Little Bird

RedBear Duo

Name: RedBear Duo
Brand: Little Bird
SKU: RB-REDBEARDUO
Price: 49.2 AUD
Availability: OutOfStock

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The RedBear Duo is a thumb-sized IoT development board with built-in Wi-Fi, Bluetooth 4.1 (dual mode), and Particle cloud connectivity. Everything you need t...

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The RedBear Duo is a thumb-sized IoT development board with built-in Wi-Fi, Bluetooth 4.1 (dual mode), and Particle cloud connectivity. Everything you need to prototype connected devices is on board — just add your idea.

Powered by an STM32F205 ARM Cortex-M3 at 120 MHz with Broadcom BCM43438 wireless, the Duo supports multiple development environments including Arduino IDE, Particle Web IDE, Broadcom WICED SDK, and JavaScript. With the optional RBLink expansion board, you can connect Seeed Grove modules without any soldering.

Key Features

Wi-Fi + Bluetooth – BCM43438 combo chip with 802.11n (2.4 GHz) and Bluetooth 4.1 (Classic + BLE) on a shared antenna
Cloud Ready – Built-in Particle cloud service for remote management and OTA updates
Multiple Dev Environments – Arduino IDE, Particle Web IDE, Broadcom WICED SDK, and JavaScript
18 I/O Pins – Flexible pin configuration for sensors, actuators, and peripherals
Integrated Antenna – On-board chip antenna with option to connect an external antenna
Grove Compatible – Attach Seeed Grove modules via the optional RBLink expansion board (no soldering required)
Headers Pre-Soldered – Ready to use on breadboards straight out of the box

Specifications

Processor – STM32F205 ARM Cortex-M3 @ 120 MHz
SRAM – 128 KB
Flash – 1 MB (MCU) + 2 MB on-board SPI flash
Wireless – Broadcom BCM43438: Wi-Fi 802.11n (2.4 GHz) + Bluetooth 4.1 Dual Mode
Antenna – Integrated chip antenna (external antenna connector available)
I/O Pins – 18
Status Indicator – RGB LED
Dimensions – 40 × 20 × 13 mm

Ideal For

IoT prototyping and connected device development
Wi-Fi and Bluetooth enabled projects
Cloud-connected sensor networks
Wearable electronics

Package Contents

1× RedBear Duo (with headers soldered)

Resources

RedBear Duo on GitHub

Jargon buster

Plain-language definitions for the technical terms used above.

BLE: BLE stands for Bluetooth Low Energy, a Bluetooth mode designed for lower power use and modern phone compatibility. It matters because BLE support can make the module easier to use with Apple devices and battery-powered projects, though it may behave differently from classic serial Bluetooth.
Grove: Grove is a plug-in connector ecosystem for sensors and modules that avoids soldering and jumper wires. Grove compatibility matters because it can make it quicker to add supported I2C devices, as long as the cable and voltage are suitable.
Headers: Rows of metal pins used to plug a module into a breadboard or connect it with jumper wires. Pre-soldered headers make the module easier to use straight away without needing to solder the pins yourself.
IDE: Short for Integrated Development Environment, a program used to write, run and manage code. It matters because some learners prefer a traditional coding workspace instead of a guided notebook-style lesson.
IoT: Short for Internet of Things, meaning physical devices that connect to networks or the internet to send data or be controlled remotely. It matters if you want projects such as connected sensors, remote controls or classroom data-logging activities.
LED: A light-emitting diode is a small electronic component that lights up when current flows through it in the correct direction. In this kit, LEDs create the flashing effect, so polarity and correct soldering matter for the project to work.
OTA: OTA means over-the-air updating, where firmware is updated wirelessly instead of through a programming cable. It matters because you may be able to update or maintain the module after it is installed in a project.
RGB: Short for red, green and blue, usually referring to an LED that can mix those three colours. It matters because controlling an RGB LED teaches how separate outputs combine to create different colours.
SPI: A fast serial communication bus often used for displays, memory cards, and sensors. It matters because SPI devices need specific pins for clock and data, plus a separate chip-select line for each device.
SRAM: Fast temporary memory used by a processor while a program is running. More SRAM helps with projects that handle larger data buffers, networking, displays, or more complex code.