Waveshare CoreEP4CE10 is an FPGA core board that features an EP4CE10F17C8N device onboard supporting further expansion.
Features
Onboard Serial Configuration Device EPCS16SI8N
Integrated FPGA basic circuit, such as clock circuit
Onboard nCONFIG button, RESET button, 4x LEDs
All the I/O ports are accessible on the pin headers
Onboard JTAG debugging/programming interface
2.00 mm header pitch design, suitable for being plugged-in your application system
Downloads
Wiki
Wveshare CoreEP4CE6 is an FPGA core board that features an EP4CE6E22C8N device onboard supporting further expansion.
Features
Onboard Serial Configuration Device EPCS16SI8N
Integrated FPGA basic circuit, such as clock circuit
Onboard nCONFIG button, RESET button, 4x LEDs
All the I/O ports are accessible on the pin headers
Onboard JTAG debugging/programming interface
2.54 mm header pitch design, suitable for being plugged-in your application system
Downloads
Wiki
Features Standard Raspberry Pi Pico female header for direct attaching Raspberry Pi Pico (if male header soldered), or just through jumper wires Two sets of 2x20 male header, allows connecting more Raspberry Pi Pico expansion modules Clear pinout labels on the front side, easy to use Immersion gold process, beautiful & practical, stunning aesthetic looking
Waveshare DVK600 is an FPGA CPLD mother board that features expansion connectors for connecting FPGA CPLD core board and accessory boards. DVK600 provides an easy way to set up FPGA CPLD development system.
Features
FPGA CPLD core board connector: for easily connecting core boards which integrate an FPGA CPLD chip onboard
8I/Os_1 interface, for connecting accessory boards/modules
8I/Os_2 interface, for connecting accessory boards/modules
16I/Os_1 interface, for connecting accessory boards/modules
16I/Os_2 interface, for connecting accessory boards/modules
32I/Os_1 interface, for connecting accessory boards/modules
32I/Os_2 interface, for connecting accessory boards/modules
32I/Os_3 interface, for connecting accessory boards/modules
SDRAM interface
for connecting SDRAM accessory board
also works as FPGA CPLD pins expansion connectors
LCD interface, for connecting LCD22, LCD12864, LCD1602
ONE-WIRE interface: easily connects to ONE-WIRE devices (TO-92 package), such as temperature sensor (DS18B20), electronic registration number (DS2401), etc.
5 V DC jack
Joystick: five positions
Buzzer
Potentiometer: for LCD22 backlight adjustment, or LCD12864, LCD1602 contrast adjustment
Power switch
Buzzer jumper
ONE-WIRE jumper
Joystick jumper
Downloads
Schematics
The Pico-Clock-Green is an LED digits electronic clock designed for Raspberry Pi Pico. It incorporates high precision RTC chip DS3231, photosensor, buzzer, and buttons, features multiple functions including accurate electronic clock, temperature display, auto brightness adjustment, alarm, and button config. The important part is, rich open source codes and development tutorials are also provided to help you fast get started with Raspberry Pi Pico and make your own original electronic clock.
Features
Standard Raspberry Pi Pico header, supports Raspberry Pi Pico series
Onboard high precision RTC chip DS3231, with backup battery holder, maintains accurate timekeeping when main power is off
Real-Time Clock Counts Seconds, Minutes, Hours, Date of the Month, Month, Day of the Week, and Year with Leap-Year Compensation Valid Up to 2100
Optional format: 24-hour OR 12-hour with an AM/PM indicator
2x programable alarm clock
Digital temperature sensor output: ±3°C accuracy
Embedded photosensor for auto brightness adjustment due to the ambient light, power saving and eye care
Embedded buzzer for alarm or hourly ring, etc.
3x buttons for configuration
Comes with development resources and manual (Raspberry Pi Pico C/C++ and MicroPython examples)
Specifications
Scrolling display
Alarm/hourly ring
Temperature in °F or °C format
12/24 time format
Day of week auto adjustment
Timekeeping without main power
Timer configuration
Manual/auto brightness adjustment
Button configuration
Program/debug port: USB
Power supply: 5 V via USB connection
Outline dimensions: 216 × 79 × 25 mm
Display size: 190 × 60 mm
LED digit: jade green
Included
1x Pico-Clock-Green
1x Case
1x USB-A to micro-B cable 1.2 m
1x Button cell CR2032
1x Screws pack
Downloads
Wiki
The Waveshare ESP32-S3 1.47" Display Development Board is a microcontroller platform featuring 2.4 GHz WiFi, Bluetooth BLE 5, high-capacity Flash, and PSRAM. Its 1.47-inch LCD screen supports smooth GUI development with LVGL, while multiple peripheral interfaces make it ideal for rapid prototyping of HMI and other ESP32-S3-based applications.
Features
Processor: Equipped with a high-performance Xtensa 32-bit LX7 dual-core processor, running at up to 240 MHz.
Connectivity: Supports 2.4 GHz Wi-Fi (802.11 b/g/n) and Bluetooth 5 (LE) with an onboard antenna.
Memory: Built-in 512 KB SRAM, 384 KB ROM, 16 MB Flash, and 8 MB PSRAM for ample storage and performance.
Display: Features a 1.47-inch LCD screen with a resolution of 172 x 320 and 262K colors, ideal for GUI applications.
Interfaces: Adapts multiple IO interfaces and integrates a full-speed USB port for versatile connectivity.
Storage: Includes a TF card slot for external storage of pictures and files.
Power Efficiency: Supports precise control with flexible clock settings and multiple power modes, enabling low power consumption across scenarios.
Lighting: Built-in RGB LED with a clear acrylic sandwich panel for customizable and stylish lighting effects.
Included
1x ESP32-S3 1.47" Display Development Board (ESP32-S3-LCD-1.47)
1x Header (black)
Downloads
Wiki
The Waveshare ESP32-S3 4" Capacitive Touch Display is a microcontroller development board featuring 2.4 GHz WiFi and BLE 5 support. It integrates 16 MB of Flash and 8 MB of PSRAM. The onboard 4-inch 480 x 480 capacitive touch screen is capable of running GUI programs smoothly, such as those developed with LVGL.
With its versatile peripheral interfaces, the board enables quick development of HMI (Human-Machine Interface) applications based on the ESP32-S3. It is suitable for a variety of scenarios, including: Smart control panels, Home gateways, Intelligent interactive panels, Industrial control systems, Smart lighting control.
Specifications
Processor
High performance Xtensa 32-bit LX7 dual-core processor, with a main frequency of up to 240 MHz
Wi-Fi/Bluetooth
Supports 2.4 GHz Wi-Fi (802.11 b/g/n) and Bluetooth 5 (LE), with an onboard antenna
Flash/PSRAM
16 MB Flash + 8 MB PSRAM
Power Supply
USB-C (5 V) + DC (7-36 V)
Resolution
480 x 480
Display Interface
RGB
Display Panel
IPS
Viewing Angle
160°
Touch Type
Capacitive
Touch Panel
Toughened Glass
Communication Interfaces
CAN, RS485, I²C, USB
Dimensions
84.2 x 84.2 mm
Included
1x ESP32-S3 4-inch Capacitive Touch Display Dev Board (ESP32-S3-Touch-LCD-4)
1x Back wiring 3.5 mm pitch 10P pluggable terminal block
1x Bottom wiring 3.5 mm pitch 10P pluggable terminal block
Downloads
Wiki
ESP32-S3-GEEK is a geek development board with built-in USB-A port, 1.14-inch LCD screen, TF card slot and other peripherals. It supports 2.4 GHz WiFi and BLE 5, with built-in 16 MB Flash & 2 MB PSRAM, provides I²C port, UART port and GPIO header for more possibilities for your project.
Features
Adopts ESP32-S3R2 chip with Xtensa 32-bit LX7 dual-core processor, capable of running at 240 MHz
Built in 512 KB SRAM, 384 KB ROM, 2 MB of on-chip PSRAM, and onboard 16 MB Flash memory
Onboard 1.14-inch 240x135 pixels 65K color IPS LCD display
Integrated 2.4 GHz WiFi and Bluetooth LE wireless communication
WiFi supports Infrastructure BSS in Station, SoftAP, and Station + SoftAP modes
WiFi supports 1T1R mode with data rate up to 150 Mbps
Bluetooth supports high power mode (20 dBm)
Internal co-existence mechanism between Wi-Fi and Bluetooth to share the same antenna
Onboard 3-pin UART port, 3-pin GPIO header and 4-pin I²C port
Equipped with plastic case and cables
Provides online open-source demo and resources, more convenient for learning and development
Dimensions: 61.0 x 24.5 x 9.0 mm
Downloads
Wiki
The ETH-USB-Hub-Box is a Hub kit with ETH/USB Hub HAT (B) inside. It is tailored for Raspberry Pi Zero series, small in size, each cut-out of the case is exactly aligned with the connector. The case adopts classic Raspberry Pi red/white color combination, with quality dull polish surface, effectively keeping the Zero away from dust. This Hub Box will provide RJ45 Ethernet port and more USB capability for your Zero, make it easy to connect the Internet and sorts of USB devices.
Features
Designed for Raspberry Pi Zero, compatible with Zero series boards
3x extended USB ports, compatible with USB 2.0 / 1.1
Incorporates RTL8152B Ethernet chip, supports 1x RJ45 Ethernet port, 10/100M auto-negotiation
Pogo pin design, for direct connecting with Raspberry Pi Zero/Zero W/Zero WH
Angle rounded design, smooth hand feeling, 'simple snap' case lid
Quality ABS material, dull polish surface, anti-fingerprint
Comes with two different lids, changing as you like
Included
1x ETH/USB Hub HAT (B)
1x ABS case
4x Rubber feets
1x Screws pack
1x Screwdriver
Downloads
Documentation
This Industrial 6-Channel Relay Module is suitable for Raspberry Pi Zero with pre-soldered pinheader. It provides RS485/CAN Bus, Power Supply Isolation, and Photocoupler Isolation.Features
RS485 half-duplex communication: using SP3485, UART control, auto RX/TX switch
CAN half-duplex communication: using MCP2515 + SN65HVD230 solution, SPI control
Onboard unibody power supply isolation, provides stable isolated voltage, needs no extra power supply for the isolated terminal
Onboard photocoupler isolation, prevent interference from external high-voltage circuit connected to the relay
Onboard TVS (Transient Voltage Suppressor), effectively suppress surge voltage and transient spike voltage in the circuit, lightningproof & anti-electrostatic
Onboard resettable fuses and protection diodes, ensuring current/voltage stable output, preventing over current/voltage, better shock-resistance performance
High quality relay, contact rating: ≤10A 250V AC or ≤10A 30V DC
ABS protection enclosure with rail-mount support, easy to install, safe to use
Comes with development resources and manual (wiringPi and python examples)
Specifications
Operating voltage: 7~36 V (industrial input voltage compatible)
Relay channel: 6ch
Communication Protocol: RS485, CAN
Contact form: 1NO 1NC
Included
1x ABS protection enclosure (top and bottom)
1x RPi Zero Relay
1x Screwdriver
1x OPTIONS 12 V, 1 A power adapter
1x Screws pack
DownloadsDocumentation
The USB-CAN-FD is an industrial-grade high-performance USB to CAN-FD adapter, CAN/CAN-FD bus communication interface card, and CAN/CAN-FD protocol data analyzer. Onboard dual independent CAN-FD interfaces with electrical isolation and multiple protection circuits. Supports Windows system, comes with drivers, CAN-FD Tools related software, secondary development examples, and tutorials. It can be connected to the PC or industrial control host via a USB port to realize transceiver control, data analysis, collection and monitoring of CAN/CAN-FD bus network. It is compact in size and easy to use, which can be used for learning and debugging of CAN/CAN-FD bus, as well as for secondary development and integration into various industrial, power communication, and intelligent control applications that require CAN/CAN-FD bus communication. Specifications Product type Industrial grade: USB to CAN-FD interface converter, CAN/CAN-FD bus communication interface card, CAN/CAN-FD protocol data analyzer USB Operating voltage 5 V (directly powered by USB port without external power supply) Connector USB-B CAN/CAN FD interface CAN/CAN FD channel Dual-channel: CAN1 and CAN2 (independent and full-isolated, isolated voltage: 3000 V DC) Connector CAN bus screw terminal (OPEN6 5.08 mm pitch) Terminal resistor Each CAN/CAN-FD channel has two built-in 120Ω terminal resistors, which can be enabled by switch Baud Rate 100Kbps~5Mbps (configurable via software) Protocol Support CAN2.0A, CAN2.0B, and ISO 11898-1 CAN-FD protocol V.1.0 Transfer speed The receiving and sending speed of each CAN/CAN-FD channel can reach 20000 frames/s and 5000 frames/s Transmit buffer 1500 frames receiving buffer and 64 frames sending buffer per channel (automatically retransmit when the transmission fails) Indicators PWR Power indicator SYS System status indicator, normally off; keeps on when there is a bus error CAN1 CAN1 channel indicator (blinking when sending and receiving data) CAN2 CAN2 channel indicator (blinking when sending and receiving data) System support Windows Windows XP/7/8/10/11 (32/64 bits); Does Not support the Linux system now, and the related drivers are under development. Operating temperature −40 to +85°C Case material Aluminum alloy case + 3D flame-retardant insulating sheets on both sides (This design can provide better protection against metal tip discharge, also improves product safety, and extends service life) Dimensions 104 x 70 x 25 mm Included Waveshare USB-CAN-FD USB-A to USB-B cable 4-pin cable Screwdriver Downloads Wiki
The Waveshare Jetson Nano Development Kit, based on AI computers Jetson Nano (with 16 GB eMMC) and Jetson Xavier NX, provides almost the same IOs, size, and thickness as the Jetson Nano Developer Kit (B01), more convenient for upgrading the core module. By utilizing the power of the core module, it is qualified for fields like image classification, object detection, segmentation, speech processing, etc., and can be used in sorts of AI projects.
Specifications
GPU
128-core Maxwell
CPU
Quad-core ARM A57 @ 1.43 GHz
RAM
4 GB 64-bit LPDDR4 25.6 GB/s
Storage
16 GB eMMC + 64 GB TF Card
Video encoder
250 MP/s
1x 4K @ 30 (HEVC)
2x 1080p @ 60 (HEVC)
4x 1080p @ 30 (HEVC)
Video decoder
500 MP/s
1x 4K @ 60 (HEVC)
2x 4K @ 30 (HEVC)
4x 1080p @ 60 (HEVC)
8x 1080p @ 30 (HEVC)
Camera
1x MIPI CSI-2 D-PHY lanes
Connectivity
Gigabit Ethernet, M.2 Key E expansion connector
Display
HDMI
USB
1x USB 3.2 Gen 1 Type A
2x USB 2.0 Type A
1x USB 2.0 Micro-B
Interfaces
GPIO, I²C, I²S, SPI, UART
Dimensions
100 x 80 x 29 mm
Included
1x JETSON-NANO-LITE-DEV-KIT (carrier + Nano + heatsink)
1x AC8265 dual-mode NIC
1x Cooling fan
1x USB cable (1.2 m)
1x Ethernet cable (1.5 m)
1x 5 V/3 A power adapter (EU)
1x 64 GB TF Card
1x Card reader
Documentation
Wiki
This AI Edge Computing Development Kit is based on the Jetson Orin Nano Module providing rich peripheral interfaces such as M.2, DP, USB, etc.
This kit also comes with a pre-installed AW-CB375NF wireless network card that supports Bluetooth 5.0 and dual-band WIFI, with two additional PCB antennas, for providing high-speed and reliable wireless network connection and Bluetooth communication.
Specifications
AI performance
40 TOPS
GPU
1024-core N-VIDIA Ampere architecture GPU with 32 Tensor Cores
GPU frequency
625 MHz (max)
CPU
6-core Arm Cortex-A78AE v8.2 64-bit CPU, 1.5 MB L2 + 4 MB L3
CPU frequency
1.5 GHz (max)
RAM
8 GB 128-bit LPDDR5, 68 GB/s
Storage
128 GB NVMe Solid State Drive
Power
7~15 W
PCIE
M.2 Key M slot with x4 PCIe Gen3
M.2 Key M slot with x2 PCIe Gen3
M.2 Key E slot
USB
USB Type-A: 4x USB 3.2 Gen2
USB Type-C (UFP)
CSI camera
2x MIPI CSI-2 camera connector
Video encode
1080p30 supported by 1-2 CPU cores
Video decode
1x 4K60 (H.265)
2x 4K30 (H.265)
5x 1080p60 (H.265)
11x 1080p30 (H.265)
Display
1x DisplayPort 1.2 (+MST) connector
Interfaces
40-Pin Expansion Header (UART, SPI, I²S, I²C, GPIO), 12-pin button header, 4-pin fan header, DC power jack
Networking
1x GbE connector
Dimensions
103 x 90.5 x 34 mm
Included
Waveshare Orin Nano development kit
1x Jetson Orin Nano Module (8 GB)
1x JETSON-ORIN-IO-BASE
1x Cooling Fan
1x 128 GB NVMe Solid State Drive (assembled)
1x Wireless network card (assembled)
1x USB Type A to Type-C cable (1 m)
1x Ethernet cable (1.5 m)
1x Jumper
1x Power adapter (EU)
Documentation
Wiki
The Pico-GPS-L76B is a GNSS module designed for Raspberry Pi Pico, with multi satellite systems support including GPS, BDS, and QZSS. It has advantages such as fast positioning, high accuracy, and low power consumption, etc. Combined with the Raspberry Pi Pico, it's easy to use global navigating function.Features
Standard Raspberry Pi Pico header, supports Raspberry Pi Pico series boards
Multi satellite systems support: GPS, BDS, and QZSS
EASY, self track prediction technology, help quick positioning
AlwaysLocate, intelligent controller of periodic mode for power saving
Supports D-GPS, SBAS (WAAS/EGNOS/MSAS/GAGAN)
UART communication baudrate: 4800~115200bps (9600bps by default)
Onboard battery holder, supports ML1220 rechargeable cell, for preserving ephemeris information and hot starts
4x LEDs for indicating the module operating status
Comes with development resources and manual (Raspberry Pi Pico C/C++ and MicroPython examples)
Specifications
GNSS
Frequency band:GPS L1 (1575.42 Mhz)BD2 B1 (1561.098 MHz)
Channels: 33 tracking ch, 99 acquisition ch, 210 PRN ch
C/A code
SBAS: WAAS, EGNOS, MSAS, GAGAN
Horizontal position accuracy(autonomous positioning)
<2.5 m CEP
Time-To-First-Fix @ -130 dBm(EASY enabled)
Cold starts: <15s
Warm starts: <5s
Hot starts: <1s
Sensitivity
Acquisition: -148 dBm
Tracking: -163 dBm
Re-acquisition: -160 dBm
Dynamic performance
Altitude (max): 18000 m
Velocity (max): 515 m/s
Acceleration (max): 4 g
Others
Communication interface
UART
Baudrate
4800~115200bps (9600bps by default)
Update rate
1 Hz (default), 10 Hz (max)
Protocols
NMEA 0183, PMTK
Power supply voltage
5 V
Operating current
13 mA
Overall current consumption
< 40 mA@5 V (Continue mode)
Operating temperature
-40℃ ~ 85℃
Dimensions
52 × 21 mm
Included
1x Pico-GPS-L76B
1x GPS Antenna
This is a long-wave IR thermal imaging camera that adopts the hybrid technology of microbolometer and thermopile pixel, features 80x62 array pixels. It will detect the IR1 distribution of objects in the field of view, turn the data into surface temperature of the objects by calculation, and then generate thermal images, for easy integration into miscellaneous industrial or intelligent control applications.
Features
Adopts the hybrid technology of microbolometer and thermopile, 80x62 array pixels
Continuous operation and thermal imaging video stream due to shutterless design
Noise Equivalent Temperature Difference (NETD) 150mK RMS@1 Hz refresh rate
Up to 25 fps (Max) thermal imaging video stream output
Comes with online resources and manuals (Python demo for Raspberry Pi, Android/Windows host computer and user manual, etc.)
Applications
High precision long-term non-contact temperature online monitoring
IR thermal imaging devices, IR thermometers
Smart home, intelligent building, intelligent lighting
Industrial temperature control, security & safety, intrude/motion detection
Small Target Thermal Analysis, Heat Trend Analysis and Solutions
Specifications
Power supply
5 V
Operating current
61 mA@5 V
Wavelength range
8~14 μm
Operating temperature
-20~85°C
Target temperature
-20~400°C
Refresh rate
25 fps (Max)
FOV
45° x 45° (H x V)
Noise equivalentTemperature diffenerence
150 mK
Measuring accuracy
±2°C (ambient temp. 10~70°C)
Dimensions
65.0 x 30.5 mm
Included
1x Thermal Camera HAT
1x 40-pin female header
1x FPC 15-pin cable 0.3 mm pitch (100 mm)
1x Screws pack
Downloads
Wiki
Specifications
CM4 socket
Suitable for all variants of Compute Module 4
Networking
Gigabit Ethernet RJ45 connectorM.2 M KEY, supports communication modules or NVME SSD
Connector
Raspberry Pi 40-PIN GPIO header
USB
2x USB 2.0 Type A2x USB 2.0 via FFC connector
Display
MIPI DSI display port (15-pin 1.0 mm FPC connector)
Camera
2x MIPI CSI-2 camera port (15-pin 1.0 mm FPC connector)
Video
2x HDMI port (including one port via FFC connector), supports 4K 30fps output
RTC
N/A
Storage
MicroSD card socket for Compute Module 4 Lite (without eMMC) variants
Fan header
No fan control, 5 V
Power input
5 V
Dimensions
85 x 56 mm
Included
1x CM4-IO-BASE-A
1x SSD mounting screw
Downloads
Wiki
The Waveshare PCIe to Gigabit Ethernet and USB 3.2 Gen 1 HAT+ is an expansion board designed specifically for the Raspberry Pi 5. It enhances the Raspberry Pi's connectivity by adding three high-speed USB 3.2 Gen 1 ports and a Gigabit Ethernet port, all in a driver-free, plug-and-play setup.
Features
Based on 16-pin PCIe Interface of Raspberry Pi 5
Equipped with RTL8153B high-performance Gigabit Ethernet chip
Supports Raspberry Pi OS, Ubuntu, OpenWRT, etc.
Stable and reliable network speed
Real-time monitoring of power status
Supports USB port power control via software
Included
1x PCIe to Gigabit Ethernet USB 3.2 HAT+
1x Network cable (1.5 m)
1x 16P Cable (40 mm)
1x Standoff pack
Downloads
Wiki
This PCIe to M.2 adapter is specifically designed for the Raspberry Pi 5. It supports the NVMe protocol for M.2 SSDs, enabling fast read and write operations, and adheres to the HAT+ standard. The adapter is compatible with M.2 SSDs in the 2230 and 2242 sizes.
Included
1x PCIe to M.2 HAT+ Adapter
1x 2x20 Pin header
1x 16P cable (40 mm)
1x Standoff pack
Downloads
Wiki
The Waveshare PoE M.2 HAT+ (B) combines Power over Ethernet (PoE) and PCIe-to-M.2 functionality for the Raspberry Pi 5. It supports the IEEE 802.3af/at networking standards and accommodates M.2 NVMe SSDs in 2230, 2242, 2260, and 2280 form factors. Additionally, it enables SSD boot for the Raspberry Pi.
Features
Standard Raspberry Pi 40-pin GPIO extension header, compatible with Raspberry Pi 5
Supports Power over Ethernet (PoE) and complies with the IEEE 802.3af/at network standards
Utilizes a fully isolated Switch Mode Power Supply (SMPS) for stable power delivery
Supports NVMe protocol M.2 interface hard drives, offering high-speed read/write performance and high efficiency
Provides 1x PCIe in Gen2 or Gen3 mode
Specifically designed for the Raspberry Pi 5 only
Compatible with M.2 SSDs in 2230, 2242, 2260, and 2280 form factors
Specifications
PoE power input
37~57 V DC
Power output
GPIO header: 5 V/4.5 A (max.)2P header: 12 V/2 A (max.)
Network standard
IEEE 802.3af/at PoE
Dimensions
56 x 85 mm
Included
1x Waveshare PoE M.2 HAT+ (B)
1x 16-Pin PCIe cable
1x SSD mounting screw
1x Screws pack
Downloads
Wiki
The PicoGo is a smart mobile robot based on Raspberry Pi Pico, it includes ultrasonic module, LCD module, Bluetooth module, line following module, and obstacle avoidance module, all these functions are highly integrated for easily achieving IR obstacle avoidance, auto line following, Bluetooth/IR remote control, and more. With various advanced features, it will help you fast get started with smart robot design and development.
Features
Standard Raspberry Pi Pico header, supports Raspberry Pi Pico series
Battery protection circuit: over charge/discharge protection, over current protection, short circuit protection, reverse proof, more stable and safe operating
Recharge/Discharge circuit, allows programming/debugging concurrently while recharging
5-ch infrared sensor, analog output, combined with PID algorithm, stable line tracking
Onboard multiple smart robot sensors like line tracking, obstacle avoidance, no more messy wiring
1.14-inch IPS colorful LCD display, 240 x135 pixels, 65K colors
Integrates Bluetooth module, allows teleoperations like robot movement, RGB LED display color, buzzer, etc. by using mobile phone APP
N20 micro gearmotors, with metal gears, low noise, high accuracy
Colorful RGB LED
IR obstacle avoidance
The module sends IR beam and detects objects by receiving the reflected IR beam, to easily avoid obstacles in the way.
Auto line following
Features 5-ch IR detector for sensing and analysing the black line, combined with PID algorithm for adjusting robot movement, high sensitivity, stable tracking.
Ultrasonic sensor
Ultrasonic is generally faster and easy-to-calculate, suitable for functions like real time control, and obstacle avoidance, with the industrial practical ranging accuracy, it is widely used on robot research and development.
Object tracking
The robot is able to detect front object by ultrasonic or IR, and keeps moving to track the target automatically.
IR remote control
Integrates IR receiver, so that you can control the robot to move or turn direction by sending infrared light from the remote controller.
Bluetooth remote control
Comes with mobile phone APP, allows you to use the phone to control the movement of the robot, or control its peripherals like changing LED color, making the buzzer to sound, etc.
RGB LED control
Included
1x PicoGo base board
1x PicoGo acrylic panel
1x 1.14-inch LCD Module
1x Ultrasonic sensor x1
1x IR remote controller
1x USB-A to micro-B cable 1.2 m
1x PH2.0 8-Pin cable 5 cm opposite side headers
1x Mini cross wrench sleeve
1x Screwdriver
1x Screws and standoffs pack
Required
1x Raspberry Pi Pico (pre-soldered header)
1x 5 V/3 A power supply
2x 14500 batteries
Downloads
Wiki
The PoE-ETH-USB-Hub-Box is a Hub kit with PoE/ETH/USB Hub HAT inside. It is tailored for Raspberry Pi Zero series, small in size, each cut-out of the case is exactly aligned with the connector. The case adopts classic Raspberry Pi red/white color combination, with quality dull polish surface, effectively keeping the Zero away from dust. By using this small Hub Box and some proper 802.3af-compliant power sourcing equipments, it is possible to provide both network connection and power supply for your Raspberry Pi Zero in only one Ethernet cable, along with 3x extended USB ports.
Features
Designed for Raspberry Pi Zero, compatible with Zero series boards
Incorporates RTL8152B Ethernet chip, with 10M / 100M auto-negotiation RJ45 port
PoE (Power over Ethernet) feature, 802.3af-compliant
Fully isolated SMPS (Switch Mode Power Supply)
3x extended USB ports, compatible with USB 2.0 / 1.1
Angle rounded design, smooth hand feeling, 'simple snap' case lid
Quality ABS material, dull polish surface, anti-fingerprint
Comes with two different lids, changing as you like
Included
1x PoE/ETH/USB Hub HAT kit
1x ABS case
4x Rubber feets
1x Screws pack
Downloads
Documentation
The PoE HAT (G) is an IEEE 802.3af/at-compliant PoE (Power Over Ethernet) HAT for Raspberry Pi 5. By using with a PoE router or switch that supports the IEEE 802.3af/at network standard, it is possible to provide both network connection and power supply for your Raspberry Pi in only one Ethernet cable.
Features
Standard Raspberry Pi 40-pin GPIO header
PoE capability, IEEE 802.3af/at-compliant
Onboard original IC solution for more stable PoE power performance
Adopts non-isolated switched-mode power supply (SMPS)
Compact and easy to assemble
Specifications
PoE power input
38~57 V DC in
Power output
GPIO header: 5 V/5 A (max)
Network standard
IEEE 802.3af/at PoE
Dimensions
56.5 x 64.98 mm
Included
1x PoE HAT (G)
1x 2x2 header
1x 2x20 header
1x Standoffs pack
Downloads
Wiki
This polysilicon solar panel (18 V/10 W) provides stable performance with a high conversion efficiency of >20%. Specifications Solar cell type Polysilicon Output power tolerance ±3% Operating voltage 17.6 V Open circuit voltage 21.6 V Cell quantity 36 (4x9) Power 10 Wp (max) Conversation efficiency >20% Operating current 0.57 A Short circuit current 0.61 A Standard system voltage 1000 V (Max) Operating temperature -40°C ~ +85°C Pressure on panel 30 m/s (200 kg/sq.m) (Max) Cable Length 90 cm, DC plug, OD 3.5 mm ID 1.35 mm Frame material Anodic oxidation aluminum alloy Dimensions 340 x 232 x 17 mm Weight 0.935 kg
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
