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Maker UNO: Simplifying Arduino for Education (Maker Uno education)
Description:

Maker UNO is an Arduino Compatible board specially designed to simplify building your projects:

  •     Coding & Electronics made easy with built-in:{ 12x LEDs; 1x buzzer; 1x button; }
  •     Troubleshooting made easy with LED indicators.

Students/Makers can skip the hassle of constructing the basic electronic circuit which is boring and
time-consuming. Although it is equally important to learn about basic electronics, it can always come later after they have experienced how easy it is to create an awesome project. Start with fun and excitement. Start coding right away and see your board lights up and plays the melody with the press of a button.

For experienced makers, this is also useful to quickly test your code without having to connect any other devices.

With the conventional Arduino boards, makers 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.



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:


Tutorials:


Related links:


What's in the box?

1 x Maker Uno board

Attachment
DescriptionDate AddedSizeAction
CH341 Driver (Windows 10)08/12/2021N/ADownload
CH341 Driver (Mac OS)08/12/2021N/ADownload
Maker UNO Schematic08/12/2021N/ADownload
Maker UNO Fritzing File08/12/2021N/ADownload
Maker UNO PCB Eagle File08/12/2021N/ADownload
Arduino IDE08/12/2021N/ADownload
MAKER-UNO User's Manual08/12/2021N/ADownload
R149.90  Inc VAT
Maker Pi Pico Base (without Pico): Simplifying Pi Pico for Beginners (CT pico base board)
Description:

Maker Pi Pico Base incorporates the most wanted Reset button for your Raspberry Pi Pico and gives you access to all GPIO pins on two 20 ways pin-headers, with clear labels. Each GPIO is coupled with an LED indicator for convenient code testing and troubleshooting. The bottom layer of this board even comes with a comprehensive pinout diagram showing the function of each pin. 






It is a compact yet feature-packed board designed to sit at the heart of your STEM & robotics projects. Just use the jumper wires and/or Grove cables to connect any sensor and output modules to expand its capability. No soldering required!




Maker Pi Pico Base can be programmed with CircuitPython, MicroPython & C/C . Just connect to any computer (including Raspberry Pi SBC) via USB, then drag and drop the file onto it to upload the program. It's as easy as copying a file into your thumb drive!

Board Layout:
Features:
  • Work out-of-the-box. No soldering!
  • Access to all Raspberry Pi Pico's pins on two 20 ways pin headers
  • LED indicators on all GPIO pins
  • 3x programmable push button (GP20-22)
  • 1x RGB LED - NeoPixel  (GP28)
  • 1x Piezo buzzer (GP18)
  • 1x 3.5mm stereo audio jack (GP18-19)
  • 1x Micro SD card slot (GP10-15)
  • 1x ESP-01 socket (GP16-17)
  • 6x Grove port

 

Dimensions:

Packing List:
  • 1 x Maker Pi Pico
     Note  Raspberry Pi Pico NOT included. Please purchase separately here.
Resources:
R179.90  Inc VAT
Maker pHAT: Simplifying Raspberry Pi for Education (CT pHAT)
Check the review by MagPi (the official Magazine of Raspberry Pi) of Maker pHAT:



The Typical Problem Faced by Beginners in Learning Electronics on Raspberry Pi 

Raspberry Pi aims to bring the power of computing and digital making to the masses. It is being used by many educators, makers, and also engineers. Yet, if you are a newbie learning electronics, you might face some of these constraints:
  • Hard to get started without additional devices (monitor, keyboard, and mouse). Beginners will either need to use additional devices or follow many steps just to get started. This may confuse them. For techies that want to know why, this is because it lacks an onboard USB to UART communication for your computer to get the IP address for SSH (headless), or to kick start configuration directly.
  • Hard to get started with electronics. It doesn't come with any inputs or outputs, you will need to connect additional accessories to use it. Most beginners do not have basic knowledge of electronics. They will have a problem to understand the circuit diagram and connections needed when they first started learning. They will spend a substantial amount of time just to connect the wires and troubleshoot the connections.
  • Hard to troubleshoot the GPIO. With just the raspberry pi, beginners face a common problem when learning electronics- 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.
  • Access to GPIO is kind of difficult. There is no label on the pins, you need to search online to get the designated pin and know which pin to connect. For beginners, this definitely will make it harder for them to make the connection correctly. 
  • No easy way to properly shutdown using a switch. There is no programmable push button to enable proper shutdown through hardware. If the beginner turns off the power without properly shutting it down, the raspberry pi may not work the next time. 

Introducing Our Solution: Maker pHAT 

Maker pHAT solves all these. It is designed to:

  • Simplify to get started with Raspberry Pi without additional monitor, keyboard or mouse (Headless). Go headless with a few simple steps as it enables users to remote access Raspberry Pi through serial.
  • Simplify learning electronics. Beginners 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 an awesome project. Start with fun and excitement. Start coding right away and see your board lights up and plays sound with the press of a button. It comes with onboard LEDs, pushbuttons, and a buzzer to easily learn how to control input and output. No messy wiring needed and no additional components needed.
  • Simplify troubleshooting and prototyping. Not only do the onboard LEDs work as outputs, but 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. The pre-soldered header pins come with nice labels. This helps the user to easily connect inputs and outputs to the right pins. This will further assist them in interfacing with sensors and actuators.
  • Simplify proper shutdown using pushbutton. You can easily follow the steps and choose one of the pushbuttons as the power button to properly shutdown the Raspberry Pi. Just press the button and it will shut down. 

Video: https://youtu.be/EJWxLi7fLSo



Maker pHAT for Raspberry Pi

Maker pHAT is designed to be the same size as Raspberry Pi Zero board, it stacks perfectly on top of Rpi Zero with the four mounting holes aligned. (What is a HAT? Read this to know more) We do advise getting Raspberry Pi Zero WH (pre-solder header pin) for beginner because it is not an easy work to solder the 40-pin GPIO, don't forget you'll need to have the soldering tools too.



Maker pHAT is also compatible with Raspberry Pi 3B, 3B , 3A ,  and of course the latest 4B too. You just need to insert the 2x20 stacking header(included), as photo shows:



Maker pHAT is compatible with:

Maker pHAT is now Rev1.10:


Features:

  • Raspberry Pi Zero size, stack perfectly on to Pi Zero Series of SBC (Single Board Computer).
  • Compatible with standard size Raspberry Pi 3B/3B /4B1GB/4B2GB/4B4GB, medium size Raspberry Pi 3A and smaller size Raspberry Pi Zero/W/WH.
  • Standard Raspberry Pi GPIO footprint.
  • LED array for selected GPIO pins (GPIO 17, 18, 27, 22, 25, 12, 13, 19).
  • 3x onboard programmable push buttons (GPIO 21, 19 and 20, need to configure as input pull up).
  • Onboard active buzzer (GPIO 26).
  • Proper label for all GPIOs, including SPI, UART, I2C, 5V, 3.3V, and GND.
  • Utilize USB Micro-B socket for 5V input and USB to UART communication.
  • USB serial facilitated by the CH340, Rev1.10 uses FT231X as the USB to UART
  • Input voltage: USB 5V, from the computer, power bank or standard USB adapter.
  • PURPLE PCB!

Documents/Tutorials:

Packing List:



R189.90  Inc VAT
SIM7020E NB-IoT Module For Raspberry Pi Pico, for Asia, Europe, Africa, Australia (Sim for pico)
SIM7020E NB-IoT module for Pico

B1/B3/B5/B8/B20/B28 frequency band




Features at a glance

The Pico-SIM7020E-NB-IoT is an NB-IoT (NarrowBand-Internet of Things) module designed for Raspberry Pi Pico. It supports multiple NB-IoT frequency band, can be controlled via serial AT commands, and supports communication protocols like HTTP/MQTT/LWM2M/COAP, etc. Due to the advantages of low delay, low power, low cost, and wide coverage, it is the ideal choice for IoT applications such as intelligent instruments, asset tracking, remote monitoring, and so on.

  • Standard Raspberry Pi Pico header, supports Raspberry Pi Pico series boards
  • UART communication, serial AT commands control, multiple communication protocols support, multiple cloud platform support
  • Integrates 3.7V Li-po battery connector and recharge circuit, allows being powered from external rechargeable Li-po battery, or recharging it in turn
  • 2x LED indicators, for monitoring the module operating status
  • Onboard Nano SIM card slot for NB-IoT specific card
  • Comes with development resources and manual (MicroPython examples)
Specifications
Communication
Frequency bandLTE-FDD: B1/B3/B5/B8/B20/B28
Data rate26.15kbps (DL) / 62.5kbps (UL)
Communication interfaceUART
Baudrate300bps~921600bps (115200bps by default)
Communication ProtocolTCP/UDP/HTTP/HTTPS/MQTT/LWM2M/COAP/TLS/DTLS/DNS/NTP
Applicable regionAsia, Europe, Africa, Australia
Operating
Power supplyExternal Li-po battery OR Raspberry Pi Pico USB port
Battery interface3.7V ~ 4.2V
Logical level3.3V
Module standalone currentIdle mode: 5.6mA
Sleep mode: 0.4mA
PSM mode: 3.4uA
Dimensions73.5 × 24.00mm

Raspberry Pi Pico header compatibility

the Pico can be SMD-mounted (left), or attached via female header (right)



connecting with other expansion module and antenna



Raspberry Pi Pico and other boards shown are NOT included.
The pin headers are NOT soldered by default.

Cloud Communication

Supports communication protocols including: TCP/UDP/HTTP/HTTPS/MQTT/LWM2M/COAP/TLS






Pinout definition


Outline dimensions





R349.90  Inc VAT
SIM7600G-H 4G / 3G / 2G / GNSS Module for Jetson Nano, LTE CAT4, Global Applicable (Jetson Nano Gnss Module)
Description:


4G/3G/2G/GNSS Expansion Board For Jetson Nano, Based On SIM7600G-H, Global Applicable.

This is a 4G/3G/2G communication and GNSS positioning module designed for Jetson Nano, it supports global LTE CAT4 up to 150Mbps for downlink data transfer, with pretty low power consumption.

Just attach it onto the Jetson Nano Developer Kit, easily enable functions like 4G high speed connection, wireless communication, remote video monitoring, making telephone call, sending SMS, global positioning, and so on.


Specifications:

  • 40PIN GPIO extension header for connecting Jetson Nano
  • Supports dial-up, telephone call, SMS, mail, TCP, UDP, DTMF, HTTP, FTP, etc.
  • Supports GPS, BeiDou, Glonass, LBS base station positioning
  • Onboard USB interface, to test AT Commands, get GPS positioning data, and so on
  • Breakout UART control pins, to connect with host boards like Arduino/STM32
  • SIM card slot, supports 1.8V/3V SIM card
  • Onboard 3.5mm audio jack with earphone and mic support, for making telephone call
  • 2x LED indicators, easy to monitor the working status
  • Onboard voltage translator, operating voltage can be configured to 3.3V or 5V via jumper
  • Baudrate: 300bps ~ 4Mbps (default: 115200bps)
  • Autobauding baudrate: 9600bps ~ 115200bps
  • Control via AT commands (3GPP TS 27.007, 27.005, and V.25TER command set)
  • Supports SIM application toolkit: SAT Class 3, GSM 11.14 Release 99, USAT
  • Comes with development resources and manual (examples for Jetson Nano/Raspberry Pi/Arduino/STM32)

What's in the box ?

  1. SIM7600G-H 4G for Jetson Nano x1
  2. LTE Antenna x1
  3. GPS External Antenna (B) x1
  4. Jetson Nano USB Adapter x1
  5. Screws pack (2pcs) x1


Communication Specifications: 


 LTEWCDMA / TD-SCDMA / CDMA 2000  EDGEGSM/GPRS
BandLTE-TDD B34/B38/B39/B40/B41
LTE-FDD B1/B2/B3/B4/B5/B7/B8
/B12/B13/B18/B19/B20/B25/B26/B28/B66
UMTS/HSDPA/HSPA+ B1/B2/B4/B5/B6/B8/B19GSM/GPRS/EDGE 850/900/1800/1900MH
Emitting power0.25W[email protected]
[email protected]
[email protected]
[email protected]
Data SpeedLTE CAT 4
Uplink≤50 Mbps
Downlink≤150 Mbps
UMTS
Uplink≤384Kbps
Downlink≤384Kbps

HSPA+
Uplink≤5.76Mbps
Downlink≤42Mbps
TD-SCDMA
Uplink≤128Kbps
Downlink≤384Kbps

TD-HSDPA/HSUPA
Uplink≤2.2Mbps
Downlink≤2.8Mbps
CDMA2000/EVDO
Uplink≤1.8Mbps
Downlink≤3.1Mbps
EDGE
Uplink≤236.8kbps
Downlink≤236.8kbps
GPRS
Uplink≤85.6kbps
Downlink≤85.6kbps
SIM CardNormal SIM (Not Included)
Applicable RegionGlobal 4G/3G/2G



GNSS Specifications:

  • Receiver type
    • 16-channel
    • C/A code
  • Sensitivity
    • Tracking: -159 dBm (GPS) / -158 dBm (GLONASS) / TBD (BD)
    • Cold starts: -148 dBm
  • Time-To-First-Fix (open air)
    • Cold starts: <35s
    • Hot starts: <1s
  • Accuracy
    • Position: <2.5m CEP


SMS and Audio Specifications:

  • SMS
    • Supported types: MT, MO, CB, Text, PDU
    • Storage: USIM card and ME (default)
  • Audio feature
    • Supports echo cancellation
    • Supports noise reduction








* Jetson Nano not included, only Sim7600G-H GNSS Module. Please refer to "What's in the box" to see contents of item displayed.
R1,399.90  Inc VAT
DIY Simple Magnetic DC Motor (Diy Magnetic DC motor)
Description:

Get this kit to keep your kids occupied with hands-on activities while enjoying the simple DC brushed motor from this kit when it is completed. This DIY kit is simple enough to be built by 4 years old children, with parent's help. And children 6 years old and above can build it by themselves! Let's them explore the fundamental of DC brushed motor, and also electromagnetic. What causes the coil to generates a magnetic field to push or pull the coil itself?


  • Your kids can always follow the video to build the motor or if you prefer the step by step guide in a document, we have also produced an instruction manual in English:




Note: Not suitable for children under 4 years old!

Features:

  • Do It Yourself wooden magnetic DC motor for kids
  • Suitable for age 4 years old and above
  • Come with everything needed to assemble it
  • Powered with two (2) AA-size battery (not included in this kit)
  • No soldering is needed
  • Learn about the electromagnetic principal

What's in the box?

  • 1 x Ice cream stick
  • 2 x Wire terminal as the brush motor coil
  • 1 x AA battery holder with blade switch
  • 2 x Wooded pole with hole
  • 1 x Double-sided tape
  • 1 x Wooded pole without hole
  • 1 x 7. 2cm diameter plastic bottle
  • 2 x Magnet Disc

Resources:

R69.90  Inc VAT
Maker Drive: Simplifying H-Bridge Motor Driver for Beginner (maker drive h-bridge)
Description:

For full instructions see our blog

Brushed motor is the most widely used motor because it is easy to use. Just supply the two terminals with DC power, the motor will start rotating! If you want to control its speed and direction using a controller, usually you will use an L298N Motor Driver. But if you want an easy and beginner-friendly motor driver, you are on the right page! Maker Drive is designed for simplicity and with the beginner in mind!

Motor Driver for Beginner- Maker Drive

Maker Drive is not an Arduino Shield, but it is compatible with different models of Arduino main board such as:

Not to forget that it accepts 1.8V, 3.3V & 5V logic(for control) and is compatible with controllers such as Raspberry Pi, micro:bit, Raspberry Pi Pico, ESP etc.

Since you have Maker Drive, you will need suitable DC brushed motors besides the controller, right? So which motor is suitable for Maker Drive? Well, as long as the motor is...

  • DC Brush motor (Two Terminals)
  • Operating voltage from 2.5V to 9.5VDC
  • Rated Current ≤ 1.0A
  • Peak Current ≤ 1.5A

Example of suitable DC brush motor for Maker Drive (Not limit to):

These are the suggested power sources for Maker Drive:



Specifications:

  • Dual-channel, Bi-directional control motor driver
  • Support motor voltage from 2.5V to 9.5VDC
  • Maximum current up to 1.0A continuous and 1.5A peak (less than 5 seconds)
  • 5V Output (200mA) to power the controller.
  • Inputs compatible with 1.8V, 3.3V and 5V logic (Arduino, Raspberry Pi, etc).
  • Solid-state components provide faster response time and eliminate the wear and tear of mechanical relay
  • Regenerative Braking
  • Speed control PWM frequency up to 20KHz (Actual output frequency is the same as input frequency)
  • Dimension: 43mm(W) x 35mm (L) x 14mm (H)


What's in the box:

1 x Maker Drive board

Resources:

R69.90  Inc VAT
Maker Reflect: Simplifying IR Reflectance Sensor for Beginner (maker reflect)
Description

Maker Reflect is a tiny reflectance sensor that consists of an infrared (IR) LED that transmits IR light onto a surface and a phototransistor measures how much light is reflected back. The output is in analog voltage - The more IR light is sensed by the phototransistor, the lower the voltage.



Typically this sensor is used in line following robot as the white surfaces reflect more IR than black surfaces. However, it is not limited to line follower, there are much more application which can utilize the Maker Reflect. Eg.: Edge/Border sensor in Sumo robot, wall sensor in maze solving robot, short-distance object detector (presence sensor), a sensor for rotary wheel encoder...etc.



Measuring only (L)18.1mm x (W)8.4mm x (H)4.2mm (Exclude the header pin), this tiny sensor can be easily fitted in the tightest space available on your robot. We purposely designed the sensor so that the mounting hole is at the center so that the sensor can be at the front-most position. This is especially important in the Sumo robot.

Features:

  • Operating Voltage: 3.3V and 5V Compatible
  • Sensing Distance (Height): 1mm to 40mm (Vcc = 5V, Black line on a white surface)
  • Output: Analog Voltage (White surface = lower voltage)

Example Application: Line Following Robot, Sumo Robot, Wall Following Robot, Short Distance Object Sensing, Sensor for Printed Rotary Wheel Encoder.



Documents:




What's in the box?

1 x MAKER-REFLECT
R34.90  Inc VAT
NodeMCU-ESP32S IoT Kit - Simplifying IoT with V-ONE (NODEMCU IOT V-ONE)

Internet of Things or in short "IoT", is actually a pretty simple concept, it means taking all the things in the world and connecting them to the internet. The most famous application that applies IoT is Smart Agriculture. Older generations usually work as full-time farmers since they need to check their plants every day. But now, thanks to IoT, many farmers can take care of their farms remotely and monitor the data from home.

 

In accordance with the new feature release by ViTrox, Cytron Technologies grab this opportunity to collaborate and use their IoT platform, V-ONE. With the new features AIoT module in V-ONE, it can be one of the best IoT platforms that you should try! Never heard of this V-ONE platform? Don't worry, this IoT Kit is included with an online manual guide that will help you explore the V-ONE with 10 examples of IoT projects provided for you to try!

Note: V-ONE platform is originally built for industrial use, so the user interface is quite different from other IoT platforms. A lot of work and improvements have been made to make this platform more user-friendly. So, students out there, come and give it a try!

AIoT Cloud is a platform where any user, from an engineer to a student, can use an AIoT device or AIoT gateway to connect with a readymade V-ONE AIoT Cloud data storage structure for real-time monitoring, analytics, and adoption of AI and Machine Learning in V-ONE.



Making IoT + AI simple. An easy way to implement plug and trace low code IoT + AI development on sensory data. Users can access manufacturing data via V-ONE AIoT Cloud to perform further applications such as data analytics and machine learning with the connectivity of IoT Sensors and IoT Edge Devices.

 

This IoT Kit is powered by a powerful microcontroller, NodeMCU-ESP32S. With the onboard ESP-32S module, it will not be a problem to run various IoT projects using different types of sensors and actuators. In this kit, there are 7 types of sensors provided including 3 types of actuators. With all the components provided in this kit, you can try exploring IoT with the V-ONE cloud by doing 10 sample projects in the manual guide given. Don't worry, no need for other extra components! The breadboard, USB cable, jumper wire, and even a screwdriver to screw the relay ports are also included in this kit to run the sample projects.

 

This online manual guide will cover everything that you need to know, including the V-ONE platform, Arduino IDE software, and guide to run each sample project.



In the IoT projects part, you will be provided with some overviews of the project, required components, circuit diagram, sample code, workflow code, and sample dashboard to give you some ideas.



For some preview, this is the final dashboard for one of the sample projects, Smart Agriculture. Unleash your creativity and create your own dashboard!



Note: This IoT Kit is highly recommended for any electronic or IoT workshop since it is complete with the hardware, manual guide, and IoT platform :)

 

    Features:

    • A special collaboration with ViTrox to utilize their great IoT platform, V-ONE.
    • Use a powerful microcontroller board, NodeMCU-ESP32S which is capable to run various IoT projects.
    • It comes with a pin diagram card for NodeMCU-32S to make the hardware connection process easier.
    • Step-by-step online manual guide to explore the V-ONE platform.
    • Complete tutorial for 10 IoT projects.
    • Suitable for makers, electronics enthusiasts, and students (tertiary and secondary education).

     

    Manual Guide:

    • Part 1: V-ONE Platform
    • Part 2: Arduino IDE
    • Part 3: IoT Projects
      • Project 1: Baby Monitoring
      • Project 2: Pet Feeder
      • Project 3: Mailbox Notifications
      • Project 4: Voting System
      • Project 5: Home Security System
      • Project 6: Visitor Counter
      • Project 7: Agriculture
      • Project 8: Smart Agriculture
      • Project 9: Smart Bedroom
      • Project 10: Smart Kitchen

     

    NodeMCU-ESP32S Specifications:

    • Onboard ESP32-S module
    • Onboard CH340, USB to UART converter
    • USB port for power input, firmware programming, or UART debugging
    • 2x19pin extension headers, breakout all the I/O pins of the module
    • 2x keys, used as reset or user-defined
    • WIFI module: ESP32-S
      • Processor: ESP32
    • Built-in Flash: 32Mbit
    • Antenna: Onboard PCB antenna
    • Peripheral interface: UART/GPIO/ADC/DAC/SDIO/PWM/I2C/I2S
    • WiFi protocol: IEEE 802.11 b/g/n
    • Bluetooth: Bluetooth 4.2
    • Frequency range: 2.4G ~ 2.5G (2400M ~ 2483.5M)
    • WIFI mode: Station / SoftAP / SoftAP+Station
    • Power supply: 5V
    • Logic level: 3.3V
    • Dimensions: 48.26mm x 25.4mm

     

    What's in the box?

    • 1 x NodeMCU-ESP32S WiFi Bluetooth BLE IoT Dev Board
    • 1 x  USB Micro B Cable
    • 1 x Breadboard
    • 1 x DHT11 Sensor
    • 1 x PIR Sensor
    • 1 x Rain / Water Level Sensor
    • 1 x MQ2 Smoke Sensor
    • 1 x Moisture Sensor Module
    • 2 x Infrared Sensor Module
    • 1 x 1CH Active H/L 3V OctoCoupler Relay Module
    • 1 x SG90 Micro Servo
    • 1 x  300C 1.5-6VDC 7mm Shaft Motor
    • 1 x  DIY 4 Blades 56mm Motor Propeller (Blue)
    • 2 x Push Button
    • 1 x Red LED
    • 1 x Green LED
    • 1 x Yellow LED
    • 3 x Resistor 0.25W 5% 220Ohm
    • 20 x  Male to Female Jumper Wire (20cm)
    • 20 x  Male to Male Jumper Wire (10cm)
    • 1 x Philips Head Screwdriver (not shown in the picture)

    Card:
    1 x Pin Diagram Card for NodeMCU-ESP32S
    1 x Registration Card for FREE V-ONE Account



    Resources:

    R529.90  Inc VAT
    WS 4G / 3G / 2G / GSM / GPRS / GNSS HAT for Raspberry Pi, LTE CAT4 (4G Hat)
    Please note: The Raspberry Pi is not included

    Overview

    The SIM7600E-H 4G HAT is a 4G/3G/2G communication and GNSS positioning module, which supports LTE CAT4 up to 150Mbps for downlink data transfer. it is pretty low power consumption.

    You can connect this 4G module with computer to surf the Internet, or attach it onto Raspberry Pi to enable functions like 4G high speed connection, wireless communication, making telephone call, sending SMS, global positioning, etc.

    Features
    • Raspberry Pi connectivity, compatible with Raspberry Pi Zero/Zero W/Zero WH/2B/3B/3B /4B
    • Supports dial-up, telephone call, SMS, MMS, mail, TCP, UDP, DTMF, HTTP, FTP, etc.
    • Supports GPS, BeiDou, Glonass, LBS base station positioning
    • Onboard USB interface, to test AT Commands, get GPS positioning data, and so on
    • Onboard CP2102 USB to UART converter, for serial debugging
    • Breakout UART control pins, to connect with host boards like Arduino/STM32
    • SIM card slot, supports 1.8V/3V SIM card
    • TF card slot for storing data like files, messages, etc.
    • Onboard audio jack and audio decoder for making telephone call
    • 2x LED indicators, easy to monitor the working status
    • Onboard voltage translator, operating voltage can be configured to 3.3V or 5V via jumper
    • Baudrate: 300bps ~ 4Mbps (default: 115200bps)
    • Autobauding baudrate: 9600bps ~ 115200bps
    • Control via AT commands (3GPP TS 27.007, 27.005, and V.25TER command set)
    • Supports SIM application toolkit: SAT Class 3, GSM 11.14 Release 99, USAT
    • Comes with development resources and manual (examples for Raspberry Pi/Arduino/STM32)
    Communications Specifications
     LTEWCDMA / TD-SCDMA / CDMA 2000EDGEGSM/GPRS
    BandSIM7600E-H:
    -- LTE-FDD B1/B3/B5/B7/B8/B20
    -- LTE-TDD B38/B40/B41
    SIM7600E-H:
    -- UMTS/HSPA B1/B5/B8
    GSM/GPRS/EDGE 900/1800 MHz
    SIM7600CE-T:  
    -- LTE-TDD B38/B39/B40/B41
    -- LTE-FDD B1/B3/B8
    SIM7600CE-T:
    -- UMTS/HSDPA/HSPA B1/B8
    -- TD-SCDMA B34/B39
    -- CDMA 1X/EVDO BC0
    Generation4G3G2.5G2G
    Emitting power0.25W[email protected]
    [email protected]
    [email protected]
    [email protected]
    Data SpeedLTE CAT 4
    Uplink≤50 Mbps
    Downlink≤150 Mbps
    UMTS
    Uplink≤384Kbps
    Downlink≤384Kbps
    EDGE
    Uplink≤236.8kbps
    Downlink≤236.8kbps
    GPRS
    Uplink≤85.6kbps
    Downlink≤85.6kbps
       HSPA
    Uplink≤5.76Mbps
    Downlink≤42Mbps
          
    SIM CardNormal SIM (Not Included)
    Applicable RegionSIM7600E-H is mainly applicable in Southeast Asia, West Asia, Europe, Africa, SIM7600CE-T is mainly applicable in China.
    Please check the supported bands according to your local service provider, select the proper one when placing order.
    GNSS Specifications
    • Receiver type
      • 16-channel
      • C/A code
    • Sensitivity
      • Tracking: -159 dBm (GPS) / -158 dBm (GLONASS) / TBD (BD)
      • Cold starts: -148 dBm
    • Time-To-First-Fix (open air)
      • Cold starts: <35s
      • Hot starts: <1s
    • Accuracy
      • Position: <2.5m CEP
    SMS and Audio Specifications
    • SMS
      • Supported types: MT, MO, CB, Text, PDU
      • Storage: USIM card and ME (default)
    • Audio feature
      • Supports echo cancellation
      • Supports noise reduction
    Other Specifications
    • Power supply: 5V
    • Operating voltage: 5V/3.3V (configured via jumper)
    • Operating temperature: -30°C ~ 80°C
    • Storage temperature: -45°C ~ 90°C
    • Dimension: 56.21mm x 65.15mm
    What's on Board
    1. SIM7600E-H
    2. CP2102 USB to UART converter
    3. NAU8810 audio decoder
    4. TXS0108EPWR voltage translator: translates 3.3V/5V into 1.8V
    5. MP2128DT power chip
    6. MP1482 power chip
    7. Raspberry Pi GPIO header: for connecting with Raspberry Pi
    8. SIM7600 control interface: for connecting with host boards like Arduino/STM32
    9. SIM card slot: supports 1.8V/3V SIM card
    10. TF card slot: allows file/SMS/... storage
    11. 3.5mm earphone/mic jack
    12. USB interface: for testing AT Commands, getting GPS positioning data, etc.
    13. USB to UART interface: for serial debugging, or login to Raspberry Pi
    14. MAIN antenna connector
    15. AUX antenna connector
    16. GNSS antenna connector
    17. Power switch
    18. Network status indicator
    19. Power indicator
    20. Operating voltage selection jumper:
      VCCIO - 3.3V: set operating voltage as 3.3V
      VCCIO - 5V: set operating voltage as 5V
    21. UART selection jumper:
      A: access Raspberry Pi via USB to UART
      B: control the SIM7600 by Raspberry Pi
      C: control the SIM7600 via USB to UART
    Dimensions


    Development Resources

    Wiki : www.waveshare.com/wiki/SIM7600E-H_4G_HAT

    R1,299.90  Inc VAT
    Maker Pi RP2040 - Simplifying Robotics with Raspberry Pi RP2040 (Maker Pi RP2040 robotics)
    Description:

    Cytron Maker Pi RP2040 features the first microcontroller designed by Raspberry Pi - RP2040, embedded on a robot controller board. This board comes with dual channel DC motor driver, 4 servo motor ports and 7 Grove I/O connectors, ready for your next DIY robot / motion control project. Now you can build robot, while trying out the new RP2040 chip.

    The DC motor driver onboard is able to control 2x brushed DC motors or 1x bipolar/unipolar stepper motor rated from 3.6V to 6V, providing up to 1A current per channel continuously. The built-in Quick Test buttons and motor output LEDs allow functional test of the motor driver in a quick and convenient way, without the need of writing any code. Vmotor for both DC and servo motors depends on the input voltage supplied to the board.



    Features:

    • Powered by Rapberry Pi RP2040
      • Dual-core Arm Cortex-M0 processor
      • 264KB internal RAM
      • 2MB of Flash memory
      • the exact same specifications with Raspberry Pi Pico
    • Robot controller board
      • 4x Servo motors
      • 2x DC motors with quick test buttons
    • Versatile power circuit
      • Automatic power selection: USB 5V, LiPo (1-cell) or Vin (3.6-6V)
      • Built-in 1-cell LiPo/Li-Ion charger (over-charged & over-discharged protection)
      • Power on/off switch
    • 13x Status indicator LEDs for GPIO pins
    • 1x Piezo buzzer with mute switch
    • 2x Push button
    • 2x RGB LED (Neopixel)
    • 7x Grove ports (flexible I/O options: digital, analog, I2C, SPI, UART...)
    • Preloaded with CircuitPython by default
    • Mouting holes
      • 4x 4.8mm mounting hole (LEGO® pin compatible)
      • 6x M3 screw hole

    What's in the box ?

    • 1x Maker Pi RP2040
    • 4x Grove to Female Header Cable
    • 1x Mini Screwdriver
    • 1x Silicone Rubber Feet (Pack of 4)

    Resources:



    Powering the Maker Pi 2040

    There are three ways to supply power to the Maker Pi RP2040 - via USB (5V) socket, with a single cell LiPo/Li-Ion battery or through the VIN (3.6-6V) terminals. However only one power source is needed to power up both controller board and motors at a time. Power supply from all these power sources can all be controlled with the power on/off switch onboard.




    Maker Pi RP2040 features all the goodness of Cytron's Maker series products. It too has lots of LEDs useful for troubleshooting (& visual effects), is able to make quite some noise with the onboard piezo buzzer and comes with push buttons ready to detect your touch.






    Simple Robotic projects done

    (* Only includes the Maker board - All other contents are for idea / advertising purposes only*)












    R209.90  Inc VAT
    Programming the Pico - Simon Monk (book MM programing Pico)

    Description:

    The new book by Simon Monk out in the microcontroller world: Programming the Pico: Learn Coding and Electronics with the Raspberry Pi Pico. The book is all about programming the Raspberry Pi Pico with MicroPython (although it is referred to as Python).

    This book will teach you Python programming and some basic electronics without assuming any prior knowledge of either subject. The book initially focusses on Python programming, building up a Morse Code example using the Raspberry Pi Pico's built-in LED. Once you have mastered the basics of coding the Pico, the book will introduce electronics, showing you how to use sensors, switches, LEDs, servomotors and displays attached to your Pico.
    All the parts used in the book are available in a companion kit by MonkMakes Ltd. available from suppliers world-wide.
    Discover how to:

    • install and use the Thonny Python editor and upload programs to your Pico
    • write simple programs to control the Raspberry Pi Pico
    • structure your programs with functions and modules
    • make effective use of Python Lists and Dictionaries
    • attach sensors, LEDs, servomotors and displays to your Pico and, to program them.
    • make use of the Pico's advanced input/output capabilities
    What's in the box?

    1 x book: Programming the Pico

     

    R164.90  Inc VAT
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