Search

Search Criteria

 
 
 
 

Products meeting the search criteria

Sort By:  
R804.60  Inc VAT
R899.90
This robot chassis is designed to be used with our Explorer HAT, Explorer HAT Pro, or Explorer pHAT boards though it will work with other motor drivers!
R299.90  Inc VAT
R499.90
R37.90  Inc VAT
This neat little board plugs directly into the Raspberry Pi GPIO header and provides 2 or 4 connectors for small stepper motors
R299.90  Inc VAT
R399.90  Inc VAT
Dexter - BalanceBot Extension Kit (dexter balance kit)
Description:

Build a BalanceBot with the Raspberry Pi! 

The BalanceBot extension kit takes your GoPiGo3 and turns it into an upright balancing robot! Kit includes an IMU sensor, IR receiver, IR remote control and a set of 3 sensor mounts. Program examples provided in Raspbian for Robots in Python.

Please Note. The GoPiGo3, Raspberry Pi and other associated hardware are NOT included in this purchase.


What’s included:

  • BalanceBot Power Cable (longer than the original one that comes with the GoPiGo3 base kit)
  • IMU Sensor
  • Infrared Reciever Sensor
  • Infrared Remote Control
  • Sensor Mounts (s/3)

What else do I need:

NOTE: This expansion kit will not work with the GoPiGo2.

R804.60  Inc VAT
R899.90
2WD Robot Car Chassis Kit single (2WD robot chassis)
Description:

Our 2WD Robot Car Chassis Kit is ideal for building RC vehicles or SmartBots – Comes with speed encoder wheels, geared DC motors and a AA battery unit.

Features:

Mechanical structure is simple, it is easy to build.
Can be used for distance measurement, velocity.
Can use with other modules to function as tracing, obstacle avoidance, distance testing, speed testing, wireless remote control.




Specifications:

For Motors:
VoltageDC 3VDC6VDC 7.2V
Current160mA220mA250mA
No-load Speed120 rpm/min200 rpm/min250 rpm/min
Load Speed100 rpm/min175 rpm/min210 rpm/min
Torque0.45 kg.cm1.0 kg.cm1.5 kg.cm
Reduction Ratio1:48
Noise≤65dB
Motor Size65mm x 18mm x 22mm(L*W*H)

For Smart Car:
Voltage3~9VDrive Mode2WD
Current600mAChassis Thickness3mm
Load≤2kgCar Weight285g
Speed0.6 m/sChassis Size135mm x 80mm


Package includes:

1 x DIY robot car kit

Read the Docs
R129.90  Inc VAT
HC-SR04 Ultrasonic Sensor Distance Measuring Module (sensor ultrasonic blue)
Description:

This economical sensor provides 2cm to 400cm of non-contact measurement functionality with a ranging accuracy that can reach up to 3mm. Each HC-SR04 module includes an ultrasonic transmitter, a receiver and a control circuit.

There are only four pins that you need to worry about on the HC-SR04: VCC (Power), Trig (Trigger), Echo (Receive), and GND (Ground). You will find this sensor very easy to set up and use for your next range-finding project!


Specifications:

- Model: HC-SR04
- Color: Blue Silver
- Working voltage : 5V(DC)
- Static current: Less than 2mA.
- Output signal: Electric frequency signal, high level 5V, low level 0V.
- Sensor angle: Not more than 15 degrees.
- Detection distance: 2cm~450cm.
- High precision: Up to 3mm
- Mode of connection: VCC / trig(T) / echo(R) / GND
- Module Working Principle:
- Adopt IO trigger through supplying at least 10us sequence of high level signal
- The module automatically send eight 40khz square wave and automatically detect whether it receive the returning pulse signal

Resources:

A good tutorial available at ModMyPi.
http://www.modmypi.com/blog/hc-sr04-ultrasonic-range-sensor-on-the-raspberry-pi
Read the Docs

What's in the box:

1 x HC-SR04 distance sensor
R25.90  Inc VAT
SG90 Universal 9g Servo Motors w/ Accessories for R/C Robot / Helicopter - Blue Yellow (sg90 servo blue)
Description:

Micro Servo Motor SG90 is a tiny and lightweight server motor with high output power. Servo can rotate approximately 180 degrees (90 in each direction), and works just like the standard kinds but smaller. You can use any servo code, hardware or library to control these servos.


Specifications:
  • Product: SG90 Servo
  • Torque: 2.0kg/cm(4.8V), 2.2kg/cm(6V)
  • Speed: 0.09s/60°(4.8V), 0.08s/60°(6V)
  • Rotate angle: 180°
  • Operating voltage: 4.8 ~ 6V
  • Gear: plastic
  • Dead band: 7us
  • Weight: 10.5g
  • Dimension: 22.8mm × 12.2mm × 28.5mm
What's in the box?:

1 x servo motor

Resources:

ExplainingComputers has a great video on using this servo https://www.youtube.com/watch?v=xHDT4CwjUQE&t=389s

How to set up SG90 Servo Motor on Raspberry Pi

R37.90  Inc VAT
2-Axis FPV Camera Cradle Head w/ 9g Dual Servo / Steering Gear for Robot / R/C Car - Black Blue (cam pan/tilt bracket)
You'll have to know how to control this unit from you GPIO port or a servo controller module(Not included).


Description:



Specially designed for R/C car and robotics; Can be pan/tilt 180 degrees; Can hold ultrasonic sensor, IR sensor, camera or other sensors.

Specifications:

- Weight: 15g
- Working torque: 1.6KG/cm
- Response rotary speed: 0.10s / 60 degree
- Working temperature: -30~60'C
- Dead zone: 2ms
- Plug: JR, Futaba
- Rotating angle: Max. 180 degree
- Servo: digital servo
- Working current: 0.02A
- Working voltage: 3.5~6V
- Structure: Nylon plastic gear

What's in the box?:

1 x Cradle head w/ servo (25.6 /-2cm)
1 x Pack of screws
R209.90  Inc VAT
Tracking Robot Car Electronic DIY Kit With Reduction Motor (DIY track robot kit)
Description:

This kit introduces quite a few electronic principles, its fun and not difficult to build. This is a self-build DIY smart tracking robot car kit. It is an introductory electronic kit designed to help kids, electronic enthusiasts, and novices learn about basic electronic knowledge like soldering and simple circuits(photoelectric sensor circuit, voltage comparator, motor driving,ir sensors etc.) The smart kit is designed based on the principle of infrared sensor and light reflectivity difference when the light emitting on the white and black items




The assembly steps:


Step 1: Welding circuit

Soldering part is simpler, welding sequence according to the principle of component level from low to high, the first welding eight resistance, is important to use multimeter to confirm resistance is correct, D4, D5 R13 R14 can temporarily not welding, integrated circuit chips can temporarily not inserted

Step 2: Mechanical assembly

The red line is connected to the 3V positive power supply, the yellow line grounding, excess wire an be used for motor wire.

Step 3: The installation of a photoelectric circuit

Photosensitive resistance and light-emitting diodes (note polarity) is reverse-mounted on the PCB, and the ground distance is about 5 mm, both photosensitive resistance and light-emitting diodes are 5 mm distance. Finally, you can power test.

Step 4: Vehicle debugging

The right direction is along the universal wheel direction, if you press and hold the left photoresistor, the wheels on the right side of the car should be rotated. Press and hold the right photoresistor, the wheels on the left side of the car should be rotated, if the car driving back, can also exchange the wiring of two motors, if the one side normal and the other side back up, as long as you can swap wiring of back side.

Note: We don't supply any manuals please note this before you buy it.

Package includes:

1 x Electronic DIY Kit (batteries are not included)



R169.90  Inc VAT
STS-Pi - Build a Roving Robot (STS Tri robot chassis)
Description:

This robot chassis is designed to be used with our Explorer HAT, Explorer HAT Pro, or Explorer pHAT boards though it will work with other motor drivers!

The kit is a great way to introduce yourself to robots and controlling motors with your Raspberry Pi. It even includes a camera mount so your little robot can take pictures while it's roaming around!

There is no soldering required and the whole kit can be put together with a small flat-head screwdriver.

Connor Plant has created a build video here: https://www.youtube.com/watch?v=jHn3ZiPG69w

Kit includes:

  • Laser cut chassis
  • Raspberry Pi camera mount
  • 2 x super-grippy moon-buggy wheels
  • 2 x push header motors (298:1 ratio)
  • 0.5" front castor wheel
  • Jumper leads
  • 2 x motor mounting brackets
  • 2 x battery clips (battery optional and not included)
  • Nuts, bolts, and other fixings

Build up your robot and program it in Python, Scratch, or whatever language you prefer! Add a USB battery pack (not included) and a WiFi dongle and you can make it roam free!

Does not include the Raspberry Pi, Raspberry Pi Camera, or Explorer HAT (Pro or pHAT).

This robot chassis is designed to be used with our Explorer HAT, Explorer HAT Pro, or Explorer pHAT boards though it will work with other motor drivers!
R299.90  Inc VAT
R499.90
3V-7V DIY Light Shock Absorbed Tank Robot Chassis With 130 Motors (tank chassis shocks)
Description:

This is an excellent lightweight plastic tank frame used for the manufacture of tank toys or robot projects. It has a good shock absorption effect, you can press up to 0.7cm on it.  With a general 130 motors which you can replace with the same high quality motor. This plastic tank frame supports a voltage of 3V to 7V and can be used with many systems.

Features:

1. Only 166g in weight
2. Good damping effect, you can press down to 0.7cm
3. With general motors 130, support 3-7V voltage
4. With the DC charging port at the bottom of the tail


Specifications:

  • Size: wide 9.7cm* long 18.5cm* high 5cm
  • Voltage: 3-7V
  • Motors: 130
  • Weight: 166g

Package Included:

1x Tank Robot Chassis

Read the Docs
R419.90  Inc VAT
WS AlphaBot2 robot building kit for Raspberry Pi 3, Pi 4 Model B (no Pi included) (Alphabot2 RPi 3/4)

Note: Raspberry Pi is NOT included. Batteries are not included

AlphaBot2-Pi (EN) can be used with Raspberry Pi4 ,you will need to buy a USB Micro-B to USB-C Adapter

Description:

This AlphaBot2 robot kit is designed to use with Raspberry Pi 3/4 Model B (not included). It features rich common robot functions including line tracking, obstacle avoiding, Bluetooth/infrared/WiFi remote control, video monitoring, etc.

Thanks to the highly integrated modular design, it is fairly easy to assemble by a snap, no soldering, no wiring. After a few minutes spent on hardware assembling, you're almost there, our open source demo codes is ready to help you get started fast.

AlphaBot2 Features

AlphaBot2 employs a 2-layer structure to provide excellent stability and compatibility.

AlphaBot2-Base, the lower base chassis:

  • 5-ch infrared sensor, analog output, combined with PID algorithm, stable line tracking
  • Onboard modules like line tracking, obstacle avoiding, needs no messy wiring
  • TB6612FNG dual H-bridge motor driver, compared with L298P, it's more efficient, more compact, and less heating
  • N20 micro gear motor, with metal gears, low noise, high accuracy
  • Onboard RGB LEDs, true color lighting, pretty cool

AlphaBot2-Pi, the upper adapter board for controller:

  • LM2596 voltage regulator, provides the Pi with stable 5V power
  • TLC1543 AD acquisition chip, allows the Pi to use analog sensors
  • PCA9685 servo controller, make it more smoothly to rotate the pan head
  • CP2102 UART converter, easy for controlling the Pi via UART
What's on the AlphaBot2-Base


  1. AlphaBot2 control interface: for connecting sorts of controller adapter board
  2. Ultrasonic module interface
  3. Obstacle avoiding indicators
  4. Omni-direction wheel
  5. ST188: reflective infrared photoelectric sensor, for obstacle avoiding
  6. ITR20001/T: reflective infrared photoelectric sensor, for line tracking
  7. Potentiometer for adjusting obstacle avoiding range
  8. TB6612FNG dual H-bridge motor driver
  9. LM393 voltage comparator
  10. N20 micro gear motor reduction rate 1:30, 6V/600RPM
  11. Rubber wheels diameter 42mm, width 19mm
  12. Power switch
  13. Battery holder: supports 14500 batteries
  14. WS2812B: true color RGB LEDs
  15. Power indicator
What's on the AlphaBot2-Pi
  1. AlphaBot2 control interface: for connecting AlphaBot2-Base
  2. Raspberry Pi interface: for connecting Raspberry Pi 3 Model B
  3. Servo interface
  4. USB TO UART: easy for controlling the Pi via UART
  5. LM2596: 5V voltage regulator
  6. TLC1543: 10-bit AD acquisition chip, allows the Pi to use analog sensors
  7. PCA9685: servo controller, make it more smoothly to rotate the pan head
  8. CP2102: USB TO UART converter
  9. Joystick
  10. IR receiver
  11. Buzzer

Examples

AlphaBot2 multi robots line following
AlphaBot2-Pi robot obstacle avoiding
AlphaBot2-Pi robot RGB LED remote control
AlphaBot2-Pi robot video monitor
AlphaBot2-Pi robot Bluetooth control
Development Resources

Wiki : www.waveshare.com/wiki/AlphaBot2-Pi

Package Includes:


Note: this product requires two 14500 batteries to work, which are NOT included and should be purchased separately. Even though the battery holder fits the normal AA batteries DO NOT USE THEM!  A 14500 lithium cell is identical in shape and size to a standard AA battery. But that is where the similarities end. AA supplies 1.5V each where 14500 supply 3.7V each.

  1. AlphaBot2-Pi (adapter board) x1
  2. AlphaBot2-Base (base chassis) x1
  3. RPi Camera (B) x1
  4. Micro SD Card 16GB x1
  5. Power adapter US standard 5V/2.5A USB output x1
  6. SG90 servo x2
  7. 2 DOF pan and tilt kit x1
  8. IR remote controller x1
  9. FC-20P cable 8cm x1
  10. USB type A plug to micro B plug cable x1
  11. 15PIN FFC 25cm x1
  12. AlphaBot2-Pi screws x1
  13. Micro SD Card Reader x1
  14. Screwdriver x1
R1,699.90  Inc VAT
Wheel For Robot Chassis (rear chassis wheel)
Description:

Add this to wheel any robot chassis and make your project move

Specifications:

Wheel diameter: 30mm
Height: about 34mm

What's in the box?:

1 x car wheel
R37.90  Inc VAT
2 Pcs Yellow/Black Robot Car Wheels (2 x robot wheels yellow)
Description:

You will find this wheel can be installed conveniently with many fixed locations on the acrylicplate of most robot chassis and motors, and is very suitable for Raspberry Pi, Arduino and MCU robotics.

Features:

With inner tyre
Diameter: 68mm
Width: 26mm
Center hole: 5.3 x 3.66mm (two sides is semicircle)
Weight: 50g

Package includes:

2 x robot car wheels
R44.90  Inc VAT
WS AlphaBot2 robot building kit for BBC micro:bit V2 (no micro:bit included) (Alphabot 2 micro:bit)
Please note: Micro:bit is not included

Description:

This AlphaBot2 robot kit is designed to use with the BBC micro:bit (not included). It features rich common robot functions including line tracking, obstacle avoiding, ultrasonic ranging, Bluetooth/2.4G remote control, etc.

Thanks to the highly integrated modular design, it is fairly easy to assemble by a snap, no soldering, no wiring. After a few minutes spent on hardware assembling, you're almost there, our open source demo codes is ready to help you get started fast.

AlphaBot2 Features

AlphaBot2 employs a 2-layer structure to provide excellent stability and compatibility.

AlphaBot2-Base, the lower base chassis:

  • 5-ch infrared sensor, analog output, combined with PID algorithm, stable line tracking
  • Onboard modules like line tracking, obstacle avoiding, needs no messy wiring
  • TB6612FNG dual H-bridge motor driver, compared with L298P, it's more efficient, more compact, and less heating
  • N20 micro gear motor, with metal gears, low noise, high accuracy
  • Onboard RGB LEDs, true color lighting, pretty cool

AlphaBot2 for micro:bit, the upper adapter board for controller:

  • micro:bit dedicated connector, for easily connecting with the micro:bit
  • MP1584 voltage regulator, provides stable 5V output
  • RT9193-33 voltage regulator, provides stable 3.3V voltage to the micro:bit
  • TLC1543 AD acquisition chip, allows the micro:bit to use analog sensors
  • PCA9685 PWM control chip, I/O expander
  • Onboard buzzer to play music

What's on the AlphaBot2-Base


  1. AlphaBot2 control interface: for connecting sorts of controller adapter board
  2. Ultrasonic module interface
  3. Obstacle avoiding indicators
  4. Omni-direction wheel
  5. ST188: reflective infrared photoelectric sensor, for obstacle avoiding
  6. ITR20001/T: reflective infrared photoelectric sensor, for line tracking
  7. Potentiometer for adjusting obstacle avoiding range
  8. TB6612FNG dual H-bridge motor driver
  9. LM393 voltage comparator
  10. N20 micro gear motor reduction rate 1:30, 6V/600RPM
  11. Rubber wheels diameter 42mm, width 19mm
  12. Power switch
  13. Battery holder: supports 14500 batteries
  14. WS2812B: true color RGB LEDs
  15. Power indicator
What's on the AlphaBot2 for micro:bit (Adapter Board)


  1. micro:bit connector
  2. AlphaBot2-Base header: for connecting with the base board
  3. RT9193-33: 3.3V voltage regulator, stable power supply for the micro:bit
  4. PCA9685: PWM control chip, I/O expander, I2C interface
  5. TLC1543: 10-bit AD acquisition chip, allows the micro:bit to use analog line tracking sensor
  6. Buzzer
  7. MP1584 5V voltage regulator
Dimensions
Development Resources

Wiki : www.waveshare.com/wiki/AlphaBot2_for_micro:bit

This Kit Includes:

Note: this product requires two 14500 batteries to work, which are NOT included and should be purchased separately.

Note: the controller micro:bit is NOT included.

AlphaBot2 for micro:bit Acce Pack
  1. AlphaBot2 for micro:bit (adapter board) x1
  2. AlphaBot2-Base (base chassis) x1
  3. Ultrasonic sensor x1
  4. FC-20P cable 8cm x1
  5. USB type A plug to micro B plug cable x1
  6. AlphaBot2 for micro:bit screws x1
  7. Screwdriver x1
R1,299.90  Inc VAT
Avoidance tracking Smart Robot Car Chassis Kit Speed Encoder Battery Box 2WD Ultrasonic module For Arduino kit (Aduino robot car)
Please Note: Some drilling will be required. You might need to add a few standoffs and screws to build it the way you want it.
Description:

This complete robot car kit includes the arduino as well. Just add batteries and code. Great for beginners to learn how to code using sensors and motion on the Arduino boards

Pdf manual available at http://www.cs.columbia.edu/~sedwards/presentations/robot-car-instructions.pdf 
Get more details at https://create.arduino.cc/projecthub/hda-robotics/project-1-2wd-obstacle-avoiding-robot-390ef8

Package Includes: 
  • Car chassis x 1 
  • Car Wheels x 2 
  • DC Gear Motor x 2 
  • 20 line gun code disk x 2 
  • Fasteners (high intensity black acrylic) x 4 
  • Caster x 1 
  • Four battery box x 1 
  • Quality Rocker Switch x 1 
  • Assembly drawing x 1
  • Several screws and nuts
  • V5 shield x 1
  • UNO R3 x 1
  • SG90 x 1
  • FPV x 1
  • L298N x 1
R599.90  Inc VAT
PiStep2 Quad Stepper Motor Control Board for Raspberry Pi (PiStep2 stepper hat)
Description:

This neat little board plugs directly into the Raspberry Pi GPIO header and provides 2 or 4 connectors for small stepper motors

  • Fully Assembled - No Soldering Required
  • Raspberry Pi Zero Form Factor - works with all versions of Raspberry Pi with 40pin GPIO connector
  • Stepper motors and Raspberry Pi not included

Various Power Options:

  1. Powered from the Raspberry Pi 5V
  2. From the 2-pin Terminal (whatever voltage is required for the motors)
  3. Micro-USB - 5V only

Pinout is simple:

  • Physical pins 11, 12, 13, 15 for Motor A (GPIO 17, 18, 27, 22)
  • Physical pins 16, 18, 22, 7 for Motor B (GPIO 23, 24, 25, 04)
  • Physical pins 33, 32, 31, 29 for Motor C (GPIO 13,12,6,5)
  • Physical Pins 38, 37, 36, 35 for Motor D (GPIO 20,26,16,19)

Each pin has an associated white LED so you can see the stepper signals going through

Power Supply Alternatives

  • Jumper VCC-VSTP (default). Power from the motors is taken from the Raspberry Pi 5V line
    • Micro-USB into Raspberry Pi. 5V for the Pi and the stepper motors goes through a poly-fuse which can trip if 2 motors are used simultaneously
    • Micro-USB into the PiStep board. 5V for both the Pi and the stepper motors is provided directly from the 5V USB input so no problems with 2 motors at once
  • Jumper VSTP-VIN. Power for the motors is provided from the 2-pin screw terminal, so can be any voltage that the steppers can handle. Ensure you use the correct polarity! We recommend to keep it below 12V. You will find that the stepper motors can go up to 9V and will be able to step faster, the higher the voltage that is applied, but there will be some deterioration of the life of the stepper motor at a higher voltage.

Python Programming

Please see the excellent example here for some pointers. You will need to change the pin numbers as above and also change the speed so it steps at a visible rate. You may also want to remove the print statements to speed it up. The lines in Red below are changed from the original to operate Motor A.

# Use BCM GPIO references
# instead of physical pin numbers
GPIO.setmode(GPIO.BCM)

# Define GPIO signals to use
# Pins 18,22,24,26
# GPIO24,GPIO25,GPIO8,GPIO7
StepPins = [17,18,27,22]

# Set all pins as output
for pin in StepPins:
  print "Setup pins"
  GPIO.setup(pin,GPIO.OUT)
  GPIO.output(pin, False)

# Define some settings
StepCounter = 0
WaitTime = 0.01

ScratchGPIO Programming

These pins are identical to those required by ScratchGPIO and therefore can easily be driven using simple Scratch commands:

Set motor type for Scratch to be Stepper motor

Set the position of the stepper motor A

Set the speed of the stepper motor A

This neat little board plugs directly into the Raspberry Pi GPIO header and provides 2 or 4 connectors for small stepper motors
R299.90  Inc VAT
CamJam EduKit 3 - Robotics (CamJam EduKit 3 Robotics)
Description:

The third in the series is here! The CamJam EduKit #3 is focused on robotics and contains (almost) everything you need to create your very own Raspberry Pi-powered robot.

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. Included in the kit are the following components:

  • A custom-designed, pre-soldered motor controller board (with screw terminals)
  • Two DC motors (with wires pre-soldered)
  • Two custom red wheels (which go extra fast… because they’re red!)
  • A ball castor (used as the ‘third wheel’ to your robot)
  • A small breadboard (to create your circuits)
  • Two pieces of strong 3M padded double-sided tape
  • A battery box for 4 AA batteries (batteries not included)
  • An ultrasonic distance sensor (for detecting objects in front of your robot)
  • A 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!

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



R399.90  Inc VAT
Robotbit - robotics expansion board for micro:bit (Robotbit)
Decription:

Robotbit is a robotic expansion board specially designed for micro:bit by the KittenBot team.

It has a powerful ability to drive DC motors, stepper motors, and servos. It also comes with an onboard buzzer, four RGB pixels and releases all valid IO from micro:bit, with support for the most common electronics module in the market.

It comes with an 18650 battery holder, integrated lithium battery boost, charging and protection chip. Support for external power input. Mechanical support for a robotic chassis and LEGO technical slots.

For more details and tutorials please click here

micro:bit, 18650 battery and Kitty case not included, but we have them all on the store!

SUPPORTED SOFTWARE
  • Kittenblock (based on Scratch3.0)
  • Makecode and python(Mu editor in microbit mode)
HARDWARE INTERFACE



  1. 5V external power input(with anti-reverse protection)
  2. Power switch
  3. Power Indicator
  4. Battery Indicator
  5. Micro USB charging port
  6. 4-channel DC motor / 2-channel stepper motor
  7. Jumper for buzzer selection
  8. 8 channel IO(corresponding to Micro:bit P0-P2、P8、P12-P15)
  9. 5V and GND port
  10. Buzzer
  11. 8 channel servo port
  12. I2C interface (expandable I2C module)
  13. 18650 battery case
  14. Battery protection recovery push button
  15. Micro:bit edge connector
  16. 4x RGB pixel
  17. Servo driver (PCA9685)
  18. 2xDc/Stepper driver (DRV8833)
  19. KittenBot robot chassis mounting hole
  20. Standard LEGO hole
Specifications
  • Dimensions: 78mm x 57mm x 23mm
  • PCB Thickness: 1.5mm
  • Small mechanical hole: 3.0mm
  • Big mechanical hole: 4.8mm
  • Net weight (without packaging): 37.5g
  • 18650 battery voltage: 3.7V
  • USB input voltage: 5V
  • VM pin max output: 1A (with onboard battery)
  • External Voltage Input (the green terminal): 5V (only supports 5V input, do not connect over 5V, maximum current supports 3A)
R345.44  Inc VAT
R399.90
PIPPY, an Open Source Bionic Dog-Like Robot Powered by Raspberry Pi (WS Pippy robot dog)


Bionic dog-like robot

effortless connecting rod structure, motion inverse-solved gait algorithm,
capable of performing sorts of gaits and functionalities



Posture self-balancing

embedded high precision 9-DOF motion sensor ICM20948
(3-axis accelerometer, 3-axis gyroscrope, 3-axis magnetometer)
accommodating to different terrains, featuring self-balancing capability, keeping the camera stable




5MP 160° wide angle camera

quality OV5647 sensor



Video Monitoring
High definition, low latency, real time video monitoring through the camera



Vision-based Line Following
After OpenCV image binarization process, getting the stray value by comparing the positions of image center line, which will be then used to control the movement of the robot, make it keep following the line.



Motion Detection
Capturing moving objects in the video by detecting the video images from the camera

Color Recognition & Tracking
Auto tracking specified color in the video image, allows different colors
Ultrasonic sensing

outfitted with Ultrasonic module for detecting and responsing to objects



Multiple control methods

video postback, WiFi remote control



Highly integrated base board



Dimensions



Specifications
ControllerRaspberry Pi 4 Model B (NOT INCLUDED)
OSRaspberry Pi OS (Raspbian)
LanguagePython
Camera5MP HD resolution, 160° FOV wide angle camera
Display0.91" OLED, 128×32 pixels
WiFi modeAP mode (self-generated hotspot) / STA mode (connecting to a router)
Protectionover charge/discharge protection, over current protection, short circuit protection, reverse proof
Power supply8.4V, 2x 18650 battery in series, allows discharging while recharging (batteries NOT included)
ServoMG90S metal gear servo
Materialaluminum alloy

Resources & Services
WIKI: PIPPY

R3,599.90  Inc VAT
PikaBot - Maker UNO Smart Car Kit (CT uno car kit)
Description:

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:

 

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!

    R499.90  Inc VAT
    Resolute Robotics Beginner Stream - 4 In 1 Engineering And Computer Sciences Robotics Kit (resolute beginner kit)

    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:

    https://youtu.be/rzSd97NkbEY


    R3,795.00  Inc VAT
    Advanced Stream - 4 in 1 Engineering and Computer Sciences Robotics Kit (resolute advanced kit)
    Description

    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:

    https://youtu.be/cqVqC3JykdU


     

    R4,025.00  Inc VAT
    Per Page      1 - 20 of 30