Adafruit
Mongoose OS Google IoT Core Pack w/ Adafruit Feather HUZZAH32
The Mongoose OS Google IoT Core Pack is a complete starter kit for building IoT projects with Google Cloud, built around the Adafruit Feather HUZZAH32 (ESP32...
The Mongoose OS Google IoT Core Pack is a complete starter kit for building IoT projects with Google Cloud, built around the Adafruit Feather HUZZAH32 (ESP32). Developed in collaboration with Google and Mongoose OS, this kit includes a pre-soldered ESP32 Feather board along with sensors, actuators, and components to get you started on your IoT journey.
The Feather HUZZAH32 features an ESP32 WiFi microcontroller clocked at 240 MHz with built-in USB and battery charging. With significantly more GPIO, analog inputs, two analog outputs, dual cores, and additional peripherals compared to the ESP8266, the ESP32 is a powerful platform for connected projects.
Key Features
- ESP32 WiFi Microcontroller – 240 MHz dual-core processor at 3.3 V logic
- Google IoT Core Ready – Mongoose OS firmware for quick cloud connectivity
- Pre-Soldered Feather Board – Built-in USB, battery charging, and WiFi
- Complete Sensor Kit – Temperature/humidity, motion, vibration, light, and door sensors included
- Breadboard & Components – Full-sized breadboard, jumper wires, LEDs, resistors, and more
Ideal For
- Getting started with Google IoT Core and cloud-connected devices
- ESP32 WiFi development and prototyping
- Learning IoT concepts with real sensors and actuators
- Mongoose OS firmware development
Package Contents
- 1× Adafruit HUZZAH32 – ESP32 Feather Board (pre-soldered)
- 1× Micro Servo
- 1× PIR Motion Sensor
- 1× USB Cable (A to Micro-B)
- 1× Fast Vibration Switch
- 1× Magnetic Contact Switch (door sensor)
- 1× Full-Sized Breadboard
- 1× Premium Male/Male Jumper Wires (40 × 6″)
- 1× DHT22 Temperature-Humidity Sensor + Extras
- 3× 12 mm Tactile Switches
- 1× Breadboard Trim Potentiometer (10 kΩ)
- 1× Diffused 10 mm Green LED
- 1× Diffused 10 mm Red LED
- 5× 10 kΩ Resistors (5%, 1/4 W)
- 5× 560 Ω Resistors (5%, 1/4 W)
- 1× Piezo Buzzer
- 1× Photo Cell Light Sensor
- 1× Diffused RGB LED (common anode)
- 1× SPDT Slide Switch (breadboard-friendly)
Resources
Jargon buster
Plain-language definitions for the technical terms used above.
- ESP32
- ESP32 is a family of microcontroller modules with built-in wireless features such as Bluetooth and WiFi. Knowing this product uses an ESP32-based module helps explain how it provides wireless serial communication and firmware update features.
- GPIO
- General-purpose input/output pins are microcontroller pins you can set in software to read signals, switch devices on and off, or connect to peripherals. The number of GPIO pins matters because it limits how many buttons, LEDs, sensors, and other parts you can wire directly to the board.
- 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.
- microcontroller
- A microcontroller is a small computer on a chip that runs your program and controls connected inputs and outputs. For this product, it is the part that reads buttons and sensors, drives the display and speaker, and communicates over Bluetooth.
- potentiometer
- A variable resistor usually turned with a knob or shaft to create an adjustable electrical signal. It is often used for inputs such as volume, brightness or position, so it helps beginners learn how a microcontroller reads changing values.
- 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.
- servo
- A servo is a motor with built-in position control, usually told to move to a specific angle by a control signal. It matters when you need repeatable movement, such as steering, arms, flaps, or linkages, rather than continuous spinning.
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