2016-06-27 13:41:41 +02:00
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README
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======
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2019-07-11 18:28:42 +02:00
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The Olimex STM32-E407 configuration is based on the configuration
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olimex-stm32-h407 and stm32f4discovery.
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2016-06-27 13:41:41 +02:00
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2019-07-11 14:20:09 +02:00
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Configurations
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==============
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Instantiating Configurations
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----------------------------
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Each Olimex-STM32-E407 configuration is maintained in a sub-directory and
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can be selected as follow:
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2019-08-06 00:53:39 +02:00
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tools/configure.sh [OPTIONS] olimex-stm32-e407:<subdir>
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2019-07-11 14:20:09 +02:00
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2019-07-11 18:28:42 +02:00
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Typical options include -l for a Linux host platform or -c for Cygwin
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host platform. See 'tools/configure.sh -h' for other options. And
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<subdir> is one of the sub-directories listed below.
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2019-07-11 14:20:09 +02:00
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Compile Firmware
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----------------
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Once you've set the proper configuration, you just need to execute the next
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command:
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make
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If everything goes find, it should return the next two files:
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nuttx.hex
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nuttx.bin
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2019-07-11 18:28:42 +02:00
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You can return more kinds of files by setting on menuconfig.
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2019-07-11 14:20:09 +02:00
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Flashing the Board
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-----------------
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You can flash this board in different ways, but the easiest way is using
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ARM-USB-TINY-H JTAG flasher device.
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Connect this device to the JTAG connector and type the next command:
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openocd -f interface/ftdi/olimex-arm-usb-tiny-h.cfg -f target/stm32f4x.cfg -c init -c "reset halt" -c "flash write_image erase nuttx.bin 0x08000000"
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Configuration Directories
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-------------------------
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2019-07-18 08:06:43 +02:00
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2019-07-11 14:20:09 +02:00
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nsh:
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---
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Configures the NuttShell (nsh) located at apps/examples/nsh. This
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configuration enables a console on UART2. Support for
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builtin applications is enabled, but in the base configuration no
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builtin applications are selected.
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usbnsh:
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------
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Configures the NuttShell (nsh) located at apps/examples/nsh. This
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configuration enables a console on USB_OTG1. Support for
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builtin applications is enabled, but in the base configuration no
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builtin applications are selected.
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netnsh:
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------
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Configures the NuttShell (nsh) located at examples/nsh. This
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configuration is focused on network testing.
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2019-07-12 15:47:46 +02:00
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bmp180:
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2019-07-11 14:20:09 +02:00
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------
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2019-07-12 15:22:20 +02:00
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This is a configuration example for the BMP180 barometer sensor. This
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sensor works with I2C, you need to do the next connections:
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2019-07-11 14:20:09 +02:00
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2019-07-12 15:22:20 +02:00
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BMP180 VIN -> Board 3.3V
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BMP180 GND -> Board GND
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BMP180 SCL -> Board PB6 (Arduino header D1)
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BMP180 SDA -> Board PB7 (Arduino header D0)
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2019-07-11 14:20:09 +02:00
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2019-07-12 15:22:20 +02:00
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This example is configured to work with the USBNSH instead of UART NSH, so
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the console will be shown over the USB_OTG1 connector.
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On the console, type "ls /dev " and if the registration process goes fine,
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you should see a device called "press0". Now execute the app
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BMP180 to see the ambient pressure value.
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2019-07-12 15:47:46 +02:00
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dac:
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2019-07-12 15:22:20 +02:00
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---
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2019-07-18 08:06:43 +02:00
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This is a configuration example to use the DAC1 of the board. The DAC1
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is attached to the PA4 pin (Arduino header D10).
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2019-07-12 15:22:20 +02:00
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This example is configured to work with the USBNSH instead of UART NSH, so
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the console will be shown over the USB_OTG1 connector.
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On the console, type "ls /dev " and if the registration process goes fine,
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you should see a device called "dac0". Now execute the app
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dac put a value at the output.
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2019-07-11 14:20:09 +02:00
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2019-07-12 15:47:46 +02:00
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ina219:
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2019-07-12 15:29:03 +02:00
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------
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This is a configuration example for the INA219 DC current sensor. This
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sensor works with I2C, you need to do the next connections:
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INA219 VIN -> Board 3.3V
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INA219 GND -> Board GND
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INA219 SCL -> Board PB6 (Arduino header D1)
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INA219 SDA -> Board PB7 (Arduino header D0)
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This example is configured to work with the USBNSH instead of UART NSH, so
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the console will be shown over the USB_OTG1 connector.
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On the console, type "ls /dev " and if the registration process goes fine,
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you should see a device called "ina219". Now execute the app
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ina219 to see the ambient pressure value.
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2019-07-12 15:47:46 +02:00
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timer:
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-----
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2019-07-18 08:06:43 +02:00
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This configuration set the proper configuration to use the timer1 of the
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board. This example is configured to work with the USBNSH instead of
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UART NSH, so the console will be shown over the USB_OTG1 connector.
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2019-07-12 15:47:46 +02:00
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On the console, type "ls /dev " and if the registration process goes fine,
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you should see a device called "timer1".
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2019-07-18 08:06:43 +02:00
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mrf24j40-mac:
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------------
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This configuration set the proper configuration to set the 802.15.4
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communication layer with the MRF24J40 radio. This radio works wit
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SPI, you need to do the next connections:
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MRF24J40 VCC -> Board 3.3V
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MRF24J40 GND -> Board GND
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MRF24J40 SCLK -> Board PA5 (Arduino header D13)
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MRF24J40 MISO -> Board PA6 (Arduino header D12)
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MRF24J40 MOSI -> Board PB5 (Arduino header D11)
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MRF24J40 CS -> Board PA4 (Arduino header D10)
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MRF24J40 INT -> Board PG12 (Arduino header D8)
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This example is configured to work with the USBNSH instead of UART NSH,
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so the console will be shown over the USB_OTG1 connector.
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Once you're on the console, you need to check if the initialization
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process was fine. To do so, you need to type "ls /dev" and you should
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see a device call "ieee0". At this point we need to set-up the network,
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follow the next steps:
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This is an example of how to configure a coordinator:
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i8sak /dev/ieee0 startpan cd:ab
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i8sak set chan 11
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i8sak set saddr 42:01
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i8sak acceptassoc
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This is an example of how to configure the endpoint:
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i8sak /dev/ieee0
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i8sak set chan 11
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i8sak set panid cd:ab
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i8sak set saddr 42:02
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i8sak set ep_saddr 42:01
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i8sak assoc
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mrf24j40-6lowpan:
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----------------
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This configuration set the proper configuration to use 6lowpan protocol with the MRF24J40
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radio. This radio works with SPI, you need to do the next connections:
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MRF24J40 VCC -> Board 3.3V
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MRF24J40 GND -> Board GND
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MRF24J40 SCLK -> Board PA5 (Arduino header D13)
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MRF24J40 MISO -> Board PA6 (Arduino header D12)
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MRF24J40 MOSI -> Board PB5 (Arduino header D11)
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MRF24J40 CS -> Board PA4 (Arduino header D10)
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MRF24J40 INT -> Board PG12 (Arduino header D8)
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This example is configured to work with the USBNSH instead of UART NSH, so
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the console will be shown over the USB_OTG1 connector.
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Once you're on the console, you need to check if the initialization process
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was fine. To do so, you need to type "ls /dev" and you should see a device
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call "ieee0". At this point we need to set-up the network, follow the next steps:
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This is an example of how to configure a coordinator:
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i8sak wpan0 startpan cd:ab
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i8sak set chan 11
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i8sak set saddr 42:01
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i8sak acceptassoc
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When the association was complete, you need to bring-up the network:
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ifup wpan0
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This is an example of how to configure the endpoint:
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i8sak wpan0
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i8sak set chan 11
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i8sak set panid cd:ab
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i8sak set saddr 42:02
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i8sak set ep_saddr 42:01
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i8sak assoc
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When the association was complete, you need to bring-up the network:
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ifup wpan0
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If you execute the command "ifconfig", you will be able to see the info of the WPAN0 interface
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and see the assigned IP. This interface can be use with an UDP or TCP server/client application.
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2019-07-12 15:47:46 +02:00
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