stm32-h407 development board user’s manual - farnell
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STM32-H407 development boardUSER’S MANUAL
Revision C, February 2013Designed by OLIMEX Ltd, 2012
All boards produced by Olimex LTD are ROHS compliant
OLIMEX© 2013 STM32-H407 user's manual
DISCLAIMER© 2013 Olimex Ltd. Olimex®, logo and combinations thereof, are registered trademarks of Olimex Ltd. Other product names may be trademarks of others and the rights belong to their respective owners.
The information in this document is provided in connection with Olimex products. No license, express or implied or otherwise, to any intellectual property right is granted by this document or in connection with the sale of Olimex products.
The Hardware project is released under the Creative Commons Attribution-Share Alike 3.0 United States License. You may reproduce it for both your own personal use, and for commertial use. You will have to provide a link to the original creator of the project http://www.olimex.com on any documentation or website.You may also modify the files, but you must then release them as well under the same terms. Credit can be attributed through a link to the creator website: http://www.olimex.com
The software is released under GPL.
It is possible that the pictures in this manual differ from the latest revision of the board.
The product described in this document is subject to continuous development and improvements. All particulars of the product and its use contained in this document are given by OLIMEX in good faith. However all warranties implied or expressed including but not limited to implied warranties of merchantability or fitness for purpose are excluded. This document is intended only to assist the reader in the use of the product. OLIMEX Ltd. shall not be liable for any loss or damage arising from the use of any information in this document or any error or omission in such information or any incorrect use of the product.
This evaluation board/kit is intended for use for engineering development, demonstration, or evaluation purposes only and is not considered by OLIMEX to be a finished end-product fit for general consumer use. Persons handling the product must have electronics training and observe good engineering practice standards. As such, the goods being provided are not intended to be complete in terms of required design-, marketing-, and/or manufacturing-related protective considerations, including product safety and environmental measures typically found in end products that incorporate such semiconductor components or circuit boards.
Olimex currently deals with a variety of customers for products, and therefore our arrangement with the user is not exclusive. Olimex assumes no liability for applications assistance, customer product design, software performance, or infringement of patents or services described herein.
THERE IS NO WARRANTY FOR THE DESIGN MATERIALS AND THE COMPONENTS USED TO CREATE STM32-H407. THEY ARE CONSIDERED SUITABLE ONLY FOR STM32-H407.
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Table of ContentsDISCLAIMER ............................................................................................................. 2 CHAPTER 1 OVERVIEW ......................................................................................... 5
1. Introduction to the chapter ....................................................................................................... 5 1.1 Features ..................................................................................................................................... 5 1.2 H407 or E407? .......................................................................................................................... 6 1.3 Target market and purpose of the board .............................................................................. 6 1.4 Organization ............................................................................................................................. 6
CHAPTER 2 SETTING UP THE STM32-H407 BOARD ....................................... 7 2. Introduction to the chapter ....................................................................................................... 7 2.1 Electrostatic warning ............................................................................................................... 7 2.2 Requirements ........................................................................................................................... 7 2.3 Powering the board .................................................................................................................. 8 2.4 Prebuilt software ...................................................................................................................... 8
CHAPTER 3 STM32-H407 BOARD DESCRIPTION ............................................ 9 3. Introduction to the chapter ....................................................................................................... 9 3.1 Layout (top view) ..................................................................................................................... 9 3.2 Layout (bottom view) ............................................................................................................. 10
CHAPTER 4 THE STM32F407ZGT6 MICROCONTROLLER ......................... 11 4. Introduction to the chapter ..................................................................................................... 11 4.1 The STM32F407ZGT6 features ........................................................................................... 11
CHAPTER 5 CONTROL CIRCUITY AND HARDWARE MODULES ............. 13 5. Introduction to the chapter ..................................................................................................... 13 5.1 Reset ........................................................................................................................................ 13 5.2 Clocks ...................................................................................................................................... 13 5.3 Power supply circuit .............................................................................................................. 14
CHAPTER 6 CONNECTORS AND PINOUT ....................................................... 15 6. Introduction to the chapter ..................................................................................................... 15 6.1 JTAG/SWD debug ................................................................................................................. 15 6.2 SD/MMC slot .......................................................................................................................... 15 6.3 UEXT module ......................................................................................................................... 16 6.4 USB HOST ............................................................................................................................. 17 6.5 USB_OTG ............................................................................................................................... 17 6.6 Arduino platform ................................................................................................................... 17 6.7 20-pin connectors – PD – PE – PF - PG ............................................................................... 18 6.8 PWR Jack ............................................................................................................................... 20 6.9 Battery connector ................................................................................................................... 20
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6.10 U3BOOT ............................................................................................................................... 20 6.11 Jumper description .............................................................................................................. 20
6.11.1 PWR_SEL ............................................................................................... 21 6.11.2 B1_1/B1_0 and B0_1/B0_0 ..................................................................... 21 6.11.3 R-T ........................................................................................................... 21 6.11.4 3.3V_E ...................................................................................................... 21 6.11.5 AGND_E .................................................................................................. 22 6.11.6 AREF_EN ................................................................................................ 22
6.12 Additional hardware components ...................................................................................... 22
CHAPTER 7 BLOCK DIAGRAM AND MEMORY ............................................. 23 7. Introduction to the chapter ..................................................................................................... 23 7.1 Processor family block diagram ........................................................................................... 24 7.2 Physical memory map ........................................................................................................... 25
CHAPTER 8 SCHEMATICS ................................................................................... 26 8. Introduction to the chapter ..................................................................................................... 26 8.1 Eagle schematic ...................................................................................................................... 26 8.2 Physical dimensions ............................................................................................................... 28
CHAPTER 9 REVISION HISTORY AND SUPPORT .......................................... 29 9. Introduction to the chapter ..................................................................................................... 29 9.1 Document revision ................................................................................................................. 29 9.1 Board's revision ...................................................................................................................... 29 9.3 Useful web links and purchase codes ................................................................................... 30 9.3 Product support ..................................................................................................................... 31
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OLIMEX© 2013 STM32-H407 user's manual
CHAPTER 1 OVERVIEW
1. Introduction to the chapterThank you for choosing the STM32-H407 single board computer from Olimex! This document provides a user’s guide for the Olimex STM32-H407 board. As an overview, this chapter gives the scope of this document and lists the board’s features. The differences between the members of the OLIMEX STM32 F407 boards are mentioned. The document’s organization is then detailed.
The STM32-H407 development board enables code development of applications running on the microcontroller STM32F407ZGT6, manufactured by STMicrocontrollers.
1.1 Features
STM32F407ZGT6 Cortex-M4 210DMIPS, 1MB Flash, 196KB RAM, 3×12-bit 2.4 MSPS A/D, 2×12-bit D/A converters, USB OTG HS and USB OTG HS, Ethernet, 14 timers, 3 SPI, 3 I2C, Ethernet, 2 CANs, 3 12 bit ADCs, 2 12 bit DACs, 114 GPIOs, Camera interface
JTAG connector with ARM 2x10 pin layout for programming/debugging UEXT connector USB host USB-OTG SD-card Input DCDC power supply which allows operation from 6-16VDC source Power and User LEDs Reset and User buttons Arduino shield platform with provided headers 4 full 20-pin Ports with the external memory bus for add-on modules PCB: FR-4, 1.5 mm (0,062"), soldermask, silkscreen component print Dimensions: 90x76 mm (3.54x3")
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1.2 H407 or E407?The major difference between STM32-E407 and STM32-E407 is that the latter has built-in Ethernet (physical level transceiver Micrel - Micrel datasheet). STM32-E407 also features an extra USB-OTG and a number of SMD jumpers on the bottom which help the user to control the multiplexing on some pins easier. STM32-E407 has 2 x USB-OTG both with a miniUSB interface. STM32-H407 has 1 x USB-OTG and 1 x USB-HOST with the On-The-Go interfaced by miniUSB and the HOST by USB type A connector.
If you need built-in Ethernet check the STM32-E407.
1.3 Target market and purpose of the boardSTM32-H407 is a development board featuring a powerful ARM Cortex-M4F microcontroller with the most important peripherals, interfaces and connectors mounted and ready to use. The board can be powered by a number of different sources, can be programmed via two different interfaces, has a TON of GPIO pins available on a number of headers. The board's Arduino platform headers give another option for enthusiasts who wish to implement support for Arduino/Maple/Pinguino shields giving the board additional features altogether with the option to add Olimex extension modules on the OLIMEX UEXT.
All of the above options make the board quite versatile and suitable for numerous tasks and situations. The power of ARM and the creativity of OLIMEX come at the best price and the well-known quality.Every ARM enthusiast would see STM32-H407 as an interesting bargain and quite capable board for its low price.
1.4 OrganizationEach section in this document covers a separate topic, organized as follow:
– Chapter 1 is an overview of the board usage and features– Chapter 2 provides a guide for quickly setting up the board– Chapter 3 contains the general board diagram and layout– Chapter 4 describes the component that is the heart of the board: the STM32F207ZET6
microcontroller– Chapter 5 is an explanation of the control circuitry associated with the microcontroller to
reset. Also shows the clocks on the board– Chapter 6 covers the connector pinout, peripherals and jumper description– Chapter 7 shows the memory map– Chapter 8 provides the schematics– Chapter 9 contains the revision history, useful links and support information
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CHAPTER 2 SETTING UP THE STM32-H407 BOARD
2. Introduction to the chapterThis section helps you set up the STM32-H407 development board for the first time.Please consider first the electrostatic warning to avoid damaging the board, then discover the hardware and software required to operate the board.
The procedure to power up the board is given, and a description of the default board behavior is detailed.
2.1 Electrostatic warningSTM32-H407 is shipped in a protective anti-static package. The board must not be exposed to high electrostatic potentials. A grounding strap or similar protective device should be worn when handling the board. Avoid touching the component pins or any other metallic element.
2.2 RequirementsIn order to set up the STM32-H407 optimally, the following items are required:
- JTAG or SWD interface programmer/debugger – can power the board and gives the ability to program/debug the board – to choose the correct programmer be sure that you are aware what software tools you are going to use when programming STM32-H407, and that the programmer supports STM32F407 processor.
Additional components can be acquired in order to increase the functionality of the board:
- External power supply- SD-card or USB-mini cable or extensive UEXT modules are recommended but not required- 3.7V Battery- MOD-XXXX boards for additional features on the UEXT (RTC, TC, GSM, MP3, RS-485 among others) – note that you will have to implement the software setup between the boards- Arduino/Maple/Pinguino shields – every shield is hardware compatible with H407 but will not work out-of-the-box, software implementation should be considered
Some of the suggested items can be purchased by Olimex, for instance:
ARM-USB-TINY-H – high-speed OpenOCD ARM JTAG debuggerARM-USB-OCD-H – high-speed OpenOCD ARM JTAG debugger with buffer protection
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USB-MINI-CABLE USBmini to USB-A cable - USB mini to USB-A cableBATTERY-LIPO1400MAH – lithium-polymer battery 1400mAhSY0612E - power supply adapter 12V/0.5A for iMX233-STM32-H407
2.3 Powering the boardThe board is powered in one of the following ways: 1)by PWR jack, 2)by JTAG/SWD programmer, 3)by USB-OTG.
The PWR jack should be supplied from a 6V to 16V source with maximum current of 1A from the power jack. Without additional components and peripherals (no microSD card mounted, nothing connected to the USB, etc.) the typical consumption is 30mA @ 12V. For the European customers we sell an affordable power supply adapter 12V/0.5A - SY0612E.
It is worth mentioning that the board can NOT be powered by the battery connector. The battery connected keeps some of the processor's functions remain intact (hibernate) during power down but it provides insufficient power for the board to operate properly. For example the RTC doesn't loose the values when there is a battery connected.
2.4 Prebuilt softwareUpon powering initially the board's red PWR LED and the green PWR LED should turn on.
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CHAPTER 3 STM32-H407 BOARD DESCRIPTION
3. Introduction to the chapterIn this chapter you will get acquainted with the main parts of the board. Note the names used on the board differ from the names used to describe them. For the actual names check the STM32-H407 board itself.
The board comes with a bag with 4 headers for the Arduino/Maple/Pinguino platform which were left unsoldered in case you don't wish to use those environments or you don't plan on using shields.
There is also a bag of 4 rubber pads which can be placed in the 4 corner holes of the board. That way the board will be safe from short-circuiting on the bottom if placed on low-resistance surface. The placement stability of the board will also increase.
3.1 Layout (top view)
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3.2 Layout (bottom view)On the bottom there are three tables printed – general jumper table, boot mode jumper table, power mode jumper table. The default positions of the tables are also shown.
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CHAPTER 4 THE STM32F407ZGT6 MICROCONTROLLER
4. Introduction to the chapterIn this chapter is located the information about the heart of STM32-H407 – its Cortex-M4F microcontroller. The information is a modified version of the datasheet provided by its manufacturers from ST.
4.1 The STM32F407ZGT6 features
Core: ARM 32-bit Cortex™-M4 CPU with FPU, Adaptive real-time accelerator (ART Accelerator™) allowing 0-wait state execution from Flash memory, frequency up to 168 MHz, memory protection unit, 210 DMIPS/1.25 DMIPS/MHz (Dhrystone 2.1), and DSP instructions
Memories 1 Mbyte of Flash memory 192+4 Kbytes of SRAM including 64-Kbyte of CCM (core coupled memory) data RAM Flexible static memory controller supporting Compact Flash, SRAM, PSRAM, NOR
and NAND memories LCD parallel interface, 8080/6800 modes Clock, reset and supply management
1.8 V to 3.6 V application supply and I/Os POR, PDR, PVD and BOR 4-to-26 MHz crystal oscillator Internal 16 MHz factory-trimmed RC (1% accuracy) 32 kHz oscillator for RTC with calibration Internal 32 kHz RC with calibration Sleep, Stop and Standby modes VBATsupply for RTC, 20×32 bit backup registers + optional 4 KB backup SRAM
3×12-bit, 2.4 MSPS A/D converters: 24 channels and 7.2 MSPS in triple interleaved mode 2×12-bit D/A converters General-purpose DMA: 16-stream DMA controller with FIFOs and burst support Up to 17 timers: up to twelve 16-bit and two 32-bit timers up to 168 MHz, each with up to 4
IC/OC/PWM or pulse counter and quadrature (incremental) encoder input Debug mode
Serial wire debug (SWD) & JTAG interfaces Cortex-M4 Embedded Trace Macrocell™
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114 I/O ports with interrupt capability Up to 15 communication interfaces
3 × I2C interfaces (SMBus/PMBus) 4 USARTs/2 UARTs (10.5 Mbit/s, ISO 7816 interface, LIN, IrDA, modem control) 3 SPIs (37.5 Mbits/s), 2 with muxed full-duplex I2S to achieve audio class accuracy via
internal audio PLL or external clock 2 × CAN interfaces (2.0B Active) SDIO interface
Advanced connectivity USB 2.0 full-speed device/host/OTG controller with on-chip PHY USB 2.0 high-speed/full-speed device/host/OTG controller with dedicated DMA, on-
chip full-speed PHY and ULPI 10/100 Ethernet MAC with dedicated DMA: supports IEEE 1588v2 hardware,
MII/RMII 8- to 14-bit parallel camera interface up to 54 Mbytes/s True random number generator CRC calculation unit 96-bit unique ID RTC: subsecond accuracy, hardware calendar
For comprehensive information on the microcontroller visit the ST’s web page for a datasheet.
At the moment of writing the microcontroller datasheet can be found at the following link:http://www.st.com/internet/com/TECHNICAL_RESOURCES/TECHNICAL_LITERATURE/DATASHEET/DM00037051.pdf
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CHAPTER 5 CONTROL CIRCUITY AND HARDWARE MODULES
5. Introduction to the chapterHere you can find information about reset circuit and quartz crystals locations, the power supply circuit is discussed.
5.1 ResetSTM32-H407's reset circuit includes R21 (10KΩ), R19 (1 KΩ), C35 (100nF) and a RESET button.
5.2 ClocksThere are two quartz crystals available on the board:
12 MHz quartz crystal Q1 is connected to pins 23 and 24 of the CORTEX-M4F processor.
Quartz crystal Q2 is a 32 768Hz RTC (real-time clock) and is connected to pins 8 and 9.
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5.3 Power supply circuitThe power supply circuit of STM32-H407 allows flexible input supply from 6V to 16V direct current. This means a wide range of power supplies, adapters, converters are applicable. The maximum amperage the board can draw is 1A.
The Li-Po battery connector cannot be used to fully power the board. It's function is to give an option to save internal data if the board needs to be relocated. It will keep the RTC alive, for instance.
If you have successfully powered the board the red PWR LED will turn on. Note that it is possible to have the PWR LED on even if there isn't enough power for proper operation of the board and all the peripherals currently connected.
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CHAPTER 6 CONNECTORS AND PINOUT
6. Introduction to the chapterIn this chapter are presented the connectors that can be found on the board all together with their pinout and notes about them. Jumpers functions are described. Notes and info on specific peripherals are presented. Notes regarding the interfaces are given.
Note that slashed signals (xxxx/yyyy) in the tables below might mean either multiplexing between signals or port name correspondence on the processor.
6.1 JTAG/SWD debugThe board can be debugged from the 20-pin JTAG connector either by a JTAG or a SWD compatible debugger. Below is the table of the JTAG. This interface can be used with the Olimex's OpenOCD debuggers.
JTAG/SWD interface
Pin # Signal Name Pin # Signal
Name
1 +3.3V 11 -
2 +3.3V 12 GND
3 PB4/TRST 13 PB3/TDO
4 GND 14 GND
5 PA15/TDI 15 PB4/TRST
6 GND 16 GND
7 PA13/TMS 17 -
8 GND 18 GND
9 PA14/TCK 19 +5V_JTAG
10 GND 20 GND
6.2 SD/MMC slotThe microSD card slot is a standard 8pin connector.We have tested a number of microSD cards on the STM32-H407 boards and all of them worked fine regardless manufacturer or capacity. However, keep in mind that some of the lower quality microSD cards might draw too much current from the slot which might cause power-state problems. If you suspect the microSD card is causing problems please try using another one of better quality
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for better results.
microSD card connector
Pin # Signal Name
1 DAT2/RES
2 CD/DAT3/CS
3 CMD/DI
4 VDD
5 SCL/SCLK
6 VSS
7 DAT0/RES
8 DAT1/RES
Notice that the pad numeration is written at the bottom of STM32-H407 under the microSD card connector.
When removing the card, please make sure that you release it from the connector by pushing and NOT by pulling the card directly (this can damage both the connector and the microSD card).
6.3 UEXT moduleSTM32-H407 board has UEXT connector and can interface Olimex's UEXT modules.For more information on UEXT please visit:
http://www.olimex.com/dev/OTHER/UEXT.pdf
UEXT connector
Pin # Signal Name
1 3.3V
2 GND
3 PC6/USART6_TX
4 PC7/USART6_RX
5 PB8/I2C1_SCL
6 PB9/I2C1_SDA
7 PC2/SPI2_MISO
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8 PC3/SPI2_MOSI
9 PB10/SPI2_SCK/UART3_TX
10 PG10/UEXT_CS
6.4 USB HOST The big advantage of having USB hosts available over USB devices is that you can as well use them as masters. A USB host may implement multiple host controllers and each host controller may provide one or more USB ports.
Note DFU bootloader uses the host USB port, and a "USB A-A" cable is required.
The signals follow the familiar and standard USB host pattern:
USB 2-level hostPIN# SIGNAL NAME1 +5V_HOST_PWR2 USB_HOST_D-3 USB_HOST_D+4 GND
6.5 USB_OTGUSB On-The-Go, often abbreviated USB OTG, is a specification that allows USB devices such as digital audio players or mobile phonesto act as a host allowing a USB flash drive, mouse, or keyboard to be attached and also connecting USB peripherals directly for communication purposes among them.
Pin # Signal Name
1 +5V_OTG_PWR
2 USB_OTG_D-
3 USB_OTG_D+
4 PB12/OTG_HS_ID
5 GND
6.6 Arduino platformThe Arduino/Maple platform connectors (2x6pin and 2x8pin plastic headers) are not mounted but are included in the package. The reasons for not mounting the headers on the pin holes are two: first
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you might not need them if you do not wish to experiment with Arduino/Maple software; second there are two rows depending on the shield you might want to use the difference between the two rows is the distance between the two digital rows one is made according to the Arduino shield standard (e.g. you want to mount the row there if using Arduino certified shield), the other one is adjusted properly at 100mil step (e.g. you want to solder the digital pins here if using properly adjusted shields).
The pinhole names are printed near the actual pinhole on the top of the board.
Arduino platform pinholes
CON1 CON2
Pin Signal Name Processor pin# Pin Signal Name Processor pin#
RST RST 25 A0 PC0 26
3V3 3.3V - A1 PC1 27
5V 5V - A2 PB0 46
GND GND - A3 PB1 47
GND GND - A4 PC4 44
VIN VIN - A5 PC5 45
Arduino platform pinholes
CON3 CON4
Pin Signal Name Processor pin# Pin Signal Name Processor pin#
D0 PA3/USART_RX 37 D8 PA1 35
D1 PA2/USART_TX 36 D9 PB11 70
D2 PG7 92 D10 PA4 40
D3 PG8 93 D11 PA7 43
D4 PG12 127 D12 PA6 42
D5 PG13 128 D13 PA5 41
D6 PG14 129 GND AGND 31
D7 PG15 132 AREF AREF 32
6.7 20-pin connectors – PD – PE – PF - PGThe 4 x 20-pin connectors combine different processor ports and provide very nice GPIO option – you can use them with your breadboarding wires, you can mount headers, you can take measures,
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etc, etc.Note that all 4 headers come without connectors (unlike the UEXT or the JTAG) and connectors are not included in the package (unlike the Arduino platform). However they follow the standard 100mil step connectors – not hard to find and mount/solder if needed etc.
PD PE
Pin # Signal Name Pin # Signal Name Pin # Signal Name Pin # Signal Name
1 +3.3V 11 PD8 1 +3.3V 11 PE8
2 GND 12 PD9 2 GND 12 PE9
3 PD0 13 PD10 3 PE0 13 PE10
4 PD1 14 PD11 4 PE1 14 PE11
5 PD2 15 PD12 5 PE2 15 PE12
6 PD3 16 PD13 6 PE3 16 PE13
7 PD4 17 PD14 7 PE4 17 PE14
8 PD5 18 PD15 8 PE5 18 PE15
9 PD6 19 +5V 9 PE6 19 +5V
10 PD7 20 GND 10 PE7 20 GND
PF PG
Pin # Signal Name Pin # Signal Name Pin # Signal
Name Pin # Signal Name
1 +3.3V 11 PF8 1 +3.3V 11 PG8
2 GND 12 PF9 2 GND 12 PG9
3 PF0 13 PF10 3 PG0 13 PG10
4 PF1 14 PF11 4 PG1 14 PG11
5 PF2 15 PF12 5 PG2 15 PG12
6 PF3 16 PF13 6 PG3 16 PG13
7 PF4 17 PF14 7 PG4 17 PG14
8 PF5 18 PF15 8 PG5 18 PG15
9 PF6 19 +5V 9 PG6 19 +5V
10 PF7 20 GND 10 PG7 20 GND
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6.8 PWR JackThe power jack used is the typical 2.5mm one used by Olimex in most of our products. You should provide between 6 and 16 volts @ 1A to the board.
Pin # Signal Name
1 Power Input
2 GND
More info about the power supply can be found in chapters 2 and 5 of this manual.
6.9 Battery connectorWhen using the battery connector keep in mind that it is an energy solution that wouldn't be able to power the board and all the peripherals!
It help keeping information in the processor if you need to transport the board from one power supply to other.
Pin # Signal Name
1 VBAT
2 GND
The pin names are also written on the bottom of the board in the base of the connector.
6.10 U3BOOTU3BOOT are 3 pinholes set on USART3 and are named on the bottom – GND, RX, TX3 and notice there are two vias near them which are actually VCC and can be used if connecting U3BOOT. More information about booting over UART can be found in the processor's datasheet.
6.11 Jumper descriptionPlease note some of the jumpers on the board are SMD type. If you feel insecure in your soldering/cutting technique it is better not to try adjusting SMD jumpers.Also if you feel incapable of removing the PTH jumper with hand better use tweezers. We do.
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6.11.1 PWR_SEL
PWR_SEL is important PTH jumper allowing easy switching of input current. If you are powering the board via the PWR_JACK set it to position 1-2 (default → to the edge of the board).
If powering from the JTAG/SWD set the jumper in position 3-4 (middle position).
If powering from the USB-OTG set it in 5-6 position (to the tall capacitor C46)
The default position is 1-2.
6.11.2 B1_1/B1_0 and B0_1/B0_0
B1_1/B1_0 and B0_1/B0_0 are PTH jumpers which can be moved relatively easy.
Notice that these two jumpers must be moved together – they are responsible for the boot mode if bootloader is present. The board can search for bootloader on three places – User Flash Memory, System Memory or the Embedded SRAM.
If B0_0 is closed the board will try to boot from User Flash Memory.
If B0_1 is closed there are two variants depending on the state of B1_1/B1_0 jumper – if B0_1 is closed and B1_0 is closed the board will try to boot from System Memory. If B0_1 is closed and B1_1 is closed bootloader must be located in the Embedded SRAM.
The default positions are B0_0 and B1_0 (Boot from User Flash Memory).
6.11.3 R-T
This is SMD type jumper.
If you close/solder this jumper RST and TRST at the JTAG will be connected.
The default position is open/unsoldered.
6.11.4 3.3V_E
This is SMD type jumper.
Board digital power will be disabled if open/unsoldered
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The default position is closed.
6.11.5 AGND_E
This is SMD type jumper.
If open/unsoldered will disable analog ground.
The default position is closed.
6.11.6 AREF_EN
This is SMD type jumper.
If open/unsoldered will disable ADC reference.
The default position is closed.
6.12 Additional hardware componentsThe components below are mounted on STM32-H407 but are not discussed above. They are listed here for completeness:
Reset button - used for hardware reset of the board
WKUP button – can be used as user button
User LED + Power LED
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CHAPTER 7 BLOCK DIAGRAM AND MEMORY
7. Introduction to the chapterOn the next page you can find a memory map for this family of processors. It is strongly recommended to refer to the original datasheet released by STMicroelectronics for one of higher quality.
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7.1 Processor family block diagram
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7.2 Physical memory map
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CHAPTER 8 SCHEMATICS
8. Introduction to the chapterIn this chapter are located the schematics describing logically and physically STM32-H407.
8.1 Eagle schematicSTM32-H407 schematic is visible for reference here. You can also find them on the web page for STM32-H407 at our site: https://www.olimex.com/Products/ARM/ST/STM32-H407/. They are located in HARDWARE section.
The EAGLE schematic is situated on the next page for quicker reference.
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ETH_RMII_REF_CLKETH_RMII_MDIOETH_RMII_MDINT
ETH_RMII_CRS_DV
ETH_RMII_TX_EN
ETH_RMII_MDC
ETH_RMII_RXD0ETH_RMII_RXD1
ETH_RMII_TXD0ETH_RMII_TXD1
6-16VDC
FSMC_A0FSMC_A1FSMC_A2FSMC_A3FSMC_A4FSMC_A5
FSMC_A6FSMC_A7FSMC_A8FSMC_A9 FSMC_D12
FSMC_D11FSMC_D10FSMC_D9FSMC_D8FSMC_D7FSMC_D6FSMC_D5FSMC_D4FSMC_A22FSMC_A21FSMC_A20FSMC_A19FSMC_A23
FSMC_D1FSMC_D0FSMC_A18FSMC_A17FSMC_A16FSMC_D15FSMC_D14FSMC_D13FSMC_NE1FSMC_NWAITFSMC_NWEFSMC_NOEFSMC_CLK
FSMC_D3FSMC_D2
FSMC_NBL0FSMC_NBL1
FSMC_NIORDFSMC_NREG
FSMC_NIOWRFSMC_CD
FSMC_INTR
FSMC_A10FSMC_A11FSMC_A12FSMC_A13FSMC_A14FSMC_A15FSMC_INT2
FSMC_NE2/FSMC_NCE3FSMC_NCE4_1/FSMC_NCE3
FSMC_NCE4_2
MP1482DS
Close
WF2S
Close
CloseHN1x3(B0_1:Open;B0_0:Close)
HN1x3(B1_1:Open;B1_0:Close)
47pF(NA) 47pF(NA)
100uF/35V/LOWESR/105C/6.3x11mm_RM2.5
10
0n
F
100nF
10
0n
F
22uF/6.3V
47pF(NA) 47pF(NA) 100nF
100uF/35V/LOWESR/105C/6.3x11mm_RM2.5
10
0n
F
2.2uF/6.3V
10
uF
/6.3
V
10
uF
/6.3
V
10
0n
F
10
uF
/6.3
V
10
uF
/6.3
V
10
0n
F
10
0n
F
10
0n
F
10
0n
F
10
0n
F
10
0n
F
10
0n
F
10
0n
F
2.2uF/6.3V
10uF/6.3V 100nF 100nF
27pF
27pF15pF
15pF100nF
100nF
100nF
22pF
22uF/6.3V22uF/6.3V 22uF/6.3V 100nF
100uF/16V/mini220uF/16V/mini
22uF/6.3V
47
0u
F/2
5V
/LO
WE
SR
/10
5C
10
0n
F
10nF
3.3nF
22uF/6.3V 22uF/6.3V
NA(PN1X6)
NA(PN1X6)
NA(PN1X8)
NA(PN1X8)
NA(ESDA6V1L)
NA(ESDA6V1L)
BAT54C
SMBJ16A
BH20R
CL
47
0n
H/0
805
/1.7
6R
/250
mA
FB0805/600R/200mA(201209-601)
FB0805/600R/200mA(201209-601)
FB
08
05
/60
0R
/20
0m
A(2
01
20
9-6
01
)
10uH/2.3A/YS75/7x82.2uH/3A/YS75/7x8
LED/GREEN/0603
VIN
VIN
NA(BH20S)
NA(BH20S)
NA(BH20S)
NA(BH20S)
YDJ-1136
LE
D/R
ED
/06
03HN2x3(1-2:Close)
Q12.000MHz/HC-49SM(SMD)/20pF
32768Hz/6pF
0R(board_mounted)
15R
NA 15R
NA NA
1M
0R(board_mounted)
15R
15R
0R
(bo
ard
_m
ou
nte
d)
NA
(10
k)
NA
(10
k)
NA4.7k
15R
4.7k
NA10k/1%
150R1k
NA
NA
NANA
NA NANA NA
4.7k 4.7k 47k/1%
4.99k/1% 1k
1k
1k
47k/1%
1.1k/1%
47k
2.2k 1.1k/1%
4.99k/1%
T1
10
7A
-6_
3.8
_2
.5
33
k
33
k
33
k
33
k
NA(10k)
NA(10k)
NA(10k)NA(10k)
10k10k
10k
33k33k
33k33k
MICRO
NA(USBLC6-2P6)
MIC2026-1YMNA(USBLC6-2P6)
NA(HN1X3)
NA
(2x
PN
1x
6_
2x
PN
1x
8)
STM32F407ZGT6
NABH10R
USB_A_VERTICAL
USB-OTG
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
+5V
3.3V
3.3V
3.3V
+5V
+5V
3.3V
3.3V_A
3.3V
+5V
+5V
3.3V+5V
3.3V
3.3V
3.3V 3.3V
+5V
3.3V
3.3V
3.3V3.3V
3.3V
3.3V 3.3V3.3V
3.3V
3.3V
3.3V
T1107A-6_3.8_2.5+5V_EXT
+5V_HOST_PWR +5V_HOST_PWR
+5V_JTAG
+5V_JTAG
+5V_OTG_PWR
+5V_OTG_PWR +5V_OTG_PWR
AGNDAREF
AREF
BOOT0
LED
LED
PA0/WKUP
PA0/WKUPPA1/D8
PA1/D8
PA2/USART2_TX
PA2/USART2_TX
PA3/USART2_RX
PA3/USART2_RXPA4/D10/SPI1_NSS
PA4/D10/SPI1_NSS
PA5/D13/SPI1_SCK
PA5/D13/SPI1_SCK
PA6/D12/SPI1_MISO
PA6/D12/SPI1_MISO
PA7/D11/SPI1_MOSI
PA7/D11/SPI1_MOSI
PA8/USB_HS_VBUSON PA8/USB_HS_VBUSON
PA8/USB_HS_VBUSONPA9/OTG_FS_VBUS
PA9/OTG_FS_VBUS
PA10/USB_FS_VBUSON PA10/USB_FS_VBUSON
PA10/USB_FS_VBUSONPA11/OTG_FS_DM
PA11/OTG_FS_DM
PA12/OTG_FS_DP
PA12/OTG_FS_DP
PA13/TMS
PA13/TMS
PA14/TCK
PA14/TCK
PA15/TDI
PA15/TDI
PB0/A2
PB0/A2PB1/A3
PB1/A3
PB2PB3/TDO
PB3/TDO
PB4/TRST
PB4/TRST
PB4/TRST
PB5/USB_HS_FAULT
PB5/USB_HS_FAULT PB5/USB_HS_FAULT
PB6/USB_FS_FAULT
PB6/USB_FS_FAULT PB6/USB_FS_FAULT
PB8/I2C1_SCL
PB8/I2C1_SCL
PB9/I2C1_SDA
PB9/I2C1_SDA
PB10/SPI2_SCK/UART3_TX
PB10/SPI2_SCK/UART3_TX
PB10/SPI2_SCK/UART3_TX
PB12/OTG_HS_ID
PB12/OTG_HS_ID PB12/OTG_HS_ID
PB12/OTG_HS_ID
PB13/OTG_HS_VBUS
PB13/OTG_HS_VBUS
PB14/OTG_HS_DM
PB14/OTG_HS_DM
PB15/OTG_HS_DP
PB15/OTG_HS_DP
PC0/A0
PC0/A0
PC1/A1
PC1/A1
PC2/SPI2_MISO
PC2/SPI2_MISO
PC3/SPI2_MOSI
PC3/SPI2_MOSI
PC4/A4
PC4/A4
PC5/A5
PC5/A5
PC6/USART6_TX
PC6/USART6_TX
PC7/USART6_RX
PC7/USART6_RX
PC8/SD_D0
PC8/SD_D0
PC9/SD_D1
PC9/SD_D1
PC10/SD_D2
PC10/SD_D2
PC11/SD_D3
PC11/SD_D3
PC12/SD_CLK
PC12/SD_CLK
PD0
PD0
PD1
PD1PD2/SD_CMD
PD2/SD_CMD
PD2/SD_CMDPD3
PD3PD4PD4PD5 PD5
PD6 PD6PD7
PD7
PD8PD8
PD9
PD9
PD10
PD10
PD11
PD11
PD12
PD12
PD13
PD13
PD14
PD14
PD15
PD15
PE0 PE0PE1
PE1
PE2PE2
PE3
PE3
PE4
PE4
PE5
PE5
PE6
PE6
PE7
PE7
PE8
PE8
PE9
PE9
PE10
PE10
PE11
PE11
PE12
PE12
PE13
PE13
PE14
PE14
PE15
PE15
PF0
PF0
PF1
PF1
PF2
PF2
PF3
PF3PF4
PF4PF5
PF5 PF6PF6 PF7PF7
PF9PF9
PF10PF10
PF11
PF11
PF12
PF12
PF13
PF13
PF14
PF14
PF15
PF15
PG0
PG0
PG1
PG1
PG2
PG2
PG3
PG3
PG4
PG4
PG5
PG5PG6
PG6PG7/D2
PG7/D2
PG7/D2 PG8/D3
PG8/D3
PG8/D3 PG9PG9PG10PG10PG11
PG11
PG12/D4
PG12/D4
PG12/D4
PG13/D5
PG13/D5
PG13/D5
PG14/D6
PG14/D6
PG14/D6
PG15/D7
PG15/D7
PG15/D7
RB7/UEXT_CS
RB7/UEXT_CS
RB11/D9/UART3_RX
RB11/D9/UART3_RX
RB11/D9/UART3_RX
RF8RF8
RST
RST
RST
RST
USB_HOST_D+ USB_HOST_D+USB_HOST_D- USB_HOST_D-
USB_OTG_D+ USB_OTG_D+USB_OTG_D- USB_OTG_D-
VBAT
1 23.3V_E
12
3V_BAT
12AGND_E
1 2AREF_EN
1 2 3
B0_1/B0_0
1 2 3
B1_1/B1_0
C1 C2C3
C4
C5
C6
C7
C8 C9 C10
C11 C1
2
C13C1
4
C1
5
C1
6
C1
7
C1
8
C1
9
C2
0
C2
1
C2
2
C2
3
C2
4
C2
5
C2
6
C27
C28 C29C30
C31
C32 C33
C34C35
C36
C37
C38
C39C40 C41 C42
C43C44
C45
C4
6
C4
7
C48
C49
C50 C51
123456
CON1
123456
CON2
12345678
CON3
12345678
CON4
D1
D2
D3
D4
GND_PIN
1234567891011121314151617181920
JTAG L1 L2
L3
L4
L5L6
LED
1 23 45 67 89 10
11 1213 1415 1617 1819 20
PD
1 23 45 67 89 10
11 1213 1415 1617 1819 20
PE
1 23 45 67 89 10
11 1213 1415 1617 1819 20
PF
1 23 45 67 89 10
11 1213 1415 1617 1819 20
PG
PWR_JACK
PW
R_
LE
D
1 23 45 6PWR_SEL
Q1
Q2
12
R-T
R1
R2R3 R4
R5 R6
R7
R8
R9
R10
R1
1
R1
2R
13
R14R15
R16
R17
R18
R19
R20R21
R22
R23
R24R25
R26 R27R28 R29
R30 R31 R32
R33 R34
R35
R36
R37
R38
R39
R40 R41
R42
RESET
RM
1G
1
RM
1G
2
RM
1G
3
RM
1G
4
RM2G1
RM2G2
RM2G3RM2G4
RM3G1RM3G2
RM3G3
RM4G1RM4G2
RM4G3RM4G4
CD/DAT3/CS2
CLK/SCLK5
CMD/DI3
DAT0/DO7DAT1/RES8DAT2/RES1
VDD4 VSS6
SD/MMC
1234
56
U1
ENA1
ENB4
FLAG_A2FLAG_B3
GND6IN7OUT_A8
OUT_B5
U2
1234
56
U3
123
U3BOOT
3V35V
A0A1A2A3A4A5
AREF
D0D1D2D3D4D5D6D7
D8D9D10D11D12D13
GNDGND
GND
RST
VIN
U4
BOOT0/VPP138
NRST25
PA0/WKUP/USART2_CTS/USART4_TX/ETH_MII_CRS/TIM2_CH1_ETR/TIM5_CH1/TIM8_ETR/ADC123_CH034
PA1/USART2_RTS/USART4_RX/ETH_RMII_REF_CLK/ETH_MII_RX_CLK/TIM5_CH2/TIM2_CH2/ADC123_IN135
PA2/USART2_TX/TIM5_CH3/TIM9_CH1/TIM2_CH3/ETH_MDIO/ADC123_IN236
PA3/USART2_RX/TIM5_CH4/TIM9_CH2/TIM2_CH4/OTG_HS_ULPI_D0/ETH_MII_COL/ADC123_IN337
PA4/SPI1_NSS/SPI3_NSS/USART2_CK/DCMI_HSYNC/OTG_HS_SOF/I2S3_WS/ADC12_IN4/DAC1_OUT40
PA5/SPI1_SCK/OTG_HS_ULPI_CK/TIM2_CH1_ETR/TIM8_CHIN/ADC12_IN5/DAC2_OUT41
PA6/SPI1_MISO/TIM8_BKIN/TIM13_CH1/DCMI_PIXCLK/TIM3_CH1/TIM1_BKIN/ADC12_IN642
PA7/SPI1_MOSI/TIM8_CH1N/TIM14_CH1/TIM3_CH2/ETH_MII_RX_DV/TIM1_CH1N/RMII_CRS_DV/ADC12_IN743
PA8/MCO1/USART1_CK/TIM1_CH1/I2C3_SCL/OTG_FS_SOF100
PA9/USART1_TX/TIM1_CH2/I2C3_SMBA/DCMI_D0/OTG_FS_VBUS101
PA10/USART1_RX/TIM1_CH3/OTG_FS_ID/DCMI_D1102
PA11/USART1_CTS/CAN1_RX/TIM1_CH4/OTG_FS_DM103
PA12/USART1_RTS/CAN1_TX/TIM1_ETR/OTG_FS_DP104
PA13/JTMS-SWDIO105
PA14/JTCK-SWCLK109
PA15/JTDI/SPI3_NSS/I2S3_WS/TIM2_CH1_ETR/SPI1_NSS110
PB0/TIM3_CH3/TIM8_CH2N/OTG_HS_ULPI_D1/ETH_MII_RXD2/TIM1_CH2N/ADC12_IN846
PB1/TIM3_CH4/TIM8_CH3N/OTG_HS_ULPI_D2/ETH_MII_RXD3/OTG_HS_INTN/TIM1_CH3N/ADC12_IN947
PB2/BOOT148
PB3/JTDO/TRACESWO/SPI3_SCK/I2S3_CK/TIM2_CH2/SPI1_SCK133
PB4/NJTRST/SPI3_MISO/TIM3_CH1/SPI1_MISO134
PB5/I2C1_SMBA/CAN2_RX/OTG_HS_ULPI_D7/ETH_PPS_OUT/TIM3_CH2/SPI1_MOSI/SPI3_MOSI/DCMI_D10/I2S3_SD135
PB6/I2C1_SCL/TIM4_CH1/CAN2_TX/OTG_FS_INTN/DCMI_D5/USART1_TX136
PB7/I2C1_SDA/FSMC_NL/DCMI_VSYNC/USART1_RX/TIM4_CH2137
PB8/TIM4_CH3/SDIO_D4/TIM10_CH1/DCMI_D6/OTG_FS_SCL/ETH_MII_TXD3/I2C1_SCL/CAN1_RX139
PB9/SPI2_NSS/I2S2_WS/TIM4_CH4/TIM11_CH1/OTG_FS_SDA/SDIO_D5/DCMI_D7/I2C1_SDA/CAN1_TX140
PB10/SPI2_SCK/I2S2_CK/I2C2_SCL/USART3_TX/OTG_HS_ULPI_D3/ETH_MII_RX_ER/OTG_HS_SCL/TIM2_CH369
PB11/I2C2_SDA/USART3_RX/OTG_HS_ULPI_D4/ETH_RMII_TX_EN/ETH_MII_TX_EN/OTG_HS_SDA/TIM2_CH470
PB12/SPI2_NSS/I2S2_WS/I2C2_SMBA/USART3_CK/TIM1_BKIN/CAN2_RX/OTG_HS_ULPI_D5/ETH_RMII_TXD0/ETH_MII_TXD0/OTG_HS_ID73
PB13/SPI2_SCK/I2S2_CK/USART3_CTS/TIM1_CH1N/CAN2_TX/OTG_HS_ULPI_D6/ETH_RMII_TXD1/ETH_MII_TXD1/OTG_HS_VBUS74
PB14/SPI2_MISO/TIM1_CH2N/TIM12_CH1/OTG_HS_DM/USART3_RTS/TIM8_CH2N75
PB15/SPI2_MOSI/I2S2_SD/TIM1_CH3N/TIM8_CH3N/TIM12_CH2/OTG_HS_DP76
PC0/OTG_HS_ULPI_STP/ADC123_IN1026
PC1/ETH_MDC/ADC123_IN1127
PC2/SPI2_MISO/OTG_HS_ULPI_DIR/ETH_MII_TXD2/ADC123_IN1228
PC3/SPI2_MOSI/I2S2_SD/OTG_HS_ULPI_NXT/ETH_MII_TX_CLK/ADC123_IN1329
PC4/ETH_RMII_RX_D0/ETH_MII_RX_D0/ADC12_IN1444
PC5/ETH_RMII_RX_D1/ETH_MII_RX_D1/ADC12_IN1545
PC6/SPI2_MCK/TIM8_CH1/SDIO_D6/USART6_TX/DCMI_D0/TIM3_CH196
PC7/SPI3_MCK/TIM8_CH2/SDIO_D7/USART6_RX/DCMI_D1/TIM3_CH297
PC8/TIM8_CH3/SDIO_D0/TIM3_CH3/USART6_CK/DCMI_D298
PC9/I2S2_CKIN/I2S3_CKIN/MCO2/TIM8_CH4/SDIO_D1/I2C3_SDA/DCMI_D3/TIM3_CH499
PC10/SPI3_SCK/I2S3_CK/UART4_TX/SDIO_D2/DCMI_D8/USART3_TX111
PC11/UART4_RX/SPI3_MISO/SDIO_D3/DCMI_D4/USART3_RX112
PC12/UART5_TX/SDIO_CK/DCMI_D9/SPI3_MOSI/I2S3_SD/USART3_CK113
PC13/RTC_AF17
PC14/OSC32_IN8
PC15/OSC32_OUT9
PD0/FSMC_D2/CAN1_RX114
PD1/FSMC_D3/CAN1_TX115
PD2/TIM3_ETR/UART5_RX/SDIO_CMD/DCMI_D11116
PD3/FSMC_CLK/USART2_CTS117
PD4/FSMC_NOE/USART2_RTS118
PD5/FSMC_NWE/USART2_TX119
PD6/FSMC_NWAIT/USART2_RX122
PD7/USART2_CK/FSMC_NE1/FSMC_NCE2123
PD8/FSMC_D13/USART3_TX77
PD9/FSMC_D14/USART3_RX78
PD10/FSMC_D15/USART3_CK79
PD11/FSMC_A16/USART3_CTS80
PD12/FSMC_A17/TIM4_CH1/USART3_RTS81
PD13/FSMC_A18/TIM4_CH282
PD14/FSMC_D0/TIM4_CH385
PD15/FSMC_D1/TIM4_CH486
PE0/TIM4_ETR/FSMC_NBL0/DCMI_D2141
PE1/FSMC_NBL1/DCMI_D3142
PE2/TRACECK/FSMC_A23/ETH_MII_TXD31
PE3/TRACED0/FSMC_A192
PE4/TRACED1/FSMC_A20/DCMI_D43
PE5/TRACED2/FSMC_A21/TIM9_CH1/DCMI_D64
PE6/TRACED3/FSMC_A22/TIM9_CH2/DCMI_D75
PE7/FSMC_D4/TIM1_ETR58
PE8/FSMC_D5/TIM1_CH1N59
PE9/FSMC_D6/TIM1_CH160
PE10/FSMC_D7/TIM1_CH2N63
PE11/FSMC_D8/TIM1_CH264
PE12/FSMC_D9/TIM1_CH3N65
PE13/FSMC_D10/TIM1_CH366
PE14/FSMC_D11/TIM1_CH467
PE15/FSMC_D12/TIM1_BKIN68
PF0/FSMC_A0/I2C2_SDA10PF1/FSMC_A1/I2C2_SCL11PF2/FSMC_A2/I2C2_SMBA12PF3/FSMC_A3/ADC3_IN913PF4/FSMC_A4/ADC3_IN1414PF5/FSMC_A5/ADC3_IN1515PF6/TIM10_CH1/FSMC_NIORD/ADC3_IN418PF7/TIM11_CH1/FSMC_NREG/ADC3_IN519PF8/TIM13_CH1/FSMC_NIOWR/ADC3_IN620PF9/TIM14_CH1/FSMC_CD/ADC3_IN721PF10/FSMC_INTR/ADC3_IN822PF11/DCMI_1249PF12/FSMC_A650PF13/FSMC_A753PF14/FSMC_A854PF15/FSMC_A955
PG0/FSMC_A1056PG1/FSMC_A1157PG2/FSMC_A1287PG3/FSMC_A1388PG4/FSMC_A1489PG5/FSMC_A1590PG6/FSMC_INT291PG7/FSMC_INT3/USART6_CK92PG8/USART6_RTS/ETH_PPS_OUT93PG9/USART6_RX/FSMC_NE2/FSMC_NCE3124PG10/FSMC_NCE4_1/FSMC_NE3125PG11/FSMC_NCE4_2/ETH_MII_TX_EN126PG12/FSMC_NE4/USART6_RTS127PG13/FSMC_A24/USART6_CTS/ETH_MII_TXD0/ETH_RMII_TXD0128PG14/FSMC_A25/USART6_TX/ETH_MII_TXD1/ETH_RMII_TXD1129PG15/USART6_CTS/DCMI_D13132
PH0/OSC_IN23
PH1/OSC_OUT24
VBAT6
VCAP_171
VCAP_2106
VDDA33
VDD_172VDD_2108VDD_3143VDD_439VDD_517VDD_652VDD_762VDD_884VDD_995VDD_10121VDD_11131VDD_1230VDD_SA144
VREF+32
VSSA31
VSS_2107 VSS_438 VSS_516 VSS_651 VSS_761 VSS_883 VSS_994 VSS_10120 VSS_11130
U5
3
12
GNDVCC RESET
U6
EN1FB
5
GND2
IN4LX
3U7
SY8008C(AA)C
BS1
COMP6
EN7
FB5
GND4
IN2
SS8 SW3
U8
1 23 45 67 89 10
UEXT
1234
USB_HOST
D+D-
GND
GN
D1
GN
D2
GN
D3
GN
D4
ID
VBUS
USB_OTG
WKUP
STM32-H407_Rev_B1OLIMEX LTD PLOVDIVhttp://www.olimex.com
++
+
+
+
GN D
0R
0R0
R
PO
WE
RA
NA
LO
GD
IGIT
AL
DIG
ITA
L
AR
DU
INO
: S
H P
LA
TF
OR
MU
SB
SHIELD
US
B
POWER SUPPLY CIRCUITBUTTON and LED
JTAG SD/MMC CARD
USB_HOST
USB_OTG
USART3_TXUSART3_RXGND
USART3_RXUSART3_TX
OLIMEX© 2013 STM32-H407 user's manual
8.2 Physical dimensionsNote that all dimensions are in millimeters.
The three highest elements on the board in order from the tallest to the shortest are: capacitor C46 – 17.2mm (0.677'') over the pcb; USB host connectors – 14.3mm (0.563''); capacitators C11 and C3 – 11.5mm (0.453'').
Note that the above measures does not include the PCB.
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OLIMEX© 2013 STM32-H407 user's manual
CHAPTER 9 REVISION HISTORY AND SUPPORT
9. Introduction to the chapterIn this chapter you will find the current and the previous version of the document you are reading. Also the web-page for your device is listed. Be sure to check it after a purchase for the latest available updates and examples.
9.1 Document revision
Revision, Date Changes Modified Page#
A, 20.07.12 Initial Creation All
B,25.07.12
Page 6 - Added comparison detailsPage 16 - Table error
616
C,14.02.13
All pages - formattingAdded info about the DFU bootloader
All17
9.1 Board's revision
Revision, Date Revision Notes
B1,07.06.12
Initial release
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OLIMEX© 2013 STM32-H407 user's manual
9.3 Useful web links and purchase codesThe web page you can visit for more info on your device is https://www.olimex.com/Products/ARM/ST/STM32-H407/. You can get the latest updates on the software at: https://github.com/OLIMEX/STM32F4.
ORDER CODES:
STM32-H407 – the version of the board discussed in this document
STM32-E407 – the version of the board featuring Ethernet
ARM-USB-TINY-H – OpenOCD compatible high-speed debugger/programmer with JTAG interfaceARM-USB-OCD-H – OpenOCD compatible debugger/programmer with JTAG interface, protection buffers and better power supply circuitSY0612E - power supply adapter 12V/0.5A for STM32-H407 – 220V (European compatibility)
How to order?
You can order directly from us or purchase from any of our distributors. List of Olimex distributors may be found here: https://www.olimex.com/Distributors/.Please check https://www.olimex.com/ for more information.
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OLIMEX© 2013 STM32-H407 user's manual
9.3 Product support
For product support, hardware information and error reports mail to: [email protected]. Note that we are primarily a hardware company and our software support is limited.
Please consider reading the paragraph below about the warranty of Olimex products.
Warranty and returns:
Our boards have lifetime warranty against manufacturing defects and components.
During development work it is not unlikely that you can burn your programmer or development board. This is normal, we also do development work and we have damaged A LOT of programmers and boards during our daily job so we know how it works. If our board/programmer has worked fine then stopped, please check if you didn't apply over voltage by mistake, or shorted something in your target board where the programmer was connected etc. Sometimes boards might get damaged by ESD shock voltage or if you spill coffee on them during your work when they are powered.
Please note that warrany do not cover problems caused by unproper use, shorts, over-voltages, ESD shock etc.
If the board has warranty label it should be not broken. Broken labels void the warranty, same applies for boards modified by the customer, for instance soldering additional components or removing components - such boards will be not be a subject of our warranty.
If you are positive that the problem is due to manufacturing defect or component you can return the board back to us for inspection.
When we receive the board we will check and if the problem is caused due to our fault and we will repair/replace the faulty hardware free of charge, otherwise we can quote price of the repair.
Note that all shippings back and forth have to be covered by the customer. Before you ship anything back you need to ask for RMA. When you ship back please attach to it your shipping address, phone, e-mail, RMA# and brief description of the problem. All boards should be sent back in antistatic package and well packed to prevent damages during the transport.
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