BeagleBone_Green_Wireless.md 3/7/2023 Seeed Studio BeagleBone® Green Wireless is a joint effort by BeagleBoard.org and Seeed Studio. It is based on the opensource hardware design of BeagleBone® Black and developed into this differentiated version. Seeed Studio BeagleBone® Green Wireless has included a high-performance flexible WiFi/Bluetooth interface and two Grove connectors, making it easier to connect to the large family of Grove sensors.
BeagleBone_Green_Wireless.md 3/7/2023 Debian Android Ubuntu Cloud9 IDE on Node.js w/ BoneScript library plus much more Specification Item Value Processor AM335x 1GHz ARMR Cortex-A8 RAM 512MB DDR3 on-board Flash Storage 4GB eMMC CPU Supports NEON floating-point & 3D graphics accelerator Micro USB Supports powering & communications USB USB2.0 Host *4 Grove Connectors 2 (One I2C and One UART) GPIO 2 x 46 pin headers Ethernet Wi-Fi 802.11b/g/n 2.4GHz and Bluetooth 4.
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BeagleBone_Green_Wireless.md 3/7/2023 Pin map Each digital I/O pin has 8 different modes that can be selected, including GPIO. 65 Possible Digital I/Os In GPIO mode, each digital I/O can produce interrupts.
BeagleBone_Green_Wireless.md 3/7/2023 PWMs and Timers Up to 8 digital I/O pins can be configured with pulse-width modulators (PWM) to produce signals to control motors or create pseudo analog voltage levels, without taking up any extra CPU cycles.
BeagleBone_Green_Wireless.md 3/7/2023 Analog Inputs Make sure you don't input more than 1.8V to the analog input pins. This is a single 12-bit analog-to-digital converter with 8 channels, 7 of which are made available on the headers.
BeagleBone_Green_Wireless.md 3/7/2023 UART There is a dedicated header for getting to the UART0 pins and connecting a debug cable. Five additional serial ports are brought to the expansion headers, but one of them only has a single direction brought to the headers.
BeagleBone_Green_Wireless.md 3/7/2023 I2C The first I2C bus is utilized for reading EEPROMS on cape add-on boards and can't be used for other digital I/O operations without interfering with that function, but you can still use it to add other I2C devices at available addresses. The second I2C bus is available for you to configure and use.
BeagleBone_Green_Wireless.md 3/7/2023 SPI For shifting out data fast, you might consider using one of the SPI ports.
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BeagleBone_Green_Wireless.md 3/7/2023 We use web browser cookies to create content and ads that are relevant to you. By continuing to use this site, you are consenting to our cookie policy. Learn more about privacy and SketchUp. (https://privacy.sketchup.com/privacy-notice) Click for 3D Model Viewer d l b b Getting Started This chapter is writing under Win10. The steps are familiar for the other operate systems. STEP1.
BeagleBone_Green_Wireless.md 3/7/2023 Operating System USB Drivers Comments Linux mkudevrule.sh Driver installation isn't required, but you might find a few udev rules helpful. For window system, please note that: Windows Driver Certification warning may pop up two or three times. Click "Ignore", "Install" or "Run" To check if you're running 32 or 64-bit Windows see this. On systems without the latest service release, you may get an error (0xc000007b).
BeagleBone_Green_Wireless.md 3/7/2023 After connection succeeded, it will head to the login page automatically. Select the SSID of your Wi-Fi and enter the passwd, click OK. Now your Seeed Studio BeagleBone® Green Wireless is connected to Wi-Fi.
BeagleBone_Green_Wireless.md 3/7/2023 STEP6. Connect your Seeed Studio BeagleBone® Green Wireless to your Bluetooth Device Connect to Cloud9 IDE and start a new terminal. Start the bluetooth config with the command: bb-wl18xx-bluetooth bluetoothctl Type scan on to scan local bluetooth devices. My device named "jy" is found.
BeagleBone_Green_Wireless.md 3/7/2023 Copy the device mac address, then contect to the device with the command: pair 0C:xx:xx:xx:xx:0B trust 0C:xx:xx:xx:xx:0B connect 0C:xx:xx:xx:xx:0B Now your Seeed Studio BeagleBone® Green Wireless is connected to your bluetooth device. Type quit back to the terminal. Play music on Seeed Studio BeagleBone® Green Wireless, then you will hear music on your bluetooth speaker device.
BeagleBone_Green_Wireless.md 3/7/2023 First of all, you have to download the suitable image here. Due to sizing necessities, this download may take about 30 minutes or more. The file you download will have an .img.xz extension. This is a compressed sector-by-sector image of the SD card. STEP2. Install compression utility and decompress the image Download and install 7-zip. Choose a version that suitable for your system. Use 7-zip to decompress the SD card .img file STEP3.
BeagleBone_Green_Wireless.md 3/7/2023 You should not have your BeagleBone® connected to your computer at this time. This process may need up to 10 minutes. STEP5. Boot your board off of the SD card Insert SD card into your (powered-down first) board. Then the board will boot from the SD card. If you don't need to write the image to your on-board eMMC, you don't need to read the last of this chapter. Otherwise pleas go ahead.
BeagleBone_Green_Wireless.md 3/7/2023 Mraa is a C/C++ library with bindings to Python, Javascript and Java to interface with the I/O on Seeed Studio BeagleBone® Green, Seeed Studio BeagleBone® Green Wireless and other platforms, with a structured and sane API where port names/numbering matches the board that you are on. Use of Mraa does not tie you to specific hardware with board detection done at runtime you can create portable code that will work across the supported platforms.
BeagleBone_Green_Wireless.md 3/7/2023 print(rotary.read()) time.sleep(1) More Tutorials Grove - 3-Axis Digital Accelerometer(±16g) Grove - Variable Color LED Grove - Mini Fan Grove - PIR Motion Sensor Grove - Rotary Angle Sensor Grove - Relay Grove - Sound Sensor Grove - OLED Display 0.96” Grove - Light Sensor Grove - Temperature Sensor Grove - GPS Grove - Button(P) Grove - Buzzer Grove - RTC v2.
BeagleBone_Green_Wireless.md 3/7/2023 Grove for Seeed Studio BeagleBone® Green Grove is a modular, standardized connecter prototyping system. Grove takes a building block approach to assembling electronics. Compared to the jumper or solder based system, it is easier to connect, experiment and build and simplifies the learning system, but not to the point where it becomes dumbed down. Some of the other prototype systems out there takes the level down to building blocks.
BeagleBone_Green_Wireless.md 3/7/2023 SKU Name Interface link 101020050 Grove - 3-Axis Digital Gyro Analog link 101020081 Grove - 6-Axis Accelerometer&Compass v2.
BeagleBone_Green_Wireless.md 3/7/2023 Grove Cape Motor Bridge Cape HDMI Cape GET ONE NOW! GET ONE NOW! GET ONE NOW! Grove Cape 5 Inch LCD 7 Inch LCD GET ONE NOW! GET ONE NOW! GET ONE NOW! References There're many references to help you to get more information about the board.
BeagleBone_Green_Wireless.md 3/7/2023 [PDF] Seeed Studio BeagleBone® Green Wireless Schematic(pdf) [Zip] AM335X Datasheet [3D] Seeed Studio BeagleBone® Green Wireless 3D Model [PDF] Seeed Studio BeagleBone® Green Wireless Mechincal Drawing Project Seeed Studio BeagleBone® Green Wireless Irrigation Control: Seeed Studio BeagleBone® Green Wireless Irrigation Control using HTML5, WebSockets, and Ecmascript 6. (https://www.hackster.
