4 LEDs and 4 push buttons ensure hours of fun. Repeat the combination, harder and harder, faster and faster. The microprocessor-controlled game has 4 different difficulty levels and low consumption. The sound and/or LED indication are adjustable. To save the three 1.5 V AA batteries (not included), the kit automatically switches itself off when not in use.
Downloads
Manual
The Arduino MKR Zero is a development board for music makers! With an SD card holder and dedicated SPI interfaces (SPI1), you are able to play music files without extra hardware.
The MKR Zero brings you the power of a Zero in the smaller format established by the MKR form factor. The MKR Zero board acts as a great educational tool for learning about 32-bit application development. It has an on-board SD connector with dedicated SPI interfaces (SPI1) that allows you to play with MUSIC files with no extra hardware! The board is powered by Atmel’s SAMD21 MCU, which features a 32-bit ARM Cortex M0+ core.
The board contains everything needed to support the microcontroller; simply connect it to a computer with a micro-USB cable or power it by a LiPo battery. The battery voltage can also be monitored since a connection between the battery and the analog converter of the board exists.
Specifications
Microcontroller
SAMD21 ARM Cortex-M0+ 32-bit low power
Board power supply (USB/VIN)
5 V
Supported battery
Li-Po single cell, 3.7 V, 700 mAh minimum
DC current for 3.3 V pin
600 mA
DC current for 5 V pin
600 mA
Circuit operating voltage
3.3 V
Digital I/O pins
22
PWM pins
12 (0, 1, 2, 3, 4, 5, 6, 7, 8, 10, A3 - or 18 -, A4 -or 19)
UART
1
SPI
1
I²C
1
Analog input pins
7 (ADC 8/10/12 bit)
Analog output pins
1 (DAC 10 bit)
External interrupts
10 (0, 1, 4, 5, 6, 7, 8, A1 -or 16-, A2 - or 17)
DC current per I/O pin
7 mA
Flash memory
256 KB
Flash memory for bootloader
8 KB
SRAM
32 KB
EEPROM
No
Clock speed
32.768 kHz (RTC), 48 MHz
LED_BUILTIN
32
Downloads
Datasheet
Eagle Files
Schematics
Fritzing
Pinout
Enhance your ESP32 WiFi Color Display Kit Grande with this high-quality 900 mAh rechargeable lithium-polymer battery!
Designed to provide long-lasting power, this battery ensures your projects remain portable and efficient. With its compact size and lightweight design, it’s the perfect accessory for any DIY electronics enthusiast. The battery offers reliable performance, easy integration, and safe, stable power supply, making it ideal for extended use in a variety of applications.
900 mAh LiPo battery
JST Connector, fitting ePulse Feather
The MLX90640 SparkFun IR Array Breakout features a 32×24 array of thermopile sensors generating, in essence, a low resolution thermal imaging camera. With this breakout you can observe surface temperatures from a decent distance away with an accuracy of ±1.5°C (best case). This board communicates via I²C using the Qwiic system developed by Sparkfun, which makes it easier to operate the breakout. However, there are still 0.1'-spaced pins in case you favour using a breadboard.
The SparkFun Qwiic connect system is an ecosystem of I²C sensors, actuators, shields and cables that make prototyping faster and helps you avoid errors. All Qwiic-enabled boards use a common 1 mm pitch, 4-pin JST connector. This reduces the amount of required PCB space, and polarized connections help you connect everything correctly.
This specific IR Array Breakout provides a 110°×75° field of view with a temperature measurement range of -40~300°C. The MLX90640 IR Array has pull up resistors attached to the I²C bus; both can be removed by cutting the traces on the corresponding jumpers on the back of the board. Please be aware that the MLX90640 requires complex calculations by the host platform so a regular Arduino Uno (or equivalent) doesn't have enough RAM or flash to complete the complex computations required to turn the raw pixel data into temperature data. You will need a microcontroller with 20,000 bytes or more of RAM.
Designed with cutting-edge technology, this shield brings the power of Ultra High Frequency (UHF) RFID to your fingertips.
With the Ardi UHF Shield, you can effortlessly read up to an impressive 50 tags per second, allowing for fast and efficient data collection. The shield features an onboard UHF antenna, ensuring reliable and accurate tag detection even in challenging environments.
Equipped with a high-performance 0.91" OLED display, the Ardi UHF Shield provides clear and concise visual feedback, making it easy to monitor and interact with the RFID readings. Whether you're tracking inventory, managing access control, or implementing a smart attendance system, this shield has you covered.
With a remarkable 1-meter reading distance, the Ardi UHF Shield offers an extended range for capturing RFID data. Say goodbye to the limitations of proximity-based RFID systems and embrace the flexibility and convenience of a wider reading range.
The shield provides read-write capabilities, allowing you to not only retrieve information from RFID tags but also update or modify data as needed. This versatility opens up a world of possibilities for advanced applications and custom solutions.
Features
Onboard High-performance UHF RFID reader module
24 hours x 365 days’ work normally
0.91” OLED display for visual interaction with shield
Multi-tone Buzzer onboard for Audio alerts
Shield compatible with both 3.3 V and 5 V MCU
Mounts directly onto ArdiPi, Ardi32 or other Arduino compatible boards
Specifications
OLED resolution 128x32 pixels
I²C Interface for OLED
UHF Frequency Range (EU/UK): 865.1-867.9 MHz
UHF Module Type: Read/Write
Protocols Supported: EPCglobal UHF Class 1 Gen 2 / ISO 18000-6C
Reading Distance: 1 meters
Can identify over 50 tags simultaneously
Communication interface: TTL UART Interface for UHF
Communication baud rate: 115200 bps (default and recommend) – 38400 bps
Operation current: 180 mA @ 3.5 V (26 dBm Output, 25°C), 110 mA @ 3.5 V (18 dBm Output, 25°C)
Working humidity <95% (+25°C)
Heat-dissipating method Air cooling(no need out install cooling fin)
Tags storage capacity: 200 pcs tags @ 96 bit EPC
Output power: 18-26 dBm
Output power accuracy: +/-1 dB
Tags RSSI support
The reComputer J3010 is a compact and powerful edge AI device powered by the NVIDIA Jetson Orin Nano SoM, delivering an impressive 20 TOPS AI performance – up to 40 times faster than the Jetson Nano. Pre-installed with Jetpack 5.1.1, it features a 128 GB SSD, 4x USB 3.2 ports, HDMI, Gigabit Ethernet, and a versatile carrier board with M.2 Key E for WiFi, M.2 Key M for SSD, RTC, CAN, and a 40-pin GPIO header.
Applications
AI Video Analytics
Machine Vision
Robotics
Specifications
Jetson Orin Nano System-on-Module
AI Performance
reComputer J3010, Orin Nano 4 GB (20 TOPS)
GPU
512-core NVIDIA Ampere architecture GPU with 16 Tensor Cores (Orin Nano 4 GB)
CPU
6-core Arm Cortex-A78AE v8.2 64-bit CPU 1.5 MB L2 + 4 MB L3
Memory
4 GB 64-bit LPDDR5 34 GB/s (Orin Nano 4 GB)
Video Encoder
1080p30 supported by 1-2 CPU cores
Video Decoder
1x 4K60 (H.265) | 2x 4K30 (H.265) | 5x 1080p60 (H.265) | 11x 1080p30 (H.265)
Carrier Board
Storage
M.2 Key M PCIe (M.2 NVMe 2280 SSD 128 GB included)
Networking
Ethernet
1x RJ-45 Gigabit Ethernet (10/100/1000M)
M.2 Key E
1x M.2 Key E (pre-installed 1x Wi-Fi/Bluetooth combo module)
I/O
USB
4x USB 3.2 Type-A (10 Gbps)1x USB 2.0 Type-C (Device Mode)
CSI Camera
2x CSI (2-lane 15-pin)
Display
1x HDMI 2.1
Fan
1x 4-pin Fan Connector (5 V PWM)
CAN
1x CAN
Multifunctional Port
1x 40-Pin Expansion header
1x 12-Pin Control and UART header
RTC
RTC 2-pin, supports CR1220 (not included)
Power Supply
9-19 V DC
Mechanical
Dimensions
130 x 120 x 58.5 mm (with Case)
Installation
Desktop, wall-mounting
Operating Temperature
−10°C~60°C
Included
1x reComputer J3010 (system installed)
1x Power adapter (12 V / 5 A)
Downloads
reComputer J301x Datasheet
NVIDIA Jetson Devices and carrier boards comparisions
reComputer J401 schematic design file
reComputer J3010 3D file
The Punk Console circuit is an advanced tutorial to get you familiar with the V-One Drill attachment. Learn how to create a double sided board and turn the knobs to create music!
The kit contains:
2x Green LEDs
8x 1k Resistors
3x 0.01uF Capacitor
2x 500K Trimpots
1x 556 Timer
1x Piezo Buzzer
1x 9 V Battery
1x 9 V Battery Connector
Rivets and a V-One Drill are required.
This 14-way MonoDAQ-compatible connector allows the user to create, reuse and archive test fixtures instead of rewiring the connector furnished with the MonoDAQ everytime a measurement or test has to be repeated. Helps the user to build a library of plug-and-play test setups. Features Time saving push-in connection, tools not required Defined contact force ensures that contact remains stable over the long term Intuitive use through colour coded actuation lever Operation and conductor connection from one direction enable integration into front of device All necessary technical data can be found here.
This is an add-on kit for the Seeed Studio Grove Beginner Kit for Arduino.
Applications
Suitable for Arduino beginners
Suitable for infrared control and motion detect
Suitable for getting started with open-source hardware and Arduino coding
Included
1x Grove Water Atomization
1x Grove Mini Fan
1x Grove Servo
1x Grove Ultrasonic Distance Sensor
1x Grove Infrared Receiver
1x Grove Mini PIR Motion Sensor
1x Grove Green Wrapper
1x Grove Blue Wrapper
5x Grove Cable
1x Infrared Remote Control Key
1x Ultrasonic Sensor Bracket Set
1x Motor Bracket Set
1x Servo Base
ESP32-C3-WROOM-02U is a general-purpose Wi-Fi and Bluetooth LE module. The rich set of peripherals and high performance make the module an ideal choice for smart homes, industrial automation, health care, consumer electronics, etc.
ESP32-C3-WROOM-02U features an external SPI flash and comes with a connector for an external antenna.
ESP32-C3-WROOM-02U has an operating ambient temperature option of –40∼85°C, embedded with the ESP32-C3 chip. ESP32-C3 has a 32-bit RISC-V single-core processor. It integrates a rich set of peripherals, ranging from UART, I²C, I²S, remote control peripheral, LED PWM controller, general DMA controller, TWAI controller, USB Serial/JTAG controller, temperature sensor, ADC, etc. It also includes SPI, Dual SPI and Quad SPI interfaces.
Features
Flash: 4 MB (Quad SPI)
Dimensions: 18.0 x 20.0 x 3.2 mm
Downloads
Datasheet
TapNLink modules provide wireless interfaces for linking electronic systems to mobile devices and the Cloud. TapNLink connects directly to the target system's microcontroller. It integrates into and is powered by the target system. All TapNLink products are easily configured to control access by different types of users to data in the target system.
TapNLink facilitates rapid creation of Human Machine Interfaces (HMI) that run on Android, iOS and Windows mobiles. HMI apps are easily customized for different users and can be deployed and updated to keep pace with evolving system requirements and user needs.
TapNLink Wi-Fi modules can also be configured to connect the target system permanently to a wireless network and the Cloud. This enables permanent logging of target system data and alarms.
Features
Wireless Channels
Wi-Fi 802.11b/g/n
Bluetooth Low Energy (BLE 4.2)
Near Field Communication (NFC) Type5 tag (ISO/IEC 15693)
Supported Target Connections: Connects on 2 GPIO of the target microcontroller and supports:
Serial interface with Software Secure Serial Port (S3P) protocol
Serial interface with ARM SWD debug protocol.
UART with Modbus protocol
Mobile Platform Support
HTML5 web apps (Android, iOS)
API for Cordova (Android, iOS, Windows 10)
Java (Android, iOS native)
Auto-app generator for Android and iOS mobiles
Security
Configurable access profiles
Configurable, encrypted passwords
AES-128/256 module-level data encryption
Configurable secure pairing with NFC
Dimensions: 38 mm x 28 mm x 3 mm
Electrical Characteristics
Input voltage: 2.3V to 3.6 V
Low power consumption:
Standby: 100 µA
NFC Tx/Rx: 7 mA
Wi-Fi Rx: 110 mA
Wi-Fi Tx : 280 mA (802.11b)
Temperature Range: -20°C ~ +55°C
Compliance
CE (Europe), FCC (USA), IC (Canada)
REACH
RoHS
WEEE
Ordering Information
Base Part Number: TnL-FIW103
MOQ: 20 modules
TapNLink modules pre-qualified, pre-programmed and ready to configure.
IoTize Studio configuration and testing software
Software for HMI on mobile devices (iOS, Android, Windows 10)
IoTize Cloud MQTT infrastructure (open source)
For more information, check out the datasheet here.
Reinforcing its commitment to widening the accessibility to and innovation in the area of deep learning, NVIDIA has created a free, self-paced, online Deep Learning Institute (DLI) course, “Getting Started on AI with Jetson Nano.” The course's goal is to build foundational skills to enable anyone to get creative with the Jetson Developer Kit. Please be aware that this kit is for those who already own a Jetson Nano Developer Kit and want to join the DLI Course. A Jetson Nano is not included in this kit.
Included in this kit is everything you will need to get started in the “Getting Started on AI with Jetson Nano” (except for a Jetson Nano, of course), and you will learn how to
Set up your Jetson Nano and camera
Collect image data for classification models
Annotate image data for regression models
Train a neural network on your data to create your own models
Run inference on the Jetson Nano with the models you create
The NVIDIA Deep Learning Institute offers hands-on training in AI and accelerated computing to solve real-world problems. Developers, data scientists, researchers, and students can get practical experience powered by GPUs in the cloud and earn a competency certificate to support professional growth. They offer self-paced, online training for individuals, instructor-led workshops for teams, and downloadable course materials for university educators.
Included
32 GB microSD Card
Logitech C270 Webcam
Power Supply 5 V, 4 A
USB Cable - microB (Reversible)
2-Pin Jumper
Please note: Jetson Nano Developer Kit not included.
The unPhone is an open-source IoT development platform powered by the ESP32S3 microcontroller. It features integrated LoRa, Wi-Fi, and Bluetooth connectivity, a touchscreen, and a LiPo battery, offering a robust and versatile solution for IoT development. Its compatibility with Adafruit's FeatherWing standard enables easy expansion, making it an ideal choice for educators, makers, and developers seeking a flexible and user-friendly platform.
Features
ESP32S3 microcontroller (with 8 MB flash and 8 MB PSRAM)
LoRaWAN licence-free radio communication (plus the ESP32's excellent wifi and bluetooth support)
3.5" (320 x 480) LCD capacitive touchscreen for easy debugging and UI creation
IR LEDs for surreptitiously switching the cafe TV off
1200 mAh LiPo battery with USB-C charging
Vibration motor for notifications
Compass/Accelorometer
A robust case
SD card slot
Power and reset buttons
Programmable in C++ or CircuitPython
Expander board that supports two Featherwing sockets and a prototyping area
Open source firmware compatible with the Arduino IDE, PlatformIO and Espressif's IDF development framework
Included
unPhone (assembled)
Expander board
FPC cable (to link the expander board to unPhone)
Self adhesive mounts for the expander board
Code Examples
C++ library
Kick the tyres on everything in the box
The main LVGL demo
CircuitPython
Support forum
Textbook (especially chapter 11)
The reComputer J1020 v2 is a compact edge AI device powered by the NVIDIA Jetson Nano 4 GB production module, delivering 0.5 TFLOPs of AI performance. It features a robust aluminum case with a passive heatsink and comes pre-installed with JetPack 4.6.1. The device includes 16 GB of onboard eMMC storage and offers 2x SCI, 4x USB 3.0, M.2 Key M, HDMI, and DP.
Applications
Computer Vision
Machine Learning
Autonomous Mobile Robot (AMR)
Specifications
Jetson Nano 4 GB System-on-Module
AI Performance
Jetson Nano 4 GB (0.5 TOPS)
GPU
NVIDIA Maxwel architecture with 128 NVIDIA CUDA cores
CPU
Quad-core ARM Cortex-A57 MPCore processor
Memory
4 GB 64-bit LPDDR4 25.6 GB/s
Video Encoder
1x 4K30 | 2x 1080p60 | 4x 1080p30 | 4x 720p60 | 9x 720p30 (H.265 & H.264)
Video Decoder
1x 4K60 | 2x 4K30 | 4x 1080p60 | 8x 1080p30 | 9x 720p60 (H.265 & H.264)
Carrier Board
Storage
1x M.2 Key M PCIe
Networking
Ethernet
1x RJ-45 Gigabit Ethernet (10/100/1000M)
I/O
USB
4x USB 3.0 Type-A1x Micro-USB port for device mode
CSI Camera
2x CSI (2-lane 15-pin)
Display
1x HDMI Type A; 1x DP
Fan
1x 4-pin Fan Connector (5 V PWM)
CAN
1x CAN
Multifunctional Port
1x 40-Pin Expansion header
1x 12-Pin Control and UART header
Power Supply
DC 12 V/2 A
Mechanical
Dimensions
130 x 120 x 50 mm (with Case)
Installation
Desktop, wall-mounting
Operating Temperature
−10°C~60°C
Included
reComputer J1020 v2 (system installed)
12 V/2 A power adapter (with 5 interchangeable adapter plugs)
Downloads
reComputer J1020 v2 datasheet
reComputer J1020 v2 3D file
Seeed NVIDIA Jetson Product Catalog
NVIDIA Jetson Device and Carrier Boards Comparison
The AxiDraw's pen holder normally holds the pen parallel to the front face of the vertical pen slide, either vertically or at 45° from vertical.
This heavy-gauge aluminum adapter sits between the front face of the vertical slide and the pen clip, and serves to rotate the pen tip an additional 45°, not from vertical but out from parallel to the front face of the vertical slide. This gives the AxiDraw the ability to hold a pen in a 'right handed' grip, as opposed to the normal 'center-handed' (for lack of a better description) position.
The right-handed grip makes it possible to hold the pen at a consistent angle suitable for use with regular pens, but also stub, italic, parallel, and chisel-point pens.
Compatibility
This adapter is compatible only with AxiDraw V3 family pen plotters that mount the pen on a 2-hole vertical slide. This includes all AxiDraw V3/A3 and AxiDraw V3 XLX units, and all AxiDraw V3 units manufactured after February 2017.
If you are going to be drilling, we recommend drilling on FR1 substrates. Unlike FR4, FR1 dust does not contain fiber glass. It is also a softer material, which means a less wear and tear on the drill bits. Download the template and incorporate them into your design here. 10 substrates included.
The starter kit for Jetson Nano is one of the best kits for beginners to get started with Jetson Nano. This kit includes 32 GB MicroSD card, 20 W adapter, 2-pin jumper, camera, and micro-USB cable.
Features
32 GB High-performance MicroSD card
5 V 4 A power supply with 2.1 mm DC barrel connector
2-pin jumper
Raspberry Pi camera module V2
Micro-B To Type-A USB cable with DATA enabled
This pair of extended 'outrigger' feet for AxiDraw V3 and AxiDraw V3 XLX consists of a pair of machined aluminum struts with large 1/2' diameter (12 mm) rubber foot pads set securely in recesses. It greatly increases the effective base area of the AxiDraw, making it much more stable when plotting, and capable of carrying heavier tools without worry of tipping over. In addition to providing a larger footprint, the outrigger feet also provide four mounting holes that make it easier to secure your AxiDraw to a surface, should you choose to do so. Each foot strut has two top-side accessible #8/M4 clearance holes. Installation is straightforward: Remove the two screws that hold the standard foot plates to the bottom of the AxiDraw, and attach these struts in their place with the included screws. Compatible with: AxiDraw V3 AxiDraw V3 XLX
This rigid end effector plate is designed to be in place of the standard AxiDraw pen-lift Z stage, and provides an alternative mounting scheme for mounting various things to the end of the AxiDraw's arm, for applications where greater rigidity is important but the lifting ability of the standard Z stage is not required.
The rigid end effector is custom machined from aluminum, and provides six M3 tapped holes and two M4 tapped holes for mounting what ever it is that you would like to mount to the end of the AxiDraw, to use it as a 2D robot arm. The hole pattern is compatible with the AxiDraw pen clip, so you can, if you like, mount the AxiDraw's pen clip to this end effector.
Installation is straightforward, but requires a Pozidrive PZ2 screwdriver, not included*. Remove the AxiDraw's pen clip, and then remove the pen-lift Z stage by removing two screws with the PZ2 screwdriver. Install the rigid end effector plate in its place, using the two included mounting screws and the PZ2 screwdriver. You may wish to also tie back or fully remove the AxiDraw's cable guides, which normally extend to power the pen-lift stage.
Specifications
Material: Anodized 6061-T6 aluminum
Size: 1.97 x 1.38 x 0.19 inches (50 x 35 x 4.8 mm)
Weight: Approximately 11 g
Mounting hardware: included (Two M4x12 pozidrive-head self-tapping screws)
Compatibility
All AxiDraw V3 family pen plotters
AxiDraw V3/A3
AxiDraw SE/A3
AxiDraw MiniKit models
These templates are your starting point if you’re building a Raspberry Pi HAT.
Each pack contains six Raspberry Pi B+ templates.
Downloads
Gerber files
Thanks to its six sturdy slots, Breakout Garden enables the users to simply plug and play with various tiny breakout board.
Just insert one or more boards into the slots in the Breakout Garden HAT and you’re ready to go. The mini breakouts feel secure enough in the edge-connector slots and are very unlikely to fall out.
There are a number of useful pins along the top of Breakout Garden, which lets you connect other devices and integrate them into your project.
You shouldn't be worried if you insert a board the wrong way thanks to provided reverse polarity protection. It doesn't matter which slot you use for each breakout either, because the I²C address of the breakout will be recognised by the software and it'll detect them correctly in case you move them around.
Features
Six sturdy edge-connector slots for Pimoroni breakouts
0.1” pitch, 5 pin connectors
Broken-out pins (1 × 10 strip of male header included)
Standoffs (M2.5, 10 mm height) included to hold your Breakout Garden securely
Reverse polarity protection (built into breakouts)
HAT format board
Compatible with Raspberry Pi 3 B+, 3, 2, B+, A+, Zero, and Zero W
It's suggested using the included standoffs to attache Breakout Garden to your Raspberry Pi.
Software
Breakout Garden doesn't require any software of its own, but each breakout you use will need a Python library. On the Breakout Garden GitHub page you'll find an automatic installer, which will install the appropriate software for a given breakout. There are also some examples that show you what else you can do with Breakout Garden.
