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Beetle ESP32-C6 is a mini size Arduino low-power IoT development board based on the ESP32-C6 chip, featuring a compact design with dimensions as small as a coin (25*20.5mm). The ESP32-C6 is equipped with a high-performance 160MHz RISC-V 32-bit processor, supporting communication protocols such as Wi-Fi 6, Bluetooth 5, Zigbee 3.0, Thread 1.3, and Matter. It is capable of connecting to various IoT networks using multiple communication protocols, making it ideal for use as a Matter terminal device. The development board integrates lithium battery charging management, allowing for battery charging without the need for external modules. This feature contributes to a more compact project size, making it highly suitable for wearable applications.
Highly integrated with an ultra-compact size
In a form factor no larger than a coin, the Beetle ESP32-C6 provides up to 13 IO ports, alleviating concerns about insufficient IO ports during project development. The Beetle ESP32-C6 integrates lithium battery charging management, ensuring the safe charging of lithium batteries. Moreover, this development board supports battery voltage monitoring, enabling proactive measures to be taken in case of low battery levels, guaranteeing continuous device operation.
Figure: Comparison of the size between the Beetle ESP32-C6 and the keycap
Multiple transmission protocol support to expand wireless connectivity
Boasting support for multiple communication protocols, the Beetle ESP32-C6 expands wireless connectivity options. By supporting Wi-Fi and Thread protocols, it enables the creation of Matter Wi-Fi terminal devices and Matter Thread terminal devices, facilitating seamless communication and collaboration among multiple systems and platforms in smart home setups. Additionally, the Beetle ESP32-C6 supports BLE (Bluetooth Low Energy), Zigbee communication protocols, and now also includes support for Matter, making it suitable for use as a Thread border router, Matter gateway, or Zigbee bridge when combined with other MCUs. This comprehensive support for communication protocols ensures that the Beetle ESP32-C6 can be integrated into a wide array of IoT applications, especially within the smart home ecosystem where interoperability and versatility are key.
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Figure: Beetle ESP32-C6 supports BLE, Zigbee, Wi-Fi 6 and Thread
Support Wi-Fi 6 to realize ultra-low power consumption IoT devices
With Wi-Fi 6 support, the Beetle ESP32-C6 enables the realization of ultra-low-power IoT devices. As the first Espressif chip to support the Wi-Fi 6 (802.11ax) protocol, it offers improved network capacity, allowing devices to operate efficiently with low latency. Moreover, Wi-Fi 6's Target Wake Time (TWT) technology effectively reduces device power consumption, extending battery life and ensuring long-lasting device performance.
Figure: Wi-Fi 6's Target Wake Time (TWT) technology
Basic Parameters
Hardware Information
WIFI
Bluetooth
IEEE 802.15.4
Ports
Project: Chapter 1 ESP32-C6 ST7789 2.4 Dfrobot_GDL (Graphic sample)
Introduction: In this video, we'll learn about how to connect an ESP32-C6 to a 2.4-inch ST7789 display using the sample code from the DFRobot_GDL(Graphic sample) library, which is a convenient and efficient way to develop your electronic projects.
Chapter 2: ESP32-C6 ADC & UART
Introduction: In this tutorial, we will cover how to use the ADC (Analog to Digital Converter) and UART (Universal Asynchronous Receiver/Transmitter) functionalities of the FireBeetle 2 ESP32-C6 board.
Project: What do you need for personal smart home based on the Matter network?
Introduction: As technology advances, smart homes have become an integral part of our lives. Among all the smart home solutions, those based on the Matter network are gaining popularity due to their openness, interoperability, and security. So, what do we need to set up a Matter-based smart home system?
Project: How to Connect ESP32-C6 to the Matter Network
Introduction: In this guide, we will use the ESP32-C6 to create a smart light bulb and integrate it into a Matter network.
Note:The FireBeetle 2 ESP32 C6 IoT Development Board used in this project can be completely replaced with the Beetle ESP32-C6.
Project: Perfect Temperature Tea For Hours!
Introduction: This tutorial guides viewers in creating a mug warmer using a hot plate, an IR sensor, a temperature sensor, and a microcontroller. The system keeps tea warm by activating a heater or a fan based on the tea's temperature. The video also discusses the device's design and assembly.
