The Cytron Motion 2350 Pro is a robust 4-channel DC motor driver (3 A per channel, 3.6-16 V) ideal for building powerful robots, including mecanum wheel designs. It features 8-channel 5 V servo ports, 8-channel GPIO breakouts, 3 Maker Ports, and a USB host for plug-and-play joystick/gamepad support. Powered by Raspberry Pi Pico 2, it integrates seamlessly with the Pico ecosystem, supporting Python (MicroPython, CircuitPython), C/C++, and Arduino IDE. Pre-installed with CircuitPython, it comes with a demo program and quick test buttons for immediate use. Simply connect via USB-C, and start exploring! Included 1x Cytron Motion 2350 Pro Robotics Controller 1x STEMMA QT/Qwiic JST SH 4-pin Cable with Female Sockets (150 mm) 2x Grove to JST-SH Cable (200 mm) 1x Set of Silicone Bumper 4x Building Block Friction Pin 1x Mini Screwdriver

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The Raspberry Pi AI HAT+ is an expansion board designed for the Raspberry Pi 5, featuring an integrated Hailo AI accelerator. This add-on offers a cost-effective, efficient, and accessible approach to incorporating high-performance AI capabilities, with applications spanning process control, security, home automation, and robotics. Available in models offering 13 or 26 tera-operations per second (TOPS), the AI HAT+ is based on the Hailo-8L and Hailo-8 neural network accelerators. This 13 TOPS model efficiently supports neural networks for tasks like object detection, semantic and instance segmentation, pose estimation, and more. The 26 TOPS variant accommodates larger networks, enables faster processing, and is optimized for running multiple networks simultaneously. The AI HAT+ connects via the Raspberry Pi 5’s PCIe Gen3 interface. When the Raspberry Pi 5 is running a current version of the Raspberry Pi OS, it automatically detects the onboard Hailo accelerator, making the neural processing unit (NPU) available for AI tasks. Additionally, the rpicam-apps camera applications included in Raspberry Pi OS seamlessly support the AI module, automatically using the NPU for compatible post-processing functions. Included Raspberry Pi AI HAT+ (13 TOPS) Mounting hardware kit (spacers, screws) 16 mm GPIO stacking header Downloads Datasheet

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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

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The Challenger RP2040 WiFi is a small embedded computer equipped with a WiFi module, in the popular Adafruit Feather form factor. It is based on an RP2040 microcontroller chip from the Raspberry Pi Foundation which is a dual-core Cortex-M0 that can run on a clock up to 133 MHz. The RP2040 is paired with a 8 MB high-speed flash capable of supplying data up to the max speed. The flash memory can be used both to store instructions for the microcontroller as well as data in a file system and having a file system available makes it easy to store data in a structured and easy to program approach. The device can be powered from a Lithium Polymer battery connected through a standard 2.0 mm connector on the side of the board. An internal battery charging circuit allows you to charge your battery safely and quickly. The device is shipped with a programming resistor that sets the charging current to 250 mA. This resistor can be exchanged by the user to either increase or decrease the charging current, depending on the battery that is being used. The WiFi section on this board is based on the Espressif ESP8285 chip which basically is a ESP8266 with 1 MB flash memory integrated onto the chip making it a complete WiFi only requiring very few external components. The ESP8285 is connected to the microcontroller using a UART channel and the operation is controlled using a set of standardized AT-commands. Specifications Microcontroller RP2040 from Raspberry Pi (133 MHz dual-core Cortex-M0) SPI One SPI channel configured I²C One I²C channel configured UART One UART channel configured (second UART is for the WiFi chip) Analog inputs 4 analog input channels WLAN controller ESP8285 from Espressif (160 MHz single-core Tensilica L106) Flash memory 8 MByte, 133 MHz SRAM memory 264 KByte (divided into 6 banks) USB 2.0 controller Up to 12 MBit/s full speed (integrated USB 1.1 PHY) JST Battery connector 2.0 mm pitch Onboard LiPo charger 250 mA standard charge current Onboard NeoPixel LED RGB LED Dimensions 51 x 23 x 3,2 mm Weight 9 g Downloads Datasheet Design files Product errata

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The Challenger RP2040 SD/RTC is an Arduino/CircuitPython compatible Adafruit Feather format microcontroller board based on the Raspberry Pi Pico chip. The board is equipped with an microSD card reader and a Real Time Clock making it super useful for data logging applications. MicroSD Card This board is equipped with a microSD card connector that will house standard microSD cards allowing your application to have many gigabytes of storage room for sensor data or what ever you want to place on it. Together with a fancy display you could also store cool images. Real Time Clock (RTC) MCP79410 is a highly integrated real time clock with nonvolatile memory and many other advanced features. These features include a battery switchover circuit for backup power, a timestamp to log power failures and digital trimming for accuracy. Using a low-cost 32.768 kHz crystal or other clock source, time is tracked in either a 12-hour or 24-hour format with an AM/PM indicator and timing to the second, minute, hour, day of the week, day, month and year. As an interrupt or wakeup signal, a multifunction open drain output can be programmed as an Alarm Out or as a Clock Out that supports 4 selectable frequencies. Specifications Microcontroller RP2040 from Raspberry Pi (133 MHz dual-core Cortex-M0) SPI One SPI channel configured I²C One I²C channel configured UART One UART channel configured Analog inputs 4 analog input channels Flash memory 8 MB, 133 MHz SRAM Memory 264 KB (divided into 6 banks) USB 2.0 controller Up to 12 MBit/s full speed (integrated USB 1.1 PHY) JST Battery connector 2.0 mm pitch On board LiPo charger 500 mA standard charge current RTC MCP79410 (uses I²C0 (Wire) for communication) SD Card One SPI channel used (uses SPI1 to connect to the SD socket) Dimensions 51 x 23 x 3,2 mm Weight 9 g Downloads Datasheet RunCPM image including HW I/O port support CPM File image for RunCPM Getting started with RunCPM for the Challenger RP2040 SD/RTC board CircuitPython download page

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The SparkFun RP2040 mikroBUS Development Board is a low-cost, high performance platform with flexible digital interfaces featuring the Raspberry Pi Foundation's RP2040 microcontroller. Besides the Thing Plus or Feather PTH pin layout, the board also includes a microSD card slot, 16 MB (128 Mbit) flash memory, a JST single cell battery connector (with a charging circuit and fuel gauge sensor), an addressable WS2812 RGB LED, JTAG PTH pins, four (4-40 screw) mounting holes, our signature Qwiic connectors, and a mikroBUS socket. The mikroBUS standard was developed by MikroElektronika. Similar to Qwiic and MicroMod interfaces, the mikroBUS socket provides a standardized connection for add-on Click boards to be attached to a development board and is comprised of a pair of 8-pin female headers with a standardized pin configuration. The pins consist of three groups of communications pins (SPI, UART and I²C), six additional pins (PWM, Interrupt, Analog input, Reset and Chip select), and two power groups (3.3 V and 5 V). The RP2040 is supported with both C/C++ and MicroPython cross-platform development environments, including easy access to runtime debugging. It has UF2 boot and floating-point routines baked into the chip. While the chip has a large amount of internal RAM, the board includes an additional 16 MB of external QSPI flash memory to store program code. The RP2040 contains two ARM Cortex-M0+ processors (up to 133 MHz) and features: 264 kB of embedded SRAM in six banks 6 dedicated IO for SPI Flash (supporting XIP) 30 multifunction GPIO: Dedicated hardware for commonly used peripherals Programmable IO for extended peripheral support Four 12-bit ADC channels with internal temperature sensor (up to 0.5 MSa/s) USB 1.1 Host/Device functionality Features (SparkFun RP2040 mikroBUS Dev. Board) Raspberry Pi Foundation's RP2040 microcontroller 18 Multifunctional GPIO Pins Four available 12-bit ADC channels with internal temperature sensor (500kSa/s) Up to eight 2-channel PWM Up to two UARTs Up to two I²C buses Up to two SPI buses Thing Plus (or Feather) Pin Layout: 28 PTH Pins USB-C Connector: USB 1.1 Host/Device functionality 2-pin JST Connector for a LiPo Battery (not included): 500mA charging circuit 4-pin JST Qwiic Connector LEDs: PWR - Red 3.3V power indicator CHG - Yellow battery charging indicator 25 - Blue status/test LED (GPIO 25) WS2812 - Addressable RGB LED (GPIO 08) Buttons: Boot Reset JTAG PTH Pins 16MB QSPI Flash Memory µSD Card Slot mikroBUS Socket Dimensions: 3.7' x 1.2' Four Mounting Holes: 4-40 screw compatible Downloads Schematic Eagle Files Board Dimensions Hookup Guide Qwiic Info Page GitHub Hardware Repository

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The servo control is based on the SparkFun servo pHAT, and thanks to its I2C capabilities, this PWM add-on saves the Raspberry Pi's GPIO pins, allowing you to use them for other purposes. We have also provided a Qwiic connector for easy interfacing with the I²C bus using the Qwiic system. Whether you use the Auto pHAT with a Raspberry Pi, NVIDIA, Jetson Nano, Google Coral, or other SBC, it makes for a unique robotics addition and board with a 2x20 GPIO. The DC motor control comes from the same 4245 PSOC and 2-channel motor ports system used on the SparkFun Qwiic Motor Driver. This provides 1.2A steady-state drive per channel (1.5A peak) and 127 levels of DC drive strength. The SparkFun Auto pHAT also supports up to two motor encoders thanks to the onboard ATTINY84A to provide more precise movement to your creation! Additionally, the Auto pHAT has an on-board ICM-20948 9DOF IMU for all your motion-sensing needs. This enables your robot to access the 3-Axis Gyroscope with four selectable ranges, 3-Axis Accelerometer, again with four selectable ranges, and 3-axis magnetometer with an FSR of ±4900µT. Power to the SparkFun Auto pHAT can be supplied through a USB-C connector or external power. This will power either the motors only or power the motors and the Raspberry Pi that is connected to the HAT. We've even added power protection circuits to the design to avoid damage to power sources. Features 4245 PSOC and 2-channel motor ports programmable using Qwiic library Onboard ATTINY84A supports up to two DC motor encoders 5V pass-through from RPi Onboard ICM-20948 9DOF IMU for motion sensing accessible via Qwiic library PWM control for up to four servos Qwiic connector for expansion to full SparkFun Qwiic ecosystem Designed for stacking, full header support & can use additional pHATs on top of it Uninhibited access to the RPi camera connector & display connector. USB-C for powering 5V rail (Motors/Servos/back powering Pi) External power inputs broken out to PTH headers

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This PCIe 3.0 to dual M.2 HAT enables the Raspberry Pi 5 to access two NVMe SSDs, Hailo-8/8L (M.2 key B+M only), and Google Coral AI accelerators at PCIe 3.0 speeds. Features Dual M.2 Slots with PCIe 3.0 Speed: Utilizes the ASMedia ASM2806 PCIe 3.0 switch chip to ensure optimal performance, overcoming the limitations of PCIe 2.0. Stable Power Supply: Additional pogo pins provide extra power to ensure a stable high-speed connection. Multiple Size Support: Compatible with M.2 standard sizes 2230, 2242, 2260, and 2280. Back-mounted Design: Keeps the 40-pin GPIO free for use, allowing compatibility with other Raspberry Pi HATs. User-friendly Design: The S-shaped FPC cable does not obstruct the microSD card slot. Open Source Case: Seeed’s M.2 HATs are not compatible with the official Raspberry Pi case, but an adapted 3D-printable case (STP file) is provided. Applications Simultaneously supports AI acceleration and high-speed SSD storage Connects dual NVMe SSDs for large storage capacity Booting a Raspberry Pi from the SSD Specifications M.2 Slots 2 Max. PCIe Speed PCIe Gen3.0 PCIe Switch Chip ASM2806 M.2 Size Support 2280/2260/2242/2230 Max. Power Supply 5 V/3 A (max 3A: Pogo pin 2A + PCIe connector 1A) Cable FPC Assembly Method Back installation Dimensions 87 x 55 x 10 mm Included 1x Seeed Studio PCIe 3.0 to Dual M.2 HAT for Raspberry Pi 5 2x FPC cables (50 mm) 1x Screws & stud pack Downloads Wiki

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The Raspberry Pi USB-C power supply is designed specifically to power the latest Raspberry Pi 4 Model B computers. 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 Type-C Input Voltage range 100-240 VAC (rated)96-264 VAC (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

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This IPS 7.9-inch HDMI touch display with 400 x 1280 resolution, 170° wide viewing angle and built-in ferrite Hi-Fi speaker can be used as a secondary screen for chassis and also supports Raspberry Pi and Jetson Nano. Features 7.9-inch IPS display with a hardware resolution of 400 x 1280. Zinc alloy case, toughened glass panel with up to 6H hardness. When working as a computer monitor, it supports Windows without a driver. When working with Raspberry Pi, it supports Raspberry Pi OS / Ubuntu / Kali and Retropie, driver-free. When working with Jetson Nano, it supports Ubuntu, driver-free. Support backlight control for power saving. Support 5-point capacitive touch control. Specifications Display size 7.9" Viewing angle 170° Resolution 400 x 1280 pixels Display area 191.08 x 60.40 mm IPS version solor gamut 62% NTSC Max brightness 550 cd/m² Backlight adjustment Adjusted by the key/HID software Contrast 900:1 Color depth 16.7M Refresh rate 60 Hz Power port USB-C Display port HDMI interface Dimensions 211 x 73 x 20 mm Included 1x 7.9-inch Side Monitor 1x HDMI to Micro HDMI adapter 1x USB Type-A to Type-C cable (1 m) 1x HDMI flat cable (1 m) 2x Nonskid rubber feet Downloads Wiki

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Pico Breakout Garden Base sits underneath your Pico and lets you connect up to six of our extensive selection of Pimoroni breakouts to it. Whether it's environmental sensors so you can keep track of the temperature and humidity in your office, a whole host of little screens for important notifications and readouts, and, of course, LEDs. Scroll down for a list of breakouts that are currently compatible with our C++/MicroPython libraries!As well as a labelled landing area for your Pico, there's also a full set of broken out Pico connections, in case you need to attach even more sensors, wires, and circuitry. We've thrown in some rubber feet to keep the base nice and stable and to stop it from scratching your desk, or there are M2.5 mounting holes at the corners so that you can bolt it onto a solid surface if you prefer.The six sturdy black slots are edge connectors that connect the breakouts to the pins on your Pico. There's two slots for SPI breakouts, and four slots for I²C breakouts. Because I²C is a bus, you can use multiple I²C devices at the same time, providing they don't have the same I²C address (we've made sure that all of our breakouts have different addresses, and we print them on the back of the breakouts so they're easy to find).As well as being a handy way to add functionality to your Pico, Breakout Garden is also very useful for prototyping projects without the need for complicated wiring, soldering, or breadboards, and you can grow or change up your setup at any time.Features Six sturdy edge-connector slots for breakouts 4x I²C slots (5 pins) 2x SPI slot (7 pins) Landing area with female headers for Raspberry Pi Pico 0.1” pitch, 5 or 7 pin connectors Broken-out pins Reverse polarity protection (built into breakouts) 99% assembled – just need to stick on the feet! Compatible with Raspberry Pi Pico

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The Challenger RP2040 NFC is a small embedded computer, equipped with an advanced on-board NFC controller (NXP PN7150), in the popular Adafruit Feather form factor. It is based on an RP2040 microcontroller chip from the Raspberry Pi Foundation which is a dual-core Cortex-M0 that can run on a clock up to 133 MHz. NFC The PN7150 is a full featured NFC controller solution with integrated firmware and NCI interface designed for contactless communication at 13.56 MHz. It is fully compatible with NFC forum requirements and is greatly designed based on learnings from previous NXP NFC device generation. It is the ideal solution for rapidly integrating NFC technology in any application, especially small embedded systems reducing Bill of Material (BOM). The integrated design with full NFC forum compliancy gives the user all the following features: Embedded NFC firmware providing all NFC protocols as pre-integrated feature. Direct connection to the main host or microcontroller, by I²C-bus physical and NCI protocol. Ultra-low power consumption in polling loop mode. Highly efficient integrated power management unit (PMU) allowing direct supply from a battery. Specifications Microcontroller RP2040 from Raspberry Pi (133 MHz dual-core Cortex-M0) SPI One SPI channels configured I²C Two I²C channel configured (dedicated I²C for the PN7150) UART One UART channel configured Analog inputs 4 analog input channels NFC module PN7150 from NXP Flash memory 8 MB, 133 MHz SRAM memory 264 KB (divided into 6 banks) USB 2.0 controller Up to 12 MBit/s full speed (integrated USB 1.1 PHY) JST Battery connector 2.0 mm pitch On board LiPo charger 450 mA standard charge current Dimensions 51 x 23 x 3,2 mm Weight 9 g Note: Antenna is not included. Downloads Datasheet Quick start example

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ArdiPi is the ultimate Arduino Uno alternative packed with powerful specs and exciting features in the Arduino Uno form factor. You can enjoy a low-cost solution with access to the largest support communities for Raspberry Pi. ArdiPi variant is powered by Raspberry Pi Pico W. The built-in Wi-Fi and Bluetooth connectivity makes the board ideal for IoT projects or projects requiring wireless communication. Features Arduino Uno form factor, so you can connect 3.3 V compatible Arduino shields SD card slot for storage and data transfer Drag-and-drop programming using mass storage over USB Multifunction GPIO breakout supporting general I/O, UART, I²C, SPI, ADC & PWM functions. Multi-tune Buzzer to add audio alert into the project SWD pins breakout for serial debugging Multi-platform support like Arduino IDE, MicroPython, and CircuitPython. Comes with HID support, so the device can simulate a mouse or keyboard Specifications Powered by RP2040 microcontroller which is a dual-core Arm Cortex-M0+ processor, 2 MB of onboard flash storage, 264 kB of RAM On-board single-band 2.4 GHz wireless interfaces (802.11n) for WiFi and Bluetooth 5 (LE) WPA3 & Soft access point supporting up to four clients Operating voltage of pins 3.3 V and board supply 5 V 25 Multipurpose GPIOs breakout in Arduino style for easy peripheral interfacing I²C, SPI, and UART communications protocol support 2 MB of onboard Flash memory Cross-platform development and multiple programming language support

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The DiP-Pi WiFi Master is an Advanced WiFi connectivity System with sensors embedded interfaces that cover most of possible needs for IoT application based on Raspberry Pi Pico. It is powered directly from the Raspberry Pi Pico VBUS. The DiP-Pi WiFi Master contains Raspberry Pi Pico embedded RESET button as also ON/OFF Slide Switch that is acting on Raspberry Pi Pico Power Sources. The DiP-Pi WiFi Master is equipped with WiFi ESP8266 Clone module with embedded antenna. This feature open a wide range of IoT applications based on it. In Addition to all above features DiP-Pi WiFi Master is equipped with embedded 1-wire, DHT11/22 sensors, and micro–SD Card interfaces. Combination of the extended powering, battery, and sensors interfaces make the DiP-Pi WiFi Master ideal for IoT applications like data logger, plants monitoring, refrigerators monitoring etc. DiP-Pi WiFi Master is supported with plenty of ready to use examples written in Micro Python or C/C++. Specifications General Dimensions 21 x 51 mm Raspberry Pi Pico pinout compatible Independent Informative LEDs (VBUS, VSYS, V3V3) Raspberry Pi Pico RESET Button ON/OFF Slide Switch acting on Raspberry Pi Pico Powering Source Embedded 3.3 V @ 600 mA LDO ESP8266 Clone WiFi Connectivity ESP8266 Firmware Upload Switch Embedded 1-wire Interface Embedded DHT-11/22 Interface Powering Options Raspberry Pi Pico micro-USB (via VBUS) Embedded Peripherals and Interfaces Embedded 1-wire interface Embedded DHT-11/22 Interface Micro SD Card Socket Programmer Interface Standard Raspberry Pi Pico C/C++ Standard Raspberry Pi Pico Micro Python Case Compatibility DiP-Pi Plexi-Cut Case Informative LEDs VB (VUSB) VS (VSYS) V3 (V3V3) System Protection Direct Raspberry Pi Pico Hardware Reset Button PPTC 500 mA @ 18 V fuse on EPR EPR/LDO Over Temperature protection EPR/LDO Over Current protection System Design Designed and Simulated with PDA Analyzer with one of the most advanced CAD/CAM Tools – Altium Designer Industrial Originated PCB Construction 2 ozcopper PCB manufactured for proper high current supply and cooling 6 mils track/6 mils gap technology 2 layers PCB PCB Surface Finishing – Immersion Gold Multi-layer Copper Thermal Pipes for increased System Thermal Response and better passive cooling Downloads Datasheet Manual

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Inventor 2040 W is a multi-talented board that does (almost) everything you might want a robot, prop or other mechanical thing to do. Drive a couple of fancy motors with encoders attached? Yep! Add up to six servos? Sure? Attach a little speaker so you can make noise? No problem! It's also got a battery connector so you can power your inventions from AA/AAA or LiPo batteries and carry your miniature automaton/animated top hat/treasure chest that growls at your enemies around with you untethered.You also get a ton of options for hooking up sensors and other gubbins – there's two Qw/ST connectors (and an unpopulated Breakout Garden slot) for attaching breakouts, three ADC pins for analog sensors, photoresistors and such, and three spare digital GPIO you could use for LEDs, buttons or digital sensors. Speaking of LEDs, the board features 12 addressable LEDs (AKA Neopixels) – one for each servo and GPIO/ADC channel.Features Raspberry Pi Pico W Aboard Dual Arm Cortex M0+ running at up to 133 Mhz with 264 kB of SRAM 2 MB of QSPI flash supporting XiP Powered and programmable by USB micro-B 2.4 GHz wireless 2 JST-SH connectors (6 pin) for attaching motors Dual H-Bridge motor driver (DRV8833) Per motor current limiting (425 mA) Per motor direction indicator LEDs 2 pin (Picoblade-compatible) connector for attaching speaker JST-PH (2 pin) connector for attaching battery (input voltage 2.5-5.5 V) 6 sets of header pins for connecting 3 pin hobby servos 6 sets of header pins for GPIO (3 of which are ADC capable) 12x addressable RGB LEDs/Neopixels User button Reset button 2x Qw/ST connectors for attaching breakouts Unpopulated headers for adding a Breakout Garden slot Fully assembled No soldering required (unless you want to add the Breakout Garden slot). C/C++ and MicroPython libraries Schematic Downloads Download pirate-brand MicroPython Getting Started with Raspberry Pi Pico Motor function reference Servo function reference MicroPython examples C++ examples

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Inky Frame 4.0' features a vibrant E Ink display with 640 x 400 pixels of tightly packed seven colour goodness – that's almost as many pixels as on the 5.7' Inky Frame, but squished tidily into a smaller footprint. There's five buttons with LED indicators for interacting with the display, two Qw/ST connectors for plugging in breakouts and a micro SD card slot for storage of capybara photos or other vital files. Every Inky Frame comes with a pair of sleek little metal legs so you can stand it up on your desk. There's also a battery connector so you can power it without annoying trailing wires, and some neato power saving features that mean you can run it from batteries for ages. Inky Frame 4.0' is great for: An ultra readable, low power consumption home automation dashboard Displaying stylised photos, pop art images or favourite comic panels. Showing cute graphs and readouts from local or wirelessly connected sensors Displaying fascinating data from online APIs. Features Raspberry Pi Pico W Aboard Dual Arm Cortex M0+ running at up to 133 Mhz with 264 kB of SRAM 2 MB of QSPI flash supporting XiP Powered and programmable by USB micro-B 2.4 GHz wireless 4.01' EPD display (640 x 400 pixels) E Ink Gallery Palette 4000 ePaper ACeP (Advanced Color ePaper) 7-color with black, white, red, green, blue, yellow, orange. Ultra wide viewing angles Ultra low power consumption Dot pitch – 0.135 x 0.135 mm 5x Tactile buttons with LED indicators Two Qw/ST connectors for attaching breakouts microSD card slot Dedicated RTC chip (PCF85063A) for deep sleep/wake Fully assembled (no soldering required) C/C++ and MicroPython libraries Schematic Included 1x Inky Frame 4.0' (incl. Pico W) 2x Metal legs Downloads MicroPython (Learn) Getting Started with Inky Frame (Readme) Installing MicroPython (Readme) MicroPython FAQs (and troubleshooting) Download pirate-brand MicroPython (you'll want the Inky Frame.uf2) MicroPython examples PicoGraphics function reference C/C++ C examples Picographics function reference

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The Raspberry Pi USB-C power supply is designed specifically to power the latest Raspberry Pi 4 Model B computers. 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 Type-C Input Voltage range 100-240 VAC (rated)96-264 VAC (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

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World’s Most Popular ROS Platform TurtleBot is the most popular open source robot for education and research. The new generation TurtleBot3 is a small, low cost, fully programmable, ROS based mobile robot. It is intended to be used for education, research, hobby and product prototyping. Affordable Cost TurtleBot was developed to meet the cost-conscious needs of schools, laboratories and companies. TurtleBot3 is the most affordable robot among the SLAM-able mobile robots equipped with a 360° Laser Distance Sensor LDS-01. Small Size The dimension of TurtleBot3 Burger is only 138 x 178 x 192 mm (L x W x H). Its size is about 1/4 of the size of the predecessor. Imagine keeping TurtleBot3 in your backpack and develop your program and test it anywhere you go. ROS Standard The TurtleBot brand is managed by Open Robotics, which develops and maintains ROS. Nowadays, ROS has become the go-to platform for all the roboticists around the world. TurtleBot can be integrated with existing ROS-based robot components, but TurtleBot3 can be an affordable platform for whom want to get started learning ROS. Extensibility TurtleBot3 encourages users to customize its mechanical structure with some alternative options: open source embedded board (as a control board), computer and sensors. TurtleBot3 Burger is a two-wheeled differential drive type platform but it is able to be structurally and mechanically customized in many ways: Cars, Bikes, Trailers and so on. Extend your ideas beyond imagination with various SBC, sensors and motors on a scalable structure. Modular Actuator for Mobile Robot TurtleBot3 is able to get a precise spatial data by using 2 DYNAMIXEL’s in the wheel joints. DYNAMIXEL XM series can be operated by one of 6 operating modes (XL series: 4 operating modes): Velocity control mode for wheels, Torque control mode or Position control mode for joint, etc. DYNAMIXEL can be used even to make a mobile manipulator which is light but can be precisely controlled with velocity, torque and position control. DYNAMIXEL is a core component that makes TurtleBot3 perfect. It is easy to assemble, maintain, replace and reconfigure. Open Control Board for ROS The control board is open-sourced in hardware wise and in software wise for ROS communication. The open source control board OpenCR1.0 is powerful enough to control not only DYNAMIXEL’s but also ROBOTIS sensors that are frequently being used for basic recognition tasks in cost effective way. Various sensors such as Touch sensor, Infrared sensor, Color sensor and a handful more are available. The OpenCR1.0 has an IMU sensor inside the board so that it can enhance precise control for countless applications. The board has 3.3 V, 5 V, 12 V power supplies to reinforce the available computer device lineups. Strong Sensor Lineups TurtleBot3 Burger uses enhanced 360° LiDAR, 9-Axis Inertial Measurement Unit and precise encoder for your research and development. Open Source The hardware, firmware and software of TurtleBot3 are open source which means that users are welcomed to download, modify and share source codes. All components of TurtleBot3 are manufactured with injection molded plastic to achieve low cost, however, the 3D CAD data is also available for 3D printing. Specifications Maximum translational velocity 0.22 m/s Maximum rotational velocity 2.84 rad/s (162.72 deg/s) Maximum payload 15 kg Size (L x W x H) 138 x 178 x 192 mm Weight (+ SBC + Battery + Sensors) 1 kg Threshold of climbing 10 mm or lower Expected operating time 2h 30m Expected charging time 2h 30m SBC (Single Board Computers) Raspberry Pi 4 (2 GB RAM) MCU 32-bit ARM Cortex-M7 with FPU (216 MHz, 462 DMIPS) Actuator XL430-W250 LDS (Laser Distance Sensor) 360 Laser Distance Sensor LDS-01 or LDS-02 IMU Gyroscope 3 AxisAccelerometer 3 Axis Power connectors 3.3 V/800 mA5 V/4 A12 V/1 A Expansion pins GPIO 18 pinsArduino 32 pin Peripheral 3x UART, 1x CAN, 1x SPI, 1x I²C, 5x ADC, 4x 5-pin OLLO DYNAMIXEL ports 3x RS485, 3x TTL Audio Several programmable beep sequences Programmable LEDs 4x User LED Status LEDs 1x Board status LED1x Arduino LED1x Power LED Buttons and Switches 2x Push buttons, 1x Reset button, 2x Dip switch Battery Lithium polymer 11.1 V 1800 mAh / 19.98 Wh 5C PC connection USB Firmware upgrade via USB / via JTAG Power adapter (SMPS) Input: 100-240 VAC 50/60 Hz, 1.5 A @maxOutput: 12 VDC, 5 A Downloads ROS Robot Programming GitHub E-Manual Community

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The GrovePi+ is an easy-to-use and modular system for hardware hacking with the Raspberry Pi, no need for soldering or breadboards: plug in your Grove sensors and start programming directly. Grove is an easy-to-use collection of more than 100 inexpensive plug-and-play modules that sense and control the physical world. By connecting Grove Sensors to Raspberry Pi, it empowers your Pi in the physical world. With hundreds of sensors to choose from Grove families, the possibilities for interaction are endless. Set-up in 4 simple steps Slip the GrovePi+ board over your Raspberry Pi Connect the Grove modules to the GrovePi+ board Upload your program to Raspberry Pi Begin taking in the world data

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THSER102 is a plug-and-play cable extension kit for Raspberry Pi Camera Modules. The kit is compatible with Raspberry Pi Camera Module 3, in addition to Camera V2 (version 2.1), HQ/Global Shutter Camera, and defined modes of the Raspberry Pi Camera Module V1.3. The THSER102 extends the cable length for >10 meters between the Raspberry Pi Camera Module and the Computer with a standard LAN Cable. There is no need for software or coding. THSER102 works as if the Raspberry Pi Camera were directly connected to the computer. The THSER102 also supports advanced applications. HAT on HAT support allows to use another HAT board on top of THSER102 Rx Board. 3ch GPIO Extension allows extending GPIO communication between the camera location and the computer. Features Supporting all Raspberry Pi Camera Modules including Camera Module 3 >10-meter Cable Extension Plug and Play No software configuration is needed. Camera works as if THSER102 not exists. Advanced Applications Supported HAT on HAT 3ch GPIO Extension Included 1x Tx Board 1x Rx Board 1x LAN Cable (2 m) 2x Flat Flex Cables 1x Pin Header 6x Mounting Screws for Rx Board 3x Longer Spacers for Rx Board 4x Mounting screws for Tx Board (for Camera V2 only) 4x Shorter Spacers for Tx Board (for Camera V2 only) 4x Mounting Nuts for Tx Board (for Camera V2 only) Downloads Datasheet

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The Voice Interaction Satellite Kit can extend the reach of your base station to each room in your house and enable you to interact with the hardware based on where you issue your commands! You can arrange multiple Satellite Kits throughout your home to add new functionality to Base kit or any other smart speaker, extending your voice control across several rooms. The Voice Interaction Satellite Kit is powered by a Raspberry Pi Zero W and the ReSpeaker 2-Mics Pi HAT. Along with the kit comes a speaker, a Grove - Temperature Humidity Sensor (SHT31) sensor, a Grove Relay, and a pegboard to hang it on a wall or create a nifty stand. Note All Satellite Kits require a Base kit or Raspberry Pi in order to operate as intended.

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Wide Range Power Supply for Raspberry Pi With the PiEnergy Mini, you can operate your Raspberry Pi with a voltage of 6 to 36 V DC. You can use the button integrated on the board to both power up and power down your Raspberry Pi. Communication with the Raspberry Pi is via GPIO4, but this connection can also be cut by removing a resistor to use the pin freely. Thanks to the ultra-flat design, it can also be used in many housings. The pin header is included and not soldered on to keep the design even flatter. Specifications Input voltage 6 to 36 V DC Output voltage 5.1 V Output current Up to 3 A (active ventilation recommended for additionally connected loads) Cable cross-section at the power input 0.2-0.75 mm² Interface to the Raspberry Pi GPIO4 Microcontroller ATtiny5 Further connections 5 V fan connector (2-pin/2.54 mm)Solder pads for external on/off switch Compatible with Raspberry Pi 3, 4, 5 Dimensions 23 x 56 x 11 mm Included Board with mounted heat sink Pin header (2x5) Spacer, screw, nut Downloads Datasheet (English) Datasheet (Italiano) Manual (English) Manual (Italiano)

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This is a high-performance cooling solution designed to effectively dissipate heat and ensure optimal operating temperatures for the Raspberry Pi. It is an essential accessory for users who want to enhance the performance and longevity of their Raspberry Pi device. The compact design of the Water cooling kit for Raspberry Pi 5 allows it to be seamlessly installed on the top and bottom of the Raspberry Pi 5, ensuring efficient heat transfer and perfectly protecting the bottom of the Raspberry Pi. Its simple installation process eliminates the need for complex wiring or additional tools, making it friendly to both beginners and experienced Raspberry Pi enthusiasts. With its powerful cooling performance, the water cooling kit for Raspberry Pi 5 for effectively dissipates heat generated by the Raspberry Pi during intensive tasks or prolonged usage. This helps prevent overheating and ensures stable performance. Efficient water-cooled cooling will allow you to connect multiple Raspberry Pi boards to a set of cooling devices. When using Raspberry Pi in a cluster, you can use a set of water-cooled devices to effectively cool multiple Raspberry Pi boards. Features Made for Raspberry Pi: Specially designed for Raspberry Pi 5, 1:1 mold opening, covering all heat sources, including CPU, Wi-Fi, power chip, and eMMC. Cooling Performance: Effectively dissipates the heat generated by the Raspberry Pi, ensuring optimal operating temperatures and preventing overheating. Easy to Use: The integrated design of the water pump and cooling fan is convenient for users to install. RGB Color Lighting: RGB-colored lights are installed at the fan and water pump locations. Included 1x Water cooling kit 1x Water cooling radiator 1x Black heatsink 2x Silicone hose 1x 12 V/2 A power adapter (US) 4x Hexagonal screw M2.5x10 1x L-key hex wrench

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GrovePi+ is stacked on top of the Raspberry Pi without the need for any other connections. Communication between the two occurs over the I²C interface. All Grove modules connect to the universal Grove connectors on the GrovePi+ shield via the universal 4-pin connector cable. Grove modules work on analog and digital signals and can be connected directly to the ATMEGA328 microcontroller on the Grove Pi+. The microcontroller acts as an interpreter between the Raspberry Pi and the Grove sensors. It sends, receives, and executes commands sent by the Raspberry Pi. Features One GrovePi+ board together with 12 popular Grove sensors and 10 Grove cables GrovePi+ is compatible with Raspberry Pi A+, B, B+ / 2, 3, 4. CE certified and compatible with Linux and Win 10 IoT. Included 1x Grove Pi+ 1x Grove - Rotary Angle Sensor 1x Grove - Sound Sensor 1x Grove - LCD RGB Backlight 1x Grove - Temp&Humi Sensor 1x Grove - Red LED 1x Grove - Light Sensor 1x Grove - Buzzer 1x Grove - Relay 1x Grove - Blue LED 1x Grove - Button 1x GrovePi+ Guidebook 10x Cables 1x Grove - UItrasonic Ranger 1x Grove - Green LED

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