and configuration Figure 9. PCB top-side rework for motor control UM2248 Rev 4 31/72...

  • Page 32: Figure 10. Pcb Bottom-Side Rework For Motor Control

    Hardware layout and configuration UM2248 Figure 10. PCB bottom-side rework for motor control 32/72 UM2248 Rev 4...

  • Page 33: Can

    CAN_TX is used from the STM32L4R9AII6 terminal. 6.14.1 Limitations CAN operation is exclusive with the audio codec and MC operation. 6.14.2 Operating voltage The supply voltage for STM32L4R9I-EVAL CAN operation must be within the range from 3.0 V to 3.6 V. UM2248 Rev 4 33/72...

  • Page 34: Extension Connectors Cn5, Cn6, Cn13, And Cn14

    Each LED is ON with a low level of the corresponding ports of STM32L4R9AII6. And the four LEDs are exclusive with MC operation. 6.17 Physical input devices The STM32L4R9I-EVAL board provides several input devices for physical human control, listed below: • four-way joystick controller with select key (B1) •...

  • Page 35: Limitations

    Operational amplifier STM32L4R9AII6 provides two onboard operational amplifiers, one of which, OpAmp1, is made accessible on STM32L4R9I-EVAL. OpAmp1 has its inputs and its output routed to I/O ports PA0, PA1, and PA3, respectively. The non-inverting input PA0 is accessible on the terminal 1 of the JP5 jumper header.

  • Page 36: Comparator

    STM32L4R9AII6 provides two onboard comparators, one of which, Comp2, is made accessible on STM32L4R9I-EVAL. Comp2 has its non-inverting input and its output routed to I/O ports PB4 and PB5, respectively. The input is accessible on the terminal 3 of the JP5 jumper header.

  • Page 37: Limitations

    IS61WV102416BLL, a 16-Mbit static RAM (SRAM), 1 M x 16 bit, is fitted on the STM32L4R9I-EVAL main board, in U17 position. The STM32L4R9I-EVAL main board, as well as the addressing capabilities of FMC, allow hosting SRAM devices up to 64 Mbytes. This is the reason why the schematic diagram mentions several SRAM devices.

  • Page 38: Limitations

    NOR Flash memory device M29W128GL70ZA6E, a 128-Mbit NOR Flash memory, 8 M x16 bit, is fitted on the STM32L4R9I-EVAL main board, in U11 position. The STM32L4R9I-EVAL main board, as well as the addressing capabilities of FMC, allow hosting M29W256GL70ZA6E, a 256-Mbit NOR Flash memory device.

  • Page 39: Operating Voltage

    M24128-DFDW6TP, a 128-Kbit I²C-bus EEPROM device, is fitted on the main board of STM32L4R9I-EVAL, in U3 position. It is accessed with I²C-bus lines I2C2_SCL and I2C2_SDA of STM32L4R9AII6. It supports all I²C-bus modes with speeds up to 1 MHz. The base I²C-bus address is 0xA0.

  • Page 40: Limitations

    2.7 V to 3.6 V. 6.25 Octo-SPI DRAM device IS66WVH8M8BLL-100BLI, a 64-Mbit self-refresh dynamic RAM (DRAM) device with a HyperBus interface, is fitted on the STM32L4R9I-EVAL main board, in U5 position. It allows the evaluation of the STM32L4R9AII6 Octo-SPI interface. 6.25.1 Operating voltage The voltage of the Octo-SPI DRAM device IS66WVH8M8BLL-100BLI is in the range of 2.7 V to 3.6 V.

  • Page 41: Table 17. Touch-Sensing-Related Configuration Elements

    UM2248 Hardware layout and configuration An active shield is designed in layer 2 of the main PCB, under the button footprint. It allows reducing disturbances from other circuits to prevent false touch detections. The active shield is connected to the PB6 port of STM32L4R9AII6 through the resistor R22. The related charge capacitor is connected to PB7.

  • Page 42: Limitations

    MFX MCU The MFX MCU is used as MFX (multi-function expander) and IDD measurement. The MFX circuit on the STM32L4R9I-EVAL board acts as IO-expander. The communication interface between MFX and STM32L4R9AII6 is the I2C2 bus. The signals connected to MFX...

  • Page 43: Idd Measurement

    MCU supply voltage (VDD_MCU line) does not exceed 3.3 V. This is because there are components on STM32L4R9I-EVAL supplied from 3.3 V that communicate with the MCU through I/O ports. Voltage exceeding 3.3 V on the MCU output port may inject current into 3.3 V-supplied peripheric I/Os and false the MCU current consumption measurement.

  • Page 44: Limitations

    Hardware layout and configuration UM2248 Table 20. CN16 DSI display module connector Pin No. Description Pin connection Pin No. Description Pin connection DSI_CK_P DSI_INT DSI_CK_N DSI_D0_P DSI_D0_N DSI_D1_P DSI_D1_N BLVDD (5 V) SPI_CS PG12 BLVDD (5 V) SPI_CLK/UART_CK PI1/PG13 SPI_SDI/UART_TX PI3/PB6 BLGND SPI_DCX...

  • Page 45: Tft Lcd (Rgb And Fmc Mode) Connector

    TFT LCD (RGB and FMC mode) connector The CN20 50-pin 1.27 mm-pitch female connector is designed to connect TFT LCD daughterboard, supporting RGB and FMC modes. MB1315 daughterboard is available to mount on the STM32L4R9I-EVAL board with RGB mode. Table 21 shows the assignment of CN20 and STM32L4R9AII6 terminals.

  • Page 46: Limitations

    TFT LCD is used, STM32L4R9AII6 cannot access onboard SRAM and NOR Flash memory. 6.31 PMOD connector The P1 PMOD-standard connector is available on the STM32L4R9I-EVAL board to support flexibility in small form factor applications. The PMOD connector implements the PMOD type 2A and 4A on the STM32L4R9I-EVAL board.

  • Page 47: Mb1315 Tft Lcd Board

    MB1315 TFT LCD board MB1315 is the TFT LCD daughterboard supporting RGB mode, available to mount on the STM32L4R9I-EVAL board via CN1 connector. The 4.3” TFT LCD uses LCD RK043FN48H-CT672B with a capacitive touch panel which only supports 3.3 V power and interface. So a level shifter SN74LVC16T245DGGR is requested on TFT RGB LCD daughterboard to support a wide power supply range.

  • Page 48: Table 24. Pin Function Description Of The Cn1 Mb1315 Board Connector

    Hardware layout and configuration UM2248 Table 24. Pin function description of the CN1 MB1315 board connector Pin number Description Pin number Description LCD_DSIP HSYNC VSYNC PCLK RST# BL_CTRL BL+5 V BLGND BLGND +3.3 V 48/72 UM2248 Rev 4...

  • Page 49: Connectors

    UM2248 Connectors Connectors CN1 motor-control connector Figure 11. CN1 motor-control connector (top view) MSv46051V1 Table 25. CN1 motor-control connector Pin of Pin of Description number number Description STM32L4R9AII6 STM32L4R9AII6 of CN1 of CN1 Emergency STOP PWM_1H PWM_1L PH13 PWM_2H PWM_2L PH14 PWM_3H PWM_3L...

  • Page 50: Cn2 External I 2 C Connector

    Connectors UM2248 CN2 external I C connector Figure 12. CN2 EXT_I2C connector (front view) MS30715V2 Table 26. CN2 EXT_I2C connector Pin number Description Pin number Description I2C1_SDA (PH5) I2C_SCL (PH4) EXT_RESET (MFX_GPIO8) CN3 USB OTG FS Micro-AB connector Figure 13. CN3 USB OTG FS Micro-AB connector (front view) Table 27.

  • Page 51: Cn4 Analog Input-Output Connector

    UM2248 Connectors CN4 analog input-output connector Figure 14. CN4 analog input-output connector (top view) MSv46052V1 Table 28. CN4 analog input-output connector Pin number Description Pin number Description Analog input-output PA4 CN5, CN6, CN13, and CN14 extension connectors All GPIO signals from STM32L4R9AII6 are connected to CN5, CN6, CN13, and CN14 extension connectors.

  • Page 52: Table 30. Cn6 Daughterboard Extension Connector

    Connectors UM2248 Table 29. CN5 daughterboard extension connector (continued) How to disconnect alternative functions to Description Alternative functions number use on the extension connector OCTO-SPI2_IO3 Remove U5. PH10 OCTO-SPI2_IO5 Remove U5. OCTO-SPI2_NCS Remove U5. PH12 OCTO-SPI2_IO7 Remove U5. OCTO-SPI2_CLK Remove U5. PG15 OCTO-SPI2_DQS Remove U5.
  • Page 53 UM2248 Connectors Table 30. CN6 daughterboard extension connector (continued) How to disconnect alternative functions to Description Alternative functions number use on the extension connector PA11 USB OTG_DM No connection for CN3 LPUART1_RX Remove U9. VBUS_FS, MC Remove R203, open SB35. SDIO1_D1, Trace_D0 Remove R205, open SB57.

  • Page 54: Table 31. Cn13 Daughterboard Extension Connector

    Connectors UM2248 Table 30. CN6 daughterboard extension connector (continued) How to disconnect alternative functions to Description Alternative functions number use on the extension connector OCTO-SPI1_NCS Remove U6. Table 31. CN13 daughterboard extension connector How to disconnect alternative functions to Description Alternative functions number use on the extension connector...

  • Page 55: Table 32. Cn14 Daughterboard Extension Connector

    UM2248 Connectors Table 31. CN13 daughterboard extension connector (continued) How to disconnect alternative functions to Description Alternative functions number use on the extension connector FMC_A22 Keep CN12 open. FMC_A0 DFSDM, MC Remove R242, open SB36. SAI1, MC Remove R244, open SB37. FMC_A3 FMC_A14 FMC_A11...
  • Page 56 Connectors UM2248 Table 32. CN14 daughterboard extension connector (continued) How to disconnect alternative functions to Description Alternative functions number use on the extension connector FMC_D4 PE14 FMC_D11 PE15 FMC_D12 Do not use CN11, CN12, CN15, and CN17 for PA13 JTAG_TMS/SWDIO debug connector.

  • Page 57: Cn7 Rs232 Connector

    UM2248 Connectors CN7 RS232 connector Figure 15. RS232 D-sub male connector (front view) MS30720V1 Table 33. RS232 D-sub male connector Pin number Description Description number RS232_RX (PG8) RS232_RTS (PB12) RS232_TX (PG7) RS232_CTS (PB13) CN8 microSD™ connector Figure 16. CN8 microSD™ connector (top view) UM2248 Rev 4 57/72...

  • Page 58: Cn9 Mfx Programming Connector

    Connectors UM2248 Table 34. CN8 microSD™ connector Description Description number number SDIO_D2 (PC10) Vss/GND SDIO_D3 (PC11) SDIO_D0 (PC8) SDIO_CMD (PD2) SDIO_D1 (PC9) SDIO_CLK (PC12) MicroSDcard_detect (MFX GPIO15) CN9 MFX programming connector The CN9 connector is used only for embedded MFX (multi-function expander) programming during board manufacture.

  • Page 59: Cn12 Trace Debugging Connector

    UM2248 Connectors 7.10 CN12 trace debugging connector Figure 18. CN12 ETM trace debugging connector (top view) MS30722V2 Table 36. CN12 trace debugging connector Description Description number number +3.3 V TMS/PA13 TCK/PA14 TDO/PB3 TDI/PA15 RESET# Trace_CLK/PE2 Trace_D0/PC9 or SWO/PB3 Trace_D1/PC10 or nTRST/PB4 Trace_D2/PE5 Trace_D3/PE6 7.11...

  • Page 60: Cn16 Dsi Display Connector (Mipi)

    Connectors UM2248 7.12 CN16 DSI display connector (MIPI) A TFT color LCD with the MIPI DSI interface board is mounted on CN16. Refer to Section 6.29 for detail. 7.13 CN17 JTAG connector Figure 19. CN17 JTAG/SWD debugging connector (top view) MSv30722V2 Table 38.

  • Page 61: Cn18 Power Connector

    UM2248 Connectors 7.14 CN18 power connector The STM32L4R9I-EVAL board is power-able with a DC 5 V power supply via the external power supply jack (CN18) shown in Figure 20. The central pin of CN18 must be positive. Figure 20. CN18 power-supply connector (front view)

  • Page 62: Cn22 Can D-Type Male Connector

    Connectors UM2248 Table 39. CN21 USB Micro-B connector (front view) (continued) Pin number Description Pin number Description Shield 7.18 CN22 CAN D-type male connector Figure 22. CN22 CAN D-type 9-pin male connector (front view) MS30720V1 Table 40. CN22 CAN D-type 9-pin male connector Pin number Description Pin number...

  • Page 63: Appendix A I/O Assignment

    UM2248 I/O assignment Appendix A I/O assignment Table 41. STM32L4R9I-EVAL I/O assignment Primary UFBGA RGB LCD with Motor-control Pin name Pinout assignment 169 DSI FMC mode connector DSI_CKN DSI_CKP DSI_D0N DSI_D0P DSI_D1N DSI_D1P VCAPDSI [L13] VDD12DSI [L13] VDD12DSI VSSDSI VSSDSI...
  • Page 64 I/O assignment UM2248 Table 41. STM32L4R9I-EVAL I/O assignment (continued) Primary UFBGA RGB LCD with Motor-control Pin name Pinout assignment 169 DSI FMC mode connector JTDO/TRACESWO NJTRST || COMP2_INP SAI1_SD_B || COMP2_OUT TSC_G2_IO3 || USART1_TX Encoder A TSC_G2_IO4 Encoder B SAI1_MCLK_A || CAN1_RX...
  • Page 65 UM2248 I/O assignment Table 41. STM32L4R9I-EVAL I/O assignment (continued) Primary UFBGA RGB LCD with Motor-control Pin name Pinout assignment 169 DSI FMC mode connector FMC_NWE LCD_NWE FMC_NWAIT LCD_DE FMC_NE1 FMC_D13 LCD_R3 FMC_D14 LCD_R4 PD10 FMC_D15 LCD_R5 PD11 FMC_A16 LCD_R6 PD12...
  • Page 66 I/O assignment UM2248 Table 41. STM32L4R9I-EVAL I/O assignment (continued) Primary UFBGA RGB LCD with Motor-control Pin name Pinout assignment 169 DSI FMC mode connector PF11 DSI_TE/LCD_DE PF12 FMC_A6 PF13 FMC_A7 LCD_B1 PF14 FMC_A8 LCD_G0 PF15 FMC_A9 LCD_G1 FMC_A10 FMC_A11 FMC_A12...
  • Page 67 UM2248 I/O assignment Table 41. STM32L4R9I-EVAL I/O assignment (continued) Primary UFBGA RGB LCD with Motor-control Pin name Pinout assignment 169 DSI FMC mode connector SPI2_NSS SPI2_SCK SPI2_MISO SPI2_MOSI MC_EmergencyST Audio_INT OCTOSPIP2_NCS OCTOSPIP2_CLK OCTOSPIP2_IO2 PI10 OCTOSPIP2_IO1 PI11 OCTOSPIP2_IO0 VBAT VDDDSI VDDA...
  • Page 68 I/O assignment UM2248 Table 41. STM32L4R9I-EVAL I/O assignment (continued) Primary UFBGA RGB LCD with Motor-control Pin name Pinout assignment 169 DSI FMC mode connector 68/72 UM2248 Rev 4...

  • Page 69: Stm32L4R9I-Eval Board Information

    Any consequences deriving from such usage will not be at ST charge. In no event, ST will be liable for any customer usage of these engineering sample tools as reference design or in production.

  • Page 70: Board Revision History

    STM32L4R9I-EVAL board information UM2248 Board revision history MB1313 Revision B01 The revision B-01 is the initial release. MB1314 Revision B01 The revision B-01 is the initial release. Revision C01 CN2 changed to BM20B(0.8)-24DS-0.4V(51) MB1315 Revision A01 The revision A-01 is the initial release.

  • Page 71: Revision History

    Revision history Revision history Table 42. Document revision history Date Revision Changes 18-Aug-2017 Initial version Added: STM32L4R9I-EVAL board bottom view in Figure 5 Bootloader limitation in Chapter 9.8.1 Warning on AMOLED display in Chapter 9.32 25-Oct-2017 Updated: Cover views Figure 3...
  • Page 72 ST products and/or to this document at any time without notice. Purchasers should obtain the latest relevant information on ST products before placing orders. ST products are sold pursuant to ST’s terms and conditions of sale in place at the time of order acknowledgement.

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