The Raspberry Pi USB-C power supply is designed specifically to power the Raspberry Pi 4.
The power supply features a USB-C cable and is available in four different models to suit different international power sockets, and in two colors.
Specifications
Output
Output voltage
+5.1 V DC
Minimum load current
0 A
Nominal load current
3.0 A
Maximum power
15.3 W
Load regulation
±5%
Line regulation
±2%
Ripple & noise
120 mVp-p
Rise time
100 ms maximum to regulation limits for DC outputs
Turn-on delay
3000 ms maximum at nominal input AC voltage and full load
Protection
Short circuit protectionOvercurrent protectionOver temperature protection
Efficiency
81% minimum (output current from 100%, 75%, 50%, 25%)72% minimum at 10% load
Output cable
1.5 m 18AWG
Output connector
USB-C
Input
Voltage range
100-240 V AC (rated)96-264 V AC (operating)
Frequency
50/60 Hz ±3 Hz
Current
0.5 A maximum
Power consumption (no load)
0.075 W maximum
Inrush current
No damage shall occur, and the input fuse shall not blow
Operating ambient temperature
0-40°C
When you experiment with the Raspberry Pi on a regular basis and you connect a variety of external hardware to the GPIO port via the header you may well have caused some damage in the past. The Elektor Raspberry Pi Buffer Board is there to prevent this! The board is compatible with Raspberry Pi Zero, Zero 2 (W), 3, 4, 5, 400 and 500.
All 26 GPIOs are buffered with bi-directional voltage translators to protect the Raspberry Pi when experimenting with new circuits. The PCB is intended to be inserted in the back of Raspberry Pi 400/500. The connector to connect to the Raspberry Pi is a right angled 40-way receptacle (2x20). The PCB is only a fraction wider. A 40-way flat cable with appropriate 2x20 headers can be connected to the buffer output header to experiment for instance with a circuit on a breadboard or PCB.
The circuit uses 4x TXS0108E ICs by Texas Instruments. The PCB can also be put upright on a Raspberry Pi.
Downloads
Schematics
Layout
The official Raspberry Pi micro HDMI to HDMI (A/M) cable (black, 1 m) designed for the Raspberry Pi 4 and 5. 19-pin HDMI Type D(M) to 19-pin HDMI Type A(M) 1 m cable (black) Nickel-plated plugs 4Kp60 compliant RoHS compliant 3 Mohm 300 VDC insulation, withstands 300 VDC for 0.1s
The Raspberry Pi USB-C power supply is designed specifically to power the Raspberry Pi 4.
The power supply features a USB-C cable and is available in four different models to suit different international power sockets, and in two colors.
Specifications
Output
Output voltage
+5.1 V DC
Minimum load current
0 A
Nominal load current
3.0 A
Maximum power
15.3 W
Load regulation
±5%
Line regulation
±2%
Ripple & noise
120 mVp-p
Rise time
100 ms maximum to regulation limits for DC outputs
Turn-on delay
3000 ms maximum at nominal input AC voltage and full load
Protection
Short circuit protectionOvercurrent protectionOver temperature protection
Efficiency
81% minimum (output current from 100%, 75%, 50%, 25%)72% minimum at 10% load
Output cable
1.5 m 18AWG
Output connector
USB-C
Input
Voltage range
100-240 V AC (rated)96-264 V AC (operating)
Frequency
50/60 Hz ±3 Hz
Current
0.5 A maximum
Power consumption (no load)
0.075 W maximum
Inrush current
No damage shall occur, and the input fuse shall not blow
Operating ambient temperature
0-40°C
Designed for overclockers and other power users, this fan keeps your Raspberry Pi 4 at a comfortable operating temperature even under heavy load. The temperature-controlled fan delivers up to 1.4 CFM of airflow over the processor, memory, and power management IC. The bundled heatsink (18 x 8 x 10 mm) with self-adhesive pad improves heat transfer from the processor. The Raspberry Pi 4 Case Fan works with Raspberry Pi 4 and the official Raspberry Pi 4 case.
The official Raspberry Pi micro HDMI to HDMI (A/M) cable designed for the Raspberry Pi 4 and 5.
19-pin HDMI Type D(M) to 19-pin HDMI Type A(M)
1 m cable (white)
Nickel-plated plugs
4Kp60 compliant
RoHS compliant
3 Mohm 300 VDC insulation, withstands 300 VDC for 0.1s
The active cooler provides an alternative cooling solution for users who wish to use their Raspberry Pi 5 under sustained heavy load without a case. It combines a large metal heatsink with a variable-speed blower, again powered and controlled via the fan connector, and attaches to the Raspberry Pi 5 via sprung pins into a pair of mounting holes.
The Waveshare 400 GPIO Header Extension is designed for Raspberry Pi 400 and provides a color-coded header and easy expansion.
Features
Designed for Raspberry Pi 400
Color-Coded Header
Easy Expansion
Included
1x PI400-GPIO-ADAPTER-B
1x Screws pack
The Raspberry Pi High Quality Camera offers higher resolution (12 megapixels, compared to 8 megapixels), and sensitivity (approximately 50% greater area per pixel for improved low-light performance) than the existing Camera Module v2, and is designed to work with interchangeable lenses in both C and CS Mount form factors. Other lens form factors can be accommodated using third-party lens adapters.
Specifications
Sensor
Sony IMX477R stacked, back-illuminated sensor12.3 megapixels7.9 mm sensor diagonal1.55 x 1.55 μm pixel size
Output
RAW12/10/8, COMP8
Back focus
Adjustable (12.5–22.4 mm)
Lens standards
CS MountC Mount (C/CS adapter included)
IR cut filter
Integrated
Ribbon cable length
200 mm
Tripod mount
1/4”-20
Included
1x Circuit board carrying a Sony IMX477 sensor
1x FPC cable for connection to a Raspberry Pi
1x Milled aluminium lens mount with integrated tripod mount and focus adjustment ring
1x C/CS Mount adapter
Required
C/CS Mount Lens
The Raspberry Pi Debug Probe is an all-in-one USB-to-debug kit that provides all the necessary hardware and cables for easy, solderless, plug-and-play debugging.
It features both a processor serial debug interface (by default the ARM Serial Wire Debug interface, but other interfaces can be supported) and an industry-standard UART interface. Both interfaces use the Raspberry Pi 3-pin debug connector.
It is designed to make it easy to debug and program Raspberry Pi Pico and RP2040 with a range of host platforms including Windows, Mac, and typical Linux computers.
While designed for use with Raspberry Pi products, the Debug Probe provides standard UART and CMSIS-DAP interfaces over USB, so it can also be used with other processors, or even just as a USB-to-UART cable. It works with OpenOCD and other tools that support CMSIS-DAP.
The Debug Probe is based on Raspberry Pi Pico hardware and runs the open source Raspberry Pi Pico Probe software. The firmware is updated in the same way as Raspberry Pi Pico firmware, so it is easy to keep the unit up to date with the latest firmware, or to use custom firmware.
Features
USB to ARM Serial Wire Debug (SWD) port
USB to UART bridge
Compatible with the CMSIS-DAP standard
Works with OpenOCD and other tools supporting CMSIS-DAP
Open source, easily upgradeable firmware
Specifications
Dimensions: 22 x 32 mm
Nominal I/O voltage: 3.3 V
Operating temperature: -20°C to +70°C
Included
1x Raspberry Pi Debug Probe
1x Plastic case
1x USB cable
3x Debug cables
3-pin JST connector to 3-pin JST connector cable
3-pin JST connector to 0.1-inch header (female)
3-pin JST connector to 0.1-inch header (male)
Downloads
Datasheet
3-pin Debug Connector
Schematics
Diagram
Latest Firmware
This aluminium case in a precious design is very robust and protects your Raspberry Pi 4 perfectly against outer influences. There are cut-outs for all interfaces to make them accessible. The channel milling at the top side serves as a heat sink and inside the housing the case is in direct contact with the CPU and the RAM to maximize cooling results. Features Color: Matt black (gun-metal black) Material: High-quality, cast aluminium Special Features: Channel milling which serves as a heatsink, cut outs for all interfaces, heatsink in contact with CPU and RAM of the Raspberry Pi for better cooling performance Dimensions: 91 x 65 x 34 mm Items delivered Aluminium case Screws Heat conduction pads
With these jumper wires (length: 20 cm) you can connect a Raspberry Pi or an Arduino with breadboards. Each cable consists of 40 individual wires/pins which can also be separated. Included 1x 40-pins female to female 1x 40-pins male to male 1x 40-pins male to female
This PiCAN3 board provides CAN-Bus capability for the Raspberry Pi 4. It uses the Microchip MCP2515 CAN controller with MCP2551 CAN transceiver. Connection are made via DB9 or 3-way screw terminal. This board includes a switch mode power suppler that powers the Raspberry Pi is well.
Easy to install SocketCAN driver. Programming can be done in C or Python.
Features
CAN v2.0B at 1 Mb/s
High speed SPI Interface (10 MHz)
Standard and extended data and remote frames
CAN connection via standard 9-way sub-D connector or screw terminal
Compatible with OBDII cable
Solder bridge to set different configuration for DB9 connector
120Ω terminator ready
Serial LCD ready
LED indicator
Four fixing holes, comply with Pi Hat standard
SocketCAN driver, appears as can0 to application
Interrupt RX on GPIO25
5 V/3 A SMPS to power Raspberry Pi and accessories from DB9 or screw terminal
Reverse polarity protection
High efficiency switch mode design
6-24 V input range
Optional fixing screws – select at bottom of this webpage
RTC with battery backup (battery not included, requires CR1225 cell)
Downloads
User guide
Schematic
Driver installation
Writing your own program in Python
Python3 examples
This color-coded pin header is ideal for use with Raspberry Pi. All pins are color-coded with corresponding functions making prototyping and hacking easier.
Specifications
Suitable for all Raspberry Pi models with GPIO
2 pin rows with 20 pins each
2.54 mm pin spacing (pitch)
Pin height: 3/6 mm
Total height: approx. 11 mm
Colors/Functions
Orange = 3.3 V
Red = 5 V
Pink = I²C
Purple = UART
Blue = SPI
Yellow = DNC
Green = GPIO
Black = GND (Ground)
The official Raspberry Pi mouse is a three-button optical mouse which connects via a USB type A connector either to one of the USB ports on the keyboard or directly to a compatible computer. Three-button optical mouse Scroll wheel USB type A connector Ergonomic design for comfortable use Compatible with all Raspberry Pi products
The Google Coral USB Accelerator adds an Edge TPU coprocessor to your system, enabling high-speed machine learning inferencing on a wide range of systems, simply by connecting it to a USB port.
Features
Supported host OS: Debian Linux, macOS, Windows 10
Compatible with Raspberry Pi boards
Supported Framework: TensorFlow Lite
Performs high-speed ML inferencing
The on-board Edge TPU coprocessor is capable of performing 4 trillion operations (tera-operations) per second (TOPS), using 0.5 watts for each TOPS (2 TOPS per watt). For example, it can execute state-of-the-art mobile vision models such as MobileNet v2 at almost 400 FPS, in a power-efficient manner.
Supports all major platforms
Connects via USB to any system running Debian Linux (including Raspberry Pi), macOS, or Windows 10.
Supports TensorFlow Lite
No need to build models from the ground up. TensorFlow Lite models can be compiled to run on the Edge TPU.
Supports AutoML Vision Edge
Easily build and deploy fast, high-accuracy custom image classification models to your device with AutoML Vision Edge.
Specifications
ML accelerator
Google Edge TPU coprocessor:4 TOPS (int8); 2 TOPS per watt
Connector
USB 3.0 Type-C (data/power)
Dimensions
65 x 30 mm
Downloads/Documentation
Datasheet
Get started with the USB Accelerator
Model compatibility on the Edge TPU
Edge TPU inferencing overview
Run multiple models with multiple Edge TPUs
Pipeline a model with multiple Edge TPUs
PyCoral API (Python)
Libcoral API (C++)
Libedgetpu API (C++)
Edge TPU compiler
Pre-compiled models
All software downloads
The official Raspberry Pi mini-HDMI to HDMI (A/M) cable designed for all Raspberry Pi Zero models. 19-pin HDMI Type D(M) to 19-pin HDMI Type A(M) 1 m cable (white) Nickel-plated plugs 4Kp60 compliant RoHS compliant 3 Mohm 300 VDC insulation, withstands 300 VDC for 0.1s
