UM2035 User manual - keilpack.azureedge.net€¦ · STM32F769I-EVAL. 5 Delivery recommendations Before using the board for the first time, the user should check that it has not been

May 2016 DocID029087 Rev 1 1/75

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UM2035 User manual

Evaluation board with STM32F769NI MCU

Introduction

The STM32F769I-EVAL evaluation board is a complete demonstration and development platform for STMicroelectronics ARM® Cortex®-M7 core-based STM32F769NI microcontrollers. It features the following interfaces: four I2Cs, six SPIs with three multiplexed full-duplex I2S, SDIO, two SAIs, 8-bit to 14-bit digital camera, Ethernet MAC, FMC, Quad-SPI. It also features four USARTs and four UART peripherals, two CANs, three 12-bit ADC converters, two 12-bit DAC channels, internal 512 Kbytes of SRAM + 16 Kbytes of instruction TCM RAM + 4 Kbytes of backup SRAM and 2 Mbytes of Flash memory, USB OTG HS and USB OTG FS peripherals, SWD and JTAG debugging support. This evaluation board can be used as a reference design for user application development but it is not considered as a final application.

The full range of hardware features on the board helps the user to evaluate all the peripherals (USB OTG HS, USB OTG FS, Ethernet, motor control, microSD card, USART, audio DAC and ADC, digital microphone, CAN, SRAM, NOR Flash, SDRAM, Quad SPI Flash, 4" DSI LCD with capacitive touch panel etc.) and develop applications. Extension headers make it possible to easily connect a daughterboard for a specific application.The integrated ST-LINK/V2-1 provides an embedded in-circuit debugger and programmer for the STM32.

Figure 1. STM32F769I-EVAL evaluation board

1. Picture not contractual.

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Contents UM2035

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Contents

1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

2 Demonstration software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

3 Product marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

4 Ordering information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

5 Delivery recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

6 Hardware layout and configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

6.1 Embedded ST-LINK/V2-1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

6.1.1 Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

6.1.2 ST-LINK/V2-1 firmware upgrade . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

6.2 Power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

6.3 Clock source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15

6.4 Reset source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

6.5 Boot option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

6.6 Audio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17

6.7 USB OTG1 FS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

6.8 USB OTG2 HS and FS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

6.9 RS-232 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

6.10 microSD cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

6.11 CAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21

6.12 Ethernet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21

6.13 Memories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22

6.14 Quad-SPI NOR Flash . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23

6.15 Analog input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23

6.16 Camera module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24

6.17 Display and input devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24

6.18 Motor control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25

6.19 Multi-Function expander . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27

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7 Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

7.1 Motor control connector CN1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

7.2 I2C connector CN2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29

7.3 Analog input-output connector CN3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29

7.4 Camera module connector CN4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30

7.5 Daughterboard extension connectors CN5 and CN6 . . . . . . . . . . . . . . . . 31

7.6 RS-232 connector CN7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35

7.7 USB OTG2 HS Micro-AB connector CN8 . . . . . . . . . . . . . . . . . . . . . . . . 36

7.8 Ethernet RJ45 connector CN9 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36

7.9 Memory connector CN10 and CN11 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

7.10 ETM trace debugging connector CN12 . . . . . . . . . . . . . . . . . . . . . . . . . . 40

7.11 USB OTG1 FS Micro-AB connector CN13 . . . . . . . . . . . . . . . . . . . . . . . . 40

7.12 USB OTG2 FS Micro-AB connector CN14 . . . . . . . . . . . . . . . . . . . . . . . . 41

7.13 JTAG/SWD connector CN16 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41

7.14 microSD connectors CN17 and CN30 . . . . . . . . . . . . . . . . . . . . . . . . . . . 42

7.15 Power connector CN19 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43

7.16 ST-LINK/V2-1 programming connector CN20 . . . . . . . . . . . . . . . . . . . . . 43

7.17 MFX programming connector CN21 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44

7.18 ST-LINK/V2-1 USB Micro-B connector CN22 . . . . . . . . . . . . . . . . . . . . . 44

7.19 MEMS microphone coupon connectors CN24 and CN25 . . . . . . . . . . . . 44

7.20 CAN D-type 9-pin male connector CN26 . . . . . . . . . . . . . . . . . . . . . . . . . 45

7.21 Audio jack (speaker) CN27 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45

7.22 Audio jack CN28 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45

7.23 SPDIF IN connector CN29 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46

Appendix A STM32F769I-EVAL I/O assignment. . . . . . . . . . . . . . . . . . . . . . . . . . 47

Appendix B Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54

List of tables UM2035

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List of tables

Table 1. Power-supply-related jumper settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Table 2. 25 MHz crystal X1 related solder bridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Table 3. 32 KHz crystal X2 related solder bridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Table 4. Boot related switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Table 5. Boot related jumpers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Table 6. Audio related jumpers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17Table 7. USB OTG2 function configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Table 8. USART1 related jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20Table 9. CAN related jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21Table 10. Ethernet related jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22Table 11. Ethernet related solder bridges. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22Table 12. NOR Flash related jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23Table 13. DSI LCD modules connector (CN15) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24Table 14. Motor control related solder bridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26Table 15. MFX signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27Table 16. Motor control connector CN1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28Table 17. I2C connector CN2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Table 18. Analog input-output connector CN3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Table 19. Camera module connector CN4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30Table 20. Daughterboard extension connector CN5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Table 21. Daughterboard extension connector CN6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33Table 22. RS-232 connector CN7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Table 23. USB OTG HS Micro-AB connector CN8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36Table 24. RJ45 connector CN9 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36Table 25. Memory connector CN10 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37Table 26. Memory connector CN11 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38Table 27. ETM trace debugging connector CN12 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40Table 28. USB OTG1 FS Micro-AB connector CN13 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Table 29. USB OTG2 FS Micro-AB connector CN14 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Table 30. JTAG/SWD debugging connector CN16 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42Table 31. microSD card1 connector CN17 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42Table 32. microSD card2 connector CN30 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Table 33. USB Micro-B connector CN22 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44Table 34. MEMS microphone coupon connectors CN24 and CN25. . . . . . . . . . . . . . . . . . . . . . . . . . 44Table 35. CAN D-type 9-pin male connector CN26 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45Table 36. SPDIF IN connector CN29 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46Table 37. STM32F769I-EVAL I/O assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47Table 38. Document revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74

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List of figures

Figure 1. STM32F769I-EVAL evaluation board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1Figure 2. Hardware block diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8Figure 3. STM32F769I-EVAL evaluation board layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Figure 4. Mechanical dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Figure 5. USB composite device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11Figure 6. STM32F769I-EVAL Evaluation board motor control PCB reworks (Top side) . . . . . . . . . . 26Figure 7. STM32F769I-EVAL Evaluation board motor control PCB reworks

(Bottom side) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26Figure 8. Motor control connector CN1 (Top view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28Figure 9. I2C connector CN2 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Figure 10. Analog input-output connector CN3 (Top view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Figure 11. Camera module connector CN4 (Top view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30Figure 12. RS-232 connector CN7 (Front view). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Figure 13. USB OTG HS Micro-AB connector CN8 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36Figure 14. Ethernet RJ45 connector CN9 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36Figure 15. ETM trace debugging connector CN12 (Top view). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40Figure 16. USB OTG1 FS Micro-AB connector CN13 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . 40Figure 17. USB OTG2 FS Micro-AB connector CN14 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Figure 18. JTAG/SWD debugging connector CN16 (Top view). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Figure 19. microSD connector (Top view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42Figure 20. Power supply connector CN19 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Figure 21. USB Micro-B connector (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44Figure 22. MEMS microphone coupon connectors CN24 and CN25 (Top view). . . . . . . . . . . . . . . . . 44Figure 23. CAN D-type 9-pin male connector (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45Figure 24. SPDIF IN connector CN29 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46Figure 25. STM32F769I-EVAL evaluation board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55Figure 26. STM32F769I-EVAL MCU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56Figure 27. STM32F769I-EVAL Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57Figure 28. STM32F769I-EVAL SRAM, FLASH, SDRAM. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58Figure 29. STM32F769I-EVAL Audio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59Figure 30. STM32F769I-EVAL LCD, camera, connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60Figure 31. STM32F769I-EVAL Ethernet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61Figure 32. STM32F769I-EVAL USB OTG HS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62Figure 33. STM32F769I-EVAL USB OTG FS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63Figure 34. STM32F769I-EVAL RS-232 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64Figure 35. STM32F769I-EVAL CAN and Quad-SPI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65Figure 36. STM32F769I-EVAL Peripherals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66Figure 37. STM32F769I-EVAL motor control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67Figure 38. STM32F769I-EVAL extension connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68Figure 39. STM32F769I-EVAL ST-LINK/V2-1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69Figure 40. STM32F769I-EVAL MFX and LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70Figure 41. STM32F769I-EVAL JTAG and trace . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71Figure 42. STM32F769I-EVAL 4-inch DSI LCD board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72Figure 43. STM32F769I-EVAL camera module. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73

Features UM2035

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1 Features

• STM32F769I-EVAL microcontroller with 2 Mbytes of Flash memory and internal 512 Kbytes of SRAM + 16 Kbytes of instruction TCM RAM + 4 Kbytes of backup SRAM in BGA216 package

• Six 5 V power supply options:

– Power jack

– ST-LINK/V2-1 Micro-B USB connector

– User USB HS connector

– User USB FS1 connector

– User USB FS2 connector

– Daughterboard

• SAI interface audio codec, stereo audio jack which supports headset with microphone

• 2 stereo digital microphones, audio jack connector used to connect external speakers

• 4-Gbyte (or more) SDIO interface microSD card

• I2C Extension interface

• RS-232 connector

• JTAG/SWD and ETM trace debug support, ST-LINK/V2-1 embedded

• IEEE-802.3-2002 compliant Ethernet connector

• Camera module

• 8Mx32bit SDRAM, 1Mx16bit SRAM and 8Mx16bit NOR Flash

• 512-Mbit Quad-SPI NOR Flash

• 4" capacitive touch LCD display with MIPI® DSI connector

• Joystick with 4-direction control and selector

• Reset, Wake Up/Tamper or key button

• 4-color user LEDs

• Extension and memory connectors for daughterboard or wrapping board

• USB OTG HS and FS with Micro-AB connectors

• RTC with backup battery

• CAN2.0A/B compliant connector

• Potentiometer

• Motor control connector

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2 Demonstration software

Demonstration software is preloaded in the STM32F769NI Flash memory. For more information and to download the latest version available, refer to the STM32F769I-EVAL demonstration software available at the www.st.com website.

3 Product marking

Evaluation tools marked as "ES" or "E" are not yet qualified and therefore they are not ready to be used as reference design or in production. 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.

"E" or "ES" marking examples of location:

• On the targeted STM32 that is soldered on the board (for illustration of STM32 marking, refer to the section "Package information" of the STM32 datasheet at the www.st.com website).

• Next to the evaluation tool ordering part number, that is stuck or silkscreen printed on the board.

4 Ordering information

To order the evaluation board for STM32F769NI MCU, use the order code STM32F769I-EVAL.

5 Delivery recommendations

Before using the board for the first time, the user should check that it has not been visibly damaged during the shipment, and that no components are unplugged or missing. When the board is extracted from its plastic bag, check that no component remains in the bag.

The main components to verify are:

1. 25 MHz crystal (X4) which may have been removed by a shock from its socket.

2. The microSD card which may have been ejected from the connector CN17 (right side of the board) and CN30 (bottom side).

Caution: There is a risk of explosion if the battery is replaced by an incorrect one. According to the instructions, make sure to dispose of used batteries.

http://www.st.com

Hardware layout and configuration UM2035

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6 Hardware layout and configuration

STM32F769I-EVAL evaluation board is designed around the STM32F769NI (216-pin TFBGA package). The hardware block diagram Figure 2 illustrates the connection between STM32F769NI and peripherals (SDRAM, SRAM, NOR Flash, Quad-SPI Flash, Camera module, color DSI LCD, USB OTG connectors, motor control connector, USART, Ethernet, Audio, CAN, microSD cards and embedded ST-LINK) and Figure 3 will help the user to locate these features on the evaluation board.The mechanical dimensions of the board are showed in Figure 4. The board history version is reported in the yellow frame of the Figure 25.

Figure 2. Hardware block diagram

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UM2035 Hardware layout and configuration

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Figure 3. STM32F769I-EVAL evaluation board layout

U4MCU

CN4 Camera extension connector

CN5, CN6xtensioneaders

CN12ETM

CN1Motor control connector

CN28Audio ack

LD12ST-LINK/V2-1COM LED

B1Reset

utton

4LEDS

CN26CAN

CN17icroSD

ard1

CN24, CN25Right Digital Microphone(Coupon connectors)

CN27Audio Line out

B2Wakeup

utton

RV1Potentiometer

CN29SPDIF_IN

CN15DSI LCD

CN8USBOTG2 HS

CN13 USB OTG1 FS

CN7

CN14 USB OTG2 FS

CN22ST-LINK/V2-1Micro USB_B

CN19Power ack

CN9Ethernet

B3J stick

CN16JTAGSWD

CN2I2C connector

CN10, CN11Memory eaders


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Figure 4. Mechanical dimensions

6.1 Embedded ST-LINK/V2-1

The ST-LINK/V2-1 programming and debugging tool is integrated on the STM32F769I-EVAL evaluation board. Compared to ST-LINK/V2 the changes are listed below.

The new features supported on the ST-LINK/V2-1 are:

• USB software re-enumeration

• Virtual COM port interface on USB

• Mass storage interface on USB

• USB power management request for more than 100 mA power on USB

This feature is no more supported on the ST-LINK/V2-1:

• SWIM interface

• Minimum supported application voltage limited to 3 V

9

402

24

37

25

36

9

28

4

23

39

30 20

40

2

10 2

592

A1

9

19

60

2

H

20

2

13

12

48

R8

1

A

15

1A

2

60

59

9

A

1

50 40

3939

12

25

40

2

13

5024

49

H

34

33

A

16

H

R

1617

2425

15

28

87

12

13

2425

59

65

21

60

2

48

36

37VIN

OUT

5

1

98

32

14

169

82

48

6

3637

2

1211

215

55 1

A1

A

GND

172.72mm

37.7

mm

20.18mm

31.34mm48.62mm68.58mm

156.85mm

20.18mm

37.7mm

87mm

16.76mm

55.32mm

79.45mm

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Known limitation:

• Activating the readout protection on ST-LINK/V2-1 target, prevents the target application from running afterwards. The target readout protection must be kept disabled.

For all general information concerning debugging and programming features common between ST-LINK/V2 and ST-LINK/V2-1 versions, refer to ST-LINK/V2 in-circuit debugger/programmer for STM8 and STM32 User manual (UM1075).

Note:1 ETM can only work at 50 MHz clock by default because the ETM signals are shared with other peripherals. If a best performance of ETM is required (e.g. 84 MHz/98 MHz), R31, R34, R35, R37, R39, R42, SB7, SB8, SB25,SB27, and SB28, must removed to reduce the stub on the ETM signals. In this way SAI, Ethernet, and camera are not functional and NOR Flash and SRAM addresses are limited to A18.

Note:2 When JP28 is open, the NRST of the ST-LINK MCU (U21) is pulled high. When JP28 is closed, ST-LINK MCU is reset.

6.1.1 Drivers

The ST-LINK/V2-1 requires a dedicated USB driver, which, for Windows® XP, 7 and 8, can be found at the www.st.com website.

In case the STM32F769I-EVAL evaluation board is connected to the PC before the driver is installed, some STM32F769I-EVAL interfaces may be declared as “Unknown” in the PC device manager. In this case the user must install the driver files, and update the driver of the connected device from the device manager.

Note: Prefer using the “USB Composite Device” handle for a full recovery.

Figure 5. USB composite device

6.1.2 ST-LINK/V2-1 firmware upgrade

The ST-LINK/V2-1 embeds a firmware upgrade mechanism for in-situ upgrade through the USB port. As the firmware may evolve during the life time of the ST-LINK/V2-1 product (for example a new functionality, bug fixes, support for new microcontroller families), it is recommended to visit the www.st.com website before starting to use the STM32F769I-EVAL board and periodically, to stay up-to-date with the latest firmware version.


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6.2 Power supply

The STM32F769I-EVAL evaluation board is designed to be powered by the 5 V DC power supply and to be protected from wrong power plug-in event by PolyZen. It is possible to configure the evaluation board to use any of the following power supply six sources:

• 5 V DC power adapter connected to CN19 (JP20 jumper in position PSU). This is default setting of power supply source selection on STM32F769I-EVAL evaluation board.

• 5 V DC power with 500mA limitation from CN22 (JP20 jumper in position STLK) (the USB Micro-B connector of the ST-LINK/V2-1 that is showed as STLK on JP20 silkscreen and called U5V). If the USB enumeration succeeds (as explained below), the ST-LINK U5V power is enabled, by asserting the PWR_EN pin. This pin is connected to a power switch (ST890), which powers the board. This power switch features also a current limitation to protect the PC in case of short-circuit. If overcurrent (more than 600 mA) happens on the board, the LED LD11 is lit.

• 5 V DC power with 500 mA limitation from CN8 (the USB OTG2 HS Micro-AB connector (JP20 jumper in position HS).

• 5 V DC power with 500 mA limitation from CN13, the USB OTG1 FS Micro-AB connector (JP20 jumper in position FS1).

• 5 V DC power with 500 mA limitation from CN14, the USB OTG2 FS Micro-AB connector (JP20 jumper in position FS2).

• 5 V DC power from CN5 and CN6 (JP20 jumper in position D5V).

The STM32F769I-EVAL evaluation board can be powered from ST-LINK USB Micro-B connector CN22 (U5V), but only the ST-LINK circuit has the power before USB enumeration starting, because the host PC only provides 100 mA to the boards at that time. During the USB enumeration, the STM32F769I-EVAL board asks for the 300 mA power from the host PC. If the host is able to provide the required power, the target STM32 is powered and the red LED LD10 is turned on, thus the STM32F769I-EVAL board can consume maximum 300 mA current, but not more. If the host is not able to provide the requested current, the enumeration fails. Therefore the STM32 part including the extension board will not be powered. As a consequence the red LED LD10 remains turned off. In this case it is mandatory to use an external power supply as an extra power supply.

E5V (from PSU) or D5V must be used as external power supply in case current consumption of STM32F769I-EVAL board exceeds the allowed current on USB. In this condition it is still possible to use USB for communication, for programming or debugging only, but it is mandatory to power the board first using E5V or D5V, and then connecting the USB cable to the PC. Proceeding this way, ensures that the enumeration succeeds thanks to the external power source.

The following power sequence procedure must be respected:

1. Connect jumper JP20 for PSU or D5V side

2. Check that JP27 is removed

3. Connect the external power source to PSU or D5V (daughterboard mounted)

4. Check that the red LED LD10 is turned ON

5. Connect the PC to USB Micro-B connector CN22

If this order is not respected, the board may be powered by VBUS first, then by E5V or D5V, and the following risks may be encountered:

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1. If more than 300 mA current is needed by the board, the PC may be damaged or the current can be limited by PC. As a consequence the board is not supplied correctly.

2. 300 mA will be requested at enumeration (since JP27 must be off), so there is the risk that the request is rejected and the enumeration does not succeed if the PC cannot provide such current. Consequently the board is not powered (LED LD10 remains off).

Note: In case the board is powered by a USB charger, there is no USB enumeration, so the led LD10 remains set to off permanently and the board is not powered. In this specific case only the jumper JP27 must be set to on, to allow the board to be powered anyway but in any case the current will be limited to 600 mA by U17 (ST890).

The power supply is configured by setting the related jumpers JP2, JP15 and JP20 as described in Table 1.

Table 1. Power-supply-related jumper settings

Jumper Description

JP2JP2 is used to measure the STM32 current consumption manually by multimeter.

Default setting: Fitted

JP15

Vbat is connected to +3.3 V when JP15 is set, as shown to the right: (Default setting)

Vbat is connected to the battery when JP15 is set, as shown to the right:

JP20

JP20 is used to select one of the six possible power supply resources.

STM32F769I-EVAL is supplied through the jack CN19, when JP20 is set as shown to the right: (Default Setting)

STM32F769I-EVAL is supplied through the USB connector of the ST-LINK MCU, when JP20 is set as shown on the right:

(Default Setting)


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JP20

STM32F769I-EVAL is supplied from the daughterboard connectors (CN5 and CN6) when JP20 is set as shown on the right:

STM32F769I-EVAL is supplied from the USB OTG2 FS (CN14),when JP20 is set as shown on the right:

STM32F769I-EVAL is supplied from the USB OTG1 FS (CN13), when JP20 is set as shown on the right:

STM32F769I-EVAL is supplied from the USB OTG2 HS (CN8) when JP20 is set as shown to the right:

STM32F769I-EVAL is supplied from power supply jack (CN19) and daughterboard connected on CN5 and CN6, when JP20 is set as shown on the right (daughterboard must not have its own power supply connected).

Table 1. Power-supply-related jumper settings (continued)

Jumper Description

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The LED LD10 is lit when the STM32F769I-EVAL evaluation board is powered by the 5 V correctly.

To avoid the impact of USB PHY and Ethernet PHY and get precise results of current consumption on JP2, the following cautions must be taken into account:1. Configure Ethernet PHY into Power Down Mode by setting low level of IO_Expander

(EXP_IO1)

2. Configure USB HS PHY into Low-power mode (Register address = 04, bit 6 in USB PHY).

6.3 Clock source

Five clock sources are available on the STM32F769I-EVAL board:

• X1, 25 MHz crystal for the HSE of the STM32F769NI

• X2, 32 KHz crystal for embedded RTC of the STM32F769NI

• X3, 24 MHz oscillator for camera module (Default on camera daughterboard)

• X4, 25 MHz crystal with socket for Ethernet PHY

• X5, 24 MHz crystal for USB OTG2 HS PHY

Note: Jumper JP12 for Ethernet clock refers to Section 6.12: Ethernet.

Table 2. 25 MHz crystal X1 related solder bridges

Jumper Description

SB40

PH0 is connected to 25 MHz crystal when SB40 is open.

(Default setting)

PH0 is connected to extension connector CN5 when SB40 is closed. In such case C23,X1 must be removed to avoid disturbance due to the 25 MHz quartz.

SB41

PH1 is connected to 25 MHz crystal when SB41 is open.

(Default setting)

PH1 is connected to extension connector CN5 when SB41 is closed. In such case R20 must be removed to avoid disturbance due to the 25 MHz quartz.

Table 3. 32 KHz crystal X2 related solder bridges

Solder bridge

Description

SB38

PC14 is connected to 32 KHz crystal when SB38 is open.

(Default setting)

PC14 is connected to extension connector CN6 when SB38 is closed. In such case R23 must be removed to avoid disturbance due to the 32 Khz quartz.

SB39

PC15 is connected to 32 KHz crystal when SB39 is open.

(Default setting)

PC15 is connected to extension connector CN6 when SB39 is closed. In such case R22 must be removed to avoid disturbance due to the 32 Khz quartz.


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6.4 Reset source

The reset signal of the STM32F769I-EVAL evaluation board is active low and the reset sources include:

• Reset button B1

• Debugging tools from JTAG/SWD connector CN16 and ETM trace connector CN12

• Daughterboard from CN5

• Embedded ST-LINK/V2-1

• RS232 connector CN7 pin 8 for ISP.

Note: The jumper JP5 must be closed when the RESET is handled by the CN7 pin 8 of the RS-232 connector (CTS signal).

6.5 Boot option

The STM32F769I-EVAL evaluation board can boot from:

• Embedded user Flash memory

• System memory with boot loader for ISP

• Embedded SRAM for debugging

The boot option is configured by setting the switch SW1 (BOOT) and the boot base address programmed in the BOOT_ADD0 and BOOT_ADD1 option bytes. The BOOT can be configured also via RS-232 connector CN7.

Table 4. Boot related switch

Switch configuration

Boot address

option bytesBoot space

BOOT_ADD0 [15:0]

STM32F769I-EVAL boot from BOOT_ADD0[15:0]

ST programmed value: Flash on ITCM at 0x0020 0000. (Default setting)

BOOT_ADD1 [15:0]

STM32F769I-EVAL boot from BOOT_ADD1[15:0]

ST programmed value: System boot loader at 0x0010 0000

Table 5. Boot related jumpers

Jumper Description

JP1The Bootloader_BOOT is managed by pin 6 of connector CN7 (RS232 DSR signal) when JP1 is closed. This configuration is used for boot loader application only.

Default Setting: Not fitted

SW1

0<->1

SW1

0<->1

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6.6 Audio

An audio codec WM8994ECS/R with 4 DACs and 2 ADCs inside is connected to SAI interface of the STM32F769NI to support TDM feature on SAI port. This feature is able to implement audio recording on digital and analog microphone and audio playback of different audio streams on headphone and line-out at the same time.

It communicates with the STM32F769NI via I2C1 bus which is shared with LCD, camera module, and MFX (Multi-Function expander).

The analog microphone on the headset is connected to ADC of WM8994ECS/R through the audio jack CN28. External speakers can be connected to WM8994ECS/R via the audio jack CN27.

Two digital microphones (MEMS microphone) MP34DT01TR are available on the STM32F769I-EVAL evaluation board. They can be connected to either the audio codec or the DFSDM port of the STM32F769NI by setting jumpers shown in Table 6: Audio related jumpers. The coupon connectors CN24 and CN25 can be used to support MEMS microphone evaluation board STEVAL-MKI129V1 after removing SB78 and SB79.

An optical connector CN29 is implemented on the STM32F769I-EVAL to receive external audio data which is compatible with SPDIF spec.

Table 6. Audio related jumpers

Jumper Description

JP23

Data signal on digital microphone is connected to audio codec when JP23 is set as shown to the right (Default setting)

Data signal on digital microphone is connected to DFSDM of STM32F769NI when JP23 is set as shown to the right (Also need to set JP7 according to this table):

JP24

Clock signal on digital microphone is connected to audio codec when JP24 is set as shown to the right (Default setting)

Clock signal on digital microphone is connected to DFSDM of STM32F769NI when JP24 is set as shown to the right


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Note: I2C address of WM8994ECS/R is 0b0011010.

JP7

PD6 is as SD2_CLK signal when JP7 is set as shown to the right (Default setting):

PD6 is connected to DFSDM_DATA1 when JP7 is set as shown to the right (Also need to set JP23 together according to this table):

JP22

Digital microphone power source is connected to +3.3V power when JP22 is set as shown to the right (Default setting):

Digital microphone power source is connected to MICBIAS1 from WM8994ECS/R when JP22 is set as shown to the right:

JP3

PA2 is connected to SAI2_SCKB when JP3 is set as shown to the right (Default setting):

PA2 is connected to MII_MDIO (Ethernet) when JP3 is set as shown to the right:

JP6

PC1 is connected to SAI1_SDA when JP6 is set as shown to the right (Default setting):

PC1 is connected to MII_MDC (Ethernet) when JP6 is set as shown to the right.

Table 6. Audio related jumpers (continued)

Jumper Description

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6.7 USB OTG1 FS

The STM32F769I-EVAL evaluation board supports the USB OTG1 full speed communication via a USB Micro-AB connector (CN13) and a USB power switch (U11) connected to VBUS. The evaluation board can be powered through this USB connector with 5 V DC and with 500 mA current limitation.

A green LED LD7 is lit in one of these two cases:

• Power switch (U11) is ON and STM32F769I-EVAL works as a USB host

• VBUS is powered by another USB host when the STM32F769I-EVAL works as a USB device.

The red LED LD8 is lit when overcurrent occurs.

Note:1 STM32F769I-EVAL board should be powered by an external power supply when using OTG function.

Note:2 JP14 must be removed when using USB OTG FS, as mentioned in Table 9: CAN related jumpers.

6.8 USB OTG2 HS and FS

The STM32F769I-EVAL evaluation board supports USB OTG2:

• High speed communication via a USB Micro-AB connector (CN8), USB high-speed PHY (U8) for high-speed function

• Full speed communication via another USB Micro-AB connector (CN14)

The evaluation board can be powered by these USB connectors (CN8 or CN14) at 5 V DC with 500mA current limitation.

As several OTG2 FS signals are shared with OTG2 HS ULPI bus, some PCB reworks are needed, when using OTG2 FS (CN14), as shown in Table 7.

A USB power switch (U7) is also connected on VBUS and provides power to either CN8 (with SB21 and SB24 closed and SB22 and SB23 open) or CN14 (with SB22 and SB23 closed and SB21 and SB24 open).

Green LED LD5 (for CN8) or LD9 (for CN14) is lit when either power switch (U7) is ON and the STM32F769I-EVAL works as a USB host or VBUS is powered by another USB host, when the STM32F769I-EVAL works as a USB device.

The red LED LD6 is lit when overcurrent occurs.

Note: The STM32F769I-EVAL board should be powered by external power supply when using OTG function.

Table 7. USB OTG2 function configuration

Function Mount Remove

OTG2 HS-CN8 (Default) R107,R113,SB24,SB21 R263,SB22,SB23,SB65

OTG2 FS-CN14 R263,SB22,SB23,SB65 R107,R113,SB21,SB24


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6.9 RS-232

RS-232 communication is supported by D-type 9-pins RS-232 connector CN7, which is connected to the USART1 of the STM32F769NI on the STM32F769I-EVAL evaluation board. The signal Bootloader_RESET and Bootloader_BOOT0 are added on the RS-232 connector CN7 for ISP support.

The USART1 of the STM32F769NI is shared with the RS-232 and the ST-LINK/V2-1 controller. Its communication can be changed by setting JP21 and JP26.

6.10 microSD cards

The two 4-Gbyte (or more) microSD cards connected to SDMMC1 and SDMMC2 ports of the STM32F769NI are available on the board. microSD card1 detection is managed by MFX GPIO15 and microSD card2 detection is managed by MFX GPIO10.

Some PCB reworks are needed for microSD card1 application to disconnect peripherals which share IOs with microSD card1, and remove the camera module from the board:

• Open SB17, SB72

• Close SB75, SB76

Table 8. USART1 related jumpers

Jumper Description

JP21

USART1_RX is connected to RS232 when JP21 is set as shown to the right (Default setting, need close JP11 at the same time):

USART1_RX is connected to ST-LINK/V2-1 controller’s USART_TX when JP21 is set as shown to the right:

JP26

USART1_TX is connected to RS232 when JP26 is set as shown to the right (Default setting):

USART1_TX is connected to ST-LINK/V2-1 controller’s USART_RX when JP26 is set as shown to the right:

JP11JP11 is used to disconnect MCU and RS232 transceiver chip.

Default setting: Fitted

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Some PCB reworks are needed for microSD card2 application to disconnect peripherals which share IOs with microSD card2 and remove the camera module away from the board:

• Open SB16

• Connect JP7 to pin1 and pin 2

6.11 CAN

The STM32F769I-EVAL evaluation board supports one channel of CAN2.0A/B compliant CAN bus communication based on 3.3V CAN transceiver.

High-speed mode, standby mode and slope control mode are available and can be selected by setting JP19.

6.12 Ethernet

The STM32F769I-EVAL evaluation board supports 10M/100M Ethernet communication by a PHY DP83848CVV (U6) and integrated RJ45 connector (CN9). Ethernet PHY is connected to STM32F769NI via MII interface.

25M clock can be generated by PHY or provided by MCO from STM32F769NI by setting jumper JP12 shown in Table 10: Ethernet related jumpers.

MII serial management signals (MDIO and MDC) are simulated by GPIOs (PJ12 and PJ13) by default on the STM32F769I-EVAL. The original MII serial management signals of the Ethernet IP in the STM32F769NI can be also used by setting JP3 and JP6. Refer Table 6: Audio related jumpers for all the details.

Table 9. CAN related jumpers

Jumper Description

JP19

CAN transceiver is working in standby mode when JP19 is set as shown to the right:

CAN transceiver is working in high-speed mode when JP19 is set as shown to the right: (default setting)

CAN transceiver is working in slope control mode when JP19 is open.

JP18CAN terminal resistor is enabled when JP18 is fitted.

Default setting: Not fitted

JP14PA11 is connected with CAN RX signal when JP14 is fitted.

Default setting: Not fitted


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6.13 Memories

8M x 32bit SDRAM is connected to the SDRAM bank1 of the FMC interface of the STM32F769NI.

Table 10. Ethernet related jumpers

Jumper Description

JP12

25MHz clock is provided by external crystal X4 when JP12 is set as shown to the right: (Default setting)

25MHz clock for MII is provided by MCO at PA8 when JP12 is set as shown to the right:

JP4

MDIO connect to MII_MDIO_GPIO when JP4 is set as shown to the right: (Default setting)

MDIO connect to MII_MDIO when JP4 is set as shown to the right:

JP8

MDC connect to MII_MDC when JP8 is set as shown to the right:

MDC connect to MII_MDC_GPIO when JP8 is set as shown to the right: (Default setting)

Table 11. Ethernet related solder bridges

Solder bridges

Description

SB47MII CRS on DP83848CVV is connected to PA0 when SB47 is closed and SB43,SB45 are open. Default setting: Open

SB58MII COL on DP83848CVV is connected to PH3 when SB58 is closed and R255 is unmounted. Default setting: Open

SB12MII_RX_ER on DP83848CVV is connected to PI10 when SB12 is closed and R252 is unmounted. Default setting: Open

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1Mx16bit SRAM is connected to the NOR/PSRAM2 bank1 of the FMC interface and both 8-bit and 16-bit accesses are allowed by BLN0 and BLN1 connected to BLE and BHE of the SRAM respectively.

The 128-Mbit NOR Flash memory is connected to the NOR/PSRAM1 bank1 of the FMC interface. The 16-bit operation mode is selected by pull-up resistor connected to BYTE pin of the NOR Flash memory. The write protection can be enabled or disabled depending on how the jumper JP16 is set, as shown in Table 12:

All signals for memory are also connected on memory connectors CN10 and CN11 for memory daughterboards.

Some addressing limitations can happen on FMC when using other peripherals.

FMC addresses are limited to:

• A21 when SAI used

• A20 when camera is used

• A22 when Ethernet is used

• A20 when RGB LCD is used

• A18 for 4-bit ETM to A21 for 1-bit ETM when the ETM trace is used

In such cases, memory addresses A19 to A22 not connected to FMC are pulled down, so that memories can be addressed within a limited address range. If A21 or A22 is required, the camera board should be removed from the STM32F769I-EVAL board.

6.14 Quad-SPI NOR Flash

The 512-Mbit Quad-SPI NOR Flash is connected to Quad-SPI interface of the STM32F769NI on the STM32F769I-EVAL evaluation board.

6.15 Analog input

The two-pin header CN3 and 10K ohm potentiometer RV1 is connected to PF10 of the STM32F769NI as analog input. A low pass filter can be implemented by replacing R29 and C24 with the right value of the resistor and the capacitor, as requested by end user’s application.

Table 12. NOR Flash related jumpers

Jumper Description

JP16Write protection is enabled when JP16 is fitted while write protection is disabled when JP16 is not fitted.

Default Setting: Not fitted

JP9 PC6 is connected with FMC_NWAIT signal when JP9 is fitted

JP10 PC7 is connected with FMC_NE1 signal when JP10 is fitted


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6.16 Camera module

A connector CN4 for DCMI signals is on STM32F769I-EVAL evaluation board and camera module daughterboard MB1183.

DCMI signals are duplicated with other peripherals (SAI, I2S, NOR Flash, microSD cards, trace, MEMS microphone). These peripherals may not function correctly if camera module is being used.

PC7 is shared between PAR_D1 of the camera and the EN pin of the NOR flash. As a consequence when the camera is working, JP10 must be opened to avoid conflicts between NOR Flash and camera.

6.17 Display and input devices

The 4-inch 800x480 TFT color LCD with capacitive touch panel is connected to MIPI DSI interface of the STM32F769NI. Users can connect MB1232 to DSI LCD connector CN15, to convert the DSI interface to the HDMI interface; users can also connect MB1233 to CN15 to use RaspberryPI LCD.

Four general purpose color LEDs (LD1, 2, 3 and 4) are available as display devices and they are connected respectively to PI15, PJ0, PJ1, and PJ3 of the STM32F769NI.

The 4-direction joystick (B3) is connected to the MFX.

User button (B2) is connected to PC13 which supports Wakeup or Tamper feature.

Table 13. DSI LCD modules connector (CN15)

Pin No. Description Pin connection Pin No. Description Pin connection

1 GND - 2 - -

3 DSI_CK_P - 4 TOUCH_INT MFX GPIO14

5 DSI_CK_N - 6 GND -

7 GND - 8 DSI_D2_P/GND -

9 DSI_D0_P - 10 DSI_D2_N/GND -

11 DSI_D0_N - 12 GND -

13 GND - 14 DSI_D3_P/GND -

15 DSI_D1_P - 16 DSI_D3_N/GND -

17 DSI_D1_N - 18 GND -

19 GND - 20 - -

21 BLVDD(5 V) - 22 - -

23 BLVDD(5 V) - 24 - -

25 - - 26 - -

27 BLGND - 28 - -

29 BLGND - 30 - -

31 - - 32 - -

33 - - 34 - -

DocID029087 Rev 1 25/75


74

6.18 Motor control

The STM32F769I-EVAL evaluation board supports both asynchronous and synchronous three-phase brushless motor control via a 34-pin connector CN1, which provides all required control and feedback signals to and from the motor-power-driving board.

Available signals on this connector include emergency stop, motor speed, 3-phase motor current, bus voltage, heatsink temperature coming from the motor driving board and six channels of PWM control signal going to the motor driving circuit.

To enable motors control applications, some reworks are needed to disconnect the peripherals, which share IOs with the motor control connector, and to connect these I/Os to the motor control connector:

• Solder bridges to be opened:

– SB3, SB36, SB43, SB47, SB48, SB52, SB54, SB55, SB62, SB66, SB69, SB71, SB74, SB17, SB75, remove R93, R98, R245, R256

• Keep no jumper on JP3/JP6/JP9/JP10/JP14

• Keep CN4 and CN13 unconnected

• Solder bridges to be closed:

– SB34, SB37, SB42, SB45, SB46, SB49, SB50, SB51, SB53, SB56, SB57, SB60, SB64, SB67, SB70, SB72, SB73, SB18

• Mount R14 with 0 ohm resistor.

PA4 and PA5 are DAC outputs when using them for debugging purposes, keep CN4 unconnected and remove R124.

In Figure 6 and Figure 7 the components which need to be removed are marked in red, while the ones that need to be in place are marked in green.

35 SCLK/MCLK - 36 3.3V -

37 LRCLK - 38 - -

39 SPDIF/I2S - 40 I2C1_SDA PB9

41 - - 42 - -

43 - - 44 I2C1_SCL PB8

45 CEC_CLK - 46 - -

47 CEC - 48 - -

49 DSI_TE PJ2 50 - -

51 - - 52 - -

53 BL_CTRL PA8 54 - -

55 - - 56 - -

57 DSI_RESET PK7 58 - -

59 - - 60 1V8 -

Table 13. DSI LCD modules connector (CN15) (continued)

Pin No. Description Pin connection Pin No. Description Pin connection


26/75 DocID029087 Rev 1

Figure 6. STM32F769I-EVAL Evaluation board motor control PCB reworks (Top side)

Figure 7. STM32F769I-EVAL Evaluation board motor control PCB reworks(Bottom side)

Table 14. Motor control related solder bridges

Solder bridges

Description

SB1

The special motor current sampling operation is enabled when SB1 is closed (PA12 connected to PA8). The I/O pins PA12 and PA8 are disconnected and can be used by the daughterboard when SB1 is not fitted.

Default setting: Open

SB2

SB2 should be kept open when encoder signal comes from the pin 31 of the motor control connector CN1, while it should be kept close when analog signal comes from pin 31 of CN1 for special motor.


C47

R94R115

LD5L2

C42

C43

CN

8C

33CN7

D5

R103

D4D3 R

78L1C34

SB21

R130

R126R129

R116

R127LD8LD7

R106

LD6

SB23

R82

C35

SB22

R28

R29

R27

CN3

R12

5R

119

T1

R101R108

R92

SB24

R96

U7

JP11

R30

C24

R12

0

R12

3R

122

R12

1

X5

C26

D2

C25

JP5

R16

C46

U8

C40

U5

U3

TP4

CN2

R113R117

R107

R100R104

R85R86

C41C37 C38

JP15

CN5

R5

R3

TP2

SW1

CN10

R4

R63

R62

R52

R53

SB15SB13

R26R24R19

C17 C10

SB1

SB5JP2

C8

C6

C9

SB2

R66

R64

R65

R56

R54

R55

R57

R41R43

R33

R7C18 C11

C7

R67

R59

R58

R60

U4

TP7

R8

R9

C12

TP5

R88

R68

R70

R69

R20

C22

X1

U9

R89 R90

C30

SB20

SB19

R22

C23

C20

C29

R23

R17C21

X2

CN1

JP16

R105R114

R83

C39

SB16

SB6

R18

SB7SB

4

JP7

SB12

R31R34

R21

D1

SB8

R10

R11

C13

C14

CN11

R45R44

R42

SB14

R39

R37R35

R40R38R36

SB10 SB11

R32SB9

JP1

R12

R13

C16C15

P17

JP13

CN6

CN12

R72

R61

R102R99R97R91R84

R81

R79

R80

C36

U6

R46

R47

R48

C27

JP4

TP3

JP18

R118

R112

C44C45

R87R95

R51

R50

R49

TP6

U2

C5

TP15

TP14

TP12

R25

TP16

X4JP8

X3

R6

R15

R77

CN9

R73

R75R74C32R71C28C31

C19

TP1

R128

R76

JP12

TP11

TP10

TP8

TP9

37

25

36

28

4

23

592

19

60

2

20

2

13

12

48

24

81

A

15

1A

2

2

34

33

H

R

17

2425

15

28

87

59 60

2

98

32

14

169

82

16

5 1A

1A

25MHz

MDC_GPIO

Ethernet

Audio

MDIO_GPIO

Ethernet

Crystal

MCO

GND

ETH

_CLK

Camera+2V8

CAN terminal

MII_MDC

+1V8

Audio

Ethernet

MII_MDIO

TRACE

5VPC6PD7V_FS1PA8GND3V3PC9

PA12PA10

PA13

PA14

GNDPA15

PJ13PC12

PJ15PB4

PB6PJ14

PK5

PK3PB9

GND

PC13PC14

PK7

PI13

ND

_NC

EG

ND

NAN

D_I

NT

GN

D

PB8PG14PJ12PG13PD3PB7GNDPG9

PK4PG12

PK6PI8PI12

PC15PI15

GND

3V3PH14

PI3PH15

PD1

PD5

GNDPD4

PC7

PI9PI6

PI7PE2

GNDPF1PF0

PD6PF2

PH2PE5

OTG

-HS

USART1

RS232_RX

AINRESET#

+3V3

I2C_EXT

GND

PG7

PG6D5V

GNDPB12

PH6

PB13BL

_RST

PB10PB14

PJ3PB2

PA4PC2

PC3PC4

PC0

PA0PF8

PA2

GND

PF6PF10

GNDPH0

1=0=

POT

VBAT

3V3

Sys memFlash

PD8PG2

PD14PD9

PH11GNDPD13

PG5

PD11PE13

PD12

PE15

PE7GND

PE10PE12

PH3PF13PF12PG1

PJ0PJ2PJ15V

PC53V3GNDPB0

PB15

PJ5PH7

PI14

PB11PJ4

GNDPH4PB1PA5PA7PA6

PA1

PA3PC1

PF9

PF7GND

PB5PH1

PI11

0 <--> 1

GND

PG8PD15

PG3PD10

PH12

PH9

GNDPG4

PH10

PE14PH8

PF15PE11

GNDPE9PE8

PG0PF11

PH5PF14

VDD_MCU

STM32F769I-EVAL

VDDA

+3V3

VREF+

Motor Control

MB1219 Rev.B

GN

DN

OR

_WP

PH13PI0

PI2PI1

PD0

PE0

GNDPG10

PE1

PG15PI10

PI4PI5

GNDPE4PE3

PE6PF3

PF5PF4

FMC

_NW

AIT

SD2

FMC

_NE1

MIC

BL_BOOT0

GND

PC11PC10PD2

PC8

PB3PD6D5V

PA9PA11GND

PG11

CN13

R12

4

R98R93

SB18

SB17

JP9

JP10

R14

SB3

JP14

JP6

JP3

CN4

5

39

402

T7

T6

R288

C143

C141

C145

C146

C142

C131

C133

C132

R242

R241

R232

R231

C105

R230

R226

SB35

R263

SB65SB61SB63

SB59

SB44

C110

C104

C122C125C121

R258

R262R260

SB58

C130

C127C124

C120

C115

C113

R253

L7

R228

R281

C119

R271

R270

R259R261

R257R255

C123

C109C112C114

C103

C147

C144

R278

R280

R279

C118

R269

R267

R268

C128

C108

SB40

SB41

R289

C148

R286

C137

R266

C135C134

C107

SB39

R284

R285

R283

C129

C126

C111

C106

SB38

R275

R274

R276

R277

R273

R272

R252R251R254

R250

R244R247

R238R237

R240R243

R282R287SB76

R265SB68

R249

R264

R248R246

C140

C138

C136

C139

C117

R239

R236R233R229

T5

C102

C116

R235

R234

C101

R227

T4

SB54

R245SB47

SB51SB49

SB43SB37

SB45

SB69

SB73

SB67

SB52SB56

SB48SB50

SB46

SB42SB36SB34

SB75SB72

SB64

R256SB57

SB53

SB71SB74

SB70

SB66SB62SB60

SB55

DocID029087 Rev 1 27/75


74

6.19 Multi-Function expander

The Multi-Function expander (MFX) is implemented as an I/O expander circuit on the STM32F769I-EVAL evaluation board. The communication interface between MFX and STM32F769NI is done through the I2C1 interface.

The signals connected to MFX are listed in Table 15: MFX signals .

Table 15. MFX signals

Pin number of MFX

Pin name of MFX

MFX functionsFunction of

STM32F769I-EVALDirection

(For MFX)Terminal device

10 PA0 MFX_GPO1 XSDN Output Camera

15 PA5 MFX_GPIO5 Audio_INT Input Codec

16 PA6 MFX_GPIO6OTG_FS1_ OverCurrent

Input USB_FS1

17 PA7 MFX_GPIO7OTG_FS1_

PowerSwitchOnOutput USB_FS1

18 PB0 MFX_GPIO0 JOY_SEL Input Joystick

19 PB1 MFX_GPIO1 JOY_DOWN Input Joystick

20 PB2 MFX_GPIO2 JOY_LEFT Input Joystick

26 PB13 MFX_GPIO13 MII_INT Input Ethernet PHY

27 PB14 MFX_GPIO14 LCD_INT Input LCD

28 PB15 MFX_GPIO15 MicroSDcard Detect1 Input MicroSD1

29 PA8 MFX_GPIO8OTG_FS2_ OverCurrent

Input USB_FS2

30 PA9 MFX_GPIO9OTG_FS2_

PowerSwitchOnOutput USB_FS2

31 PA10 MFX_GPIO10 MicroSDcard Detect2 Input MicroSD2

32 PA11 MFX_GPIO11 RSTI Output Camera

33 PA12 MFX_GPIO12 Camera_PLUG Input Camera

39 PB3 MFX_GPIO3 JOY_RIGHT Input Joystick

40 PB4 MFX_GPIO4 JOY_UP Input Joystick

Connectors UM2035

28/75 DocID029087 Rev 1

7 Connectors

7.1 Motor control connector CN1

Figure 8. Motor control connector CN1 (Top view)

Table 16. Motor control connector CN1

DescriptionPin of

STM32F769NI

Pin number of CN1

Pin number of CN1

Pin of STM32F769NI

Description

Emergency STOP

PA6 1 2 - GND

MC_UH PC6 3 4 - GND

MC_UL PA7 5 6 - GND

MC_VH PC7 7 8 - GND

MC_VL PB0 9 10 - GND

MC_WH PC8 11 12 - GND

MC_WL PB1 13 14 PC4 BUS VOLTAGE

CURRENT A PC1 15 16 - GND

CURRENT B PC2 17 18 - GND

CURRENT C PC3 19 20 - GND

NTC BYPASS RELAY

PG11 21 22 - GND

DISSIPATIVE BRAKE PWM

PH6 23 24 - GND

+5 V power - 25 26 PC5Heatsink

temperature

PFC SYNCPA12 and PA8

See Table 14 for details.

27 28 - 3.3V power

PFC PWM PA11 29 30 - GND

Encoder A PA0 31 32 - GND

Encoder B PA1 33 34 PA2 Encoder Index

DocID029087 Rev 1 29/75

UM2035 Connectors

74

7.2 I2C connector CN2

Figure 9. I2C connector CN2 (Front view)

7.3 Analog input-output connector CN3

Figure 10. Analog input-output connector CN3 (Top view)

Table 17. I2C connector CN2

Pin number Description Pin number Description

1 I2C1_SDA (PB9) 5 +3V3

2 NC 6 NC

3 I2C1_SCL (PB8) 7 GND

4 RESET (PC10) 8 NC

Table 18. Analog input-output connector CN3

Pin number DescriptionPin

numberDescription

1 analog input-output (PF10) 2 GND

Connectors UM2035

30/75 DocID029087 Rev 1

7.4 Camera module connector CN4

Figure 11. Camera module connector CN4 (Top view)

Table 19. Camera module connector CN4


1 +1.8V 21 GND

2 +1.8V 22 GND

3 GND 23 D0 (PC6)

4 GND 24 D1 (PC7)

5 D10 (PD6) 25 D2 (PC8)

6 D11 (PD2) 26 D3 (PC9)

7 GND 27 D4 (PC11)

8 GND 28 D5 (PD3)

9 D8 (PC10) 29 D6 (PE5)

10 D9 (PC12) 30 D7 (PE6)

11 GND 31 HSYNC (PA4)

12 GND 32 VSYNC (PB7)

13 I2C1_SCL (PB8) 33 PCLK (PA6)

14 I2C1_SDA (PB9) 34 Test point8

15Camera_PLUG

(MFX GPIO12)35 Test point11

16 GND 36 Test point10

17RST IN

(MFX GPIO11)37 GND

18 Test point 7 38 GND

19XSDN

(MFX GPIO0)39 +2.8V

20 Camera clock 40 +2.8V

DocID029087 Rev 1 31/75

UM2035 Connectors

74

7.5 Daughterboard extension connectors CN5 and CN6

Two 60-pin male headers CN5 and CN6 can be used to connect a daughterboard or the standard wrapping board to the STM32F769I-EVAL evaluation board. All GPIOs are dispatched on memory connectors (CN10 and CN11), and on connectors CN5 and CN6.

The space between these two connectors is defined as a standard which allows developing common daughterboards for several ST evaluation boards. The standard width between CN5 pin 1 and CN6 pin 1 is 2700mils (68.58mm).

Each pin on CN5 and CN6 can be used by a daughterboard after disconnecting it from the corresponding function block on the STM32F769I-EVAL evaluation board. For more details refer to Table 20 and Table 21.

Table 20. Daughterboard extension connector CN5

Pin Description Alternative functionHow to disconnect with function block

on STM32F769I-EVAL board

1 GND - -

3 PH0 OSC_IN Remove X1,C23, Close SB40

5 RESET# - -

7 PF6 QSPI_BK1_IO3 Remove R241

9 PF10 Potentiometer Remove R30

11 PC0 ULPI_STP Remove R123

13 PA2SAI2_SCKB/MII_MDIO/MC_EnIn

dexOpen SB37, SB35

15 PA0 SAI2_SDB/ MII_CRS/MC_ENA Open SB43,SB45,SB47


19 GND - -

21 PA4 PAR_HSYNC Disconnect CN4

23 PC2 MII_TXD2/MC_CurrentB Open SB49, Remove R245

25 PC4MII_RXD0/

MC_BUSVOLTAGEOpen SB51,SB54

27 PC3 MII_TX_CLK/ MC_CurrentC Open SB52,SB56

29 PB2 QSPI_CLK -

31 PJ3 LCD_R4/LED3 Open SB59

33 PB10 ULPI_D3/LCD_G4 Remove R100, open SB63

35 PB14 USB_FS2_DM Disconnect CN14

37 PH6 MII_RXD2/MC_DissipativeBrake Open SB53,SB55

39 GND - -

41 PB12 ULPI_D5/ USB_FS2_ID Open SB65, Remove R107

43 PB13 ULPI_D6/ USB_FS2_VBUS Remove R263,R113

45 PJ9 - -

47 PG7 NAND_INT Open SB19

Connectors UM2035

32/75 DocID029087 Rev 1

49 D5V - -

51 PG6 LCD_R7/FMC_NE3 Open SB20

53 PJ7 - -

55 PJ10 - -

57 PJ8 - -

59 GND - -

2 PI11 ULPI_DIR Remove R122

4 PB5 ULPI_D7/LCD_G7 Remove R117,Open SB5

6 PH1 OSC_OUT Remove R20, Close SB41


10 GND - -


14 PA1 MII_RX_CLK/MC_ENB Open SB34,SB36

16 PC1SAI1_SDA/MII_MDC/

MC_CurrentAOpen SB42, Keep JP6 on open

18 PA3 ULPI_D0 Remove R86

20 PA6MC_EmergencySTOP/

PAR_PCLK/LCD_G2Remove SB3,R14

22 PA7 MII_RX_DV/MC_UL Open SB46,SB48

24 PA5 ULPI_CK Remove R124

26 PB1 ULPI_D2/MC_WL Open SB50, Remove R98

28 PH4 ULPI_NXT Remove R121

30 GND - -

32 PI14 LCD_CLK -

34 PJ4 LCD_R5 -

36 PB11 ULPI_D4/LCD_G5 Remove R104, Open SB61

38 PB15 USB_FS2_DP Disconnect CN14

40 PH7 MII_RXD3 Remove R46

42 PJ5 LCD_R6 -

44 PJ6 - -

46 PC5 MII_RXD1/MC_HEATSINK Open SB67,SB69

48 +3V3 - -

50 GND - -

52 PB0 ULPI_D1/MC_VL Open SB73,Remove R93


Table 20. Daughterboard extension connector CN5 (continued)



DocID029087 Rev 1 33/75

UM2035 Connectors

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56 PJ2 LCD_R3/DSI_TE Disconnect CN15


60 +5 V - -

Table 21. Daughterboard extension connector CN6

Pin Description Alternative FunctionHow to disconnect with function block on

STM32F769I-EVAL board

1 GND - -

3 PC15 OSC32_OUT Remove R22, Close SB39

5 PI15 LCD_R0/LED0 Open SB0

7 PI12 LCD_HSYNC -

9 PI8 EXPANDER_INT Remove R296

11 PK6 LCD_B7 -

13 PK4 LCD_B5 -

15 PG12 SPDIF_RX1 Remove R206

17 PG9 SAI2_FSB,SD2_D0, LRCLK Remove R172, Disconnect DSI, SD2

19 GND - -

21 PB7 LED3/PAR_ VSYNC Disconnect CN4

23 PD3 DFSDM_CLK JP24 open

25 PG13 MII_TXD0 Remove R248

27 PJ12 LCD_B0 -

29 PG14 MII_TXD1 Remove R249

31 PB8 I2C1_SCL Remove R175,R5,R293, Disconnect

CN4,CN15,CN18

33 PG11 MII_TX_EN/MC_NTC Open SB46, Remove R252

35 PJ11 - -

37 PK0 - -

39 GND - -

41 PA11CAN1_RX/USB_FS1_DM

/MC_PFCpwmOpen SB64, Keep JP14 on open, Disconnect

CN13

43 PA9 RS232_TX/USB_FS1_VBUS Open SB68,Remove R265

45 PB3 JTDO- SWO/SD2_D2 Remove R97,Disconnect SD2

47 PD6DFSDM_DATA1/SD2_CLK/

PAR_D10Keep JP7 on open, Disconnect CN4

Disconnect SD2

49 D5V - -




Connectors UM2035

34/75 DocID029087 Rev 1

51 PC8 SD1_D0/MC_WH/PAR_D2Open SB17 SB72,SB75, Disconnect CN4

Disconnect SD1

53 PC11 SD1_D3 /PAR_D4Remove R282, Disconnect CN4,Disconnect

SD1

55 PC10SD1_D2/EXT_RESET/PAR_

D8Remove R287,R16, Disconnect

CN4,Disconnect SD1

57 PD2 SD1_CMD/PAR_D11Open SB76, Disconnect CN4,Disconnect

SD1

59 GND - -

2 PI13 LCD_VSYNC -

4 PC14 OSC32_IN Remove R23, Close SB38

6 PC13 TAMPER_WAKEUP_KEY Remove R217

8 PK7 LCD_ENB Remove R162 Disconnect CN15

10 GND - -

12 PK5 LCD_B6 -

14 PB9 I2C1_SDARemove R174, R3,R294, Disconnect

CN4,CN15,CN18

16 PK3 LCD_B4 -

18 PB6 QSPI_BK1_NCS Remove R230

20 PJ14 LCD_B2 -

22 PJ15 LCD_B3 -

24 PB4 JTRST/SD2_D3 Open SB16, Disconnect SD2

26 PJ13 LCD_B1 -

28 PC12 SD1_CK/ PAR_D9 Disconnect CN4, Disconnect SD1

30 GND - -

32 PA15 JTDI Remove R99

34 PK1 - -

36 PA14 JTCK-SWCLK Remove R91

38 PK2 - -

40 PA13 JTMS-SWDIO Remove R84

42 PA12CAN1_TX/USB_FS1_DP/MC

_PFCsync2Open SB60,SB62,SB66

44 PA10 RS232_RX/USB_FS1_ID Remove R115, Keep JP21 on open

46 PC9 SD1_D1/PAR_D3Remove R264, Disconnect CN4,Disconnect

SD1

48 +3.3V - -




DocID029087 Rev 1 35/75

UM2035 Connectors

74

7.6 RS-232 connector CN7

Figure 12. RS-232 connector CN7 (Front view)

50 GND - -

52 PA8LCD_BL_CTRL/MII_MCO/M

C_PFCsync1Open SB70,SB71,SB74

54 VBUS_FS1 - -

56 PD7 SD2_CMD Disconnect SD2

58 PC6 MC_UH/PAR_D0/I2S3_CKOpen SB18, Disconnect CN4, Keep JP9 on

open

60 +5 V - -




Table 22. RS-232 connector CN7


numberDescription

1 NC 6 Bootloader_BOOT

2 RS232_RX (PA10) 7 NC

3 RS232_TX (PA9) 8 Bootloader_RESET

4 NC 9 NC

5 GND - -

Connectors UM2035

36/75 DocID029087 Rev 1

7.7 USB OTG2 HS Micro-AB connector CN8

Figure 13. USB OTG HS Micro-AB connector CN8 (Front view)

7.8 Ethernet RJ45 connector CN9

Figure 14. Ethernet RJ45 connector CN9 (Front view)

Table 23. USB OTG HS Micro-AB connector CN8


1 VBUS 4 ID

2 D- 5 GND

3 D+ - -

Table 24. RJ45 connector CN9


numberDescription

1 TxData+ 2 TxData-

3 RxData+ 4 Shield

5 Shield 6 RxData-

7 Shield 8 Shield

DocID029087 Rev 1 37/75

UM2035 Connectors

74

7.9 Memory connector CN10 and CN11

Two 40-pins male headers CN10 and CN11 are used to connect with memory daughterboard. GPIOs (which work as FMC memory signals) that are not present on CN5 and CN6, are available on these two connectors.

The space between these two connectors is defined as a standard which allows to develop common daughterboard. The standard width between CN10 pin 1 and CN11 pin 1 is 1914 mils (48.62 mm). For more details on signal assignment refer to Table 26 and Table 27.

Table 25. Memory connector CN10

Pin Description FunctionHow to disconnect with function block on


1 PH3 SDNE0/MII_COL Open SB57

3 PF13 A7 -

5 PF12 A6 -

7 PG1 A11 -

9 GND - -

11 PE7 D4 -

13 PE10 D7 -

15 PE12 D9 -

17 PE15 D12 -

19 PE13 D10 -

21 PD11 A16 -

23 PD12 A17 -

25 PG5 A15/BA1 -

27 PH11 D19 -

29 GND - -

31 PD13 A18 -

33 PG2 A12 -

35 PD8 D13 -

37 PD9 D14 -

39 PD14 D0 -

2 PH5 SDNWE -

4 PF14 A8 -

6 PG0 A10 -

8 PF11 SDNRAS -

10 GND - -

12 PE9 D6 -

14 PE8 D5 -

Connectors UM2035

38/75 DocID029087 Rev 1

16 PE11 D8 -

18 PF15 A9 -

20 PE14 D11 -

22 PH8 D16 -

24 PH10 D18 -

26 PH9 D17 -

28 PG4 A14/BA0 -

30 GND - -

32 PH12 D20 -

34 PG3 A13 -

36 PD10 D15 -

38 PD15 D1 -

40 PG8 SDCLK/ MII_PPS_OUT -

Table 26. Memory connector CN11

Pin Description Alternative functionHow to disconnect with function block on


1 PF5 A5 -

3 PF4 A4 -

5 PF3 A3 -

7 PE6A22/SAI2_MCLK_B/TRACED

3/PAR_D7/LCD_G1Open SB25, SB26, SB27, SB28

9 GND/PG7 GND/NAND_INTShort pin 2, 3 of JP13 when connect NAND module to CN11, close SB19, in any other

case short pin 1 and 2 of JP13

11 PE4 A20/TRACED1 Open SB11

13 PE3 A19/TRACED0 Open SB9

15 PI5 NBL3 -

17 PI4 NBL2 -

19 PG15 SDNCAS -

21 PI10 D31/MII_RX_ER Open SB12

23 PE1 NBL1 -

25 PE0 NBL0 -

27 PG6 NE3/LCD_R7 Close SB20

29 GND - -

Table 25. Memory connector CN10 (continued)

Pin Description FunctionHow to disconnect with function block on


DocID029087 Rev 1 39/75

UM2035 Connectors

74

31 PD0 D2 -

33 PI2 D26 -

35 PI1 D25 -

37 PI0 D24 -

39 PH13 D21 -

2 PH2 SDCKE0 -

4 PE5A21/TRACED2/PAR_D6/LCD

_G0Open SB6,SB7,SB8

6 PC6 NWAIT /MC_UH/ PAR_D0 Close JP9, Disconnect CN4,CN1

8 PF2 A2 -

10 GND - -

12 PF1 A1 -

14 PF0 A0 -

16 PE2 A23/TRACECLK/ MII_TXD3 Open SB10, Remove R42

18 PI7 D29 -

20 PI9 D30 -

22 PI6 D28 -

24 PC7 NE1/MC_VH/ PAR_D0 Connect JP10, disconnect CN4,CN1

26 PD5 NWE -

28 PD4 NOE -

30 GND/PC8 GND/NAND_NCE/ PAR_D0

Short pin 2, 3 of JP17, open SB72, SB75, close SB18, disconnect CN4,CN1 when

connect NAND module to CN11, in any other case short pin 1, 2 of JP17

32 PD1 D3 -

34 PI3 D27 -

36 PH15 D23 -

38 PH14 D22 -

40 +3.3V - -

Table 26. Memory connector CN11 (continued)

Pin Description Alternative functionHow to disconnect with function block on


Connectors UM2035

40/75 DocID029087 Rev 1

7.10 ETM trace debugging connector CN12

Figure 15. ETM trace debugging connector CN12 (Top view)

7.11 USB OTG1 FS Micro-AB connector CN13

Figure 16. USB OTG1 FS Micro-AB connector CN13 (Front view)

Table 27. ETM trace debugging connector CN12


numberDescription

1 +3.3V 2 TMS/PA13

3 GND 4 TCK/PA14

5 GND 6 TDO/PB3

7 KEY 8 TDI/PA15

9 GND 10 RESET#

11 GND 12 TraceCLK/PE2

13 GND 14 TraceD0/PE3 or SWO/PB3

15 GND 16 TraceD1/PE4 or nTRST/PB4

17 GND 18 TraceD2/PE5

19 GND 20 TraceD3/PE6

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UM2035 Connectors

74

7.12 USB OTG2 FS Micro-AB connector CN14

Figure 17. USB OTG2 FS Micro-AB connector CN14 (Front view)

7.13 JTAG/SWD connector CN16

Figure 18. JTAG/SWD debugging connector CN16 (Top view)

Table 28. USB OTG1 FS Micro-AB connector CN13


1 VBUS (PA9) 4 ID (PA10)

2 D- (PA11) 5 GND

3 D+ (PA12) - -

Table 29. USB OTG2 FS Micro-AB connector CN14


1 VBUS (PB13) 4 ID (PB12)

2 D- (PB14) 5 GND

3 D+ (PB15) - -

Connectors UM2035

42/75 DocID029087 Rev 1

7.14 microSD connectors CN17 and CN30

Figure 19. microSD connector (Top view)

Table 30. JTAG/SWD debugging connector CN16


numberDescription

1 +3.3V 2 +3.3V

3 PB4 4 GND

5 PA15 6 GND

7 PA13 8 GND

9 PA14 10 GND

11 RTCK 12 GND

13 PB3 14 GND

15 RESET# 16 GND

17 DBGRQ 18 GND

19 DBGACK 20 GND

Table 31. microSD card1 connector CN17

Pin number

DescriptionPin

numberDescription

1 SDMMC_D2 (PC10) 6 Vss/GND

2 SDMMC_D3 (PC11) 7 SDMMC_D0 (PC8)

3 SDMMC_CMD (PD2) 8 SDMMC_D1 (PC9)

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UM2035 Connectors

74

7.15 Power connector CN19

STM32F769I-EVAL evaluation board can be powered from a DC 5 V power supply via the external power supply jack (CN19) shown in Figure 20. The central pin of CN19 must be positive.

Figure 20. Power supply connector CN19 (Front view)

7.16 ST-LINK/V2-1 programming connector CN20

The connector CN20 is used only for embedded ST-LINK/V2-1 programming during the board manufacturing. It is not populated by default and not for end user.

4 +3.3V 9 GND

5 SDMMC_CLK (PC12) 10MicroSDcard_detect1 (MFX

GPIO15)

Table 32. microSD card2 connector CN30

Pin number

DescriptionPin

numberDescription

1 SDMMC_D2 (PB3) 6 Vss/GND

2 SDMMC_D3 (PB4) 7 SDMMC_D0 (PG9)

3 SDMMC_CMD (PD7) 8 SDMMC_D1 (PG10)

4 +3.3V 9 GND

5 SDMMC_CLK( PD6) 10MicroSDcard_detect2 (MFX

GPIO10)

Table 31. microSD card1 connector CN17 (continued)

Pin number

DescriptionPin

numberDescription

Connectors UM2035

44/75 DocID029087 Rev 1

7.17 MFX programming connector CN21

The connector CN21 is used only for MFX (Multi-Function expander) programming during the board manufacturing. It is not populated by default and not for end user.

7.18 ST-LINK/V2-1 USB Micro-B connector CN22

The USB connector CN22 is used to connect the embedded ST-LINK/V2-1 to the PC to debug the board.

Figure 21. USB Micro-B connector (Front view)

7.19 MEMS microphone coupon connectors CN24 and CN25

Figure 22. MEMS microphone coupon connectors CN24 and CN25 (Top view)

Table 33. USB Micro-B connector CN22


1 VBUS (power) 4 ID

2 DM 5 GND

3 DP 6,7,8,9,10,11 Shield

Table 34. MEMS microphone coupon connectors CN24 and CN25


1 DATA 4 VDD

DocID029087 Rev 1 45/75

UM2035 Connectors

74

7.20 CAN D-type 9-pin male connector CN26

Figure 23. CAN D-type 9-pin male connector (Front view)

7.21 Audio jack (speaker) CN27

A 3.5mm stereo audio jack CN27 for speaker out is available on the STM32F769I-EVAL evaluation board to support external speaker.

7.22 Audio jack CN28

A 3.5mm stereo audio jack CN28 is available on the STM32F769I-EVAL evaluation board to support headset (headphone and microphone integrated).

2 GND 5 L/R

3 CLK 6 NC

Table 34. MEMS microphone coupon connectors CN24 and CN25 (continued)


Table 35. CAN D-type 9-pin male connector CN26


1,4,8,9 NC 7 CANH

2 CANL 3,5,6 GND

Connectors UM2035

46/75 DocID029087 Rev 1

7.23 SPDIF IN connector CN29

Figure 24. SPDIF IN connector CN29 (Front view)

Table 36. SPDIF IN connector CN29


1 SPDIF_RX1(PG12) 3 VCC

2 GND - -

DocID029087 Rev 1 47/75

UM2035 STM32F769I-EVAL I/O assignment

74

Appendix A STM32F769I-EVAL I/O assignment

Table 37. STM32F769I-EVAL I/O assignment

Pin No.

Pin NameSTM32F769I-EVAL

standardMotor control variant

Camera variant

A1 PE4 A20/TRACED1 - -

A2 PE3 A19/TRACED0 - -

A3 PE2 A23/TRACECLK/MII_TXD3 - -

A4 PG14 MII_TXD1 - -

A5 PE1 NBL1 - -

A6 PE0 NBL0 - -

A7 PB8Audio and EXPANDER and

ACP and RF_I2C1_SCL- -

A8 PB5 ULPI_D7/LCD_G7 - -

A9 PB4 NJTRST/SD2_D3 - -

A10 PB3 JTDO/SD2_D2 - -

A11 PD7 SD2_CMD - -

A12 PC12 SD1_CK - D9

A13 PA15 JTDI - -

A14 PA14 JTCK-SWCLK - -

A15 PA13 JTMS-SWDIO - -

B1 PE5 A21/TRACED2/LCD_G0 - D6

B2 PE6A22/SAI2_MCLK_B/TRACED3

/LCD_G1- D7

B3 PG13 MII_TXD0 - -

B4 PB9Audio and EXPANDER and

ACP and RF_I2C1_SDA- -

B5 PB7 - - VSYNC

B6 PB6 QSPI_BK1_NCS/CEC - -

B7 PG15 SDNCAS - -

B8 PG11 MII_TX_EN NTC_BYPASS_IO -

B9 PJ13 LCD_B1 - -

B10 PJ12 LCD_B0 - -

B11 PD6 DFSDM_DATA1/SD2_CLK - D10

B12 PD0 D2 - -

B13 PC11 SD1_D3 - D4

B14 PC10 SD1_D2//EXT_RESET - D8

B15 PA12 CAN1_TX/USB_FS1_DP PFC_SYNC2_TIM1_ETR -

STM32F769I-EVAL I/O assignment UM2035

48/75 DocID029087 Rev 1

C1 VBAT VBAT - -

C2PI8- ANTI

TAMP2 EXPANDER_INT - -

C3 PI4 NBL2 - -

C4 PK7 LCD_DE/DSI_RESET - -

C5 PK6 LCD_B7 - -

C6 PK5 LCD_B6 - -

C7 PG12 SPDIF_RX1 - -

C8 PG10 SD2_D1 - -

C9 PJ14 LCD_B2 - -

C10 PD5 NWE - -

C11 PD3 DFSDM_CLK - D5

C12 PD1 D3 - -

C13 PI3 D27 - -

C14 PI2 D26 - -

C15 PA11 CAN1_RX/USB_FS1_DM PFC_PWM_TIM1_1_CH4 -

D1PC13-

ANTI_TAMP

KEY_ TAMP1_WKUP2 - -

D2 PF0 A0 - -

D3 PI5 NBL3 - -

D4 PI7 D29 - -

D5 PI10 D31/MII_RX_ER - -

D6 PI6 D28 - -

D7 PK4 LCD_B5 - -

D8 PK3 LCD_B4 - -

D9 PG9 SAI2_FS_B/SD2_D0 - -

D10 PJ15 LCD_B3 - -

D11 PD4 NOE - -

D12 PD2 SD1_CMD - D11

D13 PH15 D23 - -

D14 PI1 D25 - -

D15 PA10RS232_USART1_RX/USB_FS

1_ID- -

E1PC14-

OSC32_INOSC32_IN - -

Table 37. STM32F769I-EVAL I/O assignment (continued)

Pin No.



Camera variant

DocID029087 Rev 1 49/75


74

E2 PF1 A1 - -

E3 PI12 LCD_HSYNC - -

E4 PI9 D30 - -

E5 PDR_ON - - -

E6 BOOT BOOT - -

E7 VDD_3 - - -

E8 VDD_11 - - -

E9 VDD_10 - - -

E10 VDD_15 - - -

E11 VCAP2 - - -

E12 PH13 D21 - -

E13 PH14 D22 - -

E14 PI0 D24 - -

E15 PA9RS232_USART1_TX/

USB_FS1_VBUS- -

F1PC15-

OSC32_OUT

OSC32_OUT - -

F2 VSS_18 - - -

F2 VSS_13 - - -

F3 PI11 ULPI_DIR/LCD_G6 - -

F4 VDD_13 - - -

F5 VDD_17 - - -

F6 VSS_3 - - -

F7 VSS_11 - - -

F8 VSS_10 - - -

F9 VSS_15 - - -

F10 VSS 2 - - -

F11 VDD_2 - - -

F12 PK1 - - -

F13 PK2 - - -

F14 PC9 SD1_D1/LCD_G3 - D3

F15 PA8Backlight_PWM_TIM1_CH1

/MII_MCOPFC_SYNC1_TIM1_1_CH1 -

G1PH0 -

OSC_INOSC_IN - -


Pin No.



Camera variant


50/75 DocID029087 Rev 1

G2 PF2 A2 - -

G3 PI13 LCD_VSYNC - -

G4 PI15 LCD_R0/LED0 - -

G5 VDD_18 - - -

G6 VSS_17 - - -

G10 VSS_9 - - -

G11 VDDUSB - - -

G12 PJ11 - - -

G13 PK0 - - -

G14 PC8 SD1_D0/NAND_NCE WH_TIM8_CH3 D2

G15 PC7 FMC_NE1 VH_TIM8_CH2 D1

H1PH1 -

OSC_OUTOSC_OUT - -

H2 PF3 A3 - -

H3 PI14 LCD_CLK - -

H4 PH4 ULPI_NXT - -

H5 VDD_5 - - -

H6 VSS_5 - - -

H10 VSS_20 - - -

H11 VDD_20 - - -

H12 PJ8 - - -

H13 PJ10 - - -

H14 PG8 SDCLK/MII_PPS_OUT - -

H15 PC6 FMC_NWAIT UH_TIM8_CH1 D0

J1 NRST NRST - -

J2 PF4 A4 - -

J3 PH5 SDNWE - -

J4 PH3 SDNE0/MII_COL - -

J5 VDD_12 - - -

J6 VSS_12 - - -

J10 VSS_8 - - -

J11 VDD_8 - - -

J12 PJ7 - - -

J13 PJ9 - - -


Pin No.



Camera variant

DocID029087 Rev 1 51/75


74

J14 PG7 NAND_INT - -

J15 PG6 FMC_NE3 - -

K1 PF7 QSPI_BK1_IO2 - -

K2 PF6 QSPI_BK1_IO3 - -

K3 PF5 A5 - -

K4 PH2 SDCKE0 - -

K5 VDD_4 - - -

K6 VSS_4 - - -

K7 VSS_6 - - -

K8 VSS_7 - - -

K9 VSS_1 - - -

K10 VSS_14 - - -

K11 VDD_14 - - -

K12 PJ6 - - -

K13 PD15 D1 - -

K14 PB13 ULPI_D6/USB_FS2_VBUS - -

K15 PD10 D15 - -

L1 PF10 POT_ADC3_IN8 - -

L2 PF9 QSPI_BK1_IO1 - -

L3 PF8 QSPI_BK1_IO0 - -

L4 PC3 MII_TX_CLKCURRENT_C_ADC3_123_IN

13-

L5BYPASS_R

EG- - -

L6 VSS_19 - - -

L7 VDD_19 - - -

L8 VDD_6 - - -

L9 VDD_7 - - -

L10 VDD_1 - - -

L11 VCAP1 - - -

L12 PD14 D0 - -

L13 PB12 ULPI_D5/USB_FS2_ID - -

L14 PD9 D14 - -

L15 PD8 D13 - -

M1 VSSA - - -


Pin No.



Camera variant


52/75 DocID029087 Rev 1

M2 PC0 ULPI_STP - -

M3 PC1 SAI1_SD_A/MII_MDCCURRENT_A_ADC1_123_IN

11-

M4 PC2 MII_TXD2CURRENT_B_ADC2_123_IN

12-

M5 PB2 QSPI_CLK - -

M6 PF12 A6 - -

M7 PG1 A11 - -

M8 PF15 A9 - -

M9 PJ4 LCD_R5 - -

M10 PD12 A17 - -

M11 PD13 A18 - -

M12 PG3 A13 - -

M13 PG2 A12 - -

M14 PJ5 LCD_R6 - -

M15 PH12 D20 - -

N1 VREF- - - -

N2 PA1 MII_RX_CLK ENCODER_B_TIM5_5_CH2 -

N3 PA0-WKUP SAI2_SD_B/MII_CRS ENCODER_A_TIM5_5_CH1 -

N4 PA4 - DAC_OUT1 HSYNC

N5 PC4 MII_RXD0 BUSVOLTAGE_ADC12_IN14 -

N6 PF13 A7 - -

N7 PG0 A10 - -

N8 PJ3 LCD_R4/LED3 - -

N9 PE8 D5 - -

N10 PD11 A16 - -

N11 PG5 A15(BA1) - -

N12 PG4 A14(BA0) - -

N13 PH7 MII_RXD3 - -

N14 PH9 D17 - -

N15 PH11 D19 - -

P1 VREF+ - - -

P2 PA2 SAI2_SCK_B/MII_MDIO INDEX_TIM5_5_CH3 -

P3 PA6 - STOP_TIM8_BKIN PIXCLK

P4 PA5 ULPI_CK DAC_OUT2 -


Pin No.



Camera variant

DocID029087 Rev 1 53/75


74

P5 PC5 MII_RXD1 HEATSINK_ADC12_IN15 -

P6 PF14 A8 - -

P7 PJ2 LCD_R3/DSI_TE - -

P8 PF11 SDNRAS - -

P9 PE9 D6 - -

P10 PE11 D8 - -

P11 PE14 D11 - -

P12 PB10 ULPI_D3 - -

P13 PH6 MII_RXD2DISSIPATIVE_BRAKE_TIM2_

12_CH1-

P14 PH8 D16 - -

P15 PH10 D18 - -

R1 VDDA - - -

R2 PA3 ULPI_D0 - -

R3 PA7 MII_RX_DV UL_TIM8_CH1N -

R4 PB1 ULPI_D2 WL_TIM8_CH3N -

R5 PB0 ULPI_D1 VL_TIM8_CH2N -

R6 PJ0 LCD_R1/LED1 - -

R7 PJ1 LCD_R2/LED2 - -

R8 PE7 D4 - -

R9 PE10 D7 - -

R10 PE12 D9 - -

R11 PE15 D12 - -

R12 PE13 D10 - -

R13 PB11 ULPI_D4 - -

R14 PB14 USB_FS2_DM - -

R15 PB15 USB_FS2_DP - -


Pin No.



Camera variant

Schematics UM2035

54/75 DocID029087 Rev 1

Appendix B Schematics

This section provides design schematics for the STM32F769I-EVAL key features to help users to implement these features in application designs.

This section includes:

• Overall schematics for the board, see Figure 25

• MCU connections, see Figure 26

• Power supply, see Figure 27

• SRAM, Flash, SDRAM, see Figure 28

• Audio amplifier, see Figure 29

• LCD, camera and connector, see Figure 30

• Ethernet, see Figure 31

• USB OTG HS, see Figure 32

• USB OTG FS, see Figure 33

• RS-232, see Figure 34

• CAN and Quad-SPI, see Figure 35

• Peripherals, see Figure 36

• Motor control, Figure 37

• Extension connectors, see Figure 38

• ST-LINK/V2-1, see Figure 39

• MFX and LEDs, see Figure 40

• SWD and JTAG debuggers, see Figure 41

• MB1166 LCD board schematics, see Figure 42

• MB1183 camera module schematics, see Figure 43

UM

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Figure 25. STM32F769I-EVAL evaluation board

1 17

MB1219

MB1219 B.1

2016/5/17

Title:

Size: Reference:

Date: Sheet: of

A3 Revision:

STM32F769I-EVALProject:

+3V3

25MHz clock

25MHz clock

10MHz clock

10MHz clock

84MHz clock

90MHz clock

Same length

Same length

60MHz clock

25MHz clock

R160 1K5R161 1K5

133MHz clock

SAI2_SCKBSAI2_FSBSAI2_SDBSAI1_SDA

Audio_INT

I2C1_SDAI2C1_SCL

SAI2_MCLKBDFSDM_CLK

DFSDM_DATA1SPDIF_OUT

U_AudioAudio.SchDoc

CAN1_TXCAN1_RX

QSPI_BK1_IO0

QSPI_BK1_IO3QSPI_BK1_IO2QSPI_BK1_IO1

QSPI_CLKQSPI_BK1_NCS

U_CAN&QSPICAN&QSPI.SchDoc

MII_TXD0

MII_TX_EN

MII_TX_CLK

MII_RXD0

MII_RX_ERMII_RX_DV

MII_RX_CLK

MII_COLMII_CRS

MII_MDCMII_MDIO

RESET#

MII_TXD1MII_TXD2MII_TXD3

MII_RXD1MII_RXD2MII_RXD3

MII_INT

MII_MCO

MII_MDIO_GPIOMII_MDC_GPIO

Ethernet.SchDoc

PA[0..15]PB[0..15]PC[0..15]PD[0..15]PE[0..15]PF[0..15]PG[0..15]PH[0..15]PI[0..15]PJ[0..15]PK[0..7]

RESET#

FMC_NWAITNAND_INTNAND_NCE

U_ExtensionConnectorExtensionConnector.SchDoc

TDI

RESET#TRACE_D3TRACE_D2TRACE_D1TRACE_D0TRACE_CK

TRSTTMS/SWDIOTCK/SWCLKTDO/SWO

U_JTAG&TraceJTAG&Trace.SchDoc

FMC_NE1

FMC_NWEFMC_NOEFMC_NWAIT

FMC_NBL0FMC_NBL1

D[0..31]A[0..23]

SDNCASSDNWE

SDNRASSDNE0

SDCKE0

SDCLK

FMC_NBL3FMC_NBL2

FMC_NE3

U_MemoryMemory.SchDoc

MC_EmergencySTOP

MC_CurrentAMC_CurrentBMC_CurrentC

MC_PFCsync1MC_PFCsync2

MC_WLMC_VHMC_VLMC_UHMC_UL

MC_WH

MC_NTCMC_DissipativeBrake

MC_PFCpwm

MC_EnAMC_EnB

MC_HeatsinkMC_BusVoltageMC_EnIndex

U_MotorControlMotorControl.SchDoc

JOY_SELJOY_DOWNJOY_LEFTJOY_RIGHTJOY_UP

Potentiometer

SD1_CLKSD1_CMD

SD1_D0SD1_D1SD1_D2SD1_D3

MicroSDCard1_Detect

SD2_CLKSD2_CMD

SD2_D0SD2_D1SD2_D2SD2_D3MicroSDCard2_Detect

U_PeripheralsPeripherals.SchDoc

U_PowerPower.SchDoc

STLK_RXSTLK_TXTDI

TRSTTMS/SWDIOTCK/SWCLKTDO/SWORESET#

U_ST_LINK_V2-1ST_LINK_V2-1.SCHDOC

ULPI_D[0..7]ULPI_CKULPI_DIR

ULPI_NXTULPI_STP

RESET#USB_FS2_DMUSB_FS2_DP

OTG_FS2_PowerSwitchOnOTG_FS2_OverCurrent

USB_FS2_ID

U_USB_OTGUSB_OTG.SchDoc

OTG_FS1_PowerSwitchOnOTG_FS1_OverCurrent USB_FS1_DM

USB_FS1_DP

USB_FS1_ID

U_USB_OTG_FSUSB_OTG_FS.SchDoc

25MHz clock

24MHz clock

32

1

JP26

Same length

RS232_TXRS232_RXBootloader_BOOT0

Bootloader_RESET

U_RS232RS232.SchDoc

32

1

JP21

LCD_R[0..7]

LCD_HSYNCLCD_VSYNC

LCD_CLK

LCD_ENBLCD_BL_CTRL

I2C1_SDAI2C1_SCL

LCD_B[0..7]LCD_G[0..7]

RSTIXSDN

PAR_HSYNCPAR_PCLK

PAR_VSYNC

PAR_D[0..11]

EXT_RESET

LCD_INTCamera_PLUG

RESET#

DSI

SCLK/MCLKLRCLKSPDIF/I2S

CEC

_CLK

CEC

U_LCD&Camera&ConnectorsLCD&Camera&Connectors.SchDoc

I2C1_SDAI2C1_SCL

MFX_IO5

MFX_IO6MFX_IO7

MFX_IO8MFX_IO9

MFX_IO10

MFX_IO11MFX_IO12

MFX_IO13

MFX_IO14

MFX_IO15

MFX_IO0MFX_IO1MFX_IO2MFX_IO3MFX_IO4

MFX_IRQOUT

MFX_WKUP

RESET#

LED1

LED3LED2

LED0

XSDN

U_MFXMFX & LEDs.SchDoc

PA[0..15]PB[0..15]PC[0..15]PD[0..15]PE[0..15]PF[0..15]PG[0..15]PH[0..15]PI[0..15]

MC_EnA

MII_RX_CLK

MC_EnB

MII_MDIO

MC_EnIndex

ULPI_CK

MC_EmergencySTOP

MII_RX_DV

MC_UL

LCD_BL_CTRL

MC_PFCsync1

RS232_TXRS232_RX

USB_FS1_ID

CAN1_RX

USB_FS1_DM

MC_PFCpwm

CAN1_TX

USB_FS1_DP

MC_PFCsync2

TMS/SWDIOTCK/SWCLK

TDI

MC_VL

MC_WL

TDO/SWO

DFSDM_CLK

TRST

I2C1_SCL

MII_TXD3

MC_DissipativeBrake

I2C1_SDA

USB_FS2_IDUSB_FS2_DMUSB_FS2_DP

ULPI_STP

MII_MDC

MC_CurrentA

MII_TXD2

MC_CurrentB

MII_TX_CLK

MC_CurrentC

MII_RXD0

MC_BusVoltage

MII_RXD1

MC_Heatsink

MC_UH

MC_VH

SD1_D0

MC_WH

SD1_D1SD1_D2

EXT_RESET

SD1_D3

SD1_CLK

MII_CRS

LCD_ENB

SD1_CMD

FMC_NOEFMC_NWE

FMC_NWAIT

DFSDM_DATA1

FMC_NE1FMC_NBL3FMC_NBL2

EXPANDER_INT

MII_RX_ER

ULPI_DIR

LCD_HSYNCLCD_VSYNC

LCD_CLK

FMC_NBL0FMC_NBL1

TRACE_CKTRACE_D0

TRACE_D2TRACE_D1

SAI1_SDA

TRACE_D3

SAI2_SDB

SAI2_SCKBSAI2_FSB

SAI2_MCLKB

Potentiometer

SDNRAS

MII_MDIO_GPIOMII_MDC_GPIO

SDCLK

FMC_NE3

SPDIF_RX1

MII_TX_EN

MC_NTC

MII_TXD0MII_TXD1

SDNCAS

SDCKE0

SDNE0

MII_COL

ULPI_NXT

SDNWE

MII_RXD2MII_RXD3

LCD_G[0..7]LCD_B[0..7]

D[0..31]A[0..23]

ULPI_D[0..7]

RESET#

PJ[0..15]PK[0..7]

PAR_VSYNC

PAR_D[0..11]PAR_PCLKPAR_HSYNC

MII_MCO

LCD_R[0..7]

Bootloader_BOOT0

QSPI_CLKQSPI_BK1_NCS

QSPI_BK1_IO3QSPI_BK1_IO2QSPI_BK1_IO1QSPI_BK1_IO0

Bootloader_RESET

LED1

LED3

TAMPER_WKUP_KEY

LED2

DSI

SD2_D2SD2_D3

CEC

SD2_CLK

SD2_D0SD2_D1

LED0

SD2_CMD

NAND_NCENAND_INT

U_MCUMCU.SchDoc

Note1: Rev A.1 --> B.11. Updated JP11 form 3 PIN to 2 PIN jumper2. Added JP28 for ST_LINK RST, deleted SB773. Deleted R1/R2,C1/C2/C3/C4,U1(IrDA)4. Updated the USB connector for ST_LINK from Mini B to Micro B

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ocID029

087 Re

v 1

Figure 26. STM32F769I-EVAL MCU

2 17

MCU

MB1219 B.1

2016/5/17

Title:

Size: Reference:

Date: Sheet: of

A3 Revision:


PA[0..15] PA[0..15]

PB[0..15] PB[0..15]

PC[0..15] PC[0..15]

PD[0..15] PD[0..15]

PE[0..15] PE[0..15]

PF[0..15] PF[0..15]

PG[0..15] PG[0..15]

PH[0..15] PH[0..15]

PI[0..15] PI[0..15]

PA4PA5PA6PA7

PA11PA12

PA9PA10

PA0PA1

PA15

PA3

PA13PA14

PA2

PA8

PB5PB6

PB7

PB14PB15

PB10

PB8PB9

PB1PB2

PB3

PB0

PB4

PB11PB12PB13

PC14PC15

MC_EnA

MII_RX_CLKMC_EnB

MII_MDIO

MC_EnIndex

ULPI_D0DAC_OUT1

ULPI_CK

DAC_OUT2

MC_EmergencySTOP

MII_RX_DVMC_UL

LCD_BL_CTRLMC_PFCsync1

RS232_TXVBUS_FS1 R265 10K

RS232_RXUSB_FS1_ID

CAN1_RXUSB_FS1_DM

MC_PFCpwm

CAN1_TXUSB_FS1_DP

MC_PFCsync2

TMS/SWDIOTCK/SWCLKTDI

ULPI_D1MC_VL ULPI_D2MC_WL

TRST ULPI_D7

I2C1_SCL

MII_TXD3

MC_DissipativeBrake

I2C1_SDA ULPI_D3ULPI_D4ULPI_D5ULPI_D6USB_FS2_ID

R263 [N/A] USB_FS2_DMUSB_FS2_DP

C20 1.5pF

C21 1.5pF

R22

0

R23

0

MII_CRS SB47 Open

R42 33

C23 5.6pF

C22 5.6pF

R20 0PH0PH1

PD0PD1

PD2PD3PD4PD5PD6PD7

PD8PD9PD10PD11PD12PD13PD14PD15

D2D3

D13D14D15

D0D1

SD1_CMD

FMC_NOEFMC_NWE

DFSDM_DATA1

A16A17A18

32

1

JP7

PI0

PI14PI15

PI9PI8

PI11PI10

PI12PI13

PI1PI2PI3

PI4PI5

PI6PI7

D24D25D26D27

D28D29

D30D31

R275 33R274 33R273 33R284 33

FMC_NBL3FMC_NBL2

EXPANDER_INT

R254 33R250 33

R251 33

MII_RX_ER

R252 33

ULPI_DIRLCD_HSYNCLCD_VSYNC

LCD_CLKLCD_R0

PE0

PE14PE15

PE9PE8

PE11PE10

PE12PE13

PE1PE2

PE3

PE4

PE5

PE6

PE7

PF0

PF14PF15

PF9PF8

PF11PF10

PF12PF13

PF1PF2PF3PF4PF5PF6PF7

PG0

PG14

PG15

PG9PG8

PG11PG10

PG12PG13

PG1PG2PG3PG4PG5

PG6PG7

PH14PH15

PH9PH8

PH11PH10

PH12PH13

PH2PH3

PH4PH5

PH6PH7D4

D5D6D7D8D9D10D11D12

A1A2A3A4A5

A6A7A8A9

A10A11A12A13A14A15

A19

A20

A21

A22

A0

A23

D16D17D18D19D20D21D22D23

FMC_NBL0FMC_NBL1

TRACE_CK

TRACE_D0

TRACE_D2

TRACE_D1

TRACE_D3

R62 33R54 33R53 33R63 33R55 33R64 33R66 33R56 33R65 33

R247 33R244 33R243 33R240 33R238 33R237 33

SAI2_SDB

SAI2_SCKB

SAI2_FSB

SAI2_MCLKB

Potentiometer R52 33SDNRAS R259 33R257 33R260 33R271 33

R262 33R261 33

R280 33R269 33

SDCLKR277 33 MII_PPS_OUT

SPDIF_RX1

MII_TX_ENMC_NTC

R256 33

MII_TXD0MII_TXD1R45 33

SDNCAS

SDCKE0SDNE0R255 33

SB58Open

MII_COLULPI_NXTSDNWER258 33

MII_RXD2

MII_RXD3

R249 33R248 33

R57 33R58 33R67 33R68 33R59 33R276 33R286 33R285 33

R266 33R278 33

R70 33R69 33

R283 33R272 33

R60 33

LCD_G[0..7]

LCD_B[0..7]

D[0..31]

A[0..23]

D[0..31]

A[0..23]

ULPI_D[0..7]ULPI_D[0..7]

RESET#

1

4 3

2

B1TD-0341 [RESET/Black]

C99

100nF

231

SW109.03290.01

RESET#BOOT0

PJ[0..15] PJ[0..15]

PK[0..7] PK[0..7]

VDD_MCU

BT1CR1220 holder

12

3

JP15

+3V3

TP7VDDAVDDA

VREF+

L7BEAD(FCM1608KF-601T03)

R330

TP5VREF

VDD_MCU

C1372.2uF

C292.2uF

Ceramic capacitor (Low ESR)

C106100nF

C125100nF

C123100nF

C1031uF

C108100nF

VREF+

C1091uF

VDDA

C112100nF

VDD_MCU

C113100nF

C119100nF

C120100nF

C121100nF

C130100nF

C115100nF

C127100nF

C111100nF

C129100nF

C107100nF

VDD_MCU

C124100nF

C122100nF

C114100nF

C118100nF

C128100nF

C126100nF

VDD_MCU

C1044.7uF

C1104.7uF

+3V3

+3V3

R18 [N/A]

PAR_D10

PAR_D6

PAR_D11PAR_D5

PAR_D7

PAR_VSYNC

PAR_D[0..11]PAR_D[0..11]

PAR_PCLK

PAR_HSYNC

PA0PA0PA0

PA1PA1

PA2

PA2

PA4PA5

PA6PA6

PA7PA7

PA8PA8

PA9PA9

PA10PA10

PA11

R17 10K

R25310K

MII_MCO PA8

PA11PA11

R279 33R267 33

R270 33R281 33R268 33

R39 33[N/A]

R37 33

R35 33

R31 33

R34 33

PE0PE1

PE2

PE5

PE6PE6

PE6

R36 220KR38 220KR40 220K

R32 220KR21 220K

LCD_R[0..7]LCD_R[0..7]

LCD_G[0..7]

LCD_B[0..7]

VBUS_FS2

JP14

PE6

R228 0

R410K

Bootloader_BOOT0

D1

BAT60JFILM

JP1

QSPI_CLK

QSPI_BK1_NCS

QSPI_BK1_IO3QSPI_BK1_IO2


Bootloader_RESETJP5D2

BAT60JFILM

R24 33R19 33R41 33R26 33

R43 33

R44 33

X2

NX3215SA-32.768KHZ-EXS00A-MU00525

SB45 Open

SB43 ClosedSB34 OpenSB36 ClosedSB37 Open

SB3 ClosedSB46 OpenSB48 Closed

SB71 Closed

SB62 ClosedSB66 Closed

SB70 OpenSB74 Open

SB64 Open

SB60 Open

SB73 OpenSB50 Open

SB65 Open

SB76Closed

SB10Closed

SB11Closed

SB9Closed

SB7ClosedSB6Closed

SB25ClosedSB26ClosedSB27Closed

SB57 Open


SB53Open

SB55Closed

SB12Open

SB68 Closed

32

1JP3

SB35 Closed

R218220K

143 2

B2WKUP/TAMPERC100

[N/A]

R219100

R217330

PC13

+3V3

TAMPER_WKUP_KEY

Wakeup Button

TAMPER_WKUP_KEY

PC13-ANTI_TAMP D1

PC0 M2

PC1 M3

PC2 M4

PC3 L4

PA0-WKUPN3

PA1N2

PA2P2

PA3R2

PA4N4

PA5P4

PA6P3

PA7R3

PC4 N5

PC5 P5

PB0R5

PB1R4

PB2M5

PB10P12

PB11R13

PB12L13

PB13K14

PB14R14

PB15R15

PC6 H15

PC7 G15

PC8 G14

PC9 F14PA8F15

PA9E15

PA10D15

PA11C15

PA12B15

PA13A15

PA14A14

PA15A13

PC10 B14

PC11 B13

PC12 A12

PB3A10

PB4A9

PB5A8

PB6B6

PB7B5

PB8A7

PB9B4

PC14-OSC32_INE1

PC15-OSC32_OUTF1

PH0-OSC_ING1

PH1-OSC_OUTH1

NRSTJ1

BOOTE6

PDR_ONE5

PJ2 P7

PJ3 N8

PJ4 M9

PJ5 M14

DSI_D0_P J12

DSI_CK_P H12

DSI_D0_N J13

DSI_CK_N H13

PJ12 B10

PJ13 B9

PJ14 C9

PJ15 D10

PJ0 R6

PJ1 R7

DSI_D1_N F13

PK3 D8

PK4 D7

PK5 C6

PK6 C5

PK7 C4

DSI_D1_P F12

U4A

STM32F769NI

VBATC1

VSS2 F10VSS1 K9

VREF- N1VSSA M1

VREF+P1

VSS10 F8

VSS11 F7

VCAP2 E11

VSS12 J6

VDD4K5 VDD3E7

VSS13-VSS18 F2

VDD_VREGDSIH11

VCAP1 L11

VSS14 K10

VDD2F11

VSS15 F9

VDD19L7

VSS17 G6

VDD18G5

VDD1L10

VDD5H5

VDDAR1

VDD_MMC33E9

VDD11E8

VDD12J5

VDD13F4

VDD14K11

VDD15E10

VDD17F5

VSS19 L6

VSS20 H10

VSS3 F6

VSS4 K6

BYPASS-REGL5

VDD6L8

VDD7L9

VDD8J11

VDD_USB33G11

VSS5 H6

VSS6 K7

VSS7 K8

VSS8 J10

VSS9 G10

DSI_VCAPK12 DSI_VSS G12DSI_VDD12_0G13

U4C

STM32F769NI

PE2A3

PE3A2

PE4A1

PE5B1

PE6B2

PF0D2

PF1E2

PF2G2

PF3H2

PF4J2

PF5K3

PF6K2

PF7K1

PF8L3

PF9L2

PF10L1

PH2 K4

PH3 J4

PH4 H4

PH5 J3

PF11P8

PF12M6

PF13N6

PF14P6

PF15M8

PG0 N7

PG1 M7

PE7R8

PE8N9

PE9P9

PE10R9

PE11P10

PE12R10

PE13R12

PE14P11

PE15R11

PH6 P13

PH7 N13

PH8 P14

PH9 N14

PH10 P15

PH11 N15

PH12 M15

PG2 M13

PG3 M12

PG4 N12

PG5 N11

PG6 J15

PG7 J14

PG8 H14

PH13 E12

PH14 E13

PH15 D13

PG9 D9

PG10 C8

PG11 B8

PG12 C7

PG13 B3

PG14 A4

PG15 B7

PE0A6

PE1A5

PD8L15

PD9L14

PD10K15

PD11N10

PD12M10

PD13M11

PD14L12

PD15K13

PD0B12

PD1C12

PD2D12

PD3C11

PD4D11

PD5C10

PD6B11

PD7A11

PI8-ANTI_TAMP2 C2

PI9 E4

PI10 D5

PI11 F3

PI0 E14

PI1 D14

PI2 C14

PI3 C13

PI4 C3

PI5 D3

PI6 D6

PI7 D4

PI12 E3

PI13 G3

PI14 H3

PI15 G4

U4B

STM32F769NI

C1352.2uF

C134100nF

C302.2uF[N/A]

DSI_VDD12

PJ0

PJ14PJ15

PJ12PJ13

PJ1PJ2PJ3PJ4PJ5

LCD_R1LCD_R2LCD_R3LCD_R4LCD_R5LCD_R6LCD_B0LCD_B1LCD_B2LCD_B3

PK3PK4PK5PK6PK7

LCD_B4LCD_B5LCD_B6LCD_B7

LCD_ENB

LED1LED2

LED3

SB15Closed

SB59Closed

DSI_CK_PDSI_CK_N

DSI_D0_PDSI_D0_NDSI_D1_PDSI_D1_N

DSI_TEDSI_RESET

DSIDSI_TEDSI_RESET

DSI

DSI_RESET

DSI_CK_PDSI_CK_N

DSI_D0_PDSI_D0_NDSI_D1_PDSI_D1_N

DSI_TE

MII_MDC_GPIOMII_MDIO_GPIO

SB13Closed

LCD_G2 PA6

TDO/SWOSD2_D2

SB16 Open

SD2_D3 SB5 OpenLCD_G7

CEC SB14Open CECCEC

SB63 OpenSB61 Open

LCD_G4LCD_G5

FMC_NWAITPC0PC1PC2PC3PC4PC5PC6PC7PC8PC9PC10PC11PC12PC13

ULPI_STP

MII_MDC

MC_CurrentA

MII_TXD2MC_CurrentB

MII_TX_CLKMC_CurrentC

MII_RXD0MC_BusVoltage

MII_RXD1MC_Heatsink

MC_UH

MC_VH

SD1_D0MC_WH

SD1_D1

SD1_D2EXT_RESET

SD1_D3SD1_CLK

R287 0R282 0

LCD_G3

FMC_NE1

SAI1_SDA

PAR_D8

PAR_D0

PAR_D2

PAR_D4PAR_D9

PAR_D1

PAR_D3R264 0

PC0PC1

PC1

PC2PC2

PC3PC3

PC4PC4

PC5PC5

PC6

PC7

PC8PC8

PC9

R246 33

SB42Open

SB49Open

SB56Open

SB51Open

SB67Open

SB18Open

SB52Closed

SB54Closed

SB69Closed

SB72OpenSB75Closed

R245 33

32

1JP6

SB44Closed

PC7

NAND_NCESB17ClosedPC8

PC6

JP10

TAMPER_WKUP_KEY SD2_CLK

LCD_G0 SB8Closed

LCD_G1 SB28Closed

LCD_R7 FMC_NE3NAND_INT

SD2_D0SD2_D1

LCD_G6

SB4Closed LED0

SD2_CMD

DFSDM_CLK

JP9

IN 1

OUT 3NC2

NC4

X1

NX3225HA 25MHz EXS00A-CH00343

UM

20

35S

chem

atics

DocID

029087 R

ev 1

57/75

Figure 27. STM32F769I-EVAL Power

3 17

Power

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


SV1

SG2

CV 3

CG1 4

CG2 5

CG3 6

L3

BNX002-01

C57220uF

E5V

TP215V

+5V1 2

LD10red

C5347uF

C5510uF

C56100nF

+5V +3V3

TP13Ground

TP4+3V3

1

32

CN19

DC-10BZ1SMAJ5.0A-TR C62

100nF

1

2

3

D13ZEN056V130A24LS

E5VD5V

U5V_ST_LINK

+5V

C1910uF

+2V8

TP32V8

R15120

C510uF

R6150

C6110uF

+1V8

TP61V8

+3V3

+3V3 VDD_MCUJP2

R140

820

VBUS_HSVBUS_FS1

1 23 45 67 89 1011 12

JP20

Header 6X2

VBUS_FS2 TP1Ground

TP2Ground

TP26Ground

Vin3 Vout 2

Tab 4GND1

U18LD1086D2M33

Vin3 Vout 2

Tab 4GND1

U19LD1117S18TR

Vin3 Vout 2

Tab 4ADJ1

U2LD1117STR

Sc

he

ma

tics

UM

203

5

58/7

5D

ocID029

087 Re

v 1

Figure 28. STM32F769I-EVAL SRAM, FLASH, SDRAM

4 17

SRAM & FLASH & SDRAM

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


A1A2A3A4A5A6A7A8A9A10A11A12A13A14A15A16

A1A2A3A4A5A6A7A8A9A10A11A12A13A14A15A16A17A18A19A20A21A22

FMC_NE1FMC_NWEFMC_NOEFMC_NWAIT

JP16

A0

A0

A17A18

D0D1D2D3D4D5D6D7D8D9D10D11D12D13D14D15



PE1PE0

PD5

PC6PD4

FMC_NBL0FMC_NBL1

A19A20 A23

A22B8

A15D7

A14C7

A13A7

A12B7

A11D6

A10C6

A9A6

A8B6

A19D5 A20D4

WA5

RPB5

A21C5

Vpp/WPB4

RBA4

A18C4

A17B3

A7A3

A6C3

A5D3

A4B2

A3A2

A2C2

A1D2

VCCQ D8

A0E2

EF2

VSS E8

GG2

DQ0 E3

DQ8 F3

DQ1 H3

DQ9 G3

DQ2 E4

DQ10 F4

DQ3 H4

DQ11 G4

VCCQ F1

DQ4 H5

DQ12 F5

DQ5 E5

DQ13 G6

DQ6 H6

DQ14 F6

DQ7 E6

DQ15A-1 G7

VSS H7BYTEF7

A16E7

VCC G5

VSS H2

A23C8U9

PC28F128M29EWLA

D[0..31]

A[0..23]

D[0..31]

A[0..23]

R146 0

R89 0

SRAM

Nor Flash

+3V3

+3V3

+3V3+3V3

+3V3

+3V3

+3V3

+3V3



A1A2A3A4A5A6A7A8A9A10A11

A0

SDRAM

A11H9

A10G7

A9J3

A8H2

A7H1

A6G3

A5G2

A4G1

A3F3

A2F7

A1G9

A0G8

NCE3

DQ0 R8

DQ8 L2

DQ1 N7

DQ9 M3

DQ2 R9

DQ10 M2

DQ3 N8

DQ11 P1

VDDQB2

DQ4 P9

DQ12 N2

DQ5 M8

DQ13 R1

DQ6 M7

DQ14 N3

DQ7 L8

DQ15 R2

VSS A3VDDA7

DQ16 E8

DQ24 A2

DQ17 D7

DQ25 C3

DQ18 D8

DQ26 A1

DQ19 B9

DQ27 C2

DQ20 C8

DQ28 B1

DQ21 A9

DQ29 D2

DQ22 C7

DQ30 D3

DQ23 A8

DQ31 E2

VSSQ B3

VDDQB7 VSSQ B8

VSSQ C1VDDQC9

VSSQ D1VDDQD9

VDDQE1

NCE7

VSSQ E9

VSS F1VDDF9

NCH3

NCH7

BA0J7 BA1H8

NUK2 NCK3

VDDQL1

VSS L3VDDL7

VSSQ L9

VSSQ M1VDDQM9

VSSQ N1VDDQN9

VDDQP2 VSSQ P3

VDDQP7 VSSQ P8

VSS R3VDDR7

DQM0K9 DQM1K1 DQM2F8

CLKJ1 CKEJ2 CS#J8

DQM3F2

RAS#J9 CAS#K7 WE#K8

U15

IS42S32800G-6BLI

SDNCASSDNWE

SDNRASSDNE0SDCKE0SDCLK

FMC_NBL3FMC_NBL2

+3V3

+3V3+3V3+3V3

Place close SDRAMPlace close Nor FlashPlace close SRAM

PH5PG15PF11PH3PH2PG8

PI5PI4

A4B4

A3B3

A2A5

A1A4

A0A3

CEB5

I/O0 B6I/O1 C5I/O2 C6I/O3 D5

VCC D6

VSS D1

I/O4 E5I/O5 F5I/O6 F6I/O7 G6

WEG5

A16E4

A15F4

A14F3

A13G4

A12G3

A11H5

A10H4

A9H3

A8H2

I/O8 B1I/O9 C1I/O10 C2I/O11 D2

VCC E1

I/O12 E2I/O13 F2I/O14 F1I/O15 G1

BLEA1

BHEB2

OEA2

A7D4

A6C4

A5C3

A17D3 A18H1

VSS E6

A19G2 A20H6

CE2 A6

U16

IS61WV102416BLL-10MLI

R105 0

A14A15

FMC_NBL1FMC_NBL0

R291 0

C39100nF

C158

100nF

C165

100nF

C166

100nF

C154

100nF

C161

100nF

C148

100nF

C155

100nF

C156

100nF

C159

100nF

C160

100nF

C157

100nF

C147

100nF

C144

100nF

C164

100nF

C168

100nF

C167

100nF

C153

100nF

C162

100nF

C163

100nF

R14710K

R28910K

R8810K

R9010K

R83

10K R114

10K

FMC_NE3

PC7

PG6

UM

20

35S

chem

atics

DocID

029087 R

ev 1

59/75

Figure 29. STM32F769I-EVAL Audio

5 17

Audio

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


SAI2_SCKB

2

6

4

3 CN28

PJ3028B-3

Default I2C Address:0011010

PA0

ADCDAT1F2

ADCLRCLK1/GPIO1G3

AGND D6

CPVDDG9

CPVOUTN H7

CPVOUTP G7

CS/ADDR G2

DACDAT1E4

CPGND H9

DCVDDF1

DBVDDD2 DGND E2

CPCB H8

AVDD1D9

BCLK1G1

CIFMODE A4

CPCA G8

DMICCLKC6

AGND E7

AGND E8

AVDD2D8

GPIO2/MCLK2 E1

GPIO3/BCLK2H2

GPIO4/LRCLK2F4

GPIO5/DACDAT2H3

GPIO6/ADCLRCLK2G4 GPIO7/ADCDAT2E5

GPIO8/DACDAT3H4

GPIO9/ADCDAT3F5

GPIO10/LRCLK3H5 GPIO11/BCLK3F6

HP2GND F7

HPOUT1FB G5

HPOUT1L H6HPOUT1R G6

HPOUT2N F9

HPOUT2P F8

IN1LND7 IN1LPC8

IN1RNB7 IN1RPC7

IN2LN/DMICDAT1B9 IN2LP/VRXNB8

IN2RN/DMICDAT2A9 IN2RP/VRXPA8

LDO1ENAD4

LDO1VDDE9

LDO2ENAD5

LDO2VDDD1

LINEOUT1N C5

LINEOUT1P B5

LINEOUT2N C4

LINEOUT2P B4

LINEOUTFB A6

LRCLK1E3

MCLK1 D3

MICBIAS1 A7

MICBIAS2 B6

REFGND A5

SCLK H1SDA F3

SPKGND1 A1

SPKGND2 C1

SPKMODE A3

SPKOUTLN B1

SPKOUTLP A2

SPKOUTRN C3

SPKOUTRP B3

SPKVDD1B2

SPKVDD2C2

VMIDC C9

VREFCE6

U20

WM8994ECS/R

C77

100nF

C68

100nF

+3V3

+1V8

+3V3

SAI2_FSBSAI2_SDBSAI1_SDA

PA2PG9

PC1

Audio_INT

C64

1uF

I2C1_SDAI2C1_SCL

PB9PB8

SAI2_MCLKBPE6

R164 2K2

C75

100nF

C76

100nF

R16520

R16620

C72 2.2uF

C70 2.2uF

C74 2.2uF

32

1 JP22

32

1

JP23

32

1

JP24

MICBIAS1

+3V3

C87

100nF

DFSDM_CLK

time slot1 of SAI

time slo

t0 of S

AI

DFSDM_DATA1PD6

+3V3

C78

100nF

+1V8

+3V3

+1V8

C80

100nF

C88

100nF

To MFX

R173[N/A] +3V3

MFX_GPIO5

R170 4K7

R192 10K

C69 1uF

C81

1uF

C67

1uF

C79

4.7uF

C66

4.7uF

C65

4.7uF

C634.7uF

C714.7uF

C734.7uF

PD3

+3V3 SPDIF_OUTPG12

GND2

Vout 1Vcc3CN29

DLR11H0

R172 0

R206 0

R174 0R175 0

R193

180

GND

R2201K

R221

180

GNDGND

C98

4.7uF

C89

4.7uF2

6

4

3 CN27

PJ3028B-3

R2230

R222

0GND

GNDR225 [N/A]

R1941K

GND5 DOUT 4CLK 3VDD1 LR 2U25

MP34DT01TR

GND5 DOUT 4CLK 3VDD1 LR 2U24

MP34DT01TR

Coupon connectors

MIC_DATAMIC_C

LK

MIC_DATA

MIC_V

DD

MIC_VDDR191 10K

MIC_VDD

C95100nFClose to connector

Less than 7mm

C9630pF

SB79Closed

SB78Closed

LEFT

RIGHT

LEFTRIGHT

VDD 4LR 5NC 6

DATA1 GND2 CLK3

CN25

Coupon Connectors

VDD 4LR 5NC 6

DATA1 GND2 CLK3

CN24

Coupon Connectors

MIC_CLK

MIC_DATA

MIC_CLK

SPDIF connector

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Figure 30. STM32F769I-EVAL LCD, camera, connector

6 17

LCD & Camera & Connector

MB1219 B.1

2016/2/3

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


1 23 45 67 89 1011 1213 1415 1617 1819 2021 2223 2425 2627 2829 3031 3233 3435 3637 3839 4041 4243 4445 4647 4849 50

CN18

P127B-2*25MGF-079-1A

LCD_R[0..7]

LCD_HSYNCLCD_VSYNC

LCD_CLK

LCD_ENB

+3V3

I2C1_SDAI2C1_SCL

RGB LCD

LCD_B[0..7]

LCD_G[0..7]LCD_R0LCD_R1LCD_R2LCD_R3LCD_R4LCD_R5LCD_R6LCD_R7

LCD_B0LCD_B1LCD_B2LCD_B3LCD_B4LCD_B5LCD_B6LCD_B7

LCD_G0LCD_G1LCD_G2LCD_G3LCD_G4LCD_G5LCD_G6LCD_G7

PE5PE6PA6PC9PB10PB11PI11PB5

PI15PJ0PJ1PJ2PJ3PJ4PJ5PG6

PJ12PJ13PJ14PJ15PK3PK4PK5PK6

PK7

PI12PI13

PI14

PB9PB8

+5VC6010uF

L5BEAD(FCM1608KF-601T03) C59

100nFL4

BEAD(FCM1608KF-601T03)

PA8

+1V8

PAR_D10

PAR_D8

RSTIXSDN

PAR_D0PAR_D2PAR_D4PAR_D6

PAR_HSYNCPAR_PCLK

+2V8

PAR_D11

PAR_D9


PAR_VSYNC

+2V8

PAR_D[0..11]Camera

PC11PE5 PE6PA4PA6

PC10

PC6 PC7PC9PC8

PB7

PD3

1 23 45 67 8

CN2

F206A-2*04MGF-A

R5 0R3 0

I2C1_SDAI2C1_SCL

I2C1_SDAI2C1_SCL

+3V3

PB9PB8 EXT_RESETPC10

I2C_EXT Connector

C117100nF

C116100nF

Camera_PLUG

EN1 GND 2OUT 3VCC4X3

SM7745HEX-24.0M[N/A]

R2510K

Camera_CLK

C102

100nF

C101

100nF

From MFX

PB9I2C1_SCL_CPB8

RESET#

R162 0

To MFX

MFX_GPIO12

MFX_GPIO14

R23310K

PD2PD6

PC12

+3V3

To MFX I2C1_SDA_C

R236

[N/A]

R239

[N/A]

From MFX

TP10TP9TP8

TP11MFX_GPIO11

+1V8

+1V8

LCD_G[0..7]LCD_R[0..7]

LCD_B[0..7]

PAR_D[0..11]

1 23 45 67 89 1011 1213 1415 1617 1819 2021 2223 2425 2627 2829 3031 3233 3435 3637 3839 40

42

41

CN4

F1000-2*20MGF-L0A

FTSH-125-01-F-DV-K (Samtec)

SSM-104-L-DH (Samtec)

CLM-120-02-L-D (Samtec)

H4

H3

R16 0

Open Drains (RSTI & XSDN)

+2V8

R2344K7

R2354K7

I2C1_SCL I2C1_SCL_C

I2C1_SDA I2C1_SDA_C

1

23

G

SD

T4BSN20

1

23

G

SD

T5BSN20

R229 [N/A]

R227 [N/A]

PA8

LCD_INT

To MFXMFX_GPIO14

DSI LCD

LCD_INT

LCD_BL_CTRL

+5VC14910uF

L8BEAD(FCM1608KF-601T03) C150

100nF

L9 BEAD(FCM1608KF-601T03)

LCD_BL_CTRL

R290

10K

PB9

PB8

C151100nF

PJ2

11 2 2

33 4 4

55 6 6

77 8 8

99 10 10

1111 12 12

1313 14 14

1515 16 16

1717 18 18

1919 20 20

2121 22 22

2323 24 24

2525 26 26

2727 28 28

2929 30 30

3131 32 32

3333 34 34

3535 36 36

3737 38 38

3939 40 40

4141 42 42

4343 44 44

4545 46 46

4747 48 48

4949 50 50

5151 52 52

5353 54 54

5555 56 56

5757 58 58

5959 60 60

6161

6262

6363

6464

CN15

QSH-030-01-F-D-A

PK7

I2C1_SCL

I2C1_SDA

+3V3

+3V3

DSI_CK_PDSI_CK_N

DSI_D0_PDSI_D0_N

DSI_D1_PDSI_D1_N

DSI_TEDSI_RESET

DSIDSI_TEDSI_RESET

DSI

DSI_TE

DSI_RESET

DSI_CK_PDSI_CK_N

DSI_D0_PDSI_D0_N

DSI_D1_PDSI_D1_N

DSI_D2_PDSI_D2_N

DSI_D3_PDSI_D3_N

C152100nF

+1V8

PA8PB6

PA0

PA2PG9



SCLK/MCLKLRCLK

SPDIF/I2S

CEC_CLKCEC

LCD_INT

LCD_BL_CTRL

H2

H1

TP17TP14TP18TP15TP19TP16TP20

UM

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Figure 31. STM32F769I-EVAL Ethernet

7 17

Ethernet

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


MII_TXD0MII_TX_ENMII_TX_CLK

MII_RXD0

MII_RX_ERMII_RX_DVMII_RX_CLK

MII_COLMII_CRS

X425MHz (with socket)

C2822pF

C3122pF

RESET#

R71 0

+3V3

+3V3

R814.87K

R80 2K2

+3V3R79 2K2

C139100nF

C136100nF

C140100nF

C13810uF

MII_TXD1MII_TXD2MII_TXD3

MII_RXD1MII_RXD2MII_RXD3

TX_CLK1

TX_EN2

TXD_03

TXD_14

TXD_25

TXD_3/SNI_MODE6

PWR_DOWN/INT7

NC 8NC 9NC 10NC 11NC 12RD- 13RD+ 14

AGND 15

TD- 16TD+ 17

PFBIN118

AGND 19

NC 20NC 21

AVDD33 22

PFBOUT23

RBIAS24

25MHz_OUT25

LED_ACT/COL/AN_EN 26LED_SPEED/AN1 27LED_LINK/AN0 28

RESET_N29

MDIO30 MDC31

IOVDD33 32X233

X134

IOGND 35

DGND 36

PFBIN237

RX_CLK38 RX_DV/MII_MODE39

CRS/CRS_DV/LED_CFG40

RX_ER/MDIX_EN41

COL/PHYAD042

RXD_0/PHYAD143

RXD_1/PHYAD244

RXD_2/PHYAD345

RXD_3/PHYAD446

IOGND 47

IOVDD33 48

U6

DP83848CVV

+3V3

C27100nF

C32100nF

C36100nF

R73 1K5

TP1225MHz

TD+1

TCT4

TD-2

RD+3

RCT5

RD-6

NC7

CHS GND8

LED(green)_A9

LED(green)_K10

LED(Yellow)_A12

LED(Yellow)_K11

Shield13

Shield14

CN9

J0011D21B

R76240

R128240

+3V3

C45100nF

C44100nF

MII_INT R72 10K

Second source: SI-60116-F

PC3PG11PG13PG14PC2PE2

PC4PC5PH6PH7PI10PA7

PH3PA0

R49 33R48 33R47 33R46 33

R61 33

R50 33R51 33PA1

R74 2K2R75 2K2R77 2K2

MII_MCO 32

1

JP12

PA8

To MFX

MFX_GPIO13

+3V3

R11850

R11250

R8750

R9550

MII_MDC

MII_MDIO

PC1

PA2

MII_MDIO_GPIO

MII_MDC_GPIO PJ13

PJ12

32

1

JP8

32

1

JP4

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Figure 32. STM32F769I-EVAL USB OTG HS

8 17

USB_OTG_HS

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


ULPI_D[0..7]

ULPI_CK

ULPI_D0ULPI_D1ULPI_D2ULPI_D3

ULPI_DIRULPI_NXT

ULPI_STP

C1414.7uF

+5V

R1203K3

12LD6

Red

R288620

C354.7uF

R9612K[1%]

VBUS1

DM2

DP3

ID4

GND5

Shield6

USB

_Micro-A

B re

ceptacle

Shield7

Shield8

Shield9

EXP10

CN8

475900001

VBUS_HS

PA3PB0PB1PB10

GND 1GND 2

CPEN 3

VBUS 4

ID 5

VDD3.3 6

DP 7DM 8

RESET9

EXTVBUS 10NXT11

DIR12

STP13

CLKOUT14

VDD1.8 15

VDD3.3 16

D717

D618

D519

D420

D321

D222

D123

D024 VDD3.3 25

VDD1.8 26XO27

XI28 VDDA1.8 29

VDD3.3 30

REG_EN 31

RBIAS 32

GNDPAD 33

U8

USB3300-EZK

C464.7uF

C3833pF

X5

24MHz

R851M

C3733pF

ULPI_D[0..7]

PB11PB12PB13PB5

ULPI_D4ULPI_D5ULPI_D6ULPI_D7

L2

EXC-3BP121H[BEAD]

L1EXC-3BP121H[BEAD]

R92

10K

R101 820

R94330

12

LD5Green

R8247K

R7822K

C42

100nF

C33

100nF

C43

100nF

C34

100nF

RESET#

PH4PI11PC0PA5

3

1

2

T69013

+3V3

A1

A2

B1

B2

D4USBULC6-2F3

A1

A2

B1

B2

D3ESDA14V2-2BF3

+3V3

+3V3

GND2

IN5

EN4 OUT 1FAULT 3U7

STMPS2151STR

USB_FS2_DMUSB_FS2_DP

VBUS1

DM2

DP3

ID4

GND5

Shield6

USB

_Micro-A

B re

ceptacle

Shield7

Shield8

Shield9

EXP10

CN14

475900001

PB13

PB12

PB14PB15

R133330

12

LD9Green

3

1

2

T29013

+3V3

R13722K

OTG_FS2_PowerSwitchOn

OTG_FS2_OverCurrentR119 0

R113 0R107 0

USB_FS2_ID

To MFX

From MFX

MFX_GPIO8

MFX_GPIO9

C145100nF

C143100nF

C146100nF

C142100nF

C40

100nF

C41

100nF

R124 33

R136

47K

R93 0R98 0

VBUS_FS2

R1084K7

R1264K7

R125

1K

+3V3

3

1

2

T19012

Soldered if reset iscontrolled by hardware

R123 0R122 0R121 0

R117 0

R104 0R100 0

R86 0

SB23 Open

SB24Closed

SB22Open

SB21Closed

D0_ND0_P

D1_ND1_P

1 32

45

6

D7ESDA6V1BC6

UM

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Figure 33. STM32F769I-EVAL USB OTG FS

9 17

USB_OTG_FS

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


+5VOTG_FS1_PowerSwitchOn

OTG_FS1_OverCurrent

+3V3

12

LD8Red

R127620

USB_FS1_DMUSB_FS1_DPUSB_FS1_ID

C474.7uF

R130 0

R115 0

R132 0GND2

IN5

EN4 OUT 1FAULT 3U11

STMPS2151STR

VBUS1

DM2

DP3

ID4

GND5

Shield6

USB

_Micro-A

B re

ceptacle

Shield7

Shield8

Shield9

EXP10

CN13

475900001

VBUS_FS1 PA9

PA10

PA11PA12

R116330

12

LD7Green

+3V3

R10322K

From MFX

To MFX

MFX_GPIO6

MFX_GPIO7

R12910K

R13147K

R106

47K

3

1

2

T79013

D2_ND2_P

1 32

45

6

D5ESDA6V1BC6

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Figure 34. STM32F769I-EVAL RS-232

10 17

RS232

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


RS232_TX

RS232_RX

+3V3

+3V3

Bootloader_BOOT0

Bootloader_RESET

PA9

PA10

RXD

TXDCTS

DSR

RS232

C133 100nF

C25 100nF

C132100nF

C131100nFC26100nF

C2+1

C2-2 V- 3

R1IN 4

R2IN 5

R3IN 6

R4IN 7

R5IN 8

T1OUT 9

T2OUT 10

T3OUT 11T3IN12 T2IN13 T1IN14

R5OUT15 R4OUT16 R3OUT17 R2OUT18 R1OUT19 R2OUTB20 R1OUTB21

nSHDN 22nEN23

C1-24 GND 25VCC 26

V+ 27

C1+28

U5ST3241EBPR

162738495

CN7DB9-male USART1

JP11

UM

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Figure 35. STM32F769I-EVAL CAN and Quad-SPI

11 17

CAN & QSPI

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


CAN1_TX

CAN1_RX

D1

GND2

VCC3

R4 Vref 5CANL 6CANH 7RS 8U23

SN65HVD230

+3V3

+3V3

R185120

JP18

32

1

JP19

+3V3R1890

R1860

R184[N/A]

Default setting: 1<->2Default setting: Open

PA12

PA11

CAN

C179

100nF

R183

10K

31 2

D15

ESDCAN24-2BLYOptional

Quad SPI Flash

QSPI_BK1_IO0

QSPI_BK1_IO3


PF8

PF9 PF7

PF6 QSPI_CLKPB2

QSPI_BK1_NCS

R23010K

PB6

C105100nF

MICRON

+3V3

+3V3

N25Q512A13GSF40E MICRON

CS#7

DQ18

NC6

NC5 NC 12

NC 11

Vss 10

W#/Vpp/DQ2 9

HOLD#/DQ31

VCC2

NC3

CLK 16

DQ0 15

NC4 NC 13

NC 14

U3

MT25QL512ABA8ESF-0SIT

R241 33

R231 33

R242 33

R232 33

162738495

CN26DB9-male CAN connector

Sc

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Figure 36. STM32F769I-EVAL Peripherals

12 17

Peripherals

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


JOY_SELJOY_DOWNJOY_LEFTJOY_RIGHTJOY_UP

COMMON5

Selection2

DWON3

LEFT1

RIGHT4

UP6

COMMON7

COMMON8

GND 9

GND 10

B3

EVQQ7

C93

10nF

[N/A

]

C94

10nF

[N/A

]

C92

10nF

[N/A

]

C90

10nF

[N/A

]

C91

10nF

[N/A

]R196

10K[N

/A]

R195

10K[N

/A]

R197

10K[N

/A]

R199

10K[N

/A]

R198

10K[N

/A]

13

2

RV13386P-103(10K)

Potentiometer

C24[N/A]

R29 0

Close to MCU on PCB

PF10 R27 0

CN3two pin header for external analog input

R28 47 C97100nF

R30

0

+3V3

To MFX

+3V3

MICRO SD2

+3V3

SMS064FF or SMS128FF

1 2 3 4 5 6 7 8SW

29

SW1

10

CN30PJS008-2000

R2240

+3V3

(TF) Card

To MFX (input with pull up)

MFX_GPIO10

R20547K

R20247K

R20147K

R20447K

R20347K

+3V3

R200

10K[N/A]

Potentiometer

Joystick

MFX_GPIO0MFX_GPIO1MFX_GPIO2MFX_GPIO3MFX_GPIO4

MICRO SD1

+3V3

SMS064FF or SMS128FF

1 2 3 4 5 6 7 8SW

29

SW1

10

CN17PJS008-2000

R1500

+3V3

(TF) Card

To MFX (input with pull up)MFX_GPIO15

R15847K

R15447K

R15347K

R15747K

R15647K

+3V3

R151

10K[N/A]

SD1_CLKSD1_CMD

SD1_D0SD1_D1

SD1_D2SD1_D3

MicroSDCard1_Detect

PC8PC9

PC10PC11

PC12PD2

SD2_CLKSD2_CMD

SD2_D0SD2_D1

SD2_D2SD2_D3

PG9PG10

PB3PB4

PD6PD7

MicroSDCard2_Detect

UM

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Figure 37. STM32F769I-EVAL motor control

13 17

Motor Control

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


R133K3

C161nF

+3V3

+3V3+5V

R14[N/A]

R10 0

C14[N/A]

C9[N/A]

R9 0

R8 0

R110

R70

EMERGENCY STOP1

MC-UH3

MC_UL5

MC_VH7

MC_VL9

MC_WH11

MC_WL13

CURRENT A15

CURRENT C19 CURRENT B17

NTC BYPASS RELAY21

DISSIPATIVE BRAKE23

+5V POWER25

PFC SYNC27

PFC PWM29

Encoder A31

Encoder B33

GND 2

GND 4

GND 6

GND 8

GND 10

GND 12

BUS VOLTAGE 14

GND 16

GND 18

GND 20

GND 22

GND 24

Heatsink Temperature 26

Vdd_Micro 28

GND 30

GND 32

Encoder Index 34

CN1

MC_connector

MC_EmergencySTOP

MC_CurrentA

MC_CurrentB

MC_CurrentC

MC_PFCsync1

MC_PFCsync2

MC_WL

MC_VHMC_VL

MC_UHMC_UL

MC_WH

MC_NTCMC_DissipativeBrake

MC_PFCpwmMC_EnAMC_EnB

MC_Heatsink

MC_BusVoltage

MC_EnIndex

Motor control connector

PC4

PC5

PC1

PC2

PC3

PG11

PA8

PA12

PA1

PH6

PA2

PA7

PB0

PB1

PA0

PA6PC6

PC7

PC8

SB2

Open

SB1

Open

C13[N/A]

C12[N/A]

C18[N/A]

C7[N/A]

C10[N/A]

C8[N/A]

C6[N/A]

PA11

C1710nF

C15100nF

C11100nF

R12100K

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Figure 38. STM32F769I-EVAL extension connectors

14 17

Extension Connectors

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


1 23 45 67 89 1011 1213 1415 1617 1819 2021 2223 2425 2627 2829 3031 3233 3435 3637 3839 40

CN10

P1039-2*20MGF-089-1A

PA[0..15] PA[0..15]

PB[0..15] PB[0..15]

PC[0..15] PC[0..15]

PD[0..15] PD[0..15]

PE[0..15] PE[0..15]

PF[0..15] PF[0..15]

PG[0..15] PG[0..15]

PH[0..15] PH[0..15]

PI[0..15] PI[0..15]

PJ[0..15] PJ[0..15]

PK[0..7] PK[0..7]

PC14PC15 SB38

Open

SB39

Open

+3V3D5V

SB40Open

SB41

Open

+3V3D5V

VBUS_FS1

PA4PA5

PA6PA7

PA11 PA12PA9 PA10

PA0PA1

PA15

PA3

PA13

PA14

PA2

PA8

PB5

PB6

PB7

PB14PB15

PB10PB8

PB9

PB1

PB2

PB3

PB0

PB4

PB11

PB12PB13

PC0

PC1

PC2

PC3PC4

PC5

PC6PD7

PC8

PC9

PC10PC11

PC12

PC13

PJ0

PJ14PJ15

PJ12PJ13

PJ1PJ2

PJ3PJ4

PJ5

PK3PK4

PK5PK6

PK7

PD3

PD6

PF9

PF8

PF10PF6 PF7

PG6

PG7

PG14

PG11

PG12

PG13PH4

PH6PH7

PI14

PI15

PI8

PI11

PI12

PI13

PD2

PD8PD9

PD10

PD11PD12

PD13

PD14PD15

PE14PE15

PE9PE8PE11

PE10PE12

PE13

PE7

PF14

PF15

PF11PF12PF13

PG0PG1

PG2 PG3

PG4PG5

PG9

PG8

PH0PH1

PH9

PH8

PH11

PH10

PH12

PH3 PH5

Place close Memory

D13D14

D15

A16A17

A18

D0D1

D4D5D6

D7D8D9

D10 D11D12

SDNRASA6A7 A8

A9

A11

A12 A13

A14A15

SDCLK

SDNE0 SDNWE

D16

D17D18

D19

D20

Left Right

1 23 45 67 89 1011 1213 1415 1617 1819 2021 2223 2425 2627 2829 3031 3233 3435 3637 3839 4041 4243 4445 4647 4849 5051 5253 5455 5657 5859 60

CN5

P1039-2*30MGF-089-1A

1 23 45 67 89 1011 1213 1415 1617 1819 2021 2223 2425 2627 2829 3031 3233 3435 3637 3839 4041 4243 4445 4647 4849 5051 5253 5455 5657 5859 60

CN6

P1039-2*30MGF-089-1A

+5V +5V

RESET# R226 820 A10

FTR-130-03-L-D-LC (Samtec) FTR-130-03-L-D-LC (Samtec)

FTR-120-03-L-D-LC (Samtec)

1 23 45 67 89 1011 1213 1415 1617 1819 2021 2223 2425 2627 2829 3031 3233 3435 3637 3839 40

CN11

P1039-2*20MGF-089-1A

PG6

PD0 PD1

PD4PD5PC7

PE0PE1

PE2PE3PE4

PE5

PE6

PF0PF1

PF2PF3PF4PF5

PG15

PH14PH15

PH13

PH2

PI0

PI9PI10

PI1PI2 PI3

PI4PI5

PI6

PI7

+3V3

Place close Memory

D2 D3

FMC_NOEFMC_NWEFMC_NE1

FMC_NBL0FMC_NBL1

A23A19A20

A21

A22

A0A1

A2A3A4A5

SDNCAS

SDCKE0

FMC_NE3

D21D22D23

D24D25D26 D27

FMC_NBL2

D28

D29D30

D31

FMC_NBL3

FMC_NWAIT

FTR-120-03-L-D-LC (Samtec)

32

1

JP13

NAND_INT

32

1

JP17

NAND_NCE

FMC_NWAITPG7

PC8

PC6

PK0PK1PK2

PJ6PJ7 PJ8

PJ9

PJ10PJ11

PK0/PK1/PK2/PJ6/PJ7/PJ8/PJ9/PJ10/PJ11 NOT USED

UM

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atics

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Figure 39. STM32F769I-EVAL ST-LINK/V2-1

15 17

ST-LINK/V2-1

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


1 2X6

NX3225GD 8MHz EXS00A-CG04874

STM_RST

T_JT

CK

T_JTCK

T_JT

DO

T_JT

DI

T_JTMS

OSC_INOSC_OUT

T_NRST

AIN_1

USB ST-LINK

COM

PWR

Board Ident: PC13=0

SWD

T_SWDIO_IN

LED_STLINKMCO

CN23TXRX

STLINK_RXSTLK_RX

STLK_TX

STLINK_T

X

T_SWO

R190 1K5R187 0R188 0

R179[N/A]

R297100K

R17810K

R180 4K7

R181 4K7

C8410pF

C8510pF

C177100nF

D5V

USB_RENUMn

USB_R

ENUMn

+3V3_ST_LINK

+3V3_ST_LINK

+3V3_ST_LINK

+3V3_ST_LINK

PWR_E

XT

+3V3_ST_LINK

D6

BAT60JFILM

D11

BAT60JFILM

C491uF_X5R_0603

C4810nF_X7R_0603

C521uF_X5R_0603

51

2

GND3

4

BYPASSINH

Vin Vout

U14 LD3985M33R

C51100nF

C50100nF

+3V3_ST_LINK

R298

10K

R30036K

R299100

+3V3_ST_LINK

E5V

VBAT1

PA7

17

PC132

PA12 33PC143

PB0

18

PC154 JTMS/SWDIO 34

OSCIN5

PB1

19

OSCOUT6

VSS_2 35

NRST7

PB2/BOOT1

20

VSSA8

VDD_2 36

VDDA9

PB10

21

PA010

JTCK/SWCLK

37

PA111

PB11

22

PA212

PA15/JTD

I38

PA3

13

VSS

_123

PA4

14

PB3/JT

DO

39

PA5

15

VDD_1

24

PA6

16

PB4/JN

TRST

40

PB12 25

PB5

41

PB13 26

PB6

42

PB14 27

PB7

43

PB15 28

BOOT0

44

PA8 29

PB8

45

PA9 30

PB9

46

PA10 31

VSS

_347

PA11 32

VDD_3

48

U21STM32F103CBT6

R295100K

D12

BAT60JFILM

Power Switch to supply +5V from STLINK USB

PWR_ENn

+3V3_ST_LINK

1 23 45

CN20

[N/A]

C169100nF

C171100nF

C176100nF

C174100nF

+3V3_ST_LINK

+3V3_ST_LINK

JP25[N/A]

R292[N/A]

Not Fitted

3

1

2

T39013

VBUS_HS

VBUS_FS1

VBUS_FS2

VUSB_ST_LINK

VUSB_ST_LINK

VUSB_ST_LINK

+3V3

LED_STLINK

21 4

3

Red Yellow

LD12HSMF-A201-A00J1

R210100

R211100

R2120

+3V3_ST_LINK

T_JTCKT_JTDI

T_JTDO

T_NRSTT_JTMS

T_JRST

TDITRST

TMS/SWDIO

TCK/SWCLK

TDO/SWO

RESET#

T_SWOT_SWDIO_IN

STM_JTMS_SWDIOSTM_JTCK_SWCLK

STM_JTMS_SWDIO

STM

_JTC

K_S

WCLK

D10

BAT60JFILM

D9

BAT60JFILM

D8

BAT60JFILM

Not Fitted

T_JR

ST

SWIM_PU_CTRLSTL_USB_DMSTL_USB_DP

STL_USB_DMSTL_USB_DP

R168

100K

R208

2K7

R207

4K7

+3V3_ST_LINK

+5V

PA10

PA9

C584.7uF

VUSB_ST_LINK U5V_ST_LINK

R152 100K

R15510K

R1482K2

R1490

C54100nF

D16

BAT60JFILMJP27

1 2 LD11Red

R209 1K

SB33 Open

IN1

IN2

ON3 GND 4

SET 5

OUT 6

OUT 7

FAULT8

U17ST890CDR

VBUS 1

DM 2

DP 3

ID 4

GND 5

Shield 6

USB

_Micro-B re

ceptacle

Shield 7

Shield 8

Shield 9

EXP 10

EXP 11

CN22

1050170001

R301 100K

JP28

Sc

he

ma

tics

UM

203

5

70/7

5D

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Figure 40. STM32F769I-EVAL MFX and LEDs

16 17

MFX & LEDs

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


MFX_SWCLK

MFXMulti Function eXpander

MFX_SWDIO

MFX_SWDIOMFX_SWCLK 1 2

3 45

CN21

[N/A]

C172100nF

C178100nF

C170100nF

C173100nF

one capacitor close to each MFX pins: VDD, VDD_1, VDD_2, VDD_3

C175100nF

I2C1_SDAI2C1_SCL R294 0

R293 0PB8PB9

R16910K

R167510

L6

Ferrite C861uF C82

100nF

R163[N/A]

Loop

MFX_IO5MFX_IO6MFX_IO7MFX_IO8MFX_IO9MFX_IO10MFX_IO11MFX_IO12MFX_IO13MFX_IO14MFX_IO15

1 2

LD3Red

1 2

LD2Orange

1 2

LD4Blue

1 2

LD1Green+3V3

R215 680

R213 680

LEDs

+3V3 +3V3 +3V3

+3V3

Default I2C Address:1000010

+3V3 R171 [N/A]

MFX_V3WAKEUP2 NRST7

TSC_XP/GPO010

TSC_XN/GPO111

TSC_YP/GPO212

TSC_YN/GPO313

USART_TX21

USART_RX22

SPARE14

SWDIO34

SWCLK37

I2C_SCL42

I2C_SDA43

BOOT044

I2C_ADDR45

IRQOUT46

IDD_CAL/GPO4 3

IDD_SH0 4

IDD_SH1/GPO5 5

IDD_SH2/GPO6 6

IDD_MEAS 25

GPIO0 18

GPIO1 19

GPIO2 20

GPIO3 39

GPIO4 40

GPIO5 15

GPIO6 16

GPIO7 17

GPIO8 29

GPIO9 30

GPIO10 31

GPIO11 32

GPIO12 33

GPIO13 26

IDD_SH3/GPO7 38

GPIO14 27

GPIO15 28

IDD_VDD_MCU 41

VDD

1

VDDA

9

VDD_1

24

VDD_2

36

VDD_3

48

VSS

A8

VSS

_123

VSS

_235

VSS

_347

U22STM32L152CCT6

TP22

MFX_IO0MFX_IO1MFX_IO2MFX_IO3MFX_IO4

R1590

MFX_IRQOUT R296 0PI8

R176

47K[N/A]

R17710K[N/A]

C83100nF[N/A]

+3V3

R182 0MFX_WKUPRESET#

D14

BAT60JFILM

R216 510

LED1

LED3

R214 680

PI15

PJ1 LED2

LED0

XSDN

PJ0

PJ3

PC13

TP24TP25TP23

UM

20

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atics

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Figure 41. STM32F769I-EVAL JTAG and trace

17 17

JTAG & Trace

MB1219 B.1

2016/1/7

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:


1234567891011121314151617181920

CN12

P127B-2*10MGF-079-1E7A

R139[N/A]

R138[N/A]

R141[N/A]

R134[N/A]

R142[N/A]

1234567891011121314151617181920

CN16JTAG

R144 10K

R145 10K

R14310KR109 [N/A]

R111 [N/A]

TDI

RESET#

TRACE_D3TRACE_D2TRACE_D1TRACE_D0TRACE_CK

TRST

TMS/SWDIOTCK/SWCLKTDO/SWO

Trace connector JTAG connector

KEY

PA13PA14PB3PA15PB4

PE6PE5PE4PE3PE2

R135[N/A]

+3V3

+3V3

+3V3

+3V3

R84 22R91 22R97 22R99 22R110 22R102 22

FTSH-110-01-L-DV (Samtec)

1 32

4 5

U10ESDALC6V1W5

1 32

4 5

U12ESDALC6V1W5

1 32

4 5

U13ESDALC6V1W5

Sc

he

ma

tics

UM

203

5

72/7

5D

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Figure 42. STM32F769I-EVAL 4-inch DSI LCD board

1 1

4 inch DSI LCD board

MB1166 A.1

1/30/2015

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:

LCD daugterboardProject:Touch panel connector for LCD panel

VDD

I2C_SDA

I2C_SCL

INT

BL_CTRL

VDD

C64.7uF

C7100nF

AK

Z1

STPS1L40M

C14.7uF/50V

L2

4.7uH(1A)

R310

BLGND

BLVDD

R2100K

C54.7uF/10V

R4[N/A]

R54K7

BL_CTRL

BLGND

BLGND

BLGND Vi1

Rset 2GND3 FB 4

NC 5Vo 6

EN7

SW8

PGND9

U1

STLD40DPUR

C410nF

C3100nF

L1BEAD

C210nF

VL VHBLGND

BLVDD

Connector for motherboardLCD P/N: KM-040TMP-02

TP1

TP2

TP3

TP4

TP5

GND

BLGND

VDD

VH

VL

I2C Address:1010100

Note: Text in italic placed on a wire doesn’ t correspond to net name. It just helps to identify rapidly MCU IO related to this wire.

H3

H4

Backlight driver & PFC connector for LCD panel

HSSI_CLK_NHSSI_CLK_P

HSSI_D0_NHSSI_D0_P

HSSI_D1_NHSSI_D1_P

TE

C9100nF

VDDRST

RST

CABC

CABC R10

INT

R6[N/A]

R7[N/A]

VDD

R84K7

I2C_SDAI2C_SCL

HSSI_CLK_NHSSI_CLK_P

HSSI_D0_NHSSI_D0_P

HSSI_D1_NHSSI_D1_P

TE

RST

C8100nF

HSSI_CLK_N12

NC13

HSSI_CLK_P14

GND15

HSSI_D1_N16

NC17

HSSI_D1_P18

GND19

NC/ERR20

VCC21

TE22

LEDK23 LEDA24

GND25

IOVCC6

ID1

GND2

CABC3

GND4

HSSI_D0_N8

NC9

HSSI_D0_P10

GND11

RESX5

GND7

CN2

FH26-25S-0.3SHW

GND6 VDD1

INT2

SCL3

SDA4

RESET5

CN3

FH19C-6S-05SH

11 2 2

33 4 4

55 6 6

77 8 8

99 10 10

1111 12 12

1313 14 14

1515 16 16

1717 18 18

1919 20 20

2121 22 22

2323 24 24

2525 26 26

2727 28 28

2929 30 30

3131 32 32

3333 34 34

3535 36 36

3737 38 38

3939 40 40

4141 42 42

4343 44 44

4545 46 46

4747 48 48

4949 50 50

5151 52 52

5353 54 54

5555 56 56

5757 58 58

5959 60 60

6161

6262

6363

6464

CN1

QTH-030-02-F-D-A

SB1 Open BLVDD

BLGND

SB2Open

VDD

FPC03025-14201(ATOM)

FPC05006-09200(ATOM)

H1

H2

UM

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atics

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Figure 43. STM32F769I-EVAL camera module

1 1

Camera Module

MB1183 C.1

2016/5/18

Title:

Size: Reference:

Date: Sheet: of

A4 Revision:

Camera ModuleProject:

+2V8 +2V8

C8100nF

C7100nF

C5

100nF

C6

100nF

+1V8



Camera Connector

EXTCLK

SCL

1 23 45 67 89 1011 1213 1415 1617 1819 2021 2223 2425 2627 2829 3031 3233 3435 3637 3839 40

CN2

FTMH-120-03-L-DV-ES

Camera_RSTSTANDBY

SDA

PAR_D[0..7]

PAR_HSYNCPAR_PCLK

PAR_VSYNC

EN1 GND 2OUT 3VCC4U1

SM7745HEW-24.0M

+2V8

R1 10K

R610K[N/A]

R922K

+2V8

R7

[N/A]R4

0

Camera_CLKEXTCLK

R50

D1BAT60JFILM

supply voltage: 2.5V+/-10%BAT60 VF: 0.28@10mA 0.35@100mA

default system clock using clock from mother board.C4

100nF

AGND 1

NC 16

AVDD(2.8V) 4

SDA20

RESET22

VSYNC23

PWDN24

HSYNC25

DVDD(1.8V) 6

DOVDD(2.8V) 8

D77

MCLK12

D69

DGND 27

D511

PCLK29

D413

D85

D315

D93

D217

SCL18

NC 10

NC 30NC 28

D119 D021

NC 2

FLASH 14SHUTTER 26

CN1

AXE530124

PAR_D[0..7]

Camera_CLK R8[N/A]

SCLSDA

PAR_HSYNCPAR_VSYNCPAR_PCLK

Camera_RST_S5K

PAR_D0PAR_D1PAR_D2PAR_D3PAR_D4PAR_D5PAR_D6PAR_D7

STANDBY

R3[N/A]

R2[N/A]

+2V8

C3100nF

C1100nF

C2100nF

+2V8+1V8

+2V8

Camera Module :U866_3M_FFSENSOR: S5K5CAGA

SHUTTERSHUTTER

FLASH

FLASH

R10[N/A]

+2V8

R11[N/A]

+2V8

R1410K

R13

2KC9470nF[N/A]

+2V8

Camera_RST Camera_RST_S5K

R12

0

when mounted on MB1045, please soldered R6 10K and C9 470nF, removed R14 and changed R13 with 0 ohm

Revision history UM2035

74/75 DocID029087 Rev 1

Revision history

Table 38. Document revision history

Date Revision Changes

23-May-2016 1 Initial release.

DocID029087 Rev 1 75/75

UM2035

75

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Purchasers are solely responsible for the choice, selection, and use of ST products and ST assumes no liability for application assistance or the design of Purchasers’ products.

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Information in this document supersedes and replaces information previously supplied in any prior versions of this document.

© 2016 STMicroelectronics – All rights reserved

Documents

UM2035 User manual - keilpack.azureedge.net€¦ · STM32F769I-EVAL. 5 Delivery recommendations Before using the board for the first time, the user should check that it has not been