Special Offers
Specifications
What's in the box?
1 x CamJam Edukit
Resources
All the worksheets are freely available to download from http://camjam.me/edukit
CamJam Edukit 1 for Raspberry Pi Pico
The CamJam EduKit #2 is the second edition to the EduKit family!
The kit is accompanied by a set of (currently 6) downloadable worksheets (or lesson plans for you educators!) that will take you through a series of exercises and projects, teaching you how to make the most of your kit. Whats best is that there is no soldering required, each high quality component is breadboard friendly!
All the worksheets are freely available to download from http://camjam.me/edukit
What's in the box?
1 x Breadboard
1 x Immersible temperature Sensor
1 x PIR Sensor
1 x LDR
1 x Active Buzzer
1 x Red 10mm LED
1 x Blue 10mm LED
1 x 4.7K Resistor
2 x 330 Resistor
10 x M/F Jumper Wires
4 x M/M Jumper Wires
1 x Presentation Tin
Resources
Here are just 4 cool projects you could use the kit for:
- Make a burglar alarm for your bedroom.
- Switch on an LED when it gets dark.
- Have an alarm go off when it’s freezing outside.
- Test whether the light really does go off in the fridge when you shut the door.
Still not convinced? Check out these awesome articles on the kit!
- "CamJam Edukit 2 Launches at PiWars" - Raspi.tv
- "The CamJam EduKit 2 - Learn How To Use Sensors With The Raspberry Pi" - Average Man vs Raspberry Pi
The CamJam EduKit is a joint venture between The Pi Hut and the Cambridge Raspberry Jam (CamJam). Profits from the sale of the kit will go to CamJam so that they can continue their educational and community work.
All you need to do is to add your own chassis, Raspberry Pi (any model) & batteries! Then, follow the worksheets to make your own motorized buggy. Add the included sensors and you will soon be detecting objects in front of your robot and following line courses.
What's in the box?
A custom-designed, pre-soldered motor controller board (with screw terminals)
2 x DC motors (with wires pre-soldered)
2 x custom red wheels (which go extra fast… because they’re red!)
1 x ball castor (used as the ‘third wheel’ to your robot)
1 x small breadboard (to create your circuits)
2 x pieces of strong 3M padded double-sided tape
1 x battery box for 4 AA batteries (batteries not included)
1 x ultrasonic distance sensor (for detecting objects in front of your robot)
1 x line follower sensor (for detecting and following black lines)
Resistors and jumper cables with which to complete your circuits
A strong cardboard box to keep it all in… or to cut into to make your chassis!
Resources
All the worksheets are freely available to download from http://camjam.me/edukit
Got a 3D printer? Daniel Bull has very kindly designed an awesome chassis, available from Thingiverse ..
Alex Eames over at Raspi.TV got his hands on a prototype, here's what he did!
https://youtu.be/LJDEV7rGwaM
And here's a fantastic unboxing video from Average Man vs Raspberry Pi!
https://youtu.be/KPYWNXiItwo
And another review! This time from TheRaspberryPiGuy! Thanks Matt!
https://youtu.be/TMjd0UrH2PY
Now with a narrower form factor to fit a wider range of enclosures
Specifications
- Dimensions: 30x30x07mm
- Bearing Type: Sleeve
- Connector: 2PIN
- Rated Voltage: DC 5V, Rated Current: 0.1A
- Airflow: 4.2CFM
- Fan Blade: 7 Blades
- Fan Speed: 5000RPM±10%
- Noise Level: <16dBA±10%
What's in the box?
1 x DC Fan 30x30x7mm
In the first of two volumes, we remake five classic video games – ranging from Pong to Sensible Soccer, each represents a different genre. We interview the games’ original creators and learn from their example, as well as utilise the art and audio engineering skills of two of the 1980s’ most prolific games developers for our recreated versions of the games.
- Get game design tips and tricks from the masters
- Explore the code listings and find out how they work
- Download and play game examples by Eben Upton
- Learn how to code your own games with Pygame Zero
- Read interviews with expert graphics and audio creators
Build CNC routers, 3D printers, CNC laser cutters, CNC plasma cutters, robotics projects, 3D carvers, machine guards, workstations, etc.
Compatible with:
80/20 20 Series, Misumi 5 Series, Openbuilds V-Slot, Openbuilds C-Beam, and other standard v-slot/t-slot 20mm aluminum extrusions
Specifications:
Recommend to use M5 x10mm screw and M5 T nut
Material: Mild Steel
Thickness:3mm
These plates are laser cut from 3mm mild steel and still needs to be painted/powder coated.
What's in the box?
1 x bracket
These kits are perfect for beginners that are just just getting exposed to the Raspberry Pi, Media enthusiasts looking to stream online content with Kodi, developers looking to exploit the many advantages of the RPI's GPIO pins and anybody looking to get some cool goodies at a great price! They contain all of the essential items that you need to get up and running in no time.
Please Note: These kits are pre-boxed and cannot be modified at all, we do however keep stock on all of the individual items so if you have a special need simply feel free to browse through the rest of our product offerings and select the items that you'd like.
What's in the box?
1 x Iconic Raspberry Pi 3 Model A plus
1 x Official 5.1V 2.5A Power Supply in White
1 x black 1m Official HDMI cable
1 x 32 GB Micro SD card with Raspberry Pi OS 64bit pre-loaded
1 x Official Pi3A Red/White Case
Want to take your kit to the next level?
Turn your RPI into a Media Centre
Grab yourself a remote control, install LibreELEC or OSMC when setting up your RPI and you'll be streaming in no time. You can even add a wireless keyboard, mouse or other similar controllers
Want a cheap eco-friendly PC
Grab a Keyboard and Mouse, select Raspbian when setting up your RPI and you'll be browsing the web, sending emails, editing spreadsheets and watching videos just like you're used to with a desktop/laptop.
We know you love retro gaming!
RetroPie allows you to turn your Raspberry Pi into a retro-gaming machine Check out our Arcade section, whether you just want a retro control or a mini DIY arcade cabinet we have what you're looking for.
Did somebody say Robotics?
We've got some cool beginner's items in our robotic section
Our Kits come with the latest version of Raspberry Pi OS pre-installed, While we will certainly try our best to assist with any software related questions we cannot offer any kind of official support on community driven, open source, or non-PiShop produced proprietary software.
NOOBS, Raspbian, RetroPie, LibreELEC and OSMC are all examples of open-source software, please visit the developer's respective websites for more info.
A whole bunch of other really cool technical info can be found here.
Where do I start?.........Getting Started with Raspberry Pi
This LCD accepts 8-bits/9-bits/16-bits/18-bits parallel interface, that are RGB444, RGB565, RGB666. The color format used in demo codes is RGB565.
This LCD uses a 4-line SPI interface for reducing GPIO and fast speed.LCD
Features at a glance
- 240×135 resolution, IPS screen, 65K RGB colors, clear and colorful displaying effect
- SPI interface, requires minimal IO pins
- 1x joystick and 2x user buttons for easy interacting
- Comes with development resources and manual (Raspberry Pi Pico C/C and MicroPython examples)
Specifications
Operating voltage | 2.6 ~ 5.5V | Resolution | 240×135 pixels |
---|---|---|---|
Communication Interface | 4-wire SPI | Display size | 24.91 × 14.86mm |
Display Panel | IPS | Pixel size | 0.1101 × 0.1035mm |
Driver | ST7789 | Dimensions | 52.00 × 25.00mm |
Raspberry Pi Pico header compatibility
- Onboard female pin header for direct attaching to Raspberry Pi Pico
- 1x joystick and 2x user buttons for easy interacting
Raspberry Pi Pico is NOT included.
Pinout definition
Outline dimensions
What's in the box?
1 x 1.14inch LCD Display Module for Raspberry Pi Pico
Resources
Features
- Mecer Optical Wheel Mouse : USB
- Ergonomic design
- Light
What's in the box?
1 x USB optical Mouse
- High performance intelligent multi-frequency scanning use active matrix Thin film transistor liquid crystal display (TFT), LED backlight
- Comply with VESA DPMS International Power Saving Regulation
- Support DDC 1/2B and Windows PNP Plug & Play
- Microprocessor based with OSD (On Screen Display) control, able to adjust the image to optimum
- Complying with International Standard (VESA) to mount the display on the wall
- 19.5" (49.53cm) 16:9 wide LED
- Resolution 1600x900@60Hz
- Brightness 250cd/m²
- Viewing Angle 90°/65°(H/V)
- Net weight 2.14kgs
- Gross weight 3kgs
- Ultra slim
What's in the box?
1x LED monitor (with pedestal)
1x VGA signal cable
1x Audio cable
1x Power cord cable
1x User manual
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 |
Solar panels are a clean and ecological source of electricity.
Obtaining this energy, however, poses a number of challenges for device designers. The amount of energy produced by the panel is strongly dependent on the angle of incidence and the intensity of the light falling on the surface of the cells. This, in turn, leads to unstable power supply parameters at the output, as even shading a small part of the panel may drastically reduce the efficiency.
The optimal solution to the above-mentioned problems is the use of a set consisting of a solar panel, a battery and a charge controller. Such a set allows to ensure constant parameters of power supply to receivers, and also to store energy produced excessively for later use.
The 30A-PWM-LCD solar charge controller allows you to connect panels connected to each other both in series and in parallel - remembering not to exceed the permissible values of current and voltage at the input of the device. Due to the operating characteristics of the PWM controllers, it should be remembered that when the panels are connected in series, the rated voltage at the output for charging the battery is 24V.
PWM stands for Pulse Width Modulation. PWM charge control devices can be explained as an electrical switch between batteries. The switch can be quickly switch on and switch off. Therefore, desired voltage can be obtained to charge the batteries. The charge current will be slowly decreased as the batteries charged.
Specifications:
Typical usage example:
Built especially to showcase the low cost, feature-rich RP2040 chip on the Raspberry Pi Pico, this board has VGA output, an SD card slot, digital I2S audio output, and more!
Based on the reference design by Raspberry Pi, our Pimoroni Pico VGA Demo Base is a great way to start experimenting with Raspberry Pi Pico/RP2040. It's the perfect way to demo of some of the fun things you can achieve with the RP2040 microcontroller such as generating a solid VGA output without taxing the CPU at all!
- Amaze your friends by showing them you still own a D-sub cable!
- Bask in the glory of 15-bit analog video!
- Get teary eyed over the warm, authentic, RC filtered PWM audio!
This board will run the various video example programs that Raspberry Pi have put together to demonstrate features of the RP2040.
Please note that VGA Demo Base only currently works with the C/C Pico SDK!
A Raspberry Pi Pico is not included - click here if you'd like to buy one!
Your Pico will need to have male headers soldered to it (with the pins pointing downwards) to attach to our add-on boards.
Features
- 15-pin VGA (D-sub) connector
- PCM5100A DAC for line out audio over I2S (datasheet)
- PWM audio output
- SD card slot
- Reset button
- Female headers to install your Raspberry Pi Pico
- Three user-controllable switches
- Rubber feet
- Compatible with Raspberry Pi Pico
- No soldering required (as long as your Pico has header pins attached)
- Programmable with C/C
What's in the box?
1 x Pimoroni Pico VGA Demo Base
Resources
Getting started
The pin-out of our board is the same as Raspberry Pi's reference board, you can find it in chapter 3 of Hardware Design with RP2040 along with more general info about the VGA reference board.
To run the audio and video examples in Raspberry Pi's experimental repos, first make sure you have up to date versions of pico-extras and pico-playground. When building the examples, you will need to specify the board configuration so that the examples use the correct pins. You can do this by creating a new build directory and then specifying the board definition when using cmake:
cmake -D"PICO_BOARD=vgaboard" ..
There's more details on about how to build applications with custom board configurations in Appendix D / page 267 of the C/C SDK documentation.
Pinout
Description:
Meet the only connected RP2040 board. It fits the Arduino Nano form factor, making it a small board with BIG features.
The brain of the board is the Raspberry Pi RP2040 silicon; a dual-core Arm Cortex M0 running at 133MHz. It has 264KB of SRAM, and the 16MB of flash memory is off-chip to give you extra storage.
But what’s really exciting is the on-board connectivity options. The hugely popular and highly adaptable u-blox NINA-W102 radio module is on there to make this a true IoT champion. This also means you can harness the power of the cloud, with fully Arduino Cloud compatibility.
It’s got on-board, built-in sensors to turn your builds into powerhouse projects, too. Microphone and motion sensing add a depth of possibilities that’s almost impossible to find in a board of this size.
The Arduino Nano RP2040 Connect is the premium choice for RP2040 devices, and the perfect option for upgrading your projects and unlocking the potential of new ones.
Specifications:
Board | Nano RP2040 Connect | |
SKU: ABX00052 | ||
Microcontroller | Raspberry Pi RP2040 | |
USB connector | Micro USB | |
Pins | Built-in LED pin | 13 |
Digital I/O Pins | 20 | |
Analog Input Pins | 8 | |
PWM pins | 20 (Except A6, A7) | |
External interrupts | 20 (Except A6, A7) | |
Connectivity | Wi-Fi | Nina W102 uBlox module |
Bluetooth | Nina W102 uBlox module | |
Secure element | ATECC608A-MAHDA-T Crypto IC | |
Sensors | IMU | LSM6DSOXTR (6-axis) |
Microphone | MP34DT05 | |
Communication | UART | Yes |
I2C | Yes | |
SPI | Yes | |
Power | Circuit operating voltage | 3.3V |
Input Voltage (VIN) | 5-21V | |
DC Current per I/O pin | 4 mA | |
Clock speed | Processor | 133 MHz |
Memory | AT25SF128A-MHB-T | 16MB Flash IC |
Nina W102 uBlox module | 448 KB ROM, 520KB SRAM, 16MB Flash | |
Dimensions | Weight | 6 g |
Width | 18 mm | |
Length | 45 mm |
- What's in the Box ?
1 x Arduino Nano RP2040
- Resources, troubleshooting, how to install new bootloader:
- Nano RP2040 connect Cheat Sheet
- Discover how to access the features Nano RP2040 Connect using Python scripts.
https://docs.arduino.cc/tutorials/nano-rp2040-connect/rp2040-python-api
Specifications
- Length 1000mm
- PG2020
What's in the box?
1 x 1m Extrusion
PLEASE NOTE: Raspberry Pi Pico and 14500 batteries are NOT included.
PicoGo Mobile Robot, Based On Raspberry Pi Pico, Self Driving, Remote Control
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*
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 will need a pi-top [4] or an essentials kit to use our Sensor Foundation Kit.
The Sensor Foundation Kit includes:
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Note: We have tested this unit successfully on Zero and Zero 2.
The ETH/USB HUB HAT (B) is an Ethernet and USB HUB designed for Raspberry Pi, providing 1x RJ45 Ethernet port and 3x USB 2.0 ports. It's pogo pin design is specialized for Zero series, while the onboard normal USB connector can be used to connect with other Raspberry Pi boards through a USB cable.
Specifications
- 3x extended USB ports, compatible with USB 2.0 / 1.1
- Incorporates RTL8152B Ethernet chip, supports 1x RJ45 Ethernet port, 10/100M auto-negotiation
- Pogo pin design, for direct connecting with Raspberry Pi Zero/Zero W/Zero WH
- USB HUB connector, for connecting with Raspberry Pi 4B/3B /3A /2B through USB cable
What's in the box ?
1 x ETH/USB HUB HAT (B)
1 x Screws and standoffs pack
Resources
Wiki: ETH/USB_HUB_HAT_(B)
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