Site icon Pallav Aggarwal

MangoPi-Nezha MQ: Low-Cost RISC-V SBC (39$)

MangoPi-Nezha MQ is a tiny open-source RISC-V development board that integrates Wi-Fi connectivity and dual USB Type-C ports into just 40mm x 40mm board. This is developed by RT-Thread, the organization involved building low footprint RTOS for various processors.

Powered by the Allwinner D1s chip, MangoPi board has support for display interfaces like RGB, DSI, and LVDS. It also includes onboard silicon microphones and class-D amplifiers for audio output(1W).

Software Support

MangoPi-Nezha MQ runs Tina Embedded Linux, an OpenWrt-based embedded system. With LVGL open-source graphics library, this platform allows you to take full advantage of the board’s hardware features for building application such has HMI, high performance machine controllers, etc. An optimized Debian Linux distribution is available as well.

RT-Thread has implemented support for xboot and RT-Smart, a high-performance microkernel operating system for professional, real-time applications. RT-Smart provides an open-source foundation for all kinds of embedded devices, whether you’re working in consumer electronics, security, industrial control, etc.

Microkernels fill the gap between traditional real-time operating systems (RTOSs) and heavier solutions like Linux. As a result, platforms like RT-Smart tend to do a better job of balancing real-time performance, cost, security, and startup speed.

If you are new to RISC-V, MangoPi-Nezha MQ Board could be a great board to start your entry into RISC-V world with embedded Linux.

Features & Specifications

RT-Thread has also shared the comparison of the MangoPi-Nezha MQ board VS Allwinner D1 development board, Raspberry Pi Zero W, and the SIN-V3S SDK board

Cost of the MangoPi module and from where to buy?

If you are interested in MangoPi SBC, you can order one from Crowd Supply where the crowd funding campaign is live. This board costs 39$ + shipping (based on your country). Delivery of the board is expected by July 2022 timeframe.

I hope you found this information useful.

If you have any feedback, you can share in the comments section or you can also contact me directly.

Read more interesting articles on Embedded Systems Design.

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