Difference between revisions of "Getting Started with M2M"
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* cd SD/bpi-m2m | * cd SD/bpi-m2m | ||
+ | [[Image:m2m_code_sd.png]] | ||
− | Plug in your SD card to Ubuntu PC | + | Plug in your SD card to Ubuntu PC, then execute "fdisk -l" to check which /dev/sdX were generated by system |
+ | |||
+ | [[Image:m2m_code_sd_dev.png]] | ||
+ | |||
+ | * bpi-update -c bpi-m2m.conf -d /dev/sde | ||
===Make your own image=== | ===Make your own image=== |
Revision as of 17:39, 2 September 2018
Contents
Introduction
BPI-M2M
Banana Pi M2M is another ARM SoC powered development board that offers great computing performance in an ultra portable form factor. It is a 51mm square with Allwinner A33 Quad-core A7 SoC and 512MB DDR3 RAM.
- Read more about : Banana Pi BPI-M2M
Key Features
- Quad Core ARM Cortex A7 CPU. R16
- 512MB DDR3 SDRAM
- WiFi (AP6212) & Bluetooth onboard
Development
Basic Development
Prepare to develop
* Prepare 8G/above TF card, USB-Serial interface, PC with Ubuntu System * Using your USB-Serial Connect debug console on M2M
Compile code
After download code, execute "./build.sh" to compile it.
- ./build.sh
Update your image
After we succeed to the code, Bootloader, kernel, rootfs will be generated in "SD" directory, then how to update the image?
- cd SD/bpi-m2m
Plug in your SD card to Ubuntu PC, then execute "fdisk -l" to check which /dev/sdX were generated by system
- bpi-update -c bpi-m2m.conf -d /dev/sde
Make your own image
Bluetooth
- Use bluetoothctl tool to operate BT
- Execute "bluetoothctl"
- If you don't know how to use bluetoothctl, type "help", you will see more commands
- Execute these commands:
WiFi Client
You have two ways to setup WiFi Client
1. Use commands to setup WiFi client
- ip link set wlan0 up
- iw dev wlan0 scan | grep SSID
- vim /etc/wpasupplicant/wpa_supplicant.conf
- network={ ssid="ssid" psk="password" priority=1 }
- wpa_supplicant -i wlan0 -c /etc/wpa_supplicant/wpa_supplicant.conf
- dhclient wlan0
2. Use UI interface to setup WiFi Client
NAS Application
1. Usb hub + sata to usb
- HDD is supported
- SSD is supported
Camara function
We use HDF5640 camara.
Guvcview
- Use your UI interface to operate camara
- Applications -> Sound & Video -> guvcview
Shell
- We also have built-in command in /usr/local/bin to test camara
- "./test_ov5640_image_mode.sh" to test picture taking function
- "./cameratest.sh" to test video recording function
BPI-Tools
Install Bpi-tools
- Execute "curl -sL https://github.com/BPI-SINOVOIP/bpi-tools/raw/master/bpi-tools | sudo -E bash - "
Update Bpi-tools
- Execute "bpi-tools"
RPi.GPIO
Install RPi.GPIO
- Execute "git clone https://github.com/BPI-SINOVOIP/RPi.GPIO"
- after clone the repo, cd RPi.GPIO
- Execute "sudo apt-get update"
- Execute "sudo apt-get install python-dev python3-dev"
- Execute "sudo python setup.py install" or "sudo python3 setup.py install" to install the module
Using RPi.GPIO
- cd /usr/local/bin
- Execute "./bpi_test_g40.py" to test RPi.GPIO
WiringPi
- GitHub: https://github.com/BPI-SINOVOIP/BPI-WiringPi2.git
- We also have built-in test command in "/usr/local/bin"
How to Update WiringPi
- Execute "bpi-update -c pkglist.conf"
- Execute "bpi-update -c bpi-pkg-bpi-wiringpi.conf"
RGB 1602 LCD
- Execute "/usr/local/bin/bpi_test_lcd1602.sh"
0.96 Inch OLED Display
- Execute "/usr/local/bin/bpi_test_52pi.sh"
8x8 RGB LED Martix
- Firstly you need a GPIO Extend Board for 8x8 LED Martix
- Execute "/usr/local/bin/bpi_test_gpio40.sh"