OLIMEX-STM32-E407

Overview

The OLIMEX-STM32-E407 board is open source hardware and is based on the STMicroelectronics STM32F407ZG ARM Cortex-M4 CPU.

OLIMEX-STM32-E407

Fig. 124 OLIMEX-STM32-E407

Hardware

Information about the board can be found at the OLIMEX-STM32-E407 website and OLIMEX-STM32-E407 user manual. The ST STM32F407ZG Datasheet contains the processor’s information and the datasheet.

Supported Features

The olimex_stm32_e407 board configuration supports the following hardware features:

Interface

Controller

Driver/Component

NVIC

on-chip

nested vectored interrupt controller

SYSTICK

on-chip

system clock

UART

on-chip

serial port

GPIO

on-chip

gpio

USB OTG FS

on-chip

USB device

USB OTG HS

on-chip

USB device

Other hardware features have not been enabled yet for this board.

Pin Mapping

OLIMEX-STM32-E407 connectors

Fig. 125 OLIMEX-STM32-E407 connectors

LED

  • LED (green) = PC13

  • PWR_LED (red) = power

Push buttons

  • BUT = PA0

  • RST = NRST

External Connectors

JTAG/SWD debug

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

UEXT

PIN #

Wire Name

STM32F407 port

1

+3.3V

2

GND

3

PC6/USART6_TX

PC6

4

PC7/USART6_RX

PC7

5

PB8/I2C1_SCL

PB8

6

PB9/I2C1_SDA

PB9

7

PC2/SPI2_MISO

PC2

8

PC3/SPI2_MOSI

PC3

9

PB10/SPI_SCK/UART3_TX

PB10

10

RB7/UEXT_CS

PB7

Arduino Headers

CON1 power

Pin

Signal Name

STM32F407 Pin#

RST

RESET

25

3V3

VCC (3V3)

N/A

5V

VDD (5V)

N/A

GND

GND

N/A

GND

GND

N/A

VIN

VIN

N/A

CON2 analog

Pin

Signal Name

STM32F407 Pin#

A0

PC0

26

A1

PF6

18

A2

PF7

19

A3

PF8

20

A4

PF9

21

A5

PF10

22

CON3 digital

Pin

Signal Name

STM32F407 Pin#

D0

PB7/USART1_RX

137

D1

PB6/USART1_TX

136

D2

PE2

1

D3

PE4

3

D4

PE5

4

D5

PR6

5

D6

PG7

92

D7

PG8

93

CON4 digital

Pin

Signal Name

STM32F407 Pin#

D8

PG12

35

D9

PG15

70

D10

PA4

40

D11

PB5

43

D12

PA6

42

D13

PA5

41

GND

AGND

31

AREF

AREF

32

PD

PIN #

Signal Name

Pin #

Signal Name

1

+3.3V

11

PD8

2

GND

12

PD9

3

PD0

13

PD10

4

PD1

14

PD11

5

PD2/SD_MMC

15

PD12

6

PD3

16

PD13

7

PD4

17

PD14

8

PD5

18

PD15

9

PD6

19

+5V

10

PD7

20

GND

PE

PIN #

Signal Name

Pin #

Signal Name

1

+3.3V

11

PE8

2

GND

12

PE9

3

PE0

13

PE10

4

PE1

14

PE11

5

PE2/D2

15

PE12

6

PE3

16

PE13

7

PE4/D3

17

PE14

8

PE5/D4

18

PE15

9

PE6/D5

19

+5V

10

PE7

20

GND

PF

PIN #

Signal Name

Pin #

Signal Name

1

+3.3V

11

PF8/A3

2

GND

12

PF9/A4

3

PF0

13

PF10/A5

4

PF1

14

PF11/A6

5

PF2

15

PF12

6

PF3

16

PF13

7

PF4

17

PF14

8

PF5

18

PF15

9

PF6/A1

19

+5V

10

PF7/A2

20

GND

PG

PIN #

Signal Name

Pin #

Signal Name

1

+3.3V

11

PG8/D7

2

GND

12

PG9

3

PG0

13

PG10/UEXT_CS

4

PG1

14

PG11/TX_EN

5

PG2

15

PG12/D8

6

PG3

16

PG13/TXD0

7

PG4

17

PG14/TXD1

8

PG5

18

PG15/D9

9

PG6

19

+5V

10

PG7/D6

20

GND

System Clock

OLIMEX-STM32-E407 has two external oscillators. The frequency of the slow clock is 32.768 kHz. The frequency of the main clock is 12 MHz. The processor can setup HSE to drive the master clock, which can be set as high as 168 MHz.

Programming and Debugging

The OLIMEX-STM32-E407 board does not include an embedded debug tool interface. You will need to use ST tools or an external JTAG probe. In the following examples a ST-Link V2 USB dongle is used.

If you have an external JTAG probe compliant with the default Zephyr OpenOCD configuration, however, then applications for the olimex_stm32_e407 board configuration can be built and flashed in the usual way (see Building an Application and Run an Application for more details).

Flashing an application to the Olimex-STM32-E407

Connect the ST-Link USB dongle to your host computer and to the JTAG port of the OLIMEX-STM32-E407 board. Then build and flash an application.

Here is an example for the Hello World application.

# From the root of the zephyr repository
west build -b olimex_stm32_e407 samples/hello_world
west flash

Run a serial host program to connect with your board:

$ minicom -D /dev/ttyACM0

After resetting the board, you should see the following message:

***** BOOTING ZEPHYR OS v1.8.99 - BUILD: May 29 2017 22:31:53 *****
Hello World! arm

Debugging

Provided that you have a JTAG probe, you can debug an application in the usual way. Here is an example for the Hello World application.

# From the root of the zephyr repository
west build -b olimex_stm32_e407 samples/hello_world
west debug