### dm00276567

```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.
May 2016
DocID029087 Rev 1
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www.st.com
1
Contents
UM2035
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
2/75
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
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
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
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Contents
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
DocID029087 Rev 1
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List of tables
UM2035
List of tables
Table 1.
Table 2.
Table 3.
Table 4.
Table 5.
Table 6.
Table 7.
Table 8.
Table 9.
Table 10.
Table 11.
Table 12.
Table 13.
Table 14.
Table 15.
Table 16.
Table 17.
Table 18.
Table 19.
Table 20.
Table 21.
Table 22.
Table 23.
Table 24.
Table 25.
Table 26.
Table 27.
Table 28.
Table 29.
Table 30.
Table 31.
Table 32.
Table 33.
Table 34.
Table 35.
Table 36.
Table 37.
Table 38.
4/75
Power-supply-related jumper settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
25 MHz crystal X1 related solder bridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
32 KHz crystal X2 related solder bridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Boot related switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Boot related jumpers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Audio related jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
USB OTG2 function configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
USART1 related jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
CAN related jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Ethernet related jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Ethernet related solder bridges. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
NOR Flash related jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
DSI LCD modules connector (CN15) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Motor control related solder bridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
MFX signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Motor control connector CN1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
I2C connector CN2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Analog input-output connector CN3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Camera module connector CN4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Daughterboard extension connector CN5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Daughterboard extension connector CN6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
RS-232 connector CN7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
USB OTG HS Micro-AB connector CN8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
RJ45 connector CN9 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Memory connector CN10 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
Memory connector CN11 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
ETM trace debugging connector CN12 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
USB OTG1 FS Micro-AB connector CN13 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
USB OTG2 FS Micro-AB connector CN14 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
JTAG/SWD debugging connector CN16 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
microSD card1 connector CN17 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
microSD card2 connector CN30 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
USB Micro-B connector CN22 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
MEMS microphone coupon connectors CN24 and CN25. . . . . . . . . . . . . . . . . . . . . . . . . . 44
CAN D-type 9-pin male connector CN26 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
SPDIF IN connector CN29 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
STM32F769I-EVAL I/O assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
Document revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74
DocID029087 Rev 1
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List of figures
List of figures
Figure 1.
Figure 2.
Figure 3.
Figure 4.
Figure 5.
Figure 6.
Figure 7.
Figure 8.
Figure 9.
Figure 10.
Figure 11.
Figure 12.
Figure 13.
Figure 14.
Figure 15.
Figure 16.
Figure 17.
Figure 18.
Figure 19.
Figure 20.
Figure 21.
Figure 22.
Figure 23.
Figure 24.
Figure 25.
Figure 26.
Figure 27.
Figure 28.
Figure 29.
Figure 30.
Figure 31.
Figure 32.
Figure 33.
Figure 34.
Figure 35.
Figure 36.
Figure 37.
Figure 38.
Figure 39.
Figure 40.
Figure 41.
Figure 42.
Figure 43.
STM32F769I-EVAL evaluation board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Hardware block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
STM32F769I-EVAL evaluation board layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Mechanical dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
USB composite device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
STM32F769I-EVAL Evaluation board motor control PCB reworks (Top side) . . . . . . . . . . 26
STM32F769I-EVAL Evaluation board motor control PCB reworks
(Bottom side) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Motor control connector CN1 (Top view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
I2C connector CN2 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Analog input-output connector CN3 (Top view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Camera module connector CN4 (Top view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
RS-232 connector CN7 (Front view). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
USB OTG HS Micro-AB connector CN8 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Ethernet RJ45 connector CN9 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
ETM trace debugging connector CN12 (Top view). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
USB OTG1 FS Micro-AB connector CN13 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
USB OTG2 FS Micro-AB connector CN14 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
JTAG/SWD debugging connector CN16 (Top view). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
microSD connector (Top view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
Power supply connector CN19 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
USB Micro-B connector (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
MEMS microphone coupon connectors CN24 and CN25 (Top view). . . . . . . . . . . . . . . . . 44
CAN D-type 9-pin male connector (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
SPDIF IN connector CN29 (Front view) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
STM32F769I-EVAL evaluation board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
STM32F769I-EVAL MCU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
STM32F769I-EVAL Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
STM32F769I-EVAL SRAM, FLASH, SDRAM. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
STM32F769I-EVAL Audio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59
STM32F769I-EVAL LCD, camera, connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60
STM32F769I-EVAL Ethernet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61
STM32F769I-EVAL USB OTG HS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62
STM32F769I-EVAL USB OTG FS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63
STM32F769I-EVAL RS-232 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
STM32F769I-EVAL CAN and Quad-SPI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65
STM32F769I-EVAL Peripherals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66
STM32F769I-EVAL motor control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67
STM32F769I-EVAL extension connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
STM32F769I-EVAL ST-LINK/V2-1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69
STM32F769I-EVAL MFX and LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70
STM32F769I-EVAL JTAG and trace . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71
STM32F769I-EVAL 4-inch DSI LCD board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72
STM32F769I-EVAL camera module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73
DocID029087 Rev 1
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Features
1
UM2035
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
6/75
DocID029087 Rev 1
UM2035
2
Demonstration software
Demonstration software
Demonstration software is preloaded in the STM32F769NI Flash memory. For more
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:
4
•
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.
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:
Caution:
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).
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.
DocID029087 Rev 1
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74
Hardware layout and configuration
6
UM2035
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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8/75
DocID029087 Rev 1
UM2035
Hardware layout and configuration
Figure 3. STM32F769I-EVAL evaluation board layout
CN2
I2CH[WHQVLRQ connector
CN1
Motor control
connector
U4
MCU
CN10, CN11
CN4 Camera
extension connector
CN5, CN6
Hxtension
CN7
56
FRQQHFWRU
CN12
ETM WUDFH
CN8
USB
OTG2 HS
CN9
Ethernet
CN13
USB
OTG1 FS
CN15
DSI LCD
FRQQHFWRU
CN14
USB
OTG2 FS
CN16
JTAGDQG
SWD
CN17
PicroSD
Fard1
CN19
Power Mack
CN22
Micro USB_B
CN26
CAN
FRQQHFWRU
LD12
COM LED
RV1
Potentiometer
4FRORUV
LEDS
B1
Reset
Eutton
B2
Wakeup
Eutton
B3
JR\stick
CN29
SPDIF_IN
FRQQHFWRU
DocID029087 Rev 1
CN24, CN25
Right Digital
Microphone
(Coupon
connectors)
CN27
Audio Line out
FRQQHFWRU
CN28
Audio Mack
9/75
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Hardware layout and configuration
UM2035
Figure 4. Mechanical dimensions
156.85mm
68.58mm
48.62mm
31.34mm
2
33
7
8
16.76mm
2
34
9
8
2
2
2
4
3
55.32mm
16
2
A
R
1
40
39
87mm
28
79.45mm
15
48
37
36
14
15
2
60
59
2
59
12
60
25
24
A
5
1
A
1
13
8
2
H
25
24
A
32
1
9
16
17
2
8
5
8
20
19
172.72mm
39
39
40
40
5
59
20
30
40
50
12
10
11
2
1
2
60
A
R
A
H
1
1
6
37.7mm
9
9
37.7mm
OUT
49
2
1
2
1
36
VIN
36
GND
25
24
37
25
50
24
2
9
37
6
12
48
H
1
6
5
13
48
A
5
13
12
9
20.18mm
6.1
20.18mm
The ST-LINK/V2-1 programming and debugging tool is integrated on the STM32F769IEVAL 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:
10/75
•
SWIM interface
•
Minimum supported application voltage limited to 3 V
DocID029087 Rev 1
UM2035
Hardware layout and configuration
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
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
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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Hardware layout and configuration
6.2
UM2035
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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DocID029087 Rev 1
UM2035
Note:
Hardware layout and configuration
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).
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
JP2
Description
JP2 is used to measure the STM32 current consumption manually by multimeter.
Default setting: Fitted
Vbat is connected to +3.3 V when JP15 is set, as shown to the right: (Default setting)
JP15
Vbat is connected to the battery when JP15 is set, as shown to the right:
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)
+6
)6
)6
'9
368
67ON
JP20
069
STM32F769I-EVAL is supplied through the USB connector of the ST-LINK MCU,
when JP20 is set as shown on the right:
(Default Setting)
+6
)6
)6
'9
368
67ON
069
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Hardware layout and configuration
UM2035
Table 1. Power-supply-related jumper settings (continued)
Jumper
Description
STM32F769I-EVAL is supplied from the daughterboard connectors (CN5 and CN6)
when JP20 is set as shown on the right:
+6
)6
)6
'9
368
67ON
069
STM32F769I-EVAL is supplied from the USB OTG2 FS (CN14),when JP20 is set as
shown on the right:
+6
)6
)6
'9
368
67ON
069
STM32F769I-EVAL is supplied from the USB OTG1 FS (CN13), when JP20 is set
as shown on the right:
+6
)6
)6
JP20
'9
368
67ON
069
STM32F769I-EVAL is supplied from the USB OTG2 HS (CN8) when JP20 is set as
shown to the right:
+6
)6
)6
'9
368
67ON
069
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).
+6
)6
)6
'9
368
67ON
069
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DocID029087 Rev 1
UM2035
Hardware layout and configuration
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.
6.3
Configure USB HS PHY into Low-power mode (Register address = 04, bit 6 in USB
PHY).
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
Table 2. 25 MHz crystal X1 related solder bridges
Jumper
SB40
SB41
Description
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.
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
SB38
SB39
Note:
Description
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.
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.
Jumper JP12 for Ethernet clock refers to Section 6.12: Ethernet.
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Hardware layout and configuration
6.4
UM2035
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
•
•
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 space
option bytes
SW1
[15:0]
STM32F769I-EVAL boot from BOOT_ADD0[15:0]
ST programmed value: Flash on ITCM at 0x0020 0000.
(Default setting)
SW1
[15:0]
STM32F769I-EVAL boot from BOOT_ADD1[15:0]
ST programmed value: System boot loader at 0x0010 0000
0<->1
0<->1
Table 5. Boot related jumpers
16/75
Jumper
Description
JP1
The 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
DocID029087 Rev 1
UM2035
6.6
Hardware layout and configuration
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
Data signal on digital microphone is connected to audio codec when JP23 is set as
shown to the right (Default setting)
JP23
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):
Clock signal on digital microphone is connected to audio codec when JP24 is set as
shown to the right (Default setting)
JP24
Clock signal on digital microphone is connected to DFSDM of STM32F769NI when
JP24 is set as shown to the right
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Hardware layout and configuration
UM2035
Table 6. Audio related jumpers (continued)
Jumper
Description
PD6 is as SD2_CLK signal when JP7 is set as shown to the right (Default setting):
JP7
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):
Digital microphone power source is connected to +3.3V power when JP22 is set as
shown to the right (Default setting):
JP22
Digital microphone power source is connected to MICBIAS1 from WM8994ECS/R
when JP22 is set as shown to the right:
PA2 is connected to SAI2_SCKB when JP3 is set as shown to the right (Default
setting):
JP3
PA2 is connected to MII_MDIO (Ethernet) when JP3 is set as shown to the right:
PC1 is connected to SAI1_SDA when JP6 is set as shown to the right (Default
setting):
JP6
PC1 is connected to MII_MDC (Ethernet) when JP6 is set as shown to the right.
Note:
18/75
I2C address of WM8994ECS/R is 0b0011010.
DocID029087 Rev 1
UM2035
6.7
Hardware layout and configuration
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.
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
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.
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Hardware layout and configuration
6.9
UM2035
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.
Table 8. USART1 related jumpers
Jumper
Description
USART1_RX is connected to RS232 when JP21 is set as shown to the right (Default
setting, need close JP11 at the same time):
JP21
USART1_RX is connected to ST-LINK/V2-1 controller’s USART_TX when JP21 is
set as shown to the right:
USART1_TX is connected to RS232 when JP26 is set as shown to the right (Default
setting):
JP26
USART1_TX is connected to ST-LINK/V2-1 controller’s USART_RX when JP26 is
set as shown to the right:
JP11
6.10
JP11 is used to disconnect MCU and RS232 transceiver chip.
Default setting: Fitted
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:
20/75
•
Open SB17, SB72
•
Close SB75, SB76
DocID029087 Rev 1
UM2035
Hardware layout and configuration
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:
6.11
•
Open SB16
•
Connect JP7 to pin1 and pin 2
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.
Table 9. CAN related jumpers
Jumper
Description
CAN transceiver is working in standby mode when JP19 is set as shown to the right:
JP19
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.
6.12
JP18
CAN terminal resistor is enabled when JP18 is fitted.
Default setting: Not fitted
JP14
PA11 is connected with CAN RX signal when JP14 is fitted.
Default setting: Not fitted
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.
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Hardware layout and configuration
UM2035
Table 10. Ethernet related jumpers
Jumper
Description
25MHz clock is provided by external crystal X4 when JP12 is set as shown to the
right: (Default setting)
JP12
25MHz clock for MII is provided by MCO at PA8 when JP12 is set as shown to the
right:
MDIO connect to MII_MDIO_GPIO when JP4 is set as shown to the right: (Default
setting)
JP4
MDIO connect to MII_MDIO when JP4 is set as shown to the right:
MDC connect to MII_MDC when JP8 is set as shown to the right:
JP8
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
6.13
Description
SB47
MII CRS on DP83848CVV is connected to PA0 when SB47 is closed and
SB43,SB45 are open. Default setting: Open
SB58
MII COL on DP83848CVV is connected to PH3 when SB58 is closed and R255 is
unmounted. Default setting: Open
SB12
MII_RX_ER on DP83848CVV is connected to PI10 when SB12 is closed and R252
is unmounted. Default setting: Open
Memories
8M x 32bit SDRAM is connected to the SDRAM bank1 of the FMC interface of the
STM32F769NI.
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DocID029087 Rev 1
UM2035
Hardware layout and configuration
1Mx16bit SRAM is connected to the NOR/PSRAM2 bank1 of the FMC interface and both 8bit 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:
Table 12. NOR Flash related jumpers
Jumper
Description
JP16
Write 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
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
The 512-Mbit Quad-SPI NOR Flash is connected to Quad-SPI interface of the
STM32F769NI on the STM32F769I-EVAL evaluation board.
6.15
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.
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Hardware layout and configuration
6.16
UM2035
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
UM2035
Hardware layout and configuration
Table 13. DSI LCD modules connector (CN15) (continued)
6.18
Pin No.
Description
Pin connection
Pin No.
Description
Pin connection
35
SCLK/MCLK
-
36
3.3V
-
37
LRCLK
-
38
-
-
39
SPDIF/I2
-
40
I2C1_SDA
PB9
S
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
-
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.
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Hardware layout and configuration
UM2035
Figure 6. STM32F769I-EVAL Evaluation board motor control PCB reworks (Top side)
R15 R6
39
R25
Ethernet
Audio
JP6
C27
R46
R47
R48
R49
R50
R61
36
25
13
TRACE
C28 MCO
JP12
C31
R71
C32
R73
R74
R75
R77 Crystal
ETH_CLK
R72
JP8
X4
R51
37
24
CN9
TP11 TP10 TP9 TP8
MII_MDC MDC_GPIO
PA13
PA12
PA10
PC9
3V3
U6 48
GND
PA8
V_FS1
PD7
PC6
5V
12
R79
R80
C36
R81
R76
TP12
25MHz
R84 R87
R91
R97 R95
R99
R102 C44
C45
R112
R118
20
CAN terminal
Ethernet
TP16
CN12
JP18
19
TP15
FMC_NE1
X3
MDIO_GPIO
TP14
C39
R83
GND NOR_WP
60
ND_NCE GND JP14 NAND_INT GND
JP13
P17
R17
R18
SB4
SB7
SB8
R21
SB6
SB19
SB20
R68
R69
R70
SB18
JP9
FMC_NWAIT
C30
SB17
R57
R58
R59
R60
JP16
U9
JP10
C23
R22
R23
TP7
R105
R114
C16
R13
R14
C13
R10
C14
R11
R12
C15
R33
C22
R20
C10
SB1
R7
C11
R8
C12
R9
C8
C9
SB2
JP15
R125
R119
R120
R121
R122
R123
R124
C46
R90
8
D5
5
R130
R67
BL_RST
LD6
SB23
R92
SB24
C42
C43
OTG
-HS
U8
17
R88 R89
GND
PA11
PA9
PB3
PD6
D5V
PC8
PC11
PC10
PD2
CN11 GND2
PH2 59 CN6
PE5
PD6
PF2
GND
PF1
PF0
PE2
PI7
PI9
PI6
PC7
PD5
PD4
GND
PD1
PI3
PH15
PH14
3V3
Audio
MII_MDIO
JP4
PA14
MIC
PF5
PF4
PF3
PE6
GND
PE4
PE3
PI5
PI4
PG15
PI10
PE1
PE0
PG10
GND
PD0
PI2
PI1
PI0
PH13
TP6
+1V8
Ethernet
JP3
2
16
STM32F769I-EVAL
MB1219 Rev.B
1
9
PH5
PF14
PG0
PF11
GND
PE9
PE8
PE11
PF15
PE14
PH8
PH10
PH9
PG4
GND
PH12
PG3
PD10
PD15
PG8
C29
SD2
JP7
A
25
24
2
H
L2
LD5 R103
R94
R101
R106
CN13 R115
R108 8
R116
T1
LD7
LD8
R127
R126
C47
R129
32
15
U2
2
R96
SB16
U4
CN4 Camera
C19
8
R82
GND
60
59
PH3
PF13
PF12
C37 C38
PG1
C40 R85 C41
GND
PE7
R86
PE10
R93
PE12
R98
PE15
R100
3V3 PE13
R104
PD11
R107
PD12
R113
PG5
R117
PH11
VBATGND
PD13
PG2
POT PD8
PD9
PD14
SB15
R62 R52
R63 R53
R64 R54
R65 R55
R66 R56
8
9
16
C25
JP5
C26
C33
C34
L1
SB21
R78
SB22
A
CN8
1
1
5
A
X5
U7
SB13
TP3
40
RS232_RX
C35
D3
D4
R41
R43
PI13
PC14
PC13
PK7
GND
PK5
PB9
PK3
PB6
PJ14
PJ15
PB4
PJ13
PC12
GND
PA15
2
PC5
3V3
GND
PB0
PJ0
PJ2
PJ1
5V CN10
PG7
D5V
PG6
VREF+
TP5
VDD_MCU+3V3
R19
R24
R26
VDDA
GND
BL_BOOT0 PC15
D1 JP1
PI15
PI12
PI8
PK6
PK4
PG12
R31 R32 PG9
R34 SB9 GND
R35 R36 PB7
R37 R38 PD3
SB10 SB11 PG13
R39 R40 PJ12
SB12 R42 PG14
PB8
R44
R45 SB14 PG11
+2V8
3
15
U5
X2
C20 C21
1
14
X1
A
JP11
C6
C7
C17
C18
SB5
JP2
R
U3
D2
PI11
PB5
PH1
PF7
GND
PF9
PA1
PC1
PA3
PA6
PA7
PA5
PB1
PH4
GND
PI14
PJ4
PB11
PB15
PH7
PJ5
C5
2
4
AIN
CN3
R27
R28
R29
C24
R30
USART1 CN7
GND
PH0
RESET#
PF6
PF10
PC0
PA2
PA0
PF8
GND
PA4
PC2
PC4
PC3
PB2
PJ3
PB10
28 PB14
PH6
GND
PB12
PB13
2
2
TP4
+3V3
CN5
2
34
7
8
TP2 GND
SB3
R4
R5
R16
TP1
GND
CN1
SW1
2
R3
Motor Control
33
0= Flash
0 <--> 1
1= Sys mem
CN2
I2C_EXT
R128
Figure 7. STM32F769I-EVAL Evaluation board motor control PCB reworks
(Bottom side)
R253
SB58
R258
R260
R262
SB59
SB61
SB63
SB65
SB67
SB69
R263
R231
R232
R241
R242
R230
C105
C121 C122
C125
C143
C145
C146
T7
R289
C147
C144
C148
T6
C141
C142
R288
C118 C119 C120
C124
SB35
SB37
SB43
SB45
SB47
R245
SB49
SB51
SB54
SB73
C115 C113
C134
C135
R271
SB72
SB75
R282
R287
SB76
R255
C128 R257
R259
R261
C129
R266
R267
R268
R269
SB64
SB68
R265
C126
C110
L7
C130 C127
C140
C139
C138
SB57
R256
R270
C136
SB60
SB62
SB66
R264
SB70
SB71
SB74
C109
C112
C114
C123
C137
R278
R279
R280
R281
SB55
R250
R251
R252
R254
C104
C108
SB34
SB36
SB42
SB44
SB46
SB48
SB50
SB52
SB56
C131
C132
C133
SB38
SB39
C117
R249
SB53
R226
R228
C103
C106 C107
R283
R284
R285
R286
R239
R246
R248
C116
R237
R238
R240
R243
R244
R247
C111
R234
R235
R229
R233
R236
R272
R273
R274
R275
R276
R277
R227
T5
SB40
SB41
C101 C102
T4
Table 14. Motor control related solder bridges
26/75
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.
Default setting: Open
DocID029087 Rev 1
UM2035
6.19
Hardware layout and configuration
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 functions
Function of
STM32F769I-EVAL
(For MFX)
Terminal
device
10
PA0
MFX_GPO1
XSDN
Output
Camera
15
PA5
MFX_GPIO5
Audio_INT
Input
Codec
16
PA6
MFX_GPIO6
OTG_FS1_
OverCurrent
Input
USB_FS1
17
PA7
MFX_GPIO7
OTG_FS1_
PowerSwitchOn
Output
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_GPIO8
OTG_FS2_
OverCurrent
Input
USB_FS2
30
PA9
MFX_GPIO9
OTG_FS2_
PowerSwitchOn
Output
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
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Direction
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Connectors
UM2035
7
Connectors
7.1
Motor control connector CN1
Figure 8. Motor control connector CN1 (Top view)
-36
Table 16. Motor control connector CN1
28/75
Description
Pin 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
PC5
Heatsink
temperature
PFC SYNC
PA12 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
UM2035
7.2
Connectors
I2C connector CN2
Figure 9. I2C connector CN2 (Front view)
069
Table 17. I2C connector CN2
7.3
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
Figure 10. Analog input-output connector CN3 (Top view)
ϭ
Ϯ
06Y9
Pin number
Description
Pin
number
Description
1
2
GND
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Connectors
7.4
UM2035
Camera module connector CN4
Figure 11. Camera module connector CN4 (Top view)
Table 19. Camera module connector CN4
30/75
Pin number
Description
Pin number
Description
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
15
Camera_PLUG
(MFX GPIO12)
35
Test point11
16
GND
36
Test point10
17
RST IN
(MFX GPIO11)
37
GND
18
Test point 7
38
GND
19
XSDN
(MFX GPIO0)
39
+2.8V
20
Camera clock
40
+2.8V
DocID029087 Rev 1
UM2035
7.5
Connectors
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 function
How 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
PA2
SAI2_SCKB/MII_MDIO/MC_EnIn
dex
Open SB37, SB35
15
PA0
SAI2_SDB/ MII_CRS/MC_ENA
Open SB43,SB45,SB47
17
PF8
QSPI_BK1_IO0
Remove R242
19
GND
-
-
21
PA4
PAR_HSYNC
Disconnect CN4
23
PC2
MII_TXD2/MC_CurrentB
Open SB49, Remove R245
25
PC4
MII_RXD0/
MC_BUSVOLTAGE
Open 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
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Connectors
UM2035
Table 20. Daughterboard extension connector CN5 (continued)
32/75
Pin
Description
Alternative function
How to disconnect with function block
on STM32F769I-EVAL board
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
8
PF7
QSPI_BK1_IO2
Remove R232
10
GND
-
-
12
PF9
QSPI_BK1_IO1
Remove R231
14
PA1
MII_RX_CLK/MC_ENB
Open SB34,SB36
16
PC1
SAI1_SDA/MII_MDC/
MC_CurrentA
Open SB42, Keep JP6 on open
18
PA3
ULPI_D0
Remove R86
20
PA6
MC_EmergencySTOP/
PAR_PCLK/LCD_G2
Remove 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
54
PJ0
LCD_R1/LED1
Open SB13
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UM2035
Connectors
Table 20. Daughterboard extension connector CN5 (continued)
Pin
Description
Alternative function
How to disconnect with function block
on STM32F769I-EVAL board
56
PJ2
LCD_R3/DSI_TE
Disconnect CN15
58
PJ1
LCD_R2/LED2
Open SB15
60
+5 V
-
-
Table 21. Daughterboard extension connector CN6
Pin
Description
Alternative Function
How 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
PA11
CAN1_RX/USB_FS1_DM
/MC_PFCpwm
Open 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
PD6
DFSDM_DATA1/SD2_CLK/
PAR_D10
Keep JP7 on open, Disconnect CN4
Disconnect SD2
49
D5V
-
-
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Connectors
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Table 21. Daughterboard extension connector CN6 (continued)
34/75
Pin
Description
Alternative Function
How to disconnect with function block on
STM32F769I-EVAL board
51
PC8
SD1_D0/MC_WH/PAR_D2
Open SB17 SB72,SB75, Disconnect CN4
Disconnect SD1
53
PC11
SD1_D3 /PAR_D4
Remove R282, Disconnect CN4,Disconnect
SD1
55
PC10
SD1_D2/EXT_RESET/PAR_
D8
Remove R287,R16, Disconnect
CN4,Disconnect SD1
57
PD2
SD1_CMD/PAR_D11
Open 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_SDA
Remove 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
PA12
CAN1_TX/USB_FS1_DP/MC
_PFCsync2
Open SB60,SB62,SB66
44
PA10
RS232_RX/USB_FS1_ID
Remove R115, Keep JP21 on open
46
PC9
SD1_D1/PAR_D3
Remove R264, Disconnect CN4,Disconnect
SD1
48
+3.3V
-
-
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UM2035
Connectors
Table 21. Daughterboard extension connector CN6 (continued)
7.6
Pin
Description
Alternative Function
How to disconnect with function block on
STM32F769I-EVAL board
50
GND
-
-
52
PA8
LCD_BL_CTRL/MII_MCO/M
C_PFCsync1
Open SB70,SB71,SB74
54
VBUS_FS1
-
-
56
PD7
SD2_CMD
Disconnect SD2
58
PC6
MC_UH/PAR_D0/I2S3_CK
Open SB18, Disconnect CN4, Keep JP9 on
open
60
+5 V
-
-
RS-232 connector CN7
Figure 12. RS-232 connector CN7 (Front view)
-36
Table 22. RS-232 connector CN7
Pin number
Description
Pin
number
Description
1
NC
6
2
RS232_RX (PA10)
7
NC
3
RS232_TX (PA9)
8
4
NC
9
NC
5
GND
-
-
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Connectors
7.7
UM2035
USB OTG2 HS Micro-AB connector CN8
Figure 13. USB OTG HS Micro-AB connector CN8 (Front view)
Table 23. USB OTG HS Micro-AB connector CN8
7.8
Pin number
Description
Pin number
Description
1
VBUS
4
ID
2
D-
5
GND
3
D+
-
-
Ethernet RJ45 connector CN9
Figure 14. Ethernet RJ45 connector CN9 (Front view)
Table 24. RJ45 connector CN9
36/75
Pin number
Description
Pin
number
Description
1
TxData+
2
TxData-
3
RxData+
4
Shield
5
Shield
6
RxData-
7
Shield
8
Shield
DocID029087 Rev 1
UM2035
7.9
Connectors
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
Function
How to disconnect with function block on
STM32F769I-EVAL board
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
-
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Connectors
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Table 25. Memory connector CN10 (continued)
Pin
Description
Function
How to disconnect with function block on
STM32F769I-EVAL board
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
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Pin
Description
Alternative function
How to disconnect with function block on
STM32F769I-EVAL board
1
PF5
A5
-
3
PF4
A4
-
5
PF3
A3
-
7
PE6
A22/SAI2_MCLK_B/TRACED
3/PAR_D7/LCD_G1
Open SB25, SB26, SB27, SB28
9
GND/PG7
GND/NAND_INT
Short 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
-
-
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UM2035
Connectors
Table 26. Memory connector CN11 (continued)
Pin
Description
Alternative function
How to disconnect with function block on
STM32F769I-EVAL board
31
PD0
D2
-
33
PI2
D26
-
35
PI1
D25
-
37
PI0
D24
-
39
PH13
D21
-
2
PH2
SDCKE0
-
4
PE5
A21/TRACED2/PAR_D6/LCD
_G0
Open 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
-
-
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Connectors
7.10
UM2035
ETM trace debugging connector CN12
Figure 15. ETM trace debugging connector CN12 (Top view)
D^ϯϬϳϮϮsϮ
Table 27. ETM trace debugging connector CN12
7.11
Pin number
Description
Pin
number
Description
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
USB OTG1 FS Micro-AB connector CN13
Figure 16. USB OTG1 FS Micro-AB connector CN13 (Front view)
40/75
DocID029087 Rev 1
UM2035
Connectors
Table 28. USB OTG1 FS Micro-AB connector CN13
7.12
Pin number
Description
Pin number
Description
1
VBUS (PA9)
4
ID (PA10)
2
D- (PA11)
5
GND
3
D+ (PA12)
-
-
USB OTG2 FS Micro-AB connector CN14
Figure 17. USB OTG2 FS Micro-AB connector CN14 (Front view)
Table 29. USB OTG2 FS Micro-AB connector CN14
7.13
Pin number
Description
Pin number
Description
1
VBUS (PB13)
4
ID (PB12)
2
D- (PB14)
5
GND
3
D+ (PB15)
-
-
JTAG/SWD connector CN16
Figure 18. JTAG/SWD debugging connector CN16 (Top view)
D^ϯϬϳϮϮsϮ
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Connectors
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Table 30. JTAG/SWD debugging connector CN16
7.14
Pin number
Description
Pin
number
Description
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
microSD connectors CN17 and CN30
Figure 19. microSD connector (Top view)
Table 31. microSD card1 connector CN17
42/75
Pin
number
Description
Pin
number
Description
1
SDMMC_D2 (PC10)
6
Vss/GND
2
SDMMC_D3 (PC11)
7
SDMMC_D0 (PC8)
3
SDMMC_CMD (PD2)
8
SDMMC_D1 (PC9)
DocID029087 Rev 1
UM2035
Connectors
Table 31. microSD card1 connector CN17 (continued)
Pin
number
Description
Pin
number
Description
4
+3.3V
9
GND
5
SDMMC_CLK (PC12)
10
MicroSDcard_detect1 (MFX
GPIO15)
Table 32. microSD card2 connector CN30
7.15
Pin
number
Description
Pin
number
Description
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)
10
MicroSDcard_detect2 (MFX
GPIO10)
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)
'&9
*1'
-36
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.
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74
Connectors
7.17
UM2035
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)
Table 33. USB Micro-B connector CN22
7.19
Pin number
Description
Pin number
Description
1
VBUS (power)
4
ID
2
DM
5
GND
3
DP
6,7,8,9,10,11
Shield
MEMS microphone coupon connectors CN24 and CN25
Figure 22. MEMS microphone coupon connectors CN24 and CN25 (Top view)
Table 34. MEMS microphone coupon connectors CN24 and CN25
44/75
Pin number
Description
Pin number
Description
1
DATA
4
VDD
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UM2035
Connectors
Table 34. MEMS microphone coupon connectors CN24 and CN25 (continued)
7.20
Pin number
Description
Pin number
Description
2
GND
5
L/R
3
CLK
6
NC
CAN D-type 9-pin male connector CN26
Figure 23. CAN D-type 9-pin male connector (Front view)
-36
Table 35. CAN D-type 9-pin male connector CN26
7.21
Pin number
Description
Pin number
Description
1,4,8,9
NC
7
CANH
2
CANL
3,5,6
GND
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
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74
Connectors
7.23
UM2035
SPDIF IN connector CN29
Figure 24. SPDIF IN connector CN29 (Front view)
Table 36. SPDIF IN connector CN29
46/75
Pin number
Description
Pin number
Description
1
SPDIF_RX1(PG12)
3
VCC
2
GND
-
-
DocID029087 Rev 1
UM2035
STM32F769I-EVAL I/O assignment
Appendix A
STM32F769I-EVAL I/O assignment
Table 37. STM32F769I-EVAL I/O assignment
Motor control variant
Camera
variant
A20/TRACED1
-
-
PE3
A19/TRACED0
-
-
A3
PE2
A23/TRACECLK/MII_TXD3
-
-
A4
PG14
MII_TXD1
-
-
A5
PE1
NBL1
-
-
A6
PE0
NBL0
-
-
A7
PB8
Audio 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
PE6
A22/SAI2_MCLK_B/TRACED3
/LCD_G1
-
D7
B3
PG13
MII_TXD0
-
-
B4
PB9
Audio 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
-
Pin
No.
Pin Name
A1
PE4
A2
STM32F769I-EVAL
standard
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STM32F769I-EVAL I/O assignment
UM2035
Table 37. STM32F769I-EVAL I/O assignment (continued)
48/75
Motor control variant
Camera
variant
VBAT
-
-
PI8- 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
-
D1
PC13ANTI_TAM
P
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
PA10
RS232_USART1_RX/USB_FS
1_ID
-
-
E1
PC14OSC32_IN
OSC32_IN
-
-
Pin
No.
Pin Name
C1
VBAT
C2
STM32F769I-EVAL
standard
DocID029087 Rev 1
UM2035
STM32F769I-EVAL I/O assignment
Table 37. STM32F769I-EVAL I/O assignment (continued)
Motor control variant
Camera
variant
A1
-
-
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
PA9
RS232_USART1_TX/
USB_FS1_VBUS
-
-
F1
PC15OSC32_O
UT
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
PA8
Backlight_PWM_TIM1_CH1
/MII_MCO
PFC_SYNC1_TIM1_1_CH1
-
G1
PH0 OSC_IN
OSC_IN
-
-
Pin
No.
Pin Name
E2
PF1
E3
STM32F769I-EVAL
standard
DocID029087 Rev 1
49/75
74
STM32F769I-EVAL I/O assignment
UM2035
Table 37. STM32F769I-EVAL I/O assignment (continued)
50/75
Motor control variant
Camera
variant
A2
-
-
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
H1
PH1 OSC_OUT
OSC_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.
Pin Name
G2
PF2
G3
STM32F769I-EVAL
standard
DocID029087 Rev 1
UM2035
STM32F769I-EVAL I/O assignment
Table 37. STM32F769I-EVAL I/O assignment (continued)
Motor control variant
Camera
variant
NAND_INT
-
-
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
-
-
L2
PF9
QSPI_BK1_IO1
-
-
L3
PF8
QSPI_BK1_IO0
-
-
L4
PC3
MII_TX_CLK
13
-
L5
BYPASS_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.
Pin Name
J14
PG7
J15
STM32F769I-EVAL
standard
DocID029087 Rev 1
51/75
74
STM32F769I-EVAL I/O assignment
UM2035
Table 37. STM32F769I-EVAL I/O assignment (continued)
52/75
Motor control variant
Camera
variant
ULPI_STP
-
-
PC1
SAI1_SD_A/MII_MDC
11
-
M4
PC2
MII_TXD2
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
-
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.
Pin Name
M2
PC0
M3
STM32F769I-EVAL
standard
DocID029087 Rev 1
UM2035
STM32F769I-EVAL I/O assignment
Table 37. STM32F769I-EVAL I/O assignment (continued)
Motor control variant
Camera
variant
MII_RXD1
-
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_RXD2
DISSIPATIVE_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.
Pin Name
P5
PC5
P6
STM32F769I-EVAL
standard
DocID029087 Rev 1
53/75
74
Schematics
UM2035
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:
54/75
•
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
DocID029087 Rev 1
U_MCU
MCU.SchDoc
I2C1_SCL
I2C1_SDA
U_MFX
MFX & LEDs.SchDoc
MFX_IO5
Audio_INT
SAI2_SCKB
SAI2_FSB
SAI2_SDB
SAI1_SDA
SAI2_MCLKB
DFSDM_CLK
DFSDM_DATA1
SPDIF_OUT
SAI2_SCKB
SAI2_FSB
SAI2_SDB
SAI1_SDA
SAI2_MCLKB
DFSDM_CLK
DFSDM_DATA1
SPDIF_RX1
U_LCD&Camera&Connectors
LCD&Camera&Connectors.SchDoc
I2C1_SCL
I2C1_SDA
SCLK/MCLK
LRCLK
SPDIF/I2S
XSDN
MFX_IO11
MFX_IO12
MFX_IO14
XSDN
RSTI
Camera_PLUG
LCD_INT
RESET#
DSI
LCD_R[0..7]
LCD_G[0..7]
LCD_B[0..7]
LCD_CLK
LCD_HSYNC
LCD_VSYNC
LCD_ENB
LCD_BL_CTRL
PAR_D[0..11]
PAR_PCLK
PAR_HSYNC
PAR_VSYNC
EXT_RESET
10MHz clock
CEC_CLK
CEC
I2C1_SCL
I2C1_SDA
DSI
LCD_R[0..7]
LCD_G[0..7]
LCD_B[0..7]
LCD_CLK
LCD_HSYNC
LCD_VSYNC
LCD_ENB
LCD_BL_CTRL
PAR_D[0..11]
PAR_PCLK
PAR_HSYNC
PAR_VSYNC
EXT_RESET
CEC
U_CAN&QSPI
CAN&QSPI.SchDoc
CAN1_RX
CAN1_TX
QSPI_CLK
QSPI_BK1_NCS
QSPI_BK1_IO0
QSPI_BK1_IO1
QSPI_BK1_IO2
QSPI_BK1_IO3
133MHz clock
Same length
CAN1_RX
CAN1_TX
QSPI_CLK
QSPI_BK1_NCS
QSPI_BK1_IO0
QSPI_BK1_IO1
QSPI_BK1_IO2
QSPI_BK1_IO3
Same length
A[0..23]
D[0..31]
SDCLK
SDNE0
SDNRAS
SDNCAS
SDNWE
SDCKE0
FMC_NBL0
FMC_NBL1
FMC_NBL2
FMC_NBL3
FMC_NE1
FMC_NE3
FMC_NWE
FMC_NOE
FMC_NWAIT
90MHz clock
MC_PFCsync1
MC_PFCsync2
MC_WH
MC_WL
MC_VH
MC_VL
MC_UH
MC_UL
MC_CurrentA
MC_CurrentB
MC_CurrentC
MC_EnA
MC_EnB
MC_NTC
MC_DissipativeBrake
MC_EmergencySTOP
MC_PFCpwm
MC_Heatsink
MC_BusVoltage
MC_EnIndex
DocID029087 Rev 1
RESET#
25MHz clock
MII_TX_CLK
MII_TXD0
MII_TXD1
MII_TXD2
MII_TXD3
MII_TX_EN
MII_RX_CLK
MII_RXD0
MII_RXD1
MII_RXD2
MII_RXD3
MII_RX_DV
MII_RX_ER
MII_COL
MII_CRS
MII_MCO
MII_MDIO
MII_MDC
MII_MDIO_GPIO
MII_MDC_GPIO
25MHz clock
25MHz clock
25MHz clock
MII_TX_CLK
MII_TXD0
MII_TXD1
MII_TXD2
MII_TXD3
MII_TX_EN
MII_RX_CLK
MII_RXD0
MII_RXD1
MII_RXD2
MII_RXD3
MII_RX_DV
MII_RX_ER
MII_COL
MII_CRS
MII_MCO
MII_MDIO
MII_MDC
MII_MDIO_GPIO
MII_MDC_GPIO
U_Peripherals
Peripherals.SchDoc
MFX_IO0
MFX_IO1
MFX_IO2
MFX_IO3
MFX_IO4
MFX_IO15
MFX_IO10
MFX_WKUP
MFX_IO9
MFX_IO8
JOY_SEL
JOY_DOWN
JOY_LEFT
JOY_RIGHT
JOY_UP
MicroSDCard1_Detect
SD1_CLK
SD1_CMD
SD1_D0
SD1_D1
SD1_D2
SD1_D3
Potentiometer
MicroSDCard2_Detect
SD2_CLK
SD2_CMD
SD2_D0
SD2_D1
SD2_D2
SD2_D3
RESET#
SD1_CLK
SD1_CMD
SD1_D0
SD1_D1
SD1_D2
SD1_D3
Potentiometer
60MHz clock
ULPI_D[0..7]
ULPI_CK
ULPI_DIR
ULPI_STP
ULPI_NXT
USB_FS2_DP
USB_FS2_DM
USB_FS2_ID
MFX_IRQOUT
LED0
LED1
LED2
LED3
TDI
TRST
TMS/SWDIO
TCK/SWCLK
TDO/SWO
TRACE_CK
TRACE_D0
TRACE_D1
TRACE_D2
TRACE_D3
10MHz clock
84MHz clock
TDI
TRST
TMS/SWDIO
TCK/SWCLK
TDO/SWO
TRACE_CK
TRACE_D0
TRACE_D1
TRACE_D2
TRACE_D3
RESET#
U_Power
Power.SchDoc
TDI
TRST
TMS/SWDIO
TCK/SWCLK
TDO/SWO
RESET#
STLK_TX
STLK_RX
U_RS232
RS232.SchDoc
RS232_RX
RS232_TX
2
USB_FS1_DP
USB_FS1_DM
USB_FS1_ID
USB_FS1_DP
USB_FS1_DM
USB_FS1_ID
EXPANDER_INT
LED0
LED1
LED2
LED3
JP26
JP21
RS232_TX
RS232_RX
Note1: Rev A.1 --> B.1
1. Updated JP11 form 3 PIN to 2 PIN jumper
2. Added JP28 for ST_LINK RST, deleted SB77
3. Deleted R1/R2,C1/C2/C3/C4,U1(IrDA)
4. Updated the USB connector for ST_LINK from Mini B to Micro B
Title: MB1219
Project: STM32F769I-EVAL
Size: A3
Reference: MB1219
Date: 2016/5/17
Revision: B.1
Sheet: 1 of 17
55/75
Schematics
RESET#
OTG_FS1_PowerSwitchOn
OTG_FS1_OverCurrent
RESET#
U_JTAG&Trace
JTAG&Trace.SchDoc
SD2_CLK
SD2_CMD
SD2_D0
SD2_D1
SD2_D2
SD2_D3
U_USB_OTG_FS
USB_OTG_FS.SchDoc
MFX_IO7
MFX_IO6
RESET#
Same length
ULPI_D[0..7]
ULPI_CK
ULPI_DIR
ULPI_STP
ULPI_NXT
USB_FS2_DP
USB_FS2_DM
USB_FS2_ID
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]
FMC_NWAIT
NAND_INT
NAND_NCE
NAND_INT
NAND_NCE
TAMPER_WKUP_KEY
U_USB_OTG
USB_OTG.SchDoc
OTG_FS2_PowerSwitchOn
OTG_FS2_OverCurrent
24MHz clock
U_ExtensionConnector
ExtensionConnector.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]
1
MII_INT
A[0..23]
D[0..31]
SDCLK
SDNE0
SDNRAS
SDNCAS
SDNWE
SDCKE0
FMC_NBL0
FMC_NBL1
FMC_NBL2
FMC_NBL3
FMC_NE1
FMC_NE3
FMC_NWE
FMC_NOE
FMC_NWAIT
U_MotorControl
MotorControl.SchDoc
MC_PFCsync1
MC_PFCsync2
MC_WH
MC_WL
MC_VH
MC_VL
MC_UH
MC_UL
MC_CurrentA
MC_CurrentB
MC_CurrentC
MC_EnA
MC_EnB
MC_NTC
MC_DissipativeBrake
MC_EmergencySTOP
MC_PFCpwm
MC_Heatsink
MC_BusVoltage
MC_EnIndex
Ethernet.SchDoc
MFX_IO13
U_Memory
Memory.SchDoc
3
I2C1_SCL
I2C1_SDA
U_Audio
Audio.SchDoc
1
1K5
1K5
2
R160
R161
3
+3V3
UM2035
Figure 25. STM32F769I-EVAL evaluation board
Wakeup Button
SB42
3
PC1
Closed
SB44
1
2
SB35
PA2
Closed
1
SAI2_SCKB
JP3
PAR_HSYNC
ULPI_CK
LCD_G2
MC_EmergencySTOP
SB3
Closed
PAR_PCLK
SB46
Open
MC_UL
SB48
Closed
MII_RX_DV
SB70
Open
MC_PFCsync1
SB74
Open
LCD_BL_CTRL
SB71
Closed
MII_MCO
SB68
Closed
RS232_TX
R265
10K
VBUS_FS1
RS232_RX
USB_FS1_ID
SB64
Open
MC_PFCpwm
JP14
CAN1_RX
USB_FS1_DM
SB60
Open
MC_PFCsync2
SB62
Closed
CAN1_TX
SB66
Closed
USB_FS1_DP
TMS/SWDIO
TCK/SWCLK
TDI
PA4
PA5
PA6
PA6
PA6
PA7
PA7
PA0
PA8
PA1
PA8
PA2
PA8
ULPI_D0 PA3
PA9
DAC_OUT1 PA4
PA9
DAC_OUT2 PA5
PA10
PA6
PA10
PA7
PA11
PA11
PA8
PA9
PA11
PA10
PA11
PA12
PA13
PA14
PA15
SB73
SB50
Open
Open
PB2
QSPI_CLK
R20
0
0
PH0
PH1
G1
H1
J1
E6
R4
10K
PK3
PK4
PK5
PK6
PK7
Open
Closed
Closed
LCD_G3
PC9 R264 0
PAR_D0
PAR_D1
PAR_D2
PAR_D3
R287
PAR_D8
R282
PAR_D4
PAR_D9
TAMPER_WKUP_KEY
SB72
SB75
SB17
R6
R7
P7
N8
M9
M14
B10
B9
C9
D10
PJ0
PJ1
PJ2
PJ3
PJ4
PJ5
PJ12
PJ13
PJ14
PJ15
LCD_R1Closed
SB13
LED1
SB15
LCD_R2Closed
LED2
DSI_TE
LCD_R3
SB59
LCD_R4Closed
LED3
LCD_R5
LCD_R6
LCD_B0
MII_MDIO_GPIO
LCD_B1
MII_MDC_GPIO
LCD_B2
LCD_B3
D8
D7
C6
C5
C4
PK3
PK4
PK5
PK6
PK7
LCD_B4
LCD_B5
LCD_B6
LCD_B7
DSI_RESET
DSI_TE
DSI_RESET
DSI_D0_P
DSI_D0_N
DSI_D1_P
DSI_D1_N
DSI_CK_P
DSI_CK_N
J12
J13
F12
F13
H12
H13
R36
R38
R40
R17
10K
R18
[N/A]
TRACE_CK
MII_TXD3
TRACE_D0
TRACE_D1
TRACE_D2
PAR_D7
LCD_ENB
TRACE_D3
SAI2_MCLKB
R32
R21
DSI_TE
DSI_RESET
DSI_D0_P
DSI_D0_N
DSI_D1_P
DSI_D1_N
DSI_CK_P
DSI_CK_N
VDD_MCU
JP5
C30
C135
2.2uF[N/A] 2.2uF
BAT60JFILM
C134
100nF
VDD_MCU
VDD_MCU
VDD_MCU
C118
100nF
C128
100nF
C126
100nF
C104
4.7uF
VDD_MCU
VDDA
C109
1uF
C110
4.7uF
C112
100nF
L7
TP7
VDDA VDDA
R33
0
VREF+
TP5
VREF
C106
100nF
C123
100nF
C113
100nF
220K
220K
LCD_G1
C119
100nF
C120
100nF
C121
100nF
C130
100nF
C115
100nF
C127
100nF
C103
1uF
L10
F11
E7
K5
H5
L8
L9
J11
G11
E9
E8
J5
F4
K11
E10
F5
G5
L7
H11
G13
K12
R1
P1
C108
100nF
C1
L5
+3V3
1
2
3
BT1
CR1220 holder
TAMPER_WKUP_KEY
TAMPER_WKUP_KEY
Closed
VDD1
VSS1
VDD2
VSS2
VDD3
VSS3
VDD4
VSS4
VDD5
VSS5
VDD6
VSS6
VDD7
VSS7
VDD8
VSS8
VDD_USB33
VSS9
VDD_MMC33
VSS10
VDD11
VSS11
VDD12
VSS12
VDD13
VSS13-VSS18
VDD14
VSS14
VDD15
VSS15
VDD17
VSS17
VDD18
VDD19
VSS19
VSS20
VDD_VREGDSI
DSI_VDD12_0
DSI_VCAP
DSI_VSS
U4B
D2 PD0
D3 PD1
PAR_D11
PAR_D5
PAR_D10
D13
D14
D15
A16
A17
A18
D0
D1
PD8
PD9
PD10
PD11
PD12
PD13
PD14
PD15
R272
R283
33
33
PD2
PD3
PD4
PD5
PD6
PD7
R60
33
R69
33
R70
33
R270 33
R281 33
R268 33
R278 33
R266 33
PE0
PE1
PE5
PE6
PE6
PE6
PE6
D4
D5
D6
D7
D8
D9
D10
D11
D12
PE7
PE8
PE9
PE10
PE11
PE12
PE13
PE14
PE15
R62
R54
R53
R63
R55
R64
R66
R56
R65
33
33
33
33
33
33
33
33
33
A0
A1
A2
A3
A4
A5
PF0
PF1
PF2
PF3
PF4
PF5
PF6
PF7
PF8
PF9
PF10
PF11
PF12
PF13
PF14
PF15
R247
R244
R243
R240
R238
R237
R24
R19
R41
R26
33
33
33
33
33
33
33
33
33
33
R52
R259
R257
R260
R271
33
33
33
33
33
B12
C12
D12
C11
D11
C10
B11
A11
L15
L14
K15
N10
M10
M11
L12
K13
A6
A5
A3
A2
A1
B1
B2
R8
N9
P9
R9
P10
R10
R12
P11
R11
SB28
A6
A7
A8
A9
K9
F10
F6
K6
H6
K7
K8
J10
G10
F8
F7
J6
F2
K10
F9
G6
D2
E2
G2
H2
J2
K3
K2
K1
L3
L2
L1
P8
M6
N6
P6
M8
PD0
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8
PD9
PD10
PD11
PD12
PD13
PD14
PD15
PG0
PG1
PG2
PG3
PG4
PG5
PG6
PG7
PG8
PG9
PG10
PG11
PG12
PG13
PG14
PG15
PE0
PE1
PE2
PE3
PE4
PE5
PE6
PE7
PE8
PE9
PE10
PE11
PE12
PE13
PE14
PE15
PH2
PH3
PH4
PH5
PH6
PH7
PH8
PH9
PH10
PH11
PH12
PH13
PH14
PH15
PF0
PF1
PF2
PF3
PF4
PF5
PF6
PF7
PF8
PF9
PF10
PF11
PF12
PF13
PF14
PF15
PI0
PI1
PI2
PI3
PI4
PI5
PI6
PI7
PI8-ANTI_TAMP2
PI9
PI10
PI11
PI12
PI13
PI14
PI15
N7
M7
M13
M12
N12
N11
J15
J14
H14
D9
C8
B8
C7
B3
A4
B7
R262
R261
R279
R267
R280
R269
PG6
PG7
R277
PG9
PG10
PG11
PG12
PG13
PG14
R45
K4
J4
H4
J3
P13
N13
P14
N14
P15
N15
M15
E12
E13
D13
PH2
33
33
33
33
33
33
PG0
A10
PG1
A11
PG2
A12
PG3
A13
PG4
A14
PG5
A15
LCD_R7
33
PG8
SB20
Closed
SB19
Closed
MII_PPS_OUT
SD2_D1
R248
R249
33
R256
SB57
VDDA
VREF+
VBAT
BYPASS-REG
R253 STM32F769NI
10K
VSSA
VREFVCAP1
VCAP2
FMC_NE3
NAND_INT
SDCLK
SAI2_FSB
SD2_D0
MII_TX_EN
MC_NTC
SPDIF_RX1
MII_TXD0
MII_TXD1
SDNCAS
33
Open
33
33
PG15
E14
D14
C14
C13
C3
D3
D6
D4
C2
E4
D5
F3
E3
G3
H3
G4
SDCKE0
PH4
R258
PH6
PH7
R57
R58
R67
R68
R59
R276
R286
R285
33
PH5
ULPI_NXT
SDNWE
SB55
R255 33 PH3
SB58
Open
33
33
33
33
33
33
33
33
PH8
PH9
PH10
PH11
PH12
PH13
PH14
PH15
D16
D17
D18
D19
D20
D21
D22
D23
R275
R274
R273
R284
PI4
PI5
R254
R250
PI8
R251
33
33
33
33
PI0
PI1
PI2
PI3
D24
D25
D26
D27
33
33
PI6 D28
PI7 D29
33
PI9 D30
PI11
PI12
PI13
R228
PI15
LCD_G6
0
PI14
LCD_R0
SDNE0
MII_COL
MII_RXD2
Closed
SB53
MC_DissipativeBrake
Open
MII_RXD3
FMC_NBL2
FMC_NBL3
EXPANDER_INT
ULPI_DIR
LCD_HSYNC
LCD_VSYNC
LCD_CLK
Closed
R252 33
SB12
Open
PI10 D31
MII_RX_ER
SB4
LED0
STM32F769NI
PA[0..15]
D[0..31]
A[0..23]
D[0..31]
PB[0..15]
A[0..23]
PC[0..15]
PD[0..15]
LCD_R[0..7]
LCD_G[0..7]
L6
H10
LCD_B[0..7]
LCD_R[0..7]
PE[0..15]
LCD_G[0..7]
PF[0..15]
PA[0..15]
PB[0..15]
PC[0..15]
PD[0..15]
PE[0..15]
PG[0..15]
PH[0..15]
PI[0..15]
PJ[0..15]
PK[0..7]
PG[0..15]
PH[0..15]
PI[0..15]
PJ[0..15]
PK[0..7]
PF[0..15]
LCD_B[0..7]
ULPI_D[0..7]
G12
PAR_D[0..11]
VREF+
C125
100nF
Closed
SB10
R42
33
A23 PE2 R39 33[N/A]
Closed
SB11
33
A19 PE3 R37
Closed
SB9
33
A20 PE4 R35
Closed
SB8
Closed
SB7
Closed
SB6
33
A21 PE5 R31
Closed
SB25
Closed
SB26
Closed
SB27
33
A22 PE6 R34
U4C
DSI_VDD12
D2
C114
100nF
PE0
PE1
QSPI_BK1_IO3
QSPI_BK1_IO2
QSPI_BK1_IO0
QSPI_BK1_IO1
Potentiometer
SDNRAS
100nF
C122
100nF
SD2_CMD
DSI
RESET#
C124
100nF
FMC_NOE
FMC_NWE
220K
220K
220K
LCD_G0
PAR_D6
BAT60JFILM
C107
100nF
Closed
33
D1
3
C111
100nF
2
1
+3V3
JP1
R246
3
SD2_CLK
PC13
330
SB76
SD1_CMD
DFSDM_CLK
FMC_NBL0
FMC_NBL1
C99
C129
100nF
R217
R218
220K
MC_WH
SD1_D0
NAND_NCE
SD1_D1
EXT_RESET
SD1_D2
SD1_D3
SD1_CLK
B2
WKUP/TAMPER
C100
[N/A]
DFSDM_DATA1
0
0
DSI
PH0-OSC_IN
PH1-OSC_OUT DSI_D0_P
DSI_D0_N
NRST
DSI_D1_P
BOOT
DSI_D1_N
DSI_CK_P
PDR_ON
DSI_CK_N
E5
JP10
PC8
PC8
PC8
MC_CurrentB
MII_TXD2
MC_CurrentC
MII_TX_CLK
MC_BusVoltage
MII_RXD0
MC_Heatsink
MII_RXD1
MC_UH
FMC_NWAIT
MC_VH
FMC_NE1
JP7
PC14-OSC32_IN
PC15-OSC32_OUT
+3V3
4
PJ0
PJ1
PJ2
PJ3
PJ4
PJ5
PJ12
PJ13
PJ14
PJ15
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
PC8
PC9
PC10
PC11
PC12
PC13
M2
M3
M4
L4
N5
P5
H15
G15
G14
F14
B14
B13
A12
D1
SAI1_SDA
SB49
33
SB56
SB52
SB51
SB54
SB67
SB69
SB18
STM32F769NI
SW1
09.03290.01
NX3225HA 25MHz EXS00A-CH00343
C22
5.6pF
B1
TD-0341 [RESET/Black]
1
2
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12
PB13
PB14
PB15
E1
F1
1
3
2
5.6pF
X1
2
NC
IN
4
NC OUT
PA0-WKUP
PC0
PA1
PC1
PA2
PC2
PA3
PC3
PA4
PC4
PA5
PC5
PA6
PC6
PA7
PC7
PA8
PC8
PA9
PC9
PA10
PC10
PA11
PC11
PA12
PC12
PA13 PC13-ANTI_TAMP
PA14
PA15
R5
R4
M5
A10
A9
A8
B6
B5
A7
B4
P12
R13
L13
K14
R14
R15
RESET#
BOOT0
3
C23
1
DocID029087 Rev 1
X2
NX3215SA-32.768KHZ-EXS00A-MU00525
R22
C20
1.5pF
N3
N2
P2
R2
N4
P4
P3
R3
F15
E15
D15
C15
B15
A15
A14
A13
100
PE2
ULPI_D1 PB0
ULPI_D2 PB1
R43
33
PB3
Open
PB4
LCD_G7 SB5
Open ULPI_D7 PB5
R44
33 CEC
PB6
SB14
CEC
PB7
PB8
I2C1_SCL
PB9
PAR_VSYNC
I2C1_SDA
ULPI_D3 PB10
LCD_G4 SB63
Open
ULPI_D4 PB11
Open
LCD_G5 SB61
SB65
Open
ULPI_D5 PB12
USB_FS2_ID
ULPI_D6 PB13
R263
[N/A]
PB14
VBUS_FS2
USB_FS2_DM
PB15
USB_FS2_DP
R23
C21
1.5pF
PC14
PC15
0
MC_VL
MC_WL
SD2_D2
TDO/SWO
SB16
TRST
SD2_D3
QSPI_BK1_NCS
Open
CEC
U4A
JP6
Open
R245
Open
Closed
Open
Closed
Open
Closed
Open
JP9
PC2
PC2
PC3
PC3
PC4
PC4
PC5
PC5
PC6
PC6
PC7
PC7
+3V3
R219
MII_MDC
2
3
MII_MDIO
ULPI_STP
MC_CurrentA
1
Open
4
PC0
PC1
2
PA0
PA0
PA0
PA1
PA1
PA2
Open
Open
Closed
Open
Closed
Open
3
SB45
SB47
SB43
SB34
SB36
SB37
MC_EnA
MII_CRS
SAI2_SDB
MC_EnB
MII_RX_CLK
MC_EnIndex
Schematics
56/75
Figure 26. STM32F769I-EVAL MCU
M1
N1
ULPI_D[0..7]
PAR_D[0..11]
L11
E11
C29
2.2uF
C137
2.2uF
JP15
Title: MCU
Project: STM32F769I-EVAL
Size: A3
Ceramic capacitor (Low ESR)
Reference: MB1219
Date: 2016/5/17
Revision: B.1
Sheet: 2 of 17
UM2035
UM2035
Figure 27. STM32F769I-EVAL Power
D13
ZEN056V130A24LS
CN19
L3
1
2
3
1
1
3
2
Z1
SMAJ5.0A-TR
2
DC-10B
C62
100nF
SV
E5V
CV
SG CG1
CG2
CG3
3
4
5
6
C57
220uF
BNX002-01
+3V3
VDD_MCU
JP2
JP20
DocID029087 Rev 1
VBUS_HS
VBUS_FS1
VBUS_FS2
D5V
E5V
1
2
3
4
5
6
7
8
9 10
11 12
TP21
5V
+5V
TP4
+3V3
U18
LD1086D2M33
C53
47uF
3
1
Vin
Vout
GND Tab
TP6
1V8
U19
LD1117S18TR
+3V3
3
1
+1V8
2
4
Vin
Vout
GND Tab
C61
10uF
820
+5V
LD10
red
1
2
R140
TP13 TP2
TP26 TP1
Ground Ground Ground Ground
+3V3
2
4
C55
10uF
TP3
2V8
U2
LD1117STR
+5V
3
1
Vin
Vout
Tab
C56
100nF
+2V8
2
4
R15
120
R6
150
C19
10uF
C5
10uF
Title: Power
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 3 of 17
Schematics
57/75
D[0..31]
D[0..31]
A[0..23]
A[0..23]
U15
U9
U16
+3V3
R147
10K
0
PE0
PE1
+3V3
R88
10K
CE2
VCC
VCC
VSS
VSS
G1
F1
F2
E2
D2
C2
C1
B1
G6
F6
F5
E5
D5
C6
C5
B6
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
A6
D6
E1
D1
E6
+3V3
+3V3
A5
B5
A4
G2
F2
F7
B4
IS61WV102416BLL-10MLI
R90
10K
R289
10K
SRAM
C8
B8
C5
D4
D5
C4
B3
E7
D7
C7
A7
B7
D6
C6
A6
B6
A3
C3
D3
B2
A2
C2
D2
E2
A23
A22
A21
A20
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
W
RP
RB
G
E
BYTE
Vpp/WP
DQ15A-1
DQ14
DQ13
DQ12
DQ11
DQ10
DQ9
DQ8
DQ7
DQ6
DQ5
DQ4
DQ3
DQ2
DQ1
DQ0
G7
F6
G6
F5
G4
F4
G3
F3
E6
H6
E5
H5
H4
E4
H3
E3
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
SDNWE
SDNCAS
SDNRAS
SDNE0
SDCKE0
SDCLK
FMC_NBL3
FMC_NBL2
VCC
VCCQ
VCCQ
VSS
VSS
VSS
G5
F1
D8
H2
H7
E8
PH5
PG15
PF11
PH3
PH2 R291
PG8
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
H9
G7
J3
H2
H1
G3
G2
G1
F3
F7
G9
G8
A15
A14
H8
J7
0
PI5
PI4
FMC_NBL1
FMC_NBL0
+3V3
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
BA1
BA0
K8
K7
J9
J8
J2
J1
WE#
CAS#
RAS#
CS#
CKE
CLK
F2
F8
K1
K9
DQM3
DQM2
DQM1
DQM0
E3
E7
H3
H7
K3
K2
NC
NC
NC
NC
NC
NU
PC28F128M29EWLA
0
0
Nor Flash
+3V3
B2
B7
C9
D9
E1
L1
M9
N9
P2
P7
+3V3
R83
10K
R114
+3V3
10K
C39
100nF Default setting: Open
JP16
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
A7
F9
L7
R7
Place close SRAM
+3V3
Place close Nor Flash
VDD
VDD
VDD
VDD
+3V3
DQ31
DQ30
DQ29
DQ28
DQ27
DQ26
DQ25
DQ24
DQ23
DQ22
DQ21
DQ20
DQ19
DQ18
DQ17
DQ16
DQ15
DQ14
DQ13
DQ12
DQ11
DQ10
DQ9
DQ8
DQ7
DQ6
DQ5
DQ4
DQ3
DQ2
DQ1
DQ0
VSSQ
VSSQ
VSSQ
VSSQ
VSSQ
VSSQ
VSSQ
VSSQ
VSSQ
VSSQ
VSS
VSS
VSS
VSS
E2
D3
D2
B1
C2
A1
C3
A2
A8
C7
A9
C8
B9
D8
D7
E8
D31
D30
D29
D28
D27
D26
D25
D24
D23
D22
D21
D20
D19
D18
D17
D16
R2
N3
R1
N2
P1
M2
M3
L2
L8
M7
M8
P9
N8
R9
N7
R8
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
B3
B8
C1
D1
E9
L9
M1
N1
P3
P8
A3
F1
L3
R3
IS42S32800G-6BLI
C148
C155
C156
C159
C160
C157
C147
C144
C164
C168
C167
C153
C162
C163
+3V3
100nF
100nF
100nF
100nF
100nF
100nF
100nF
100nF
100nF
100nF
100nF
100nF
100nF
100nF
PC7 R89
PD5 R105
PD4
PC6
I/O15
I/O14
I/O13
I/O12
I/O11
I/O10
I/O9
I/O8
I/O7
I/O6
I/O5
I/O4
I/O3
I/O2
I/O1
I/O0
A23
A22
A21
A20
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
C166
C154
C161
FMC_NE1
FMC_NWE
FMC_NOE
FMC_NWAIT
+3V3
A20
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
CE
WE
OE
BLE
BHE
100nF
100nF
100nF
R146
H6
G2
H1
D3
E4
F4
F3
G4
G3
H5
H4
H3
H2
D4
C4
C3
B4
B3
A5
A4
A3
B5
G5
A2
A1
B2
C158
C165
DocID029087 Rev 1
FMC_NBL0
FMC_NBL1
PG6
A20
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
100nF
100nF
FMC_NE3
Schematics
58/75
Figure 28. STM32F769I-EVAL SRAM, FLASH, SDRAM
Place close SDRAM
SDRAM
Title: SRAM & FLASH & SDRAM
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 4 of 17
UM2035
U20
+1V8
C65
C81
C69
SAI2_SCKB
SAI2_FSB
SAI2_SDB
SAI1_SDA
Audio_INT
1
4K7
1uF
H2
F4
H3
E5
G4
JP24
DocID029087 Rev 1
C88
5
VDD
LR
CLK
DOUT
GND
2
3
4
SB79
Closed
100nF
MP34DT01TR
LEFT
U24
C87
1
5
VDD
LR
CLK
DOUT
GND
2
3
4
3 PD6
MIC_DATA
2
SB78
Closed
MP34DT01TR
100nF
MIC_VDD
F6
H5
H4
F5
10K
RIGHT
U25
1
LDO1ENA
LDO2ENA
VREFC
DMICCLK
BCLK1
LRCLK1
DACDAT1
To MFX
time slot0 of SAI
R192
D4
D5
E6
C6
G1
E3
E4
F2
G3
PA2
PG9 R172 0
PA0
PC1
MFX_GPIO5
MIC_CLK
2
3
PD3
R170
+3V3
1uF
4.7uF
C66
4.7uF
C67
100nF C68
1uF
C79
100nF C78
4.7uF
100nF C77
+1V8
100nF C80
+1V8
+3V3
LDO1VDD
AVDD1
SPKVDD1
SPKVDD2
AVDD2
CPVDD
DCVDD
DBVDD
LDO2VDD
1
C64
C8
D7
1uF
B8
B9
C7
B7
DFSDM_DATA1
A8
A9
time slot1 of SAI
GPIO3/BCLK2
GPIO4/LRCLK2
GPIO5/DACDAT2
GPIO11/BCLK3
GPIO10/LRCLK3
GPIO8/DACDAT3
IN1LP
IN1LN
AGND
AGND
AGND
SPKGND1
SPKGND2
CPGND
DGND
HP2GND
SDA
SCLK
CIFMODE
MCLK1
GPIO2/MCLK2
SPKMODE
REFGND
MICBIAS1
MICBIAS2
VMIDC
HPOUT2N
HPOUT2P
HPOUT1FB
HPOUT1R
HPOUT1L
LINEOUT1N
LINEOUT1P
LINEOUT2N
LINEOUT2P
LINEOUTFB
IN2LP/VRXN
IN2LN/DMICDAT1
IN1RP
IN1RN
IN2RP/VRXP
IN2RN/DMICDAT2
F3
H1
G2
A4
R174
R175
R173[N/A]
0
0
PB9
PB8
I2C1_SDA
I2C1_SCL
+3V3
PE6
D3
E1
A3
A5
A7
B6
C9
SAI2_MCLKB
R164
C63
4.7uF
F9
F8
C71
4.7uF
2K2
C73
4.7uF
3 CN28
6
G5
G6
H6
C5
B5
C4
B4
A6
4
2
R165
20
PJ3028B-3
GND
SPKOUTLN
SPKOUTLP
SPKOUTRN
SPKOUTRP
CPVOUTN
CPVOUTP
180
C70
2.2uF
C74
C72
2.2uF
2.2uF
GND
GND
3 CN27
6
4
2
R221
PJ3028B-3
180
4.7uF
G8
H8
0
R193
4.7uF
C98
C3
B3
[N/A]
R222
R194
1K
B1
A2
H7
G7
R225
R166
20
C89
CPCA
CPCB
JP23
D6
E7
E8
A1
C1
H9
E2
F7
100nF C76
E9
D9
B2
C2
D8
G9
F1
D2
D1
+3V3
100nF C75
+3V3
DFSDM_CLK
UM2035
Figure 29. STM32F769I-EVAL Audio
R223
0
R220
1K
GND
GND
1
3
2
WM8994ECS/R
JP22
MICBIAS1
+3V3
CN29
Coupon connectors
RIGHT
CN25
MIC_CLK 3
2
MIC_DATA 1
CLK
GND
DATA
SPDIF connector +3V3
LEFT
CN24
NC
LR
VDD
6
10K
5 R191
MIC_VDD
4
MIC_CLK 3
2
MIC_DATA 1
CLK
GND
DATA
NC
LR
VDD
6
5
4
C95
Close to connector 100nF
Less than 7mm
3
2
Vcc
R206
1
Vout
0
PG12
SPDIF_OUT
C96
30pF
GND
DLR11H0
MIC_VDD
Title: Audio
Coupon Connectors
Coupon Connectors
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 5 of 17
Schematics
59/75
RGB LCD
LCD_R[0..7]
LCD_B[0..7]
Camera
CN18
LCD_R[0..7]
LCD_B[0..7]
PI15
PJ0
PJ1
PJ2
PJ3
PJ4
PJ5
PG6
LCD_R0
LCD_R1
LCD_R2
LCD_R3
LCD_R4
LCD_R5
LCD_R6
LCD_R7
PJ12
PJ13
PJ14
PJ15
PK3
PK4
PK5
PK6
LCD_B0
LCD_B1
LCD_B2
LCD_B3
LCD_B4
LCD_B5
LCD_B6
LCD_B7
To MFX
LCD_INT
MFX_GPIO14
LCD_BL_CTRL
PA8
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
+5V
L5
C60
10uF
C59
100nF
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
LCD_G0
LCD_G1
LCD_G2
LCD_G3
LCD_G4
LCD_G5
LCD_G6
LCD_G7
PE5 LCD_G[0..7]
PE6
PA6
PC9
PB10
PB11
PI11
PB5
R162
PK7
0
PI12
PI13
PI14
I2C1_SDA
I2C1_SCL
PB9
PB8
PAR_D[0..11]
PAR_D[0..11]
100nF
+3V3
PD6
R233
10K
To MFX
R236
LCD_CLK
PB8 I2C1_SCL_C
MFX_GPIO12
MFX_GPIO11
[N/A] [N/A]
RESET#
I2C1_SDA
I2C1_SCL
PC6
PC8
PC11
PE5
PA4
PA6
PAR_HSYNC
PAR_PCLK
PAR_D0
PAR_D2
PAR_D4
PAR_D6
TP8
+2V8
H4
H1
100nF
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
PAR_D11
PD2
PAR_D9
PC12
I2C1_SDA_CPB9
TP11
Camera_CLK
TP10
TP9
PAR_VSYNC
+2V8
F1000-2*20MGF-L0A
CLM-120-02-L-D (Samtec)
C116
100nF
42
H3
PC7
PC9
PD3
PE6
PB7
PAR_D1
PAR_D3
PAR_D5
PAR_D7
+1V8
R25
10K
X3
4
1
CN15
DSI_TE
DSI_RESET
DSI_CK_P
DSI_CK_N
DSI_D0_P
DSI_D0_N
DSI_D0_P
DSI_D0_N
DSI_D1_P
DSI_D1_N
DSI_D1_P
DSI_D1_N
+5V
L8
L9
C149
10uF
C150
100nF
SCLK/MCLK
LRCLK
SPDIF/I2S
CEC_CLK
CEC
LCD_BL_CTRL
+3V3
PA2
PG9
PA0
PA8
PB6
PJ2
DSI_TE
PA8
LCD_BL_CTRL
PK7
DSI_RESET
R290
10K
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
62
63
64
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
3
2
SM7745HEX-24.0M[N/A]
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
R234
4K7
To MFX
LCD_INT
61
62
63
64
QSH-030-01-F-D-A
MFX_GPIO14
DSI_D2_P SB32
DSI_D2_N SB31
LCD_INT
T5
BSN20
Closed
Closed
I2C1_SCL
DSI_D3_P SB30
DSI_D3_N SB29
3
Closed
Closed
D
R229
T4
BSN20
I2C1_SDA
3
D
R227
R235
4K7
1
DSI
VCC OUT
EN
GND
G
2
S
[N/A]
I2C1_SCL_C
1
DocID029087 Rev 1
+2V8
DSI_TE
DSI_RESET
DSI_CK_P
DSI_CK_N
DSI
PAR_D10
PC10 PAR_D8
R239
Camera_PLUG
RSTI
From MFX
XSDN
From MFX
Open Drains (RSTI & XSDN)
LCD_HSYNC
LCD_VSYNC
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
+1V8
C117
100nF
P127B-2*25MGF-079-1A
FTSH-125-01-F-DV-K (Samtec)
C101
CN4
L4
DSI LCD
41
C102 +1V8
LCD_G[0..7]
LCD_ENB
H2
+3V3
Schematics
60/75
Figure 30. STM32F769I-EVAL LCD, camera, connector
G
2
S
[N/A]
I2C1_SDA_C
+3V3
I2C1_SDA
PB9
I2C1_SCL
PB8
C151
100nF
TP17
TP14
TP18
TP15
TP19
TP16
TP20
I2C_EXT Connector
CN2
I2C1_SDA
I2C1_SCL
R3
R5
0
0
+3V3
+1V8
C152
100nF
PB9
PB8
1
3
5
7
2
4
6
8
R16
0
PC10
EXT_RESET
F206A-2*04MGF-A
SSM-104-L-DH (Samtec)
Title: LCD & Camera & Connector
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/2/3
Revision: B.1
Sheet: 6 of 17
UM2035
UM2035
Figure 31. STM32F769I-EVAL Ethernet
+3V3
C45
100nF
R118 R112 R87 R95
50 50 50 50
C44
100nF
R76 R128
240 240
U6
MII_TX_CLK
MII_TX_EN
MII_TXD0
MII_TXD1
MII_TXD2
MII_TXD3
DocID029087 Rev 1
MII_RXD0
MII_RXD1
MII_RXD2
MII_RXD3
MII_RX_ER
MII_RX_DV
MII_RX_CLK
MII_MDC_GPIO
MII_MDC
PJ13
3
PC1
1
R61
PC4
PC5
PH6
PH7
PI10
PA7
PA1
R49
R48
R47
R46
33
33
33
33
R50
R51
33
33
33
1
2
3
4
5
6
43
44
45
46
41
39
38
PH3
PA0
MII_COL
MII_CRS
2
PC3
PG11
PG13
PG14
PC2
PE2
42
40
31
30
JP8
MII_MDIO
MII_MDIO_GPIO
PA2
3
PJ12
1
+3V3
RESET#
MII_INT
2
R73 1K5
29
7
MFX_GPIO13
+3V3
To MFX
R72
10K
RX_ER/MDIX_EN
RX_DV/MII_MODE
RX_CLK
C31
22pF
0
X4
25MHz (with socket)
33
34
25
TP12
25MHz
R81
C28
22pF
4.87K
1
2
MII_MCO
PA8
3
C139
100nF
C136
100nF
C140
100nF
24
37
18
23
TD+
TDRD+
RDNC
NC
NC
NC
NC
17
16
14
13
12
11
10
9
8
1
4
2
3
5
6
9
10
12
11
CRS/CRS_DV/LED_CFG
MDC
MDIO
RESET_N
PWR_DOWN/INT
JP4
R71
CN9
TX_CLK
TX_EN
TXD_0
TXD_1
TXD_2
TXD_3/SNI_MODE
X2
X1
25MHz_OUT
RBIAS
PFBIN2
PFBIN1
PFBOUT
C138
10uF
7
8
13
14
+3V3
LED_SPEED/AN1
LED_ACT/COL/AN_EN
NC
NC
AVDD33
IOVDD33
IOVDD33
AGND
AGND
IOGND
IOGND
DGND
R74
R75
R77
28
27
26
21 R80
20 R79
22
48
32
2K2
2K2
2K2
2K2
2K2
+3V3
C27
100nF
TD+
TCT
TDRD+
RCT
RDLED(green)_A
LED(green)_K
LED(Yellow)_A
LED(Yellow)_K
NC
CHS GND
Shield
Shield
J0011D21B
Second source: SI-60116-F
+3V3
C32
100nF
C36
100nF
19
15
47
35
36
DP83848CVV
JP12
Title: Ethernet
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 7 of 17
Schematics
61/75
Schematics
62/75
Figure 32. STM32F769I-EVAL USB OTG HS
+3V3
R133
330
CN14
6
7
8
9
10
5
3K3
LD6
2
R92
10K
+3V3
1
R117
R113
R107
R104
R100
R98
R93
R86
0
0
0
0
0
0
0
0
17
18
19
20
21
22
23
24
27
28
R85
1M
X5
C37
33pF
RESET#
R125
9
R126
4K7
1
2
24MHz
C38
33pF
REG_EN
VDD3.3
VDD3.3
VDD3.3
VDD3.3
XO
XI
VDD1.8
VDD1.8
VDDA1.8
RESET
GND
GND
+3V3
Soldered if reset is
controlled by hardware
VBUS
DM
DP
ID
D7
D6
D5
D4
D3
D2
D1
D0
1
STMPS2151STR
C35
4.7uF
T6
9013
1
47K
R78
22K
VBUS_HS CN8
1
VBUS
2
DM
3
DP
4
ID
5
GND
L2
R101
820
D0_N
D0_P
C145 C143 C146 C142
100nF 100nF 100nF 100nF
15
26
29
2
1
33
R82
SB21
Closed
+3V3
31
16
6
25
30
LD5
Green
3
Red
A2
A1
ULPI_D7
ULPI_D6
ULPI_D5
ULPI_D4
ULPI_D3
ULPI_D2
ULPI_D1
ULPI_D0
CPEN
EXTVBUS
RBIAS
3
1
D4
USBULC6-2F3
C34 C43 C33 C42
C40
C41
C141
100nF 4.7uF
C46
100nF 4.7uF
6
7
8
9
10
D3
ESDA14V2-2BF3
B2
B1
PB5
PB13
PB12
PB11
PB10
PB1
PB0
PA3
NXT
DIR
STP
CLKOUT
A2
A1
ULPI_D[0..7]
11
12
13
14
0
0
0
33
GND FAULT
IN
OUT
EN
B2
B1
ULPI_D[0..7]
R121
R122
R123
R124
2
5
4
R288
Shield
Shield
Shield
Shield
EXP
L1
475900001
100nF100nF100nF100nF
USB3300-EZK
T1
9012
1K
3
DocID029087 Rev 1
U8
SB24
Closed
3
10
32 R96
12K[1%]
4
8
7
5
+5V
R94
330
OTG_FS2_OverCurrent
To MFX
620
U7
PH4
PI11
PC0
PA5
2
MFX_GPIO8
0
R120
+3V3
1
Open
R137
22K
2
SB22
Open
T2
9013
1
47K
2
MFX_GPIO9 SB23
From MFX
ULPI_NXT
ULPI_DIR
ULPI_STP
ULPI_CK
R136
475900001
R119
OTG_FS2_PowerSwitchOn
Shield
Shield
Shield
Shield
EXP
USB_Micro-AB receptacle
2
D7
ESDA6V1BC6
LD9
Green
3
6
4
3
D1_N
D1_P
VBUS
DM
DP
ID
GND
2
1
2
3
4
5
USB_Micro-AB receptacle
PB13
PB14
PB15
PB12
1
VBUS_FS2
USB_FS2_DM
USB_FS2_DP
USB_FS2_ID
R108
4K7
Title: USB_OTG_HS
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 8 of 17
UM2035
UM2035
Figure 33. STM32F769I-EVAL USB OTG FS
+3V3
R127
620
MFX_GPIO6
1
OTG_FS1_PowerSwitchOn
MFX_GPIO7
R130
0
+5V
2
5
4
From MFX
GND FAULT
IN
OUT
EN
STMPS2151STR
R129
10K
3
1
C47
4.7uF
LD8
Red
R132
OTG_FS1_OverCurrent
To MFX
0
CN13
1
2
3
4
5
D2_N
D2_P
VBUS
DM
DP
ID
GND
Shield
Shield
Shield
Shield
EXP
475900001
+3V3
1
6
4
R116
330
3
0
LD7
Green
3
2
D5
ESDA6V1BC6
5
PA9
PA11
PA12
PA10 R115
1
VBUS_FS1
USB_FS1_DM
USB_FS1_DP
USB_FS1_ID
2
DocID029087 Rev 1
6
7
8
9
10
USB_Micro-AB receptacle
U11
2
R131
47K
R106
T7
9013
1
2
47K
R103
22K
Title: USB_OTG_FS
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 9 of 17
Schematics
63/75
Schematics
64/75
Figure 34. STM32F769I-EVAL RS-232
+3V3
U5
ST3241EBPR
C133
C25
DocID029087 Rev 1
RS232_TX
14
13
12
PA9
RS232_RX
PA10
100nF28
24
1
100nF 2
JP11
21
20
19
18
17
16
15
23
C1+
C1C2+
C2T1IN
T2IN
T3IN
R1OUTB
R2OUTB
R1OUT
R2OUT
R3OUT
R4OUT
R5OUT
nEN
VCC
GND
V+
VT1OUT
T2OUT
T3OUT
R1IN
R2IN
R3IN
R4IN
R5IN
nSHDN
26
25
27
3
9
10
11
C132
100nF
C131
100nF
C26
100nF
CN7
DB9-male USART1
DSR
RXD
TXD
CTS
1
6
2
7
3
8
4
9
5
4
5
6
7
8
+3V3
22
RS232
Title: RS232
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 10 of 17
UM2035
UM2035
Figure 35. STM32F769I-EVAL CAN and Quad-SPI
CAN
+3V3
0
Default setting: 1<->2
3
R189
10K
1
R183
2
+3V3
C179
100nF
CN26
DB9-male CAN connector
Default setting: Open
JP19
1
6
2
7
3
8
4
9
5
U23
1
2
3
4
PA11
D
GND
VCC
R
RS
CANH
CANL
Vref
8
7
6
5
JP18
R185
120
SN65HVD230
2
CAN1_RX
PA12
1
CAN1_TX
3
D15
ESDCAN24-2BLY
Optional
R184
[N/A]
R186
0
+3V3
DocID029087 Rev 1
U3
QSPI_BK1_IO3
PF6
R241
33
1
2
+3V3
+3V3
C105 3
100nF
4
5
R230
10K
QSPI_BK1_NCS
QSPI_BK1_IO1
6
PB6
PF9
7
R231
33
8
HOLD#/DQ3 CLK
VCC
DQ0
NC
NC
NC
NC
NC
NC
NC
NC
CS#
Vss
DQ1 W#/Vpp/DQ2
PB2
16
15
R242
33
R232
33
PF8
QSPI_CLK
QSPI_BK1_IO0
14
13
12
11
10
9
PF7
QSPI_BK1_IO2
MT25QL512ABA8ESF-0SIT MICRON
N25Q512A13GSF40E
MICRON
Title: CAN & QSPI
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 11 of 17
Schematics
65/75
+3V3
R158
47K
R154
47K
R153
47K
R157
47K
R156
47K
Potentiometer
+3V3
PC9
PC8
PC11
PC10
PC12
PD2
1
Potentiometer
PF10
R30
47
R27
0
1
2
3
4
5
6
7
8
RV1
SW2
SW1
9
10
R151
R150
MFX_GPIO15
0
R205
47K
R202
47K
R201
47K
R204
47K
R203
47K
Joystick
+3V3
R200
10K[N/A]
MicroSDCard2_Detect
MFX_GPIO10
To MFX (input with pull up)
10K[N/A]
10K[N/A]
10K[N/A]
10K[N/A]
10K[N/A]
R197
R199
R198
5
7
8
COMMON
COMMON
COMMON
2
MFX_GPIO0
MFX_GPIO1
MFX_GPIO2
MFX_GPIO3
MFX_GPIO4
10nF[N/A]
10nF[N/A]
10nF[N/A]
10nF[N/A]
10nF[N/A]
C90
C92
C94
C93
9
10
Selection
3
1
4
6
C91
GND
GND
DWON
LEFT
RIGHT
UP
EVQQ7
9
10
SW2
SW1
+3V3
JOY_SEL
JOY_DOWN
JOY_LEFT
JOY_RIGHT
JOY_UP
R195
To MFX
CN30
PJS008-2000
SMS064FF or SMS128FF
B3
R196
+3V3
PG10
PG9
PB4
PB3
PD6
PD7
1
2
3
4
5
6
7
8
DocID029087 Rev 1
10K[N/A]
+3V3
MICRO SD2
(TF) Card
SD2_D1
SD2_D0
SD2_D3
SD2_D2
SD2_CLK
SD2_CMD
C97
100nF
2
3386P-103(10K)
Close to MCU on PCB
+3V3
To MFX (input with pull up)
R28
R29 0
0
C24
[N/A]
CN17
PJS008-2000
SMS064FF or SMS128FF
MicroSDCard1_Detect
+3V3
CN3
3
MICRO SD1
(TF) Card
SD1_D1
SD1_D0
SD1_D3
SD1_D2
SD1_CLK
SD1_CMD
Schematics
66/75
Figure 36. STM32F769I-EVAL Peripherals
R224
0
Title: Peripherals
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 12 of 17
UM2035
UM2035
Figure 37. STM32F769I-EVAL motor control
+3V3
MC_EmergencySTOP
MC_CurrentA
PC1
R14
PA6
[N/A]
R10
Motor control connector
R13
3K3
CN1
MC_UH
MC_UL
MC_VH
MC_VL
MC_WH
MC_WL
C16
1nF
0
C14
[N/A]
PC2
R9
PG11
PH6
+5V
0
MC_PFCpwm
MC_EnA
MC_EnB
C13
[N/A]
PA11
PA0
PA1
EMERGENCY STOP
MC-UH
MC_UL
MC_VH
MC_VL
MC_WH
MC_WL
CURRENT A
CURRENT B
CURRENT C
NTC BYPASS RELAY
DISSIPATIVE BRAKE
+5V POWER
PFC SYNC
PFC PWM
Encoder A
Encoder B
GND
GND
GND
GND
GND
GND
BUS VOLTAGE
GND
GND
GND
GND
GND
Heatsink Temperature
Vdd_Micro
GND
GND
Encoder Index
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
R11
0
PC4
C15
100nF
R7
+3V3
0
MC_BusVoltage
R12
100K
PC5
MC_Heatsink
C11
100nF
MC_connector
MC_CurrentC
PC3
R8
PA2
0
C12
[N/A]
MC_EnIndex
C9
[N/A]
SB2
MC_PFCsync2
MC_PFCsync1
Open
DocID029087 Rev 1
MC_CurrentB
MC_NTC
MC_DissipativeBrake
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
PC6
PA7
PC7
PB0
PC8
PB1
PA12
PA8
SB1
Open
C18
[N/A]
C7
[N/A]
C10
[N/A]
C17
10nF
C6
[N/A]
C8
[N/A]
Title: Motor Control
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 13 of 17
Schematics
67/75
Schematics
68/75
Figure 38. STM32F769I-EVAL extension connectors
Place close Memory
CN5
SB40
Open
PH0
RESET#
R226
820
PF6
PF10
PC0
PA2
PA0
PF8
PA4
PC2
PC4
PC3
PB2
PJ3
PB10
PB14
PH6
DocID029087 Rev 1
PB12
PB13
PJ11
PG7
D5V
PG6
PK0
PK1
PK2
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
CN6
Left
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
PI11
PB5
SB41
PF7
Open
PC15
PH1
SB39
Open
PF9
PA1
PC1
PA3
PA6
PA7
PA5
PB1
PH4
PI15
PI12
PI8
PK6
PK4
PG12
PG9
PB7
PD3
PG13
PJ12
PG14
PB8
PG11
PJ6
PJ7
PI14
PJ4
PB11
PB15
PH7
PJ5
PJ10
PC5
PA11
PA9
PB3
PD6
+3V3
D5V
PB0
PJ0
PJ2
PJ1
+5V
P1039-2*30MGF-089-1A
FTR-130-03-L-D-LC (Samtec)
PC8
PC11
PC10
PD2
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
CN10
Right
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
SDNE0
A7
A6
A11
PH3
PF13
PF12
PG1
PK5
PB9
PK3
PB6
PJ14
PJ15
PB4
PJ13
PC12
D4
D7
D9
D12
D10
A16
A17
A15
D19
PE7
PE10
PE12
PE15
PE13
PD11
PD12
PG5
PH11
PA15
PJ9
PA14
PJ8
PA13
PA12
PA10
PC9
A18
A12
D13
D14
D0
PD13
PG2
PD8
PD9
PD14
PI13
SB38
PC13
PK7
PC14
Open
PH[0..15]
PI[0..15]
PJ[0..15]
PK[0..7]
PA[0..15]
PB[0..15]
PC[0..15]
PD[0..15]
PE[0..15]
PF[0..15]
PI[0..15]
PJ[0..15]
PK[0..7]
PA[0..15]
PB[0..15]
PC[0..15]
PD[0..15]
PE[0..15]
D6
D5
D8
A9
D11
D16
D18
D17
A14
PE9
PE8
PE11
PF15
PE14
PH8
PH10
PH9
PG4
PH12
PG3
PD10
PD15
PG8
D20
A13
D15
D1
SDCLK
P1039-2*20MGF-089-1A
FTR-120-03-L-D-LC (Samtec)
PA8
VBUS_FS1
PD7
PC6
+5V
P1039-2*30MGF-089-1A
FTR-130-03-L-D-LC (Samtec)
Place close Memory
CN11
A5
A4
A3
A22
PG[0..15]
PH[0..15]
PH5 SDNWE
PF14
A8
PG0
A10
PF11 SDNRAS
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
+3V3
PK0/PK1/PK2/PJ6/PJ7/PJ8/PJ9/PJ10/PJ11 NOT USED
PG[0..15]
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
NAND_INT
PG7
3
PF5
PF4
PF3
PE6
2
1
JP13
A20
A19
FMC_NBL3
FMC_NBL2
SDNCAS
D31
FMC_NBL1
FMC_NBL0
FMC_NE3
PE4
PE3
PI5
PI4
PG15
PI10
PE1
PE0
PG6
D2
D26
D25
D24
D21
PD0
PI2
PI1
PI0
PH13
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
PH2
PE5
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
PF2
SDCKE0
A21
FMC_NWAIT
A2
PF1
PF0
PE2
PI7
PI9
PI6
PC7
PD5
PD4
PD1
PI3
PH15
PH14
PC6
A1
A0
A23
D29
D30
D28
FMC_NE1
FMC_NWE JP17
3 PC8
FMC_NOE
2
1
D3
D27
D23
D22
FMC_NWAIT
NAND_NCE
+3V3
P1039-2*20MGF-089-1A
FTR-120-03-L-D-LC (Samtec)
PF[0..15]
Title: Extension Connectors
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 14 of 17
UM2035
D8
C174
100nF
PWR_EXT
R168
100K
1
2
2
3
NX3225GD 8MHz EXS00A-CG04874
R297
SWIM_PU_CTRL 4
100K
5
OSC_IN
6
OSC_OUT
7
STM_RST
8
9
C177
R180 4K7
10
AIN_1
+3V3
100nF
JP28
11
12
R181 4K7
C52
1uF_X5R_0603
BYPASS
C51
100nF
C48
10nF_X7R_0603
C50
100nF
SB33
36
35
34
33
32
31
30
29
28
27
26
25
C58
4.7uF
STM_JTMS_SWDIO
STL_USB_DP
STL_USB_DM
T_SWO
MCO
C54
100nF
U17
ST890CDR
1
2
R209
1K
1
R152
100K
2 LD11 8
Red
PWR_ENn
T_JTMS
T_JTCK
T_SWDIO_IN
Open
3
R155
10K
IN
IN
OUT
OUT
FAULT
SET
ON
6
7
5
4
GND
Power Switch to supply +5V
R148
2K2
R149
0
TX
CN23
Not Fitted RX
STLK_RX
INH
GND
5
13
14
15
16
17
18
19
20
21
22
23
24
PA10
STLK_TX
Vout
BAT60JFILM
VDD_2
VSS_2
JTMS/SWDIO
PA12
PA11
PA10
PA9
PA8
PB15
PB14
PB13
PB12
PA9
T_JTCK
T_JTDO
T_JTDI
T_NRST
T_JRST
DocID029087 Rev 1
VBAT
PC13
PC14
PC15
OSCIN
OSCOUT
NRST
VSSA
VDDA
PA0
PA1
PA2
X6
Vin
BAT60JFILM
D12
PA3
PA4
PA5
PA6
PA7
PB0
PB1
PB2/BOOT1
PB10
PB11
VSS_1
VDD_1
C84
10pF R179 R178
[N/A] 10K
3
C49
1uF_X5R_0603
BAT60JFILM
D6
D5V
U21
STM32F103CBT6
U14 LD3985M33R
1
BAT60JFILM
D11
E5V
VDD_3
VSS_3
PB9
PB8
BOOT0
PB7
PB6
PB5
PB4/JNTRST
PB3/JTDO
PA15/JTDI
JTCK/SWCLK
48
47
46
45
44
43
42
41
40
39
38
37
Board Ident: PC13=0
C85
10pF
BAT60JFILM
D10
VBUS_FS2
PWR
4
C176
100nF
VBUS_FS1
4K7
R295
100K
R210
100
COM
R292
[N/A]
Not Fitted
3
T3
9013
LD12
HSMF-A201-A00J1
R212
0
10K
1
Yellow
1
JP25
[N/A]
4
Red
R298
R211
100
3
C171
100nF
2K7
BAT60JFILM
JP27
BAT60JFILM
D9
2
C169
100nF
R207
USB_RENUMn
STM_JTCK_SWCLK
+5V
R208
2
VBUS_HS
D16
UM2035
Figure 39. STM32F769I-EVAL ST-LINK/V2-1
R299100 USB_RENUMn
T_JTDO
T_SWO
T_SWDIO_IN
T_JTMS
T_NRST
T_JRST
T_JTDI
T_JTCK
TDO/SWO
TMS/SWDIO
RESET#
TRST
TDI
TCK/SWCLK
USB_Micro-B receptacle
1050170001
VBUS
DM
DP
ID
GND
Shield
Shield
Shield
Shield
EXP
EXP
1
2
3
4
5
6
7
8
9
10
11
R190
R187
R188
R301
1K5
0
0
100K
2
CN22
R300
36K
SWD
STL_USB_DM
STL_USB_DP
CN20
STM_JTMS_SWDIO
STM_JTCK_SWCLK
1
3
5
[N/A]
2
4
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 15 of 17
Schematics
69/75
R216
510
PI15
LD2
Orange
1
2
R215
680
PJ0
+3V3
LD4
Blue
1
2
R214
R213
680
PJ1
680
PJ3
Ferrite
C86
1uF
C82
100nF
10
11
12
13
XSDN
TP24
TP25
TP23
R177
10K[N/A]
R167
DocID029087 Rev 1
MFX_IRQOUT
RESET#
MFX_WKUP
C83
100nF[N/A]
PI8 R296
0
PC13 R182
0
510
MFX_SWDIO
MFX_SWCLK
R176
47K[N/A]
I2C1_SCL
I2C1_SDA
+3V3
R171
PB8
PB9
R293
R294
14
0
0
44
46
7
2
34
37
42
43
45
[N/A]
21
22
R169
10K
R163[N/A]
SPARE
TSC_XP/GPO0
TSC_XN/GPO1
TSC_YP/GPO2
TSC_YN/GPO3
BOOT0
IRQOUT
NRST
WAKEUP
SWDIO
SWCLK
MFX_V3
I2C_SCL
I2C_SDA
USART_TX
USART_RX
VSS_1
VSS_2
VSS_3
VSSA
TP22
BAT60JFILM
C173
100nF
one capacitor close to each MFX pins:
VDD, VDD_1, VDD_2, VDD_3
C178
100nF
C172
100nF
C170
100nF
C175
100nF
+3V3
U22
STM32L152CCT6
18
GPIO0
19
GPIO1
20
GPIO2
39
GPIO3
40
GPIO4
15
GPIO5
16
GPIO6
17
GPIO7
29
GPIO8
30
GPIO9
31
GPIO10
32
GPIO11
33
GPIO12
26
GPIO13
27
GPIO14
28
GPIO15
IDD_SH0
IDD_SH1/GPO5
IDD_SH2/GPO6
IDD_SH3/GPO7
IDD_CAL/GPO4
IDD_MEAS
IDD_VDD_MCU
MFX_IO0
MFX_IO1
MFX_IO2
MFX_IO3
MFX_IO4
MFX_IO5
MFX_IO6
MFX_IO7
MFX_IO8
MFX_IO9
MFX_IO10
MFX_IO11
MFX_IO12
MFX_IO13
MFX_IO14
MFX_IO15
R159
0
CN21
MFX_SWDIO
MFX_SWCLK
1
3
5
2
4
[N/A]
4
5
6
38
3
25
41
23
35
47
8
Loop
D14
+3V3
LED3
LEDs
+3V3
+3V3
L6
LED2
9
2
MFX
Multi Function eXpander
LED1
VDDA
LD3
Red
1
LED0
24
36
48
1
LD1
Green
1
2
VDD_1
VDD_2
VDD_3
VDD
+3V3
Schematics
70/75
Figure 40. STM32F769I-EVAL MFX and LEDs
Title: MFX & LEDs
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 16 of 17
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UM2035
Figure 41. STM32F769I-EVAL JTAG and trace
+3V3
R139 R141 R134 R135
[N/A][N/A][N/A][N/A]
TMS/SWDIO
TCK/SWCLK
TDO/SWO
TDI
TRST
RESET#
R84
R91
R97
R99
R110
R102
PA13
PA14
PB3
PA15
PB4
22
22
22
22
22
22
R138
[N/A]
Trace connector
CN12
JTAG connector
CN16
JTAG
+3V3
R109
[N/A]
R111
[N/A]
+3V3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
KEY
+3V3
R142
[N/A]
R143
10K
R144
10K
R145
10K
P127B-2*10MGF-079-1E7A
FTSH-110-01-L-DV (Samtec)
5
4
3
1
U13
ESDALC6V1W5
2
5
4
3
1
U12
ESDALC6V1W5
2
2
U10
ESDALC6V1W5
5
4
PE6
PE5
PE4
PE3
PE2
1
TRACE_D3
TRACE_D2
TRACE_D1
TRACE_D0
TRACE_CK
3
DocID029087 Rev 1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Title: JTAG & Trace
Project: STM32F769I-EVAL
Size: A4
Reference: MB1219
Date: 2016/1/7
Revision: B.1
Sheet: 17 of 17
Schematics
71/75
TP1
GND
TP2
BLGND
CN1
TP3
CN2
TP5
Z1
4.7uH(1A)
C1
4.7uF/50V
VH
L2
STPS1L40M
8
1
7
3
9
BLGND
R1
0
DocID029087 Rev 1
BL_CTRL
R4
SW
Vo
Vi
NC
EN
GND
FB
PGND Rset
6
5
HSSI_D1_N
HSSI_D1_P
16
18
TE
22
RST
5
CABC
3
A
K
24
23
1
9
13
17
20
BLGND
4
2
VDD
STLD40DPUR
R2
100K
BLGND
[N/A]
VDD
8
10
C2
10nF
U1
C5
4.7uF/10V
CABC
HSSI_D0_N
HSSI_D0_P
VL
VL
C4
10nF
12
14
VH
L1
C3
100nF
HSSI_CLK_N
HSSI_CLK_P
VDD
TP4
BLVDD
Schematics
72/75
Figure 42. STM32F769I-EVAL 4-inch DSI LCD board
R3
10
C6
C7
100nF 4.7uF
BLGND
R5
4K7
21
6
2
4
7
11
15
19
25
HSSI_CLK_N
HSSI_CLK_P
HSSI_D0_N
HSSI_D0_P
HSSI_D1_N
HSSI_D1_P
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
HSSI_CLK_P
HSSI_CLK_N
HSSI_D0_P
HSSI_D0_N
HSSI_D1_P
HSSI_D1_N
TE
BLVDD
RESX
CABC
BLGND
LEDA
LEDK
ID
NC
NC
NC
NC/ERR
VCC
IOVCC
GND
GND
GND
GND
GND
GND
GND
TE
BL_CTRL
RST
61
62
63
64
SB2
Open
FH26-25S-0.3SHW
FPC03025-14201(ATOM)
LCD P/N: KM-040TMP-02
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
61
62
63
64
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
INT
SB1
Open
BLVDD
VDD
I2C_SDA
I2C_SCL
C8
100nF
QTH-030-02-F-D-A
BLGND
Connector for motherboard
Backlight driver & PFC connector for LCD panel
VDD
R6 R7
[N/A][N/A]
R8
4K7
H1
H3
H2
H4
CN3
3
4
I2C_SCL
I2C_SDA
INT
RST
2
5
VDD
1
6
C9
100nF
SCL
SDA
INT
RESET
VDD
GND
FH19C-6S-05SH
FPC05006-09200(ATOM)
Touch panel connector for LCD panel
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.
Title: 4 inch DSI LCD board
Project: LCD daugterboard
Size: A4
Reference: MB1166
Date: 1/30/2015
Revision: A.1
Sheet: 1 of 1
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C5
UM2035
Figure 43. STM32F769I-EVAL camera module
+1V8
C6
CN2
100nF
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
+2V8
R9
22K
SCL
R12
STANDBY
+2V8
CN1
Camera_CLK
PAR_PCLK
PAR_VSYNC
PAR_HSYNC
PAR_D[0..7]
PAR_D0
PAR_D1
PAR_D2
PAR_D3
PAR_D4
PAR_D5
PAR_D6
PAR_D7
+2V8
12
29
23
25
21
19
17
15
13
11
9
7
5
3
DocID029087 Rev 1
Camera_RST_S5K 22
STANDBY
24
R2
R3
[N/A] [N/A]
SCL
SDA
18
20
MCLK AVDD(2.8V)
PCLK DVDD(1.8V)
VSYNCDOVDD(2.8V)
HSYNC
D0
D1
D2
D3
SHUTTER
D4
FLASH
D5
D6
D7
NC
D8
NC
D9
NC
NC
RESET
NC
PWDN
DGND
SCL
SDA
AGND
4
6
8
+2V8
+2V8
+1V8
C2
100nF
C1
100nF
0
R8
[N/A]
+2V8
C3
100nF
R10
R11
[N/A] [N/A]
26 SHUTTER
14 FLASH
Camera_RST
PAR_D0
PAR_D2
PAR_D4
PAR_D6
PAR_HSYNC
PAR_PCLK
SHUTTER
R5
0
+2V8
SDA
EXTCLK
PAR_D1
PAR_D3
PAR_D5
PAR_D7
PAR_VSYNC
FLASH
+2V8
FTMH-120-03-L-DV-ES
C8
100nF
2
10
16
28
30
100nF
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
C7
100nF
PAR_D[0..7]
27
Camera Connector
1
AXE530124
+2V8
Camera Module :U866_3M_FF
SENSOR: S5K5CAGA
D1
BAT60JFILM
EXTCLK
Camera_RST
R6
10K[N/A]
Camera_RST_S5K
R13
2K
when mounted on MB1045, please
soldered R6 10K and C9 470nF,
removed R14 and changed R13 with 0
ohm
R14
10K
4
1
R1
10K
R7
Camera_CLK
[N/A]
U1
+2V8
VCC OUT
EN
GND
3
2
SM7745HEW-24.0M
C4
100nF supply voltage: 2.5V+/-10%
BAT60 VF: [email protected]/* <![CDATA[ */!function(t,e,r,n,c,a,p){try{t=document.currentScript||function(){for(t=document.getElementsByTagName('script'),e=t.length;e--;)if(t[e].getAttribute('data-cfhash'))return t[e]}();if(t&&(c=t.previousSibling)){p=t.parentNode;if(a=c.getAttribute('data-cfemail')){for(e='',r='0x'+a.substr(0,2)|0,n=2;a.length-n;n+=2)e+='%'+('0'+('0x'+a.substr(n,2)^r).toString(16)).slice(-2);p.replaceChild(document.createTextNode(decodeURIComponent(e)),c)}p.removeChild(t)}}catch(u){}}()/* ]]> */
[email protected]/* <![CDATA[ */!function(t,e,r,n,c,a,p){try{t=document.currentScript||function(){for(t=document.getElementsByTagName('script'),e=t.length;e--;)if(t[e].getAttribute('data-cfhash'))return t[e]}();if(t&&(c=t.previousSibling)){p=t.parentNode;if(a=c.getAttribute('data-cfemail')){for(e='',r='0x'+a.substr(0,2)|0,n=2;a.length-n;n+=2)e+='%'+('0'+('0x'+a.substr(n,2)^r).toString(16)).slice(-2);p.replaceChild(document.createTextNode(decodeURIComponent(e)),c)}p.removeChild(t)}}catch(u){}}()/* ]]> */
R4
0
default system clock using
clock from mother board.
C9
470nF[N/A]
Title: Camera Module
Project: Camera Module
Size: A4
Reference: MB1183
Date: 2016/5/18
Revision: C.1
Sheet: 1 of 1
Schematics
73/75
Revision history
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Revision history
Table 38. Document revision history
74/75
Date
Revision
23-May-2016
1
Changes
Initial release.
DocID029087 Rev 1
UM2035
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