STI STM32H747I-EVAL Manual de usuario

Introduction

The STM32H747I-EVAL and STM32H757I-EVAL Evaluation boards (STM32H7x7I-EVAL) are high-end development platforms

for the STM32H747XI and STM32H757XI microcontrollers, respectively. They are based on the high-performance

Arm® Cortex®‑M4 and Cortex®‑M7 cores. The STM32H7x7I-EVAL Evaluation boards provide access to all the STM32

peripherals for user applications, and include an embedded STLINK-V3E debugger/programmer.

The full range of the STM32H7x7I-EVAL hardware features helps develop applications and evaluate all peripherals: USB OTG

HS and OTG FS, Ethernet, CAN FD, USART, audio DAC and ADC, digital microphone, SRAM, SDRAM, NOR flash memory,

twin Quad-SPI flash memory, microSD™ 3.0 card, 4” 480×800 TFT color LCD with MIPI DSI® interface and capacitive touch

panel, and cryptographic hardware accelerator (available only on STM32H757XI devices).

The expansion connectors provide an easy way to add specialized features, while ETM trace is supported through external

probes.

Figure 1. STM32H7x7I-EVAL board (top view)

Picture is not contractual.

Evaluation boards with STM32H747XI and STM32H757XI MCUs

UM2525

User manual

UM2525 - Rev 6 - April 2023

For further information contact your local STMicroelectronics sales office. www.st.com

1Features

• STM32H747XIH6 and STM32H757XIH6 Arm® Cortex®‑M4 and Cortex®‑M7 microcontrollers with 2 Mbytes

of flash memory and 1 Mbyte of RAM in a TFBGA240+25 package

• 4” 480×800 TFT color LCD with MIPI DSI® interface and capacitive touch panel

• Ethernet compliant with IEEE-802.3-2002

• USB OTG HS and OTG FS

• I2C compatible serial interface

• RTC with rechargeable backup battery

• SAI audio DAC

• ST-MEMS digital microphones

•8-Gbyte (or more) SDIO 3.0 interface microSD™ card

• 8 M×32bit SDRAM, 1 M×16bit SDRAM and 8 M×16bit NOR flash memory

• 1-Gbit twin Quad-SPI NOR flash memory or two 512-Mbit Quad-SPI NOR flash memories

• Potentiometer

• 4 color user LEDs

• Reset, wakeup, tamper, or key buttons

• Joystick with 4-direction control and selector

• Board connectors:

– Power jack

– 3 USB interfaces with Micro-AB connector

– RS-232 communications

– Ethernet RJ45

– CAN FD compliant connection

– Stereo headset jack including analog microphone input

– 2 audio jacks for external speakers

– microSD™ card

– JTAG/SWD and ETM trace

– Extension connectors and memory connectors for daughterboard or wire-wrap board

• Flexible power-supply options: ST-LINK USB VBUS, USB connector, or external sources

• On-board STLINK-V3E debugger/programmer with USB re-enumeration capability: mass storage, Virtual

COM port, and debug port

• Comprehensive free software libraries and examples available with the STM32Cube MCU Package

• Support of a wide choice of Integrated Development Environments (IDEs) including IAR Embedded

Workbench®, MDK-ARM, and STM32CubeIDE

Note: Arm is a registered trademark of Arm Limited (or its subsidiaries) in the US and/or elsewhere.

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Features

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2Ordering information

To order the STM32H757I-EVAL, refer to Table 1. Additional information is available from the datasheet and

reference manual of the target STM32.

Table 1. List of available products

Order code Board reference Target STM32 Differentiating feature

STM32H747I-EVAL • MB1166(1)

• MB1246(2)

• MB1256(3)

STM32H747XIH6 -

STM32H757I-EVAL STM32H757XIH6 Cryptography

1. LCD board.

2. Main board.

3. microSD™ transceiver board.

2.1 Codification

The meaning of the codification is explained in Table 2.

Table 2. Codification explanation

STM32XXYYZ-EVAL Description Example: STM32H757I-EVAL

STM32XX MCU series in STM32 32-bit Arm Cortex MCUs STM32H7 series

YY MCU product line in the series STM32H747/757 includes the

STM32H757xx MCUs

ZSTM32 flash memory size:

• I for 2 Mbytes 2 Mbytes

EVAL Toolkit type:

• EVAL: Evaluation board Evaluation board

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Ordering information

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3Development environment

3.1 System requirements

• Multi‑OS support: Windows® 10, Linux® 64-bit, or macOS®

• USB Type-A or USB Type-C® to Micro-B cable

Note: macOS® is a trademark of Apple Inc., registered in the U.S. and other countries and regions.

Linux® is a registered trademark of Linus Torvalds.

Windows is a trademark of the Microsoft group of companies.

3.2 Development toolchains

•IAR Systems® - IAR Embedded Workbench®(1)

•Keil® - MDK-ARM(1)

• STMicroelectronics - STM32CubeIDE

1. On Windows® only.

3.3 Demonstration software

The demonstration software, included in the STM32Cube MCU Package corresponding to the on-board

microcontroller, is preloaded in the STM32 flash memory for easy demonstration of the device peripherals in

standalone mode. The latest versions of the demonstration source code and associated documentation can be

downloaded from www.st.com.

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Development environment

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4Conventions

Table 3 provides the conventions used for the ON and OFF settings in the present document.

Table 3. ON/OFF convention

Convention Definition

Jumper JPx ON Jumper fitted

Jumper JPx OFF Jumper not fitted

Jumper JPx [1-2] Jumper fitted between Pin 1 and Pin 2

Solder bridge SBx ON SBx connections closed by 0 Ω resistor

Solder bridge SBx OFF SBx connections left open

Resistor Rx ON Resistor soldered

Resistor Rx OFF Resistor not soldered

Capacitor Cx ON Capacitor soldered

Capacitor Cx OFF Capacitor not soldered

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Conventions

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5Delivery recommendations

Some verifications are needed before using the Evaluation board for the first time, to make sure that no damage

occurred during shipment and that no components are unplugged or lost.

When the board is extracted from its plastic bag, check that no component remains in the bag. The main

component to verify is the microSD™ card that may have been ejected from the connector CN13 (right side of the

board). In the latest packing, the microSD™ card is provided separately in the carton box. Install this microSD™

card into CN13 before using the board.

Warning: There is an explosion risk if the battery is replaced by an incorrect one. Make sure to

dispose of used batteries according to the instructions.

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Delivery recommendations

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6STM32H7x7I-EVAL hardware layout and configuration

The STM32H7x7I-EVAL Evaluation boards are designed around the STM32H7x7XIH6 (240+25-pin TFBGA

package) microcontroller. Figure 2 shows the hardware block diagram for STM32H7x7XIH6 and illustrates

the connection between the microcontroller and the peripherals (SDRAM, SRAM, NOR flash memory, twin

Quad-SPI flash memory, color LCD, USB OTG connectors, USART, Ethernet, audio, CAN FD (FDCAN),

microSD™ 3.0 card, and embedded ST-LINK). Figure 3. STM32H7x7I-EVAL Evaluation board (top side) helps

users to locate these features on the Evaluation board. The mechanical dimensions of the board are shown in

Figure 4. STM32H7x7I-EVAL Evaluation board mechanical drawing.

Figure 2. Hardware block diagram

DT61331V3

STM32H7x7XIH6

3 V battery

RTC

PHY and

Ethernet

connector

JTAG and trace

connector DAP

1 RS232 DB9

connector

32 kHz

crystal

VBAT

STLINK-V3E

I2C

USB

connector

SW and trace

connector TPIU

RMII

I²C connector

4" DSI LCD

MFX

joystick and

LED

microSD™

card

CAN

connector

CAN FD

Key, wakeup,

and tamper

buttons

GPIO

ADC

SDMMC 3.0 HS PHY and

USB connector

OTG1

NOR flash

memory

SRAM

FMC

SDRAM

QSPI

1-Gbit/2×512-

Mbit Twin QSPI

flash memory

OTG2 FS USB

connector

UART1

MIPI DSI

DFSDM

PDM

3.3 V power

supply

1.8 V power

supply

2.9 V SD 3.0

power supply

Potentiometer

SAI1

Audio DAC

and amplifier

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STM32H7x7I-EVAL hardware layout and configuration

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6.1 STM32H7x7I-EVAL Evaluation board layout

Figure 3. STM32H7x7I-EVAL Evaluation board (top side)

DT71703V1

I²C extension

connector

(CN4)

USART1

(CN2)

CAN FD

(CN3)

Ethernet RJ45

connector

(CN1)

Extension header

(CN7)

JTAG/SWD

(CN9)

Extension header

(CN7)

ETM TRACE

(CN8)

STDC14

(CN24)

microSD™ card

(CN13)

LCD connector

(CN15)

Headset audio jack

(CN17)

Speaker out jack

(CN19)

Right digital microphone (U26)

Coupon connector (CN26)

Left digital microphone (U27)

Coupon connector (CN25)

Tamper

button

(B3)

Joystick

(B4)

Wakeup

button

(B2)

Potentiometer

(RV1) Reset

button

(B1)

4-color LEDs

ST-LINK/V3E

COM LED

(LD12)

STLINK/V3E power

overcurrent alarm

(LD11)

STLINK/V3E USB

(CN23)

USB OTG2 FS

(CN18)

Power jack

(CN10)

USB OTG1 HS

(CN14)

USB OTG1 FS

(CN16)

Memory header

(CN12)

Memory header

(CN11)

STM32H7x7XI

(U7)

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STM32H7x7I-EVAL Evaluation board layout

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6.2 STM32H7x7I-EVAL Evaluation board mechanical drawing

Figure 4 and Table 4 show the mechanical dimensions for the MB1246 board with the 5.7” LCD daughterboard.

Figure 4. STM32H7x7I-EVAL Evaluation board mechanical drawing

Table 4. Mechanical dimensions

Symbol Size(mm) Symbol Size(mm) Symbol Size(mm)

A1 68.58 H 8 P1 16.76

A2 48.62 Lx1 13.7 P2 55.32

a 1.27 Lx2 25 Q1 39.23

D 4.5 Ly1 5 Q2 9.98

d 3.5 Ly2 6.4 X 141.60

E 37.7 Mx 12.5 Y 172.72

e 116.5 My 32.7

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STM32H7x7I-EVAL Evaluation board mechanical drawing

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6.3 Embedded STLINK-V3E

The STLINK-V3E programming and debugging tool is integrated on the STM32H7x7I-EVAL Evaluation board.

The key STLINK-V3E features are the following:

• Standalone probe with modular extensions

• Self-powered through a USB connector (Micro-B)

• USB 2.0 high-speed compatible interface

• Direct firmware update support (DFU)

• JTAG/serial wire debugging (SWD) specific features:

– 3 V to 3.6 V application voltage support and 5 V tolerant inputs

– Flat cables STDC14 to MIPI10 / STDC14 / MIPI20 (connectors with 1.27 mm pitch)

– JTAG communication support

– SWD and serial wire viewer (SWV) communication support

• Virtual COM port (VCP) specific features:

– 3 V to 3.6 V application voltage support on the UART interface and 5 V tolerant inputs

– VCP frequency up to 15 MHz

– Available on STDC14 debug connector (not available on MIPI10)

•Multipath bridge USB to SPI/UART/I2C/CAN/GPIOs specific features:

– 3 to 3.6 V application voltage support and 5 V tolerant inputs

– Signals available on adapter board only (MB1440)

• Drag-and-drop flash memory programming

• Two color LEDs: communication, power

Refer to www.st.com for details about STLINK-V3E.

Note: It is possible to power the Evaluation board through CN23 (embedded STLINK-V3E USB connector) even if an

external tool is connected to CN8 (ETM Trace connector) or CN9 (external JTAG and SWD connector).

ETM can only work at 50 MHz clock by default because ETM signals are shared with other peripherals. If better

performance of ETM is required (84 MHz/98 MHz), R217, R230, R231, R234, R236, SB2, SB5, SB8, SB11,

SB42, SB57 must be removed to reduce the stub on ETM signals. In this configuration, SAI and PDM are not

functional and NOR flash memory and the address of SRAM are limited on A18.

ETM trace function would be abnormal as SAI_SDB share the same pins with TRACE_D0, and TRACE_D0

would be forced high by SAI_SDB. When using ETM trace, it is necessary to set the ADCDAT1 pin (SAI_SDB

signal of the STM32) of the audio codec (U22) by software to be tri-state.

6.3.1 Drivers and firmware upgrade

The STLINK-V3E requires drivers to be installed on Windows®. It embeds firmware, which needs to be updated

from time to time to benefit from new functionalities and bug corrections. Refer to technical note Overview of

ST-LINK derivated (TN1235) for details.

6.4 Power supply

The STM32H7x7I-EVAL Evaluation board is designed to be powered by 5 V DC power supply and is protected

by PolyZen from wrong power plug-in events. It is possible to configure the Evaluation board to use any of the

following six sources for the power supply:

• 5 V DC power adapter connected to CN10, the power jack on the board (the Power Supply Unit on the

silkscreen of JP10 (PSU)).

• 5 V DC power with 500 mA limitation from CN23, the USB Micro-B connector of STLINK-V3E (USB 5 V

power source on the silkscreen of JP10 (STlk)). 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) that powers the board. This power switch features also a current limitation to protect the PC in

case of short-circuit on the board. If an overcurrent (more than 600 mA) happens on the board, the LED

LD11 lights up.

• 5 V DC power with 500 mA limitation from CN14, the USB OTG1_HS Micro-AB connector (USB 5 V power

source on the silkscreen of JP10 (HS)).

• 5 V DC power with 500 mA limitation from CN18, the USB OTG2_FS Micro-AB connector (USB 5 V power

source on the silkscreen of JP10 (FS2)).

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Embedded STLINK-V3E

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