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Seeed Studio XIAO ESP32C3 Dev Board 3-Pack

Seeed Studio XIAO ESP32C3 Dev Board 3-Pack

MPN: 102010572
Seeed Studio
Multiprotocol Development Tools XIAO ESP32C3 3PCS Pack - RISC-V tiny MCU board with Wi-Fi and Bluetooth5.0, battery charge supported,
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Overview

The Seeed Studio XIAO ESP32C3 is a compact development board built around Espressif's ESP32-C3 family. It combines a small RISC-V MCU with Wi-Fi and Bluetooth 5.0, making it suitable for connected embedded prototypes and space-constrained designs. This listing is for a 3-piece pack of the board, which is useful for multi-node experimentation or team development.

Why Choose This Part

The XIAO form factor is attractive when board space matters, while still giving engineers a practical MCU, wireless connectivity, and easy prototyping access. A 3-pack lowers the friction for building multiple test nodes, comparison builds, or a small development fleet. Battery charging support also makes it convenient for portable demonstrations and embedded experiments.

Applications

Wi-Fi sensor node prototyping
Build compact wireless data loggers or sensor endpoints that send telemetry over 2.4 GHz Wi-Fi.
Bluetooth Low Energy accessories
Create small BLE peripherals such as beacons, controllers, or companion devices.
IoT proof-of-concept hardware
Prototype cloud-connected devices that need a low-cost MCU with integrated wireless connectivity.
Battery-powered embedded projects
Use the board's battery charge support for portable demos and early-stage low-power designs.
Education and workshops
A small form factor board pack is well suited to labs, classrooms, and rapid hands-on development.

Getting Started

Start with the Arduino IDE or PlatformIO if you want the fastest path to first code, or use the ESP-IDF if you need lower-level control of the ESP32-C3 platform. Use a USB-C cable and the board's native USB programming path for flashing and serial logging, then verify your board package and target selection in the IDE before compiling. If your design will run from a battery, validate charging, power path behavior, and sleep-current expectations early in the bring-up process.