Difference between revisions of "BPI-UNO32"
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==BPI:UNO32 for Arduino == | ==BPI:UNO32 for Arduino == | ||
− | BPI:UNO32 for arduino Source code on Github: https://github.com/yelvlab/BPI- | + | BPI:UNO32 for arduino Source code on Github: https://github.com/yelvlab/BPI-uno32 |
Revision as of 01:52, 9 May 2018
Contents
Introduction
The BPI:UNO32 (also referred to as BPI-UNO32, stylised as BPI UNO32) is an ESP32 with Xtensa 32bit LX6 single/dual-core processor based embedded system. support Webduino and arduino function.
BPI-UNO32 uses the ESP-WROOM-32 of espressif company as MCU. ESP32 is a single-chip solution integrating 2.4GHz Wi-Fi and Bluetooth dual mode. The 40 nanometer technology of TSMC has the best power consumption, RF performance, stability, versatility and reliability. It can deal with various application scenarios.
Two separate controlled CPU cores, the main frequency can be up to 240MHz, 448KB ROM, 520KB SRAM.
BPI-UNO32 The appearance size is fully matched with Arduino UNO R3
BPI:UNO32 hardware
BPI:UNO32 interface
BPI:UNO32 Spec
Hardware spec | |||
CPU | Xtensa® 32-bitLX6single / dual core processor | ||
ROM | 448KB | ||
SRAM | 520KB | ||
Flash | 4MB(Onboard),A maximum of 4 Flash/SRAM, each Flash maximum 16MB | ||
Power | 5V@1AmicroUSBpoweror 5.5mm 12VDCport | ||
GPIO | 12-bits SAR ADC 18 channel, 2\*8-bit D/A converter, 4*SPI, 2*I2S, 2*I2C, 3*UART, Host SD/eMMC/SDIO, Slave SDIO/SPI | ||
Wi-Fi | 802.11 b/g/n/e/i 802.11 n\(2.4GHz 150Mbps\) 802.11 e\(Quality of Service\) | ||
Bluetooth | BT4.2 & BLE | ||
Buzzer | Passive buzzer | ||
LEDs | RGB LED/POWER LED/Receive LED/Transmit LED | ||
Sizes | 68mm\*53mm |
BPI:UNO32 PIN define
BPI-UNO32 software
Ardino IDE
- Arduino IDE:Open File -> Preferences, as shown in the following figure:
- Click the button in the red circle above and add the following URL in the newly popped
- window:https://git.oschina.net/dfrobot/FireBeetle-ESP32/raw/master/package\_esp32\_index.json
- As shown below:
- Open Tools->Board->Board Manager. Pull down to see FireBeetle-ESP32 and click Install.
- Open a project in the upper left corner of the file, or open an example.
- Select a correct port in Tools -> Ports, then click ”compile"will be compiled code,clickwill "run" be burn program。
- PlatformIO for Atom/VS Code
1,First open the PlatformIO Home page, then click Open Project to open the project. \(You can choose the test code.\) If you write your own code to burn, then the platformio.ini file should write the following code
[env:BPI-uno32] platform = espressif32 board = nodemcu-32s framework = arduino
2,The code path under PlatformIO project is generally src/main.cpp. Open the code and use Ctrl+\` to open the terminal debugger. Enter platformio run --target upload.
3,Make sure the board is connected. The program will be compiled first and then burned into the BPI-uno32 board. There are some points to note. If the above code does not specify the port, please try to avoid other serial devices connected on the computer. For serial port numbers, run platformio --help.
uPyCraft(microPyhton
1,first open the uPyCraft software, click the Tools->Serial port to select the port in the upper toolbar. After selecting port, the software will automatically decide whether to burn the firmware, if necessary, the interface will be popped up.
uPyCraft(microPyhton):
- first open the uPyCraft software, click the Tools->Serial port to select the port in the upper toolbar. After selecting port, the software will automatically decide whether to burn the firmware, if necessary, the interface will be popped up.
2,when the software interface is opened, we choose ESP32 in board. If erase\_flash chooses yes, it will wipe out the original flash first, and generally choose to erase it, so that the original flash will have an impact on it now.
3, after the selection, click Yes to start the burning, there will be the following dialog, only to wait for it.
when the Burn column is full, the dialog box automatically closes and displays the software master interface.
4,In the main interface we can clickto “connect" connected. It is located in the lower row of the toolbar. The following interface will appear after the connection
This means we can appear > > > for interactive programming like to Python in the following dialogue.
Basic function test:
You can visit GitHub to download the test code, compile, burn, and observe the test results through the serial port.
Project link \(PlatformIO\):https://github.com/yelvlab/BPI-uno32\_Webduino/tree/master/Test\_Code/PlatformIO\_VSCode
BPI:UNO32 for Arduino
BPI:UNO32 for arduino Source code on Github: https://github.com/yelvlab/BPI-uno32