Raspberry Pi HATs

Raspberry Pi HATs and related boards
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R609.80  Inc VAT
R319.90  Inc VAT
Add a tiny yet convenient power switch to your Pi with OnOff SHIM!
R139.90  Inc VAT
R499.90  Inc VAT
This RGB LED HAT can be easily attached on top of the Raspberry Pi to display colorful effect, and controlled by only one signal pin.
R181.45  Inc VAT
R241.10
This is a handy, low power Raspberry Pi HAT which features multi communication functionalities: GSM, GPRS, GNSS and Bluetooth.
R519.90  Inc VAT
R262.23  Inc VAT
R329.90
Raspberry Pi Build HAT for LEGO (RPi build hat)
Read more in HackSpace magazine issue 49 at https://hackspace.raspberrypi.com/issues/49

Description:


The Raspberry Pi Build HAT combines the power of Raspberry Pi computing with LEGO® hands-on learning to enable a fun and creative learning experience for students, teachers and makers.

The Build HAT is compatible with the most recent generation of LEGO® Technic™ motors, and with sensors included in the LEGO® Education SPIKE™ Prime portfolio.

The Build HAT is the second Raspberry Pi product, after Raspberry Pi Pico, to be powered by the Raspberry Pi RP2040 microcontroller.



Specifications:

• Controls up to 4 motors and sensors.
• Powers the Raspberry Pi (when used with a suitable external PSU).
• Easy to use from Python on the Raspberry Pi.


What's in the box?

1 x Raspberry Pi Build HAT for LEGO

Build HAT Links


LEGO Links

R469.90  Inc VAT
Raspberry Pi Power over Ethernet Plus (POE ) HAT (RPi POE HAT)
Description:

The Raspberry Pi PoE HAT is an add-on board for Raspberry Pi computers with PoE pins, including Raspberry Pi 3B and Raspberry Pi 4. It is used to power Raspberry Pi via an Ethernet cable, provided that power-sourcing equipment is installed on the Ethernet network. The HAT also includes a fan that will cool the Raspberry Pi processor.

Specifications:

Standard: IEEE 802.3at-2003 PoE
Input voltage: 37–57 V DC, Class 4 device
Output power: 5 V DC/4 A
Cooling: 25 mm × 25 mm brushless fan delivering 2.2 CFM for processor cooling

Features:
  • Fully isolated switched-mode power supply
  • Fan control

Operating temperature: 0 °C to 50 °C
Production lifetime: The Raspberry Pi PoE HAT will remain in production until at least January 2027
Compliance: For a full list of local and regional product approvals, please visit www.raspberrypi.org/compliance

Physical specifications


What's in the box?:

1 x Power over Ethernet Plus (POE ) HAT

WARNINGS

• This product shall only be connected to a Raspberry Pi via the four PoE pins.
• Any external power-sourcing equipment/power injector used to enable an Ethernet network shall comply with relevant regulations and standards applicable in the country of intended use.
• This product should be operated in a well ventilated environment, and if used inside a case, the case should not be covered.
• The connection of incompatible devices to the GPIO connection of a Raspberry Pi computer may affect compliance and result in damage to the unit and invalidate the warranty.
• All peripherals used with this product should comply with relevant standards for the country of
use and be marked accordingly to ensure that safety and performance requirements are met.
These articles include but are not limited to keyboards, monitors and mice when used in conjunction with Raspberry Pi computers.
• Where peripherals are connected that do not include the cable or connector, the cable or connector must offer adequate insulation and operation in order that the relevant performance and safety requirements are met.


SAFETY INSTRUCTIONS

To avoid malfunction or damage to this product, please observe the following:
• Do not expose to water or moisture, or place on a conductive surface whilst in operation.
• Do not expose to heat from any source. Raspberry Pi computers and the Raspberry Pi PoE HAT are designed for reliable operation at normal ambient room temperatures.
• Take care whilst handling to avoid mechanical or electrical damage to the printed circuit board
and connectors.
• Avoid handling the printed circuit board whilst it is powered, and handle it only by the edges to minimise the risk of electrostatic discharge damage.
R409.90  Inc VAT
Raspberry Pi Sense HAT (Sense Hat)
Description:

The Sense HAT is an add-on board for Raspberry Pi, made especially for the Astro Pi mission! It’s going to the International Space Station in December 2015 – and is now available to buy from PiShop.

The Sense HAT has an 8×8 RGB LED matrix, a five-button joystick and includes the following sensors:

  • 3D Gyroscope
  • Accelerometer (Yaw, Pitch & Roll)
  • Magnetometer
  • Temperature
  • Barometric Pressure
  • Humidity

The Raspberry Pi Foundation have also created a Python library providing easy access to everything on the board.

Sensing Elements Technical Specification:

Pressure / Temperature (ST Micro LPS25H)
– 24-bit pressure measurement resolution (260hPa to 1260hPa)
– 16-bit temperature measurement resolution (0-125°C)
Datasheet

Humidity / Temperature (ST Micro HTS221)
– 16-bit humidity measurement resolution (0-100% relative humidity)
– 16-bit temperature measurement resolution (0-60°C)
Datasheet

Acceleration/Gyroscope/Magnetic field (ST Micro LSM9DS1)
– 9 degrees of freedom (X, Y, Z independent axes for all sensors)
– ±16 g acceleration measurement range
– ±16 gauss magnetometer measurement range
– ±2000 dps (degrees per second) gyroscope measurement range
Each of these measurement channels has 16 bits of resolution.
Datasheet

All of these sensors have features for periodic sampling of sensor values, complete with internal FIFO storage. The LPS25H and HTS221 have maximum sample rates of 25 per second, the LSM9DS1 has a maximum sample rate of 952Hz

LED Matrix
The LED matrix is driven by a combination of a constant-current LED driver and an Atmel ATTiny88 running a custom firmware that delivers an 8×8 display with 15-bit resolution RGB colour. If you want to get into the gory details, the AVR firmware is available on Github.

Joystick
The Atmel is responsible for sampling the joystick. We didn’t have enough pins left on the Atmel to dedicate the five that we needed to sample the joystick axes independently, so they’ve been spliced into the LED matrix row selects. The joystick gets updated at approximately 80Hz, which is the scan rate of the LED matrix.

All of the sensors (and the base firmware for the Atmel) are accessible from the Pi over I2C. As a fun bonus mode, the SPI peripheral on the Atmel has been hooked up to the Pi’s SPI interface – you can reprogram your HAT in the field! We use this method to get the firmware into the Atmel during production test – and we leave it unprotected so you can substitute the stock firmware to get it to do whatever you want. Seriously. First person to turn this sensor HAT into a quadcopter controller HAT wins a cookie from me.

What's in the box?:

1 x Sens HAT
standoffs and screws

Resources:

Connect your Sense HAT to the Raspberry Pi via the 40 GPIO Pins.You will then need to install the software:

Open up a terminal and run the following command:

wget -O - http://www.raspberrypi.org/files/astro-pi/astro-pi-install.sh --no-check-certificate

When the install has finished you will need to reboot your Raspberry Pi!

Getting started with the Raspberry Pi Sense HAT


R609.80  Inc VAT
Pimoroni Explorer HAT PRO (Explorer hat pro)

Please note: Raspberry Pi not included

The Explorer HAT and Explorer HAT Pro are the perfect prototyping side-kicks for your Raspberry Pi!

We've added a heap of useful input and output options that will take your projects to the next level. Great for driving motors, using analog sensors, interfacing with 5V systems, and touch (even fruit based!) interfaces.

It's compatible with Raspberry Pi 2, Pi 3, B , and A and comes fully assembled.

Features:

  • Four buffered 5V tolerant inputs
  • Four powered 5V outputs (up to 500mA!)
  • Four capacitive touch pads
  • Four capacitive crocodile clip pads
  • Four coloured LEDs
  • PRO ONLY Four analog inputs
  • PRO ONLY Two H-bridge motor drivers
  • PRO ONLY A heap of useful (unprotected) 3v3 goodies from the GPIO
  • A mini breadboard on top!

5V tolerant inputs - Hook up your Pi to accept input from 5V systems (like Arduino Uno/Leonardo or 5V Trinkets). We've used a 5-channel buffer that will accept anything from 2V-5V as logic high.

5V powered ouputs - The onboard darlington array can supply up to 500mA per channel (but you'll be limited to driving around 1A total from the board). Ideal for stepper motors, solenoids, and relays.

Eight capacitive inputs - Four along the front edge for touch input (labelled 1, 2, 3, 4) and four up the side for attaching crocodile clips to objects (such as fruit, or tin foil) for experimentation!

Four coloured LEDs - Independently controllable LEDs (red, green, blue, and yellow) that make great status indicators.

Four analog inputs (pro only) - A tidy way to integrate analog signals into your project.

Two H-Bridge motor drivers (pro only) - Drive two 5V motors bidirectionally with up to 200mA per channel. Ideal with our micro-metal gear-motors to create the perfect little buggy! You can even soft-PWM for full speed control.

Full Python library, documentation and examples - Head on over to our GitHub to find a Python library, examples, documentation and a brief introduction to Explorer HAT: https://github.com/pimoroni/explorer-hat

R319.90  Inc VAT
Prototyping Expansion Board For Raspberry Pi 2/3 Model B and B+ Kit (AW Pi prototyping kit)
Features:

The hole gap is 2.54mm, and it's compatible with IC with DIP package.
The IO port can be quickly and easily implement your ideas.

Note:

- Extra header spacer included
- 170 tie points breadboard arranged in 34 rows of 5 pins included




Package includes:

1 x Prototyping Shield kit
R166.45  Inc VAT
OnOff SHIM (On/Off Shim)
Description:

Our SHIMs (Shove Hardware in the Middle) are a new range of boards designed to be small, affordable, and handy. They're just 1mm thick (the bare board, not including mounted components) and designed to be soldered straight onto the GPIO pins of your Pi, if you wish, so that you can use them with HATs and pHATs on top.

Usage

Just plug your micro-USB power supply into the micro-B connector on OnOff SHIM, and then press the button once to switch on power and boot up your Pi. After installing our software (details below), you can press the button again to initiate a clean shutdown and completely cut the power to your Pi.

Features

  • super-small SHIM-format board
  • 1mm thick PCB
  • can be used with HATs and pHATs
  • corner-mounted push button for on/off
  • micro-B connector for power supply
  • red status LED
  • optional breakout pins to connect an external momentary button
  • 2x6 female header included
  • software daemon to shutdown cleanly
  • requires soldering

Software

We've put together a one-line-installer to install the clean shutdown daemon. It watches the state of BCM pin 17 and, when pulled low (pressed), it initiates a clean shutdown. Last thing, just before your Pi shuts down, BCM pin 4 is pulled low to completely cut power to your Pi.

To install the software, open a terminal and type curl https://get.pimoroni.com/onoffshim | bash to run the one-line-installer.

Add a tiny yet convenient power switch to your Pi with OnOff SHIM!
R139.90  Inc VAT
Adafruit DC & Stepper Motor HAT - Mini Kit (Adafr DC and Step Mini Kit)
Description:

Let your robotic dreams come true with the new DC Stepper Motor HAT from Adafruit. This Raspberry Pi add-on is perfect for any motion project as it can drive up to 4 DC or 2 Stepper motors with full PWM speed control.

Raspberry Pi and motors are not included.

Since the Raspberry Pi does not have a lot of PWM pins, we use a fully-dedicated PWM driver chip onboard to both control motor direction and speed. This chip handles all the motor and speed controls over I2C. Only two pins (SDA & SCL) are required to drive the multiple motors, and since it's I2C you can also connect any other I2C devices or HATs to the same pins.

In fact, you can even stack multiple Motor HATs, up to 32 of them, for controlling up to 64 stepper motors or 128 DC motors (or a mix of the two) - just remember to purchase and solder in a stacking header instead of the one we include.

Motors are controlled by TB6612 MOSFET drivers with 1.2A per channel and 3A peak current capabilitya big improvement over L293D drivers and there are built-in flyback diodes as well.

We even had a little space so we added a polarity protection FET on the power pins and a bit of prototyping area. And the HAT is assembled and tested here at Adafruit so all you have to do is solder on the included 2x20 plain header and the terminal blocks.

Lets check out these specs again:

  • 4 H-Bridges: TB6612 chipset provides 1.2A per bridge (3A peak) with thermal shutdown protection, internal kickback protection diodes. Can run motors on 4.5VDC to 13.5VDC.
  • Up to 4 bi-directional DC motors with individual 8-bit speed selection (so, about 0.5% resolution)
  • Up to 2 stepper motors (unipolar or bipolar) with single coil, double coil, interleaved or micro-stepping.
  • Big terminal block connectors to easily hook up wires (18-26AWG) and power
  • Polarity protected 2-pin terminal block and jumper to connect external 5-12VDC power
  • Works best with Raspberry Pi model A , B , Pi 2 B or Pi 3 B.
  • Install the easy-to-use Python library, check out the examples and you're ready to go!

Comes with an assembled & tested HAT, terminal blocks, and 2x20 plain header. Some soldering is required to assemble the headers on. Stacking header not included.

Raspberry Pi, motors, and battery pack are not included but we have lots of motors in the shop and all our DC motors, and stepper motors work great. Check out Adafruit's detailed tutorial for tons of info including schematics, wiring diagrams, python libraries and example walkthroughs.

R529.90  Inc VAT
Unicorn HAT (Unicorn HAT)
Description:

What's going to protect your beloved Raspberry Pi from an onslaught of rainbow-coloured fusion? That's right, it's Unicorn HAT.

Sporting a matrix of 64 (8 x 8) RGB LEDs and powered directly from the Pi, this is the most compact pocket aurora available.

Unicorn HAT provides a wash of controllable colour that is ideal for mood-lighting, 8x8 pixel art, persistence of vision effects, status indications, or just blasting colour into your surroundings.

The MagPi said that Unicorn HAT was "one of the coolest HATs around"

Features

  • 64 RGB LEDs (WS2812B)
  • LED data driven via DMA over PWM
  • Unicorn HAT pinout
  • Compatible with Raspberry Pi 3, 2, B , A , Zero, and Zero W
  • Python library
  • Comes fully assembled

Software

We've put together a Unicorn HAT Python library to make it a breeze to use, including lots of beautiful examples of what it can do.

Notes

  • Warning: WS2812 LEDs are bright enough to cause eye pain, do not look at them directly when brightly lit. We recommend the use of a diffuser.
  • Photo-sensitivity warning: flashing, strobing, and patterns of lights may cause epileptic seizures. Always take care and immediately stop using if you feel unwell (dizziness, nausea, affected vision, eye twitching, disorientation).
  • Power: Unicorn HAT requires a >2A microUSB power supply for your Pi. We recommend the official Raspberry Pi power supply.
  • Compatibility (audio): as Unicorn HAT uses PWM and GPIO18, it will interfere with analogue audio playback (random colour patterns and flickering). HDMI should work just fine!

Short video on the Unicorn HAT

Tutorials & Projects
R499.90  Inc VAT
WS .RGB LED HAT for Raspberry Pi, colorful display, 8 × 8 grid (WS RGB LED HAT)
Description

This RGB LED HAT (B) can be easily attached on top of the Raspberry Pi to display colorful effect, and controlled by only one signal pin.

Features
  • Supports any revision of Raspberry Pi (directly-pluggable)
  • Onboard 8 × 8 RGB LED (WS2812B)
  • Control pin is configurable via jumpers (0Ω resistor)
  • Break out control pins, easy for working with other MCUs
  • Comes with development resources and manual (examples in Python and Web control)
Specifications
  • Operating voltage: 5V
  • Brightness: adjustable 256 levels
  • Color depth: 24-bit true color (8-bit for R/G/B respectively, totally 256x256x256=16777216 colors)
  • Data rate: 800Kbps(typ)
  • Dimension: 65mm × 56.2mm
  • Mounting hole size: 3.0mm
How to Use

In the case of working with a MCU:

  • 5V ↔ 5V power
  • GND ↔ GND
  • DIN ↔ Signal input

Development Resources

Wiki : www.waveshare.com/wiki/RGB_LED_HAT_(B)

This RGB LED HAT can be easily attached on top of the Raspberry Pi to display colorful effect, and controlled by only one signal pin.
R181.45  Inc VAT
R241.10
WS GSM/GPRS/GNSS/Bluetooth HAT for Raspberry Pi (WS GSM/GPRS/GNSS/Bluetooth)
Please note: Raspberry Pi and micro SD in pic not included

Description:

This is a handy, low power Raspberry Pi HAT which features multi communication functionalities: GSM, GPRS, GNSS and Bluetooth.

It allows your Pi to easily make a telephone call, send messages, connect to wireless Internet, global position, transfer data via Bluetooth, and so on.

Specifications:

General

  • Raspberry Pi connectivity, compatible with Raspberry Pi 2B/3B/4B/Zero/Zero W/Zero WH/Zero 2W
  • Supports SMS, phone call, GPRS, DTMF, HTTP, FTP, MMS, email, etc.
  • Support GPS, COMPASS, Glonass, LBS base station positioning, omni-positioning
  • Bluetooth 3.0, supports data transferring through Bluetooth
  • Onboard USB TO UART converter CP2102 for UART debugging
  • 6x LEDs for indicating the module working status
  • SIM card slot for 1.8V/3V SIM card
  • RTC with backup battery holder
  • Baudrate auto detection (1200bps ~115200bps)
  • Control via AT commands (3GPP TS 27.007, 27.005, and SIMCOM enhanced AT Commands)
  • Supports SIM application toolkit: GSM 11.14 Release 99
  • Comes with development resources and manual (examples for Raspberry Pi/Arduino/STM32)

GSM/GPRS

  • Band
    • GSM 850/EGSM 900/DCS 1800/PCS 1900 MHz
    • Quad-band auto search
    • Compliant to GSM phase 2/2
  • Emitting power
    • Class 4 (2W @ GSM 850/EGSM 900 MHz)
    • Class 1 (1W @ DCS 1800/PCS 1900 MHz)
  • GPRS connectivity
    • GPRS multi-slot class 12 (default)
    • GPRS multi-slot class 1~12 (configurable)
  • GPRS data feature
    • Downlink speed: max 85.6kbps
    • Uplink speed: max 85.6kbps
    • Coding schemes: CS-1\CS-2\CS-3\CS-4
    • Supports PAP (Password Authentication Protocol) for PPP connection
    • Supports PBCCH
    • Supports USSD
  • SMS
    • Supports: MT/MO/CB/Text/PDU mode
    • SMS storage: SIM card
  • Audio
    • Voice encode/decode mode: Half Rate\Full Rate\Enhanced Full Rate\Adaptive muti rate
    • Supports echo cancellation
    • Supports noise reduction

GNSS

  • Receiver type
    • 33 tracking channels
    • 99 acquisition channels
    • GPS L1 C/A code
  • Sensitivity
    • Tracking: -165 dBm
    • Cold starts : -148 dBm
  • Time-To-First-Fix
    • Cold starts : 28s (typ.)
    • Hot starts : < 1s
    • Warm starts: 26s
  • Accuracy
    • Horizontal position : <2.5m CEP

Bluetooth

  • Integrates AT commands
  • Compliant to Bluetooth specification3.0 EDR
  • Supports SPP, OPP, HFP/HSP, etc.

Misc

  • Operating voltage: 5V
  • Operating temperature: -40°C ~ 85°C
  • Storage temperature: -45°C ~ 90°C
  • Dimensions: 30.2mm x 65mm
What's on Board
  1. SIM868 module
  2. ZMM5V1: regulator diode
  3. SMF05C: TVS diode
  4. CP2102: USB TO UART converter
  5. MP1482: power chip
  6. NDC7002N: voltage level translator
  7. GPS status indicator
  8. NET indicator:
    • flashes fast when the module starts up
    • flashes slowly after GSM register succeed
  9. STA module working status indicator
  10. SIM868 UART Tx/Rx indicator
  11. Power indicator
  12. SIM868 control button: press the button and hold for 1s, to startup/shutdown the SIM868
  13. Raspberry Pi GPIO connector
  14. SIM card slot
  15. USB TO UART interface
  16. 3.5mm earphone/mic jack
  17. GNSS antenna connector
  18. Bluetooth antenna connector
  19. GSM antenna connector
  20. CR1220 battery holder: for RTC backup battery
  21. UART selection switch
    • A: control the SIM868 through USB TO UART
    • B: control the SIM868 through Raspberry Pi
    • C: access Raspberry Pi through USB TO UART
What's in the box?:

1 x GSM/GPRS/GNSS/Bluetooth HAT
1 x GSM Antenna

Resources:

Wiki : www.waveshare.com/wiki/GSM/GPRS/GNSS_HAT

This is a handy, low power Raspberry Pi HAT which features multi communication functionalities: GSM, GPRS, GNSS and Bluetooth.
R519.90  Inc VAT
WS Pioneer600 Raspberry Pi Expansion Board (WS Pioneer 600 board)
Note : the Pi, cables and sensors are NOT included.

Description:

The Pioneer600 is a blue expansion board that clicks onto the GPIO pins of Raspberry Pi and adds a range of additional features.

First of these features we noticed was a five-way joystick and 0.96-inch OLED display. This is backed up by a dual-LED and buzzer. On closer inspection, we discovered the on-board LFN0038K to enable remote control. A DS3231 real-time clock is also included (you’ll need to supply your own battery).

There is a built-in BMP280 for measuring air pressure and temperature, but it’s the available ports for external sensors that are the key attraction: a PCF8591, 8-bit resolution, screw terminal interface, a 1-Wire device (a DS18B20 thermometer is included), a 4×4 pin sensor interface, and GPIO expansion.

There is also a micro USB to UART connection and cable supplied. UART is normally used to debug Raspberry Pi, but with debugging mode disabled, you can send data to and from Raspberry Pi and a connected PC. 


Pioneer600 Features
  • Supports Raspberry Pi A /B /2B/3B/3B
  • <Standard I/O> dual LED, joystick, buzzer, the basic components
  • <USB TO UART> CP2102, control the Pi through serial terminal
  • <Display> 0.96inch OLED, big world in the little screen
  • <RTC> DS3231, high precision, backup battery holder is also available
  • <AD/DA> PCF8591, 8-bit resolution, screw terminal IO interface
  • <GPIO Expansion> PCF8574, more GPIO, more possibility
  • <IR Control> LFN0038K, Raspberry Pi remote control comes true
  • <Pressure Sensor> BMP280, measuring air pressure and temperature
  • <1-WIRE> for connecting 1-WIRE devices, DS18B20 is included
  • <Sensor Interface> for connecting various sensors

What's on the Pioneer600
  1. Raspberry Pi GPIO interface : for connecting Raspberry Pi
  2. USB TO UART : control the Pi through serial terminal
  3. AD/DA IO interface : screw terminal
  4. 1-WIRE interface : for connecting 1-WIRE devices like DS18B20
  5. Sensor interface : for connecting various sensors
  6. 0.96inch OLED : SSD1306 driver, 128×64 resolution, SPI interface
  7. Buzzer
  8. CP2102 : USB TO UART converter
  9. PCF8591 : 8-bit AD/DA converter, I2C interface
  10. BMP280 : pressure sensor, I2C interface
  11. PCF8574 : I/O expansion chip, I2C interface
  12. DS3231 : high precision RTC chip, I2C interface
  13. Power indicator
  14. User LED
  15. Joystick
  16. LFN0038K IR receiver

Examples

PeripheralInterfacePythonWiringPiBCM2835 C LibrarySysFs
LEDI/O
KEYI/O 
IRMI/O 
UARTUART  
DS18B20ONE-WIRE  
PCF8574I2C
PCF8591I2C 
DS3231I2C 
BMP280I2C 
OLEDSPI 


Development Resources:

Wiki : www.waveshare.com/wiki/Pioneer600

R339.90  Inc VAT
GPIO Expansion Board for Raspberry Pi 2/3 (Blue/yellow GPIO expansion board)
Description:
 
Make your project easier to build and less messy. This board simply clones the GPIO into 3 ports. It does not create extra GPIO pins.

Note: Raspberry Pi is not included
 
Package Includes:
 
1 X Raspberry Pi GPIO Expansion Board
4 X Screws
4 X Nuts
4 X Nylon fixed standoffs
R166.90  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
No EEPROM – Adafruit Perma-Proto HAT for Pi Mini Kit (Ada perma proto hat)
Adafruit Perma-Proto HAT for Pi Mini Kit

Description:

Design your own Pi HAT, attach custom circuitry and otherwise dress your Pi 3, 2, A or B with this jaunty prototyping HAT kit.

  • It has a grid of 0.1" prototyping soldering holes for attaching chips, resistors, LED, potentiometers and more.
  • The holes are connected underneath with traces to mimic the solderless breadboards you're familiar with.
  • There are also long power strips for 3V, 5V and Ground connections to the Pi.
  • Near the top we break out nearly every pin you could want to connect to the Pi (#26 didn't quite make the cut).

This is just the basic version of our Perma-Proto HAT.  It comes with a printed circuit board and a single 2x20 GPIO Header for Raspberry Pi to put your Perma-Proto on top of your Raspberry Pi (like a nice little hat...)


Example uses:
Weather station
reef-pi

R78.41  Inc VAT
R105.90
Infinity Cascade GPIO Expansion Board 32 IO Extend Adapter Module For Raspberry Pi (Infinity Cascade board)
Description:

This module is designed specifically for the Raspberry Pi IO expansion Modules, which can effectively solve the issue of Raspberry send IO port. Module uses four 74HC595 chips to expand 32 IO ports, the top of the module will expand the IO of Raspberry Pi again that can be cascaded for more IO expansion modules with theoretically unlimited expansion.

Features:
 
--Expanded 32 GPIO
--Infinity expansion by adding more modules
--Use wiring PI API,sample code
 
Port:
--Raspberry Pi 2*13port
--Raspberry Pi 2*13 cascade port
--Q0-Q31 expanded IO port
 
Product Parameters:

--Working voltage:2.4v-5v
--IO voltage:3.3v
--Expanded 32 unidirectional IO
--Connection through SPI
--100 MHz (typical) shift out frequency
--8-bit serial input
--8-bit serial or parallel output
--Specified from -40C to 85C and from -40C to 125C

Typical Application:
 
--Drive a lattice screen
--Driver numeric display
--Drive matrix LED


How to Use:

Insert the module that the silk screen says 'RPI IN'. Pay attention don’t make the direction reversed! The correct direction of insert module is above the Raspberry Pi’s PCB; The 8*4header in the module are Q0-Q31 expanded GPIO, they can connect to the peripheral through the Dupont Line. The header which near silk screen write 'EXT' expand GPIO of Raspberry Pi, user can cascade the other module or the same module.

Package Includes:


1x Raspberry pi IO expansion board
R112.62  Inc VAT
R149.90
ws 2-DOF Pan-Tilt HAT kit for Raspberry Pi (WS pan/tilt kit)
Overview

This is a 2-DOF pan-tilt kit designed for Raspberry Pi. With onboard PCA9685 PWM chip and TSL2581 ambient light sensor, it allows the Pi to control camera movement and sense light intensity through I2C interface.

Features
  • Raspberry Pi connectivity, compatible with Raspberry Pi Zero/Zero W/Zero WH/2B/3B/3B
  • I2C interface, only 2 pins are required for moving and light intensity sensing
  • Onboard PCA9685 chip, provides 12-bit resolution PWM signal for moving control
  • Onboard TSL2581FN light-to-digital converter, with embedded ADC, provides a value that approximates the human eye response to assist the module
  • Onboard voltage level translator, compatible with 3.3V/5V operating voltage
  • Specific acrylic board to fix the Raspberry Pi camera, make it easy to install
  • Comes with development resources and manual (demo code, assembly guide)
Specifications
  • PWM driver: PCA9685
  • PWM resolution: 12-bit
  • Ambient light sensor: TSL2581FN
  • Ambient light resolution: 16-bit
  • Communication interface: I2C
  • Operating voltage: 3.3V/5V
  • Dimension: 56.6mm x 65mm
How to Assemble

A little assembly work is required to use the Pan-Tilt HAT, yet it's pretty easy to do, here's the assembly guide: https://www.waveshare.com/img/devkit/accBoard/Pan-Tilt-HAT/Pan-Tilt-HAT-assemble.jpg

Dimensions



Development Resources

Wiki : www.waveshare.com/wiki/Pan-Tilt_HAT

R329.90  Inc VAT
Display-O-Tron HAT (Display-O-Tron HAT)
Description:

Raspberry Pi and case not included

Great for including a colourful character display and button inputs on your Raspberry Pi based projects!

Includes a 16x3 character LCD display, 6-zone RGB LED backlight, bar graph, and six capacitive touch buttons all in one slim package.

It's ideal for controlling your internet radio or home automation projects.

Features

  • 16x3 character LCD display (full ASCII character set and eight custom glyphs)
  • Fully controllable six zone RGB backlight
  • Six bright white bar graph LEDs (individually dimmable)
  • Six capacitive touch buttons
  • Power, I2C, SPI, UART, PWM, and five GPIO pins broken out
  • SN3218 LED matrix driver chip (drives the RGB backlight)
  • Microchip CAP1166 capacitive touch driver chip
  • Display-O-Tron HAT pinout
  • Compatible with Raspberry Pi 3, 2, B , A , Zero, and Zero W
  • Python library
  • Comes fully assembled (breakout pins require soldering)

Software

Our Display-O-Tron Python library will get you going in a jiffy, and makes controlling Display-O-Tron HAT really easy.

We've included examples showing you how to use the backlight, bar graph LEDs, and touch buttons, as well as more advanced examples showing you how to create menus, games and even an internet radio!

Notes

If you want to keep your Pi in a case, we recommend the Pibow Coupé case as it will allow you to still use the capacitive touch buttons.

 

Tutorials & Projects

R262.23  Inc VAT
R329.90
PN532 NFC HAT for Raspberry Pi, I2C / SPI / UART 13.56MHz (WS NFC hat 13.56)
Description:

This is a Raspberry Pi NFC HAT based on PN532 operating in the 13.56MHz frequency range. It supports three communication interfaces: I2C, SPI, and UART.

NFC (Near Field Communication) is a wireless technology allows contactless point-to-point data communication between devices within a short distance of 10 cm. It is widely used in applications such as access control system, smart tickets, meal card, etc.

Based on the popular NFC controller PN532 with multi interface options, this HAT will easily enable NFC function for your Raspberry Pi.

Features
  • Standard Raspberry Pi 40PIN GPIO extension header, supports Raspberry Pi series boards
  • Onboard PN532 chip, supports various NFC/RFID cards like MIFARE/NTAG2xx, etc.
  • Three interface options: I2C, SPI, and UART, configured via jumpers and switches
  • Breakout control pins, for easily connecting with host boards like STM32/Arduino
  • Comes with development resources and manual (examples for Raspberry Python/C, STM32, Arduino)
Specifications
  • NFC controller: PN532
  • Operating voltage: 3.3V/5V
  • Operating frequency: 13.56MHz
  • Communication interfaces: I2C, SPI, UART (default)
  • Default baudrate: 115200 bps
  • Operating modes:
    • reader/writing mode supporting ISO/IEC 14443A / MIFARE scheme
    • reader/writing mode supporting FeliCa scheme
    • reader/writing mode supporting ISO/IEC 14443B scheme
    • card operation mode supporting ISO 14443A / MIFARE scheme
    • card operation mode supporting FeliCa scheme
    • ISO/IEC18092, ECM340 point-to-point
Applications
  • Contactless payment system
  • Bluetooth and WiFi devices chaining
  • Social sharing function like sharing contacts, photos, and videos
  • Smart phone NFC app
What's on Board
  1. Raspberry Pi GPIO connector: for connecting with Raspberry Pi
  2. PN532 control pins: for connecting with other host boards like STM32
  3. NFC induction coil
  4. PN532 chip: NFC controller
  5. Power indicator
  6. DIP switches: for configuring the connection between PN532 and Raspberry Pi (only one of the I2C/SPI/UART can be connected at the same time)
  7. Mode selection:
    • I0-L, I1-L: enable UART
    • I0-H, I1-L: enable I2C
    • I0-L, I1-H: enable SPI
  8. INT0 jumper: response signal, connects to Raspberry Pi D16
  9. RSTPDN jumper: reset signal, connects to Raspberry Pi D20
Dimensions
Development Resources

Wiki : www.waveshare.com/wiki/PN532_NFC_HAT


R399.90  Inc VAT
PWM Controlled Fan HAT for Raspberry Pi I2C Temperature Monitor (WS fan hat)
Designed for Raspberry Pi series

Standard Raspberry Pi 40PIN GPIO header, customized for Raspberry Pi series boards


Features at a glance
  • PCA9685 PWM driver as the fan controller, powerful driving capability, auto PWM adjustment
  • 0.91" OLED, 128x32 pixels, displays board temperature or other user-defined content in real time
  • Adopts 3007 size PWM controlled fan, up to 8000rpm speed, brings strong airflow
  • Supports retrieving temperature data in real time, and then adjusting the speed automatically, programmable configuration
  • I2C pins, for connecting other host control boards
  • 16-ch PWM outputs, for driving other external PWM devices
  • Comes with heat sinks, better cooling effect

PCA9685 Fan Controller

Up to 16-ch PWM outputs, powerful driving capability, auto PWM adjustment combined with the included heat sinks, achieving better cooling effect



0.91" OLED mini display
  • 128×32 pixels, I2C controlled
  • displays board temperature or other user-defined content in real time


What's On Board


  1. Standard Raspberry Pi 40PIN GPIO header
  2. PCA9685 PWM driver
  3. 3007 size PWM controlled adjustable fan
  4. PCA9685 I2C address configuration
  1. Reserved I2C control pins
  2. Reserved PCA9685 output channels
  3. 0.91" OLED display



Pinout definition



Outline dimensions(mm)



Resources & Services





R279.90  Inc VAT
Power over Ethernet HAT (B) for Raspberry Pi 3B /4B and 802.3af PoE network (WS POE hat)
POE HAT for Raspberry Pi

Power Over Ethernet HAT for Raspberry Pi 3B /4B, 802.3af-compliant
(any backward-compatible future versions will be supported as well)

OLED for real-time monitoring temperature, IP, and fan status



The PoE HAT (B) is a 802.3af-compliant Power Over Ethernet accessory for the Raspberry Pi 3B /4B. By using this small HAT and some proper 802.3af-compliant power sourcing equipment, it is possible to provide both network connection and power supply for your Raspberry Pi in only one Ethernet cable.


Features at a glance

 Standard Raspberry Pi 40PIN GPIO header, supports Raspberry Pi 3B /4B
 PoE (Power Over Ethernet) capability,802.3af-compliant
 Fully isolated switched-mode power supply (SMPS)
 0.91" OLED, for monitoring processor temperature, IP address, and fan status in real-time
 Onboard cooling fan, allows auto running on powerup OR programmable control, configured by switch
 Integrates PCF8574 IO expander for I2C bus, providing pin P0 for directly fan control, and more spare IO pins

Specifications

PoE power input:     37V ~ 57V DC in     
OLED size:     0.91"
PoE power output:     5V 2.5A DC out     
OLED pixels:     128×32
Network standard:     802.3af PoE     
OLED driver:     SSD1306
Dimensions:     56.5 × 65mm     
OLED display colour:     white

For use with Raspberry Pi 3B /4B



Standard Raspberry Pi 40PIN GPIO stackable header, allows connecting other HATs

Power Over Ethernet

providing both network connection and power supply for your Raspberry Pi in one cable





0.91" OLED display

128 × 32 pixels, I2C-bus controlled
monitoring processor temperature, IP address, fan status in real-time



Cooling fan

allows auto running on powerup OR programmable control, configured by switch
automatically turn on/off depending on the Raspberry Pi processor temperature



Onboard PCF8574 chip

PCF8574 IO expander for I2C bus, providing 8 IO pins, of which P0 for fan control
and extra spare pins on solder pads (P1-P7, INT)



Pinout definition



Outline dimensions


Resources & Services

 WIKI: www.waveshare.com/wiki/PoE_HAT_(B)

R359.90  Inc VAT
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