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Constructed of high quality material, durable and safe.
Mini motor model toy, a device for converting electrical energy into mechanical energy.
A series of physical science broaden kids and children's horizon, stimulating their curiosity.
Specifications:
Type: Motor Toy
Material: ABS, Electronic Components
Features: Durable, Energy Conversion Learning, Easy to Assemble, Miniature Size
Size: 60mm x 52mm x 37mm (Approx.)

Package Includes:
1 x Motor toy model
1 x Plastic propeller
The Basic Electricity circuit kit includes everything that you need to get started,provides a hands-on opportunity for students in grades 7-11 to build simple circuits. With our physics lab kit, you can build many interesting experiments, such as stair double-switch circuits, traffic lights, electromagnets, hand-cranked generators, series and parallel circuits, etc. The kit contains English instructions,it starts simple to gets little complex, and introduces various basic circuit experiments and magnetic knowledge.
Note: This set does not contain two AA batteries. You need to purchase 2 AA batteries to drive the circuit.
Package Includes:
2 x AA Batteries Holders
2 x Bulb Holders
5 x Bulbs
2 x Switches(SPDT)
1 x Switches(SPST)
1 x Hand crank generation model
1 x Compass
1 x Wind Power Car
1 x Screwdriver
10 x Cable
1 x Electromagnet
1 x Double LED board
1 x Transparent storage box
1 x Small wrench





Everyone loves mobile robot! With PikaBot, you get to learn electronics, microcontroller, sensors, motors & coding, while having fun!
https://youtu.be/X6qFEwy2X2w

New to Mobile Robot & Coding?
Don't worry! This kit comes with a booklet covering all the hands-on lessons you need to get started. Every step is explained clearly with the help of images. We make sure that the common issues when building and coding the Arduino mobile robot are properly addressed in this booklet. Besides it comes with fun facts to feed the curious minds too.
No Soldering! Just Jumper Wires
There is no soldering involved in order for more young makers to take part in the building process. To make things even simpler, the detailed schematic diagram and mounting location of the parts are printed inside the box. Hence you can build and connect with greater confidence as you embark on this digital making journey.
This mobile robot kit is based on Maker UNO (Arduino Uno compatible).
Box = Mobile Robot Base
We designed the packaging box of PikaBot to be reusable. Not only that it's used for packing the complete set of components needed for the project, it serves as the robot base and cover of your PikaBot mobile robot too.
Line Following & Obstacle Avoidance
What can your PikaBot do? It can follow line, simple yet practical navigation that is widely used in AGV (Automated Guided Vehicle) and many robot competition. The kit comes with a pair of infrared sensors which you can calibrate & program to recognize black and white surfaces. PikaBot also includes an ultrasonic distance sensor so it can detect obstacles in front of it.
mBlock Graphical Programming Interface
Besides using the Arduino IDE as taught in our user guide booklet, you can also program PikaBot with mBlock block-based programmming interface. Check out this tutorial to learn more.
https://youtu.be/S-xbk-PoiWY
With the beginner-friendly Maker UNO as the controller, everyone can build and program this mobile robot. We have also included
- Dual-channel motor driver - Maker Drive
- Two "TT" brush motor with pre-solder wires
- 4 x AA battery to power the controller and motor
- Of course, it comes with two IR Line Tracking Module for line following
- An Ultrasonic Distance Sensor for obstacle avoidance
- Accessories for the smart car to work :)
- Everything is packed in a nicely designed paper box which will be utilized as the base of the mobile robot too

To make life even easier, we have prepared:
- A printed copy of Step by Step Guide for you to build this kit (Softcopy here)
- Sample code for line following, obstacle avoidance and melody in Arduino Sketch in Github (coming soon)
- Video to assemble the robot is in the making, check it out
Line Following Track for line following.

Features:
- Mobile Robot Kit
- Do It Yourself (DIY) mobile robot kit
- No soldering needed, only requires to connect jumper wires :)
- Controller: Maker UNO
- Motor Driver: Maker Drive dual-channel DC brush motor driver
- Driven by two TT motor with pre-solder wires
- Power both controller and motor with 4 x AA battery, with battery holder too
- Comes with IR Line Sensor module, for line following
- Open-source example code, free to modify and learn coding
- Panel mount rocker switch as power activation switch
- Panel mount push button as a start button
- The paper box is creatively designed as the container and also body for mobile robot.
- Everything needed is packed in this kit!
- Box Dimension: 127mm x 55mm x 19mm (not including motor shafts and wheels)
Packing List:
- 1 x Maker UNO (Simplifying Arduino for Education)
- 1 x Maker Drive: Dual H-Bridge Motor Driver for Beginner
- 2 x 3 - 6VDC Dual Axis TT Gear Motor (with pre-solder wires)
- 2 x Rubber Wheel for TT Gear Motor (63mm x 15mm)
- 2 x IR Line Tracking Module
- 1 x HC-SR04 Ultrasonic Ranging Module
- 1 x 4xAA Batteries
- 1 x 4xAA battery holder
- 1 x Breadboard Mini (35mmx42mm) - White
- 1 x 40 ways Male to Female Jumper Wire
- 1 x 40 ways Male to Male Jumper Wire
- 1 x USB Micro B cable
- 1 x mBot N20 Vacuum Steel Ball Castor
- 1 x Tiny Phillips Screwdriver - 85mm
- 4 x Bolt M3x25mm
- 4 x M3 Nut
- 1 x CH2 Quick Wiring Terminal Press Type
- 1 x Rocker Switch with wires
- 1 x Push Button with wires
- 14 x Plastic Rivet (M3)
- 2 x Plastic Rivet (M4)
- 1 x PikaBot Track
- 1 x PikaBot Booklet - A step-by-step guide to build & program PikaBot.
- 1 x PikaBot Paper Box
Documents:
- Softcopy (PDF) of PikaBot Booklet (Hardcopy comes with the kit)
- Arduino sample code
- PikaBot is now programmable with mBlock, a tutorial on Hackster.io. Now you can use block(graphical) programming to program PikaBot.
- CH34X driver (Please ensure the Maker UNO is plug into computer USB port during driver installation)
- Windows (V3.5 Mar2019)
- Mac OS (V1.5 Mar2019)
- Linux (V1.5 Mar2019) (Normally is readily installed)
- CH34X Driver - Get the latest driver from the factory
- Arduino IDE Download
Telegram Stickers!
Last but not least, we've designed some expressive PikaBot stickers for Telegram messenger for all you PikaBot lovers! If you are a Telegram user, grab the sticker pack here: https://t.me/addstickers/cytron_pikabot. Have fun!
1. Most of the students do not have basic knowledge in electronics.
2. They do not understand the circuit diagram at the beginning of the Arduino lesson. They will spend a substantial amount of time just to connect the wires and troubleshoot the connections.
3. It's a mess after every class. The teacher has to sort and make sure nothing is missing. What a tedious job and a waste of time!
Students can skip the hassle of constructing the basic electronic circuit which is boring and time consuming. Although it is equally important for them to learn about basic electronics, it can always come later after they have experienced how easy it is to create awesome project. Start with fun and excitement. Start coding right away and see your board lights up and plays melody with the press of a button.
With the conventional Arduino boards, students also face another common problem - difficulty in troubleshooting their circuit. This is because when it doesn't work, we do not know whether the problem is due to wire connection or coding.
With Maker UNO, the problem is solved! Not only do the onboard LEDs work as outputs, they can also act as indicators, clearly showing what's happening on that pin. When the pin is used as input, you can clearly see whether the signal is received by just looking at changes on the LEDs.
Additional Features
One of the brilliant features of the official Arduino Uno is the label printed on its pin headers. It saves us a lot of time when we want to connect the I/O pins to the external circuit. So, we include a set of these label stickers for pin headers in each of the Maker UNO! (Please note that you need to peel off the stickers and stick them on your Maker UNO by yourself)
Students always get their boards mixed up. With Maker UNO, you can write your name on the board. Problem solved!
Maker UNO uses the common Micro USB cable which is basically everywhere.
Don't throw your box away! There is a small opening on the box for you to plug the USB cable so that you can keep your Maker UNO safely in the original box, no additional casing required.
Specifications
Maker UNO is fully compatible with Arduino. You can share the same library and code. We put in 12x LEDs, 1x piezo buzzer and 1x programmable button on the Maker UNO. We have removed the DC jack power input socket as most of the boards used in classes are powered using USB. We have also replaced the ATmega16u2 with CH340 to bring down the cost.
Documents:
- Maker UNO User's Manual
- Maker UNO Edu Kit Getting Started Module
- Maker-UNO Schematic
- Maker-UNO Fritzing File
- CH341 driver
Tutorials:
Related links:
- Maker UNO's Default Program
- Arduino IDE Download
- How To Program Arduino (Maker UNO) Using Atmel Studio
- Introduction Atmel Studio 7 is the integrated development platform (IDP) for developing and debugging all AVR® and SAM microcontroller applications. The Atmel Studio 7 IDP gives you a seamless and easy-to-use environment to write, build and debug your applications written in C/C or assembly code.
- Program Maker UNO using Chromebook
Basic entry-level kit prepared for Pico. All the parts you need to complete the tutorials in the MicroPython beginners book (not included)
Tested and selected by professional engineer, with rich tutorials and resources
fast getting started with Raspberry Pi Pico and MicroPython programming

A Low-Cost, High-Performance Microcontroller Board With Flexible Digital Interfaces
- RP2040 microcontroller chip designed by Raspberry Pi in the United Kingdom
- Dual-core Arm Cortex M0 processor, flexible clock running up to 133 MHz
- 264KB of SRAM, and 2MB of on-board Flash memory
- Castellated module allows soldering direct to carrier boards
- USB 1.1 with device and host support
- Low-power sleep and dormant modes
- Drag-and-drop programming using mass storage over USB
- 26 × multi-function GPIO pins
- 2 × SPI, 2 × I2C, 2 × UART, 3 x12-bit ADC, 16 × controllable PWM channels
- Accurate clock and timer on-chip
- Temperature sensor
- Accelerated floating-point libraries on-chip
- 8 × Programmable I/O (PIO) state machines for custom peripheral support

Item | Description |
---|---|
LCD1602 RGB Module | LCD1602 RGB backlight character LCD, using I2C bus to display text or adjust RGB backlight |
PIR motion sensor | Pyroelectric IR sensor, outputs electric switch signal when IR array from human/animal body is detected |
8-Bit WS2812 RGB LED | 8x RGB LED, play around with cool light effects by programming |
Alarm | Quality active announciator, used for alarming or playing music |
Single-joint potentiometer | Adjustable potentiometer, 0~10K range, used for ADC test, volume/brightness adjustment, etc. |
Round buttons | Three colors, for button/switch detection |
5mm LED | Three colors, for experiments like traffic light, PWM adjusted light, etc. |
330R resistors | Providing current-limit protection when connected with LED in series |
Breadboard and wires Jumper wires | Quality 830 breadboard and sorts of wires, easy for connecting components |
Plastic box | Customized box for storing the modules and components |
Description
This package offers a year-long robotics course. The course commences with the fundamentals of robotics and coding as well as the importance of simulation.
Once the fundamentals are covered, students take part in a practical project where they’re required to build an automated hand sanitiser. An infra-red sensor will detect a hand and the system will discharge a small amount of soap or sanitiser. The second project in the course is a practical project called the Home Automation System. In this project, students will demonstrate the practical application of servo motors, temperature sensors, infrared sensors, fans, buzzers, lighting and a security system feature in a home automation system.
After completing these two practical projects, the course will introduce students to the world's most popular coding language: Python. Throughout the course, students will learn how to develop several applications such as Tic Tac Toe, Hangman and Pong. They’ll also be introduced to libraries such as Turtle to help grow their understanding of how programming works and how code is read by the computer.
OVERVIEW:
The Resolute Beginner’s Kit is a great way to get started in the world of robotics and coding. It includes all the components required to build projects like the Automated Hand Sanitiser, the Home Automation System and much more. There are also fun challenges to test the students’ understanding of what they’ve learned. This kit gives you access to an online platform where step-by-step video instructions are provided to help you learn and build with ease.
Additional Requirements:
- Internet Connection
- Laptop, PC or Mac
- 1.4 GHz CPU or higher
- Minimum of 10GB free storage on your device
- Recycled Material (such as cardboard)
- An Interest to Learn.
FEATURES:
- Video-based learning for each project, task and concept taught in the course.
- Plug and play: No soldering required, build your circuit in minutes.
Components:
- Arduino Uno
- Digital Multimeter (9V Battery Banana to crocodile cable included)
- Mini Screwdriver Set
- DC Motor Water Pump
- DC / DC Buck (LM2596)
- Analog Temperature Sensor Module
- Brushless Fan DC 5V
- AC Power Supply
- Reed sensor module (with Mini Magnets)
- Tubing
- Breadboard x 2
- 20cm Male-to-Female Jumper Cable x 2
- 65pcs Male-to-Male Jumper Wires x 2
- MG90S Metal Gear Micro Servo x 2
- Relay (5V 1 Channel Module) x 2
- 9V Battery Button Power Cable x 2
- USB Extension Cable
- Active Buzzer x 2
- Infrared Sensor x 4
- Push-button Pack
- Resistor Pack
- Variable Resistor Pack
- LED Pack
- RGB LED x 2
- Phototransistor
- Extra wires (8 core solid wire) for Breadboard use
ADDITIONAL INFORMATION:
The course starts off with an introduction to the fundamentals of Arduino programming and electronic circuit theory fundamentals. Students will learn about simulation, sensors, automation and processing real-world data. They’ll get creative with a practical project like the Autonomous Line Following Car where an infrared sensor is used to detect a black line and the Arduino sends a set of instructions to the DC motors directing the car.
Students will be challenged further by applying their programming and engineering skills to design and build an access control system. They’ll create their own security system by programming an RFID tag to automatically open a door, granting access to personnel only. Students will also learn to master the world's most popular coding language, Python. They’ll learn essential game development concepts such as controlling player and non-player sprites, implementing in-game physics and collision, object-oriented game design, randomization and artificial intelligence.
OVERVIEW:
The Resolute Advanced Kit is a great way for students to continue their robotics journey. It includes all the components needed to build a range of projects such as the Autonomous Line Following Car and Access Control using RFID tags. With a little bit of creativity, these components can be used to build hundreds of other projects. This kit gives you access to an online platform where step-by-step video instructions are given to help you learn and build with ease.
Additional Requirements:
- Internet Connection
- Laptop, PC or Mac
- Minimum 4 GB of RAM
- 1.4 GHz CPU or higher
- Minimum of 10GB free storage on your device
- Recycled Material (such as cardboard)
- An Interest to Learn.
FEATURES:
- Video-based learning for each project, task and concept taught in the course.
- Plug and play: No soldering required, build your circuit in minutes.
Components:
- Arduino Uno x 2
- Digital Multimeter (9V Battery Banana to crocodile cable included)
- Mini Screwdriver Set
- Smart Robot Car Chassis Kit
- RFID Tag reader (MFRC-522 RC522)
- 2000mAh Power Bank
- Breadboard x 2
- 20cm Male-to-Female Jumper Cable x 2
- 65pcs Male-to-Male Jumper Wires x 2
- MG90S Metal Gear Micro Servo x 3
- Relay (5V 1 Channel Module) x 3
- 9V Battery Button Power Cable
- USB Extension Cable
- Active Buzzer
- Infrared Sensor x 5
- Push-button Pack
- Resistor Pack
- Variable Resistor Pack
- LED Pack
- RGB LED
- Phototransistor
- Extra wires (8 core solid wire) for Breadboard use
ADDITIONAL INFORMATION:
PicoGo Mobile Robot, Based On Raspberry Pi Pico, Self Driving, Remote Control
Description:
Smart robot is always the favorite project of electronic enthusiasts, and there've been several robots based on Raspberry Pi. Now, here comes the Pico version: PicoGo!
The PicoGo is a smart mobile robot based on Raspberry Pi Pico, it includes ultrasonic module, LCD module, Bluetooth module, line following module, and obstacle avoidance module, all these functions are highly integrated for easily achieving IR obstacle avoidance, auto line following, Bluetooth/IR remote control, and more. With various advanced features, it will help you fast get started with smart robot design and development.
PicoGo smart mobile robot features:
- Standard Raspberry Pi Pico header, supports Raspberry Pi Pico series
- Battery protection circuit: over charge/discharge protection, over current protection, short circuit protection, reverse proof, more stable and safe operating
- Recharge/Discharge circuit, allows programming/debugging concurrently while recharging
- 5-ch infrared sensor, analog output, combined with PID algorithm, stable line tracking
- Onboard multiple smart robot sensors like line tracking, obstacle avoidance, no more messy wiring
- 1.14inch IPS colorful LCD display, 240 x135 pixels, 65K colors
- Integrates Bluetooth module, allows teleoperations like robot movement, RGB LED display color, buzzer, etc. by using mobile phone APP
- N20 micro gearmotors, with metal gears, low noise, high accuracy
- Colorful RGB LED, pretty cool!

*Pico & 14500 Batteries not included*
What's in the box ?
- PicoGo base board x1
- PicoGo acrylic panel x1
- 1.14inch LCD Module x1
- Ultrasonic sensor x1
- IR remote controller x1
- USB-A to micro-B cable 1.2m x1
- PH2.0 8Pin cable 5cm opposite side headers x1
- Mini cross wrench sleeve x1
- Screwdriver x1
- Screws and standoffs pack x1
Check out our blog post for this Picogo !
Resources: For any additional information/example code/Guides and Support please see the link below.
https://www.waveshare.com/wiki/PicoGo

*Pico & 14500 Batteries not included*
Description:
Dual color metal hotend extruder kit for CR-10 series Ender-3 3D Printer.
0.4mm nozzle; 1.75 filament size; aluminum heating block; heater wire 12V/24V for option.
Can access two lines of filament, switch between two input when printing, and extrude through one hot end.
Color switching is fast and stable, and print quality has no obvious defects.
The heating block and the heat sink are connected and fixed by two screws, making the print head more stable.
Specifications:
Colour: Black
Heat Sink Material: Aluminum Alloy
Heater Material:Aluminum Alloy
Nozzle Material: Brass
Pneumatic Connector Material: Stainless Steel
Voltage: 24V
Wire Length: Approx. 1400mm
Body Size: 80mm x 25mm x 22mm
What's in the box?
1 x Hotend Extruder Kit

Description :
Cool and basic solar science experiment for the beginner. Simply connect the parts and see the magic of solar power.
What's in the box?
1 x Connection board with solar panel
1 x Connection board with Motor
1 x Jumper cables for connection boards
1 x Propeller (Colour of propeller is random)

Description:
Our Sensor Foundation Kit, a metal ‘bento box’, contains 14 plug & play components you can use with your pi-top [4], including programmable sensors, buttons, and LEDs.
The kit includes our Foundation Plate which attaches to your pi-top [4]. Plug components into the foundation plate and get started right away, following step-by-step tutorials to learn the basics of coding and physical computing. Then continue your learning by progressing into projects in advanced coding, robotics, cybersecurity, and AI.
What's in the box ?
You need a pi-top [4] to use our Sensor Foundation Kit.
The Sensor Foundation Kit includes:
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Description:
The MonkMakes Solar Experimenters Kit for micro:bit is a project kit that allows you to experiment with harvesting energy from the sun and other light sources. It consists of a solar panel to harvest the energy, a solar store that stores the harvested energy, and a low energy light bulb and a motor that can be driven with the energy that you harvest.
Specifications:
There are three projects that introduce energy harvesting without the micro:bit, followed by 3 bigger projects that use the micro:bit (not provided) as an intelligent controller. The micro:bit monitors and manages the charging and discharging of the solar store.
With this project kit you will learn all about how tiny amounts of energy can be harvested from the sun and stored for later use, using a practical and experiment-led approach.
What's in the Box ?
1 x 10v Solar Panel
1 x Solar Store Board
1 x 3v LED light bulb
1 x Set of alligator clip leads (10 leads)
1 x Small motor with fan
1 x Booklet (A5)
Resources:
- Instructions (PDF)
- Data Sheet (PDF)
Lessons Plans are available here: https://drive.google.com/drive/folders/1o5tRY1PeU4N-NSVctra4NxnCvmP65Huj
This 3000mW DIY desktop blue laser engraving machine is ideal for amateur laser engraving usage with grayscale printing, low-light positioning and freedom positioning functions. It only needs you to connect it to a computer, then you can print any pictures you like with your own creativity.
Specifications:
- Material:stainless steel and acrylic
- Working Voltage:DC 12V
- Laser Power:3000mW
- Engraving Area:65x50cm(maximum)
- Unit Size:720mm x 630mm
Control software: benbox software support, power can be adjusted, weak light positioning
Engraving Material Note:
- can engraving materials:wood,bamboo,plastic,paper,leather,bank card,rubber
- can not engraving material:metal,stone,ceramic,shell,light-reflecting material,transparent material
Cutting Material Note:
It can only cut foam, paper, thin leather material.
Please Note:


- In the process of using, please ALWAYS wear professional protective glasses to PROTECT YOUR EYES.
- FORBID CHILDREN to use this product.
- Yes, the laser WILL BURN YOUR SKIN! Be very careful while focusing the laser.
- Avoid the use of flammable objects or gasses near the engraver in order to avoid causing a fire or explosion. Never leave the unit unattended while engraving.
- Don't update the firmware.
https://www.youtube.com/watch?v=7jj5ea1MvEo
What's in the box?
1x DIY Desktop Mini Laser Engraving Machine

- Durable insulated crimp terminals
- Can be ideal used in hobby, marine and automotive applications
- For best results use a hot air gun until it reduces in size and the adhesive flows, filling gaps within the terminal
Specifications:
Male Female Insulated Electrical Wiring Connectors: | |||
Model | Quantity | Model | Quantity |
MDD1.25-110 | 20 | FDD2-187 | 20 |
MDD2-110 | 20 | FDD1.25-250 | 20 |
MDD1.25-187 | 20 | FDD2-250 | 20 |
MDD2-187 | 20 | SV1.25-4 | 20 |
MDD1.25-250 | 20 | SV2-4 | 20 |
MDD2-250 | 20 | MDD5.5-250 | 10 |
FDD1.25-110 | 20 | FDD5.5-250 | 10 |
FDD2-110 | 20 | FDD1.25-250 | 15 |
FD1.25-187 | 20 | FDFD2-250 | 15 |
What's in the box?
1 x CT018 330Pcs Crimp Terminal Set
This low-cost simple to use electronics kit will teach you electronics and coding with your Raspberry Pi Pico. (or Pico with presoldered headers)
Build ten great projects including: A touch switch, a thermometer, a light meter and lie detector and much MORE !
Specifications:
- Dimensions and Weight (closed box)
- Units Length 120 mm
- Width 105 mm
- Height 35 mm Weight 95 g
What's in the box ?
1 x Solderless Breadboard 400 point
10 x Male to male jumper wires
1 x Micro-servomotor and accessory bag
2 x Strip of 0.1inch 20way header pins
5 x 470Ω resistor
2 x 1kΩ resistor
1 x 4.7MΩ resistor
2 x Red LED
1 x RGB LED (10mm)
2 x Tactile push switch (2 pin)
1 x Phototransistor
1 x Piezo buzzer
Resources:
Instructions (PDF)
Datasheet (PDF)
The MonkMakes Air Quality Kit for Raspberry Pi is based around the MonkMakes Air Quality Sensor board. This add-on for the Raspberry Pi measures the quality of the air in a room (how stale the air is) as well as the temperature. The board has a display of six LEDs that display the air quality and a buzzer. Temperature and air quality readings can be read by your Raspberry Pi, and the buzzer and LED display can also be controlled from it.
The Air Quality Sensor board, plugs directly into the back of a Raspberry Pi 400, but, can also be used with other models of Raspberry Pi, using the jumper wires and GPIO template included in the kit.
Specifications:
This board uses the CCS811 VOC sensor IC and a TMP235 temperature sensor. It also has a rudimentary display and a buzzer.
The board uses a bi-directional UART interface to communicate with the Pi. The board is designed for use with the Raspberry Pi 400, but also works with other models of Raspberry Pi using the jumper wires included in the kit.
- Absolute maximum supply voltage 3.6 V
- Minimum supply voltage 3.0 V
- Typical current consumption 40 mA
- Maximum current consumption 80 mA
- eCO2 minimum reading 400 ppm
- eCO2 maximum reading 4095 ppm
- eCO2 resolution 1 ppm
- eCO2 accuracy unspecified
- Temperature minimum reading -10 deg. C
- Temperature max reading 100 deg. C
- Temperature accuracy /- 2 deg. C
Resources:
Instructions (PDF)
Datasheet (PDF)
(* Raspberry Pi400 and Raspberry Pi 4 are not included)
The Project Box for Raspberry Pi contains all the components needed, together with easy to follow instruction cards, in order to complete 10 simple projects involving LEDs, thermistor, phototransistor and switches and is an ideal starting point for anyone new to electronics and the Raspberry Pi.
Specifications:
This kit is an improved and updated version of the now retired Electronics Starter Kit for Raspberry Pi
A 40 page booklet by Simon Monk (author of the Raspberry Pi Cookbook and Programming Raspberry Pi) is free to download and explains how to use the kit and build the projects.
What's in the box ?
1 x Solderless breadboard
1 x Male to male jumper wires
1 x Female to Male Jumper Wires
1 x Raspberry Leaf
5 x 470Ω resistor (yellow, purple, brown stripes)
2 x 1kΩ resistor (brown, black, red)
1 x 4.7MΩ resistor (yellow, purple and green stripes)
1 x 330nF capacitor
2 x Red LED – the longer lead is the (positive) lead
1x RGB LED – the longest lead is the – (negative) lead
2 x Tactile push switch
1 x Phototransistor
1 x Thermistor
1 x Buzzer
Raspberry Pi is NOT INCLUDED
Resources :
Instructions (PDF)
The Squid Combo Pack comprises a Raspberry Squid RGB LED, two Squid buttons (non-latching) and a Raspberry leaf to help identify the GPIO pins.
A bright RGB (Red, Green, Blue) LED with built-in resistors and female header leads that can just plug directly onto the GPIO pins of a Raspberry Pi.
What's in the box ?
1 x LED
2 x Buttons
1 x Raspberry Leaf
Resources:
Instructions(PDF)
(* Raspberry Pi NOT included *)
Raspberry Pi Pico Basic Kit - with Pico and presoldered header
Description:
This is a Raspberry Pi Pico Basic Kit by Cytron for the very first MCU launched by Raspberry Pi Foundation. The kit includes almost everything you need to kickstart your way in digital making and start learning MicroPython with Raspberry Pi Pico !
Specifications:
This kit comes with Raspberry Pi Pico and presoldered header.
What's in the box ?
1 x Breadboard 16.5x5.5cm (830 Holes)
1 x Buzzer-PCB Mount
1 x Finger Adjust Preset Potentiometer 10K
2 x LED 5mm Red
2 x LED 5mm Green
2 x LED 5mm Yellow
2 x LED Super Bright 5mm Blue
2 x PIR Sensor
3 x 6x6x1 Push Button 4Pin
5 x Resistor 0.25W 5% (330R)
10 x Male to Female Jumper Wire
20 x Male to Male Jumper Wire
1 x RPi Pico with presoldered header
Resources:
- Getting Started with Raspberry Pi Pico (pdf), C/C Development with the Pico and other RP2040-based microcontroller boards.
- Raspberry Pi Pico Datasheet (pdf), An RP2040-based microcontroller board
- Pico Python SDK (pdf), A MicroPython Environment for the RP2040 Microcontroller
- Pico C/C SDK (pdf), Libraries and Tools for C/C Development on the RP2040 Microcontroller
- RP2040 Datasheet (pdf), A microcontroller by Raspberry Pi
Check out some of the video tutorials that you can learn using this kit:
Traffic Light Controller with Raspberry Pi Pico
Reaction Game using Raspberry Pi Pico
Burglar alarm using Raspberry Pi Pico
Control LED using PWM on Raspberry Pi Pico
Raspberry Pi Pico Basic Kit - Without Pico
Description:
This is a Raspberry Pi Pico Basic Kit by Cytron for the very first MCU launched by Raspberry Pi Foundation. The kit includes almost everything you need to kickstart your way in digital making and start learning MicroPython with Raspberry Pi Pico !
Specifications:
This kit comes without Raspberry Pi Pico.
You can get your Raspberry Pi Pico from here:
- Raspberry Pi Pico - without pre-soldered headers
- Raspberry Pi Pico with pre-soldered headers
What's in the box ?
1 x Breadboard 16.5x5.5cm (830 Holes)
1 x Buzzer-PCB Mount
1 x Finger Adjust Preset Potentiometer 10K
2 x LED 5mm Red
2 x LED 5mm Green
2 x LED 5mm Yellow
2 x LED Super Bright 5mm Blue
2 x PIR Sensor
3 x 6x6x1 Push Button 4Pin
5 x Resistor 0.25W 5% (330R)
10 x Male to Female Jumper Wire
20 x Male to Male Jumper Wire
Resources:
- Getting Started with Raspberry Pi Pico (pdf), C/C Development with the Pico and other RP2040-based microcontroller boards.
- Raspberry Pi Pico Datasheet (pdf), An RP2040-based microcontroller board
- Pico Python SDK (pdf), A MicroPython Environment for the RP2040 Microcontroller
- Pico C/C SDK (pdf), Libraries and Tools for C/C Development on the RP2040 Microcontroller
- RP2040 Datasheet (pdf), A microcontroller by Raspberry Pi
Check out some of the video tutorials that you can learn using this kit:
Traffic Light Controller with Raspberry Pi Pico
Reaction Game using Raspberry Pi Pico
Burglar alarm using Raspberry Pi Pico
Control LED using PWM on Raspberry Pi Pico