Adafruit

Pimoroni Inventor HAT Mini for Raspberry Pi

Name: Pimoroni Inventor HAT Mini for Raspberry Pi
Brand: Adafruit
SKU: AF-5736
Price: 73.16 AUD
Availability: InStock

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A versatile motor, servo, and audio driver HAT for Raspberry Pi. Bring your mechanical inventions, creations, and contraptions to life!  Inventor HAT Mi...

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A versatile motor, servo, and audio driver HAT for Raspberry Pi. Bring your mechanical inventions, creations, and contraptions to life!

Inventor HAT Mini helps transform a Raspberry Pi computer into a robot, prop, kinetic sculpture, creepy automaton, or any other exciting moving thing. Want to drive a couple of fancy motors with encoders (or hook up standard motors with jumper wires)? Yep! Add up to four servos? Sure? Attach a little speaker so you can make noise? No problem!

It's expandable too, with a pass-through header for stacking with other boards and four extra ADC-capable GPIO pins - you could use these to attach analog or digital sensors, or more buttons and LEDs. Speaking of LEDs, they've also managed to fit in 8 addressable RGB LEDs (AKA NeoPixels) 🌈 - that's one for each servo and GPIO/ADC channel so you can use them as indicators.

The folks at Pimoroni wanted Inventor HAT Mini to be fast and easy to get started with, so they've equipped it with convenient pre-soldered pin headers, a Qw/ST connector for plugging in breakouts, and a fully featured Python library with plenty of helpful examples. For power users, they've added an unpopulated external power input and the ability to use higher voltage motors and servos (up to 10V).

Features

Nuvoton microcontroller (MS51TC0AE) with built-in 16-bit PWM and 12-bit Analog to Digital Converter (datasheet)
- 4 sets of header pins for connecting 3-pin hobby servos
- 4 sets of header pins for GPIO (all of which are ADC capable)
- Servo and GPIO pins all have their own power and ground pins
Dual H-Bridge motor driver (DRV8833)
- 2 JST-SH connectors (6-pin) for attaching motors with encoders
- Alternate socket connector for attaching 2 standard (2-pin) motors
- Per motor current limiting (425mA)
- Per motor direction indicator LEDs
MAX98357 3.2W I2S mono amplifier
- 2-pin (Picoblade-compatible) connector for attaching speaker
8 x addressable RGB LEDs/NeoPixels
User button
Qw/ST connector for attaching breakouts
Pass-through 40-pin header
Fully assembled - no soldering required
Python library
Schematic

Inventor HAT Mini is compatible with all Raspberry Pi computers with a 40-pin header attached. Mini HATs fit especially neatly on top of Raspberry Pi Zero boards, though.

Raspberry Pi, motors, servos, and speakers are sold separately.

Fun with Nuvoton

A Nuvoton microcontroller handles the nitty gritty of driving the hardware accurately behind the scenes, we also use it for analog to digital conversion and as a handy I/O expander.

Because most of the Inventor HAT Mini functions are connected to this microcontroller, this HAT only uses a handful of pins on your Pi. With that in mind, we've used a pass-through header so you can stack it easily with other HATs and components that need access to the GPIO.

Pinout

Connecting Breakouts

The Qw/ST connector makes it super easy to connect up Qwiic or STEMMA QT breakouts. If your breakout has a QW/ST connector on board, you can plug it straight in with a JST-SH to JST-SH cable.

Breakout Garden breakouts that don't have a Qw/ST connector can be connected using a JST-SH to JST-SH cable plus a Qw/ST to Breakout Garden adaptor. Want to use multiple Qw/ST breakouts at the same time? Try this adaptor!

Jargon buster

Plain-language definitions for the technical terms used above.

ADC: An analogue-to-digital converter reads a changing voltage and turns it into a number the microcontroller can use. It matters when connecting analogue sensors such as light, sound, or variable-resistor sensors.
breakout: A breakout is a small circuit board that makes a tiny or hard-to-solder component easier to connect to with standard pins. It matters because this OLED module can be wired into a microcontroller project without needing to solder directly to the display’s fine contacts.
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.
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.
I/O expander: An I/O expander is a chip that provides extra input and output pins controlled through a bus such as I2C. It matters when a board has many display signals, because it helps manage buttons, resets, or control lines without using up scarce microcontroller pins.
I2S: I2S is a digital audio interface used to send sound data between chips, such as from a microcontroller to an audio amplifier or DAC. It matters if your project needs cleaner digital audio output than a basic buzzer or PWM signal can provide.
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.
motor driver: An electronic circuit that lets a low-power controller switch and control a motor that needs more current than the controller pins can safely provide. Checking motor driver support matters because pumps and motors usually cannot be connected directly to a microcontroller output.
PWM: Pulse Width Modulation is a way for a digital pin to simulate variable output power by switching on and off very quickly. It matters for controlling things like LED brightness, motor speed, or servo-style signals from a microcontroller pin.
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.