#Prototype board install
Developers can SSH into the Linux OS and install required packages. One of the key advantages of CHIP is the cost and the form-factor.
The board also supports PWM, UART, I2C for connecting motors and other actuators.
With 8 GPIO pins, CHIP can be connected to a variety of sensors. Since CHIP supports headless operation, you can get started without ever connecting it to a display. You may need an adapter to connect it to regular VGA or HDMI displays. To connect it to a display, you have to use a TRRS connector for the composite output. The only drawback of this board is that it doesn’t have HDMI out. You don’t need a separate SD Card to install and run the OS. The board has 4GB of high-speed storage to run a special Linux distribution based on Debian. The best thing about CHIP is that it comes with embedded Bluetooth 4.0 and WiFi radios, providing out-of-the-box connectivity. It comes with a powerful 1GHz processor powered by Allwinner R8. With the $9 price tag, it’s one of the most affordable full-blown computers available in the market.
Developers will have to choose from microcontroller-based boards, System on Chip (SOC) boards, Single-board Computers (SBC) and purpose-built boards with support for Smart Bluetooth and WiFi.įor beginners, it’s always confusing to choose the right board. Here is a list of 10 development boards that are ideal for your first IoT project. In the last 18 months, the DIY market exploded with the availability of a variety of boards. Makers and hackers getting started with connected devices and the Internet of Things (IoT) have many choices of development boards.