Pico RP2040

74 products


  • Pimoroni Badger 2040

    Pimoroni Pimoroni Badger 2040

    Badger 2040 is a hackable, programmable badge with E Ink display, powered by Raspberry Pi RP2040.The Badger 2040 is equipped with plenty of buttons so you can easily change what's displayed on the screen, a slot so you can clip it onto a lanyard and a battery connector so you can keep things portable and refresh the screen whilst on the go.Here are some things you could do with it! Switch between images, pronouns or secret identities at the push of a button Make yourself into a mobile weather station or air quality monitor (by adding a sensor breakout) Store important QR codes for getting into places (or to Rickroll people) Make a tiny to-do list and tick stuff off Display inspirational badger quotes or educational badger facts of the day Want to show your Badger the world? We've put together a convenient Badger + Accessory Kit which contains batteries, a lanyard and everything else that's needed to get portabello.Features 2.9' black and white E Ink display (296 x 128 pixels) Ultra wide viewing angles Ultra low power consumption Dot pitch – 0.227 x 0.226 mm Powered by RP2040 (Dual Arm Cortex M0+ running at up to 133 Mhz with 264 kB of SRAM) 2 MB of QSPI flash supporting XiP Five front user buttons Reset and boot buttons (the boot button can also be used as a user button) White LED USB-C connector for power and programming JST-PH connector for attaching a battery (input range 2.7-6 V) High-precision voltage reference for battery level monitoring Qw/ST (Qwiic/STEMMA QT) connector Fully-assembled (no soldering required) Schematic Mechanical drawing C++/MicroPython libraries SoftwareBecause it's a RP2040 board, Badger 2040 is firmware agnostic! You can program it with C/C++, MicroPython or CircuitPython.C++/MicroPython libraries contain some nifty software tweaks to let you get the most out of your Badger. You'll get best performance using C++, but if you're a beginner we'd recommend using our batteries included MicroPython build for ease of getting started. Download Pirate brand MicroPython (special Badger edition) Getting Started with Badger 2040 C++ examples MicroPython examples MicroPython function reference You can also use CircuitPython on your Badger 2040. CircuitPython drivers are designed to work on a bunch of different microcontrollers so you won't get the fancy RP2040-architecture specific tweaks that you'll find in the library, but you will get access to all the nice conveniences of Adafruit's ecosystem. Download CircuitPython for Badger 2040 Getting Started with CircuitPython CircuitPython examples BadgerOS ported to CircuitPython by Stephane BeBoX

    € 39,95

    Members € 35,96

  • Raspberry Pi RP2040 Microcontroller ICs (10 stuks)

    Raspberry Pi Foundation Raspberry Pi RP2040 Microcontroller (10 pcs)

    Technical Specifications Dual ARM Cortex-M0+ @ 133 MHz 264 kB on-chip SRAM in six independent banks Support for up to 16 MB of off-chip Flash memory via dedicated QSPI bus DMA controller Fully-connected AHB crossbar Interpolator and integer divider peripherals On-chip programmable LDO to generate core voltage 2x on-chip PLLs to generate USB and core clocks 30x GPIO pins, 4 of which can be used as analogue inputs Peripherals 2x UARTs 2x SPI controllers 2x I²C controllers 16x PWM channels USB 1.1 controller and PHY, with host and device support 8x PIO state machines What you'll get 10x bare RP2040 chips

    € 7,95

    Members identical

  • Pimoroni Raspberry Pi Pico Wireless Pack

    Pimoroni Pimoroni Raspberry Pi Pico Wireless Pack

    Raspberry Pi Pico Wireless Pack attaches to the back of your Pico and uses an ESP32 chip to let your Pico connect to 2.4 GHz wireless networks and transfer data. There's a microSD card slot for if you want to store lots of data locally as well as a RGB LED (for status updates) and a button (useful for things like enabling/disabling Wi-Fi).Great for quickly adapting an existing Pico project to have wireless functionality, Raspberry Pi Pico Wireless Pack would come in handy for sending sensor data into home automation systems or dashboards, for hosting a web page from a matchbox or for letting your Pico interact with online APIs.Features ESP32-WROOM-32E module for wireless connectivity (connected via SPI) (datasheet) 1x tactile button RGB LED Micro-SD card slot Pre-soldered female headers for attaching your Raspberry Pi Pico Fully assembled No soldering required (as long as your Pico has header pins attached) Compatible with Raspberry Pi Pico Dimensions: approx 53 x 25 x 11 mm (L x W x H, including headers and components) C++ and MicroPython libraries

    € 17,95

    Members € 16,16

  • Kitronik Motor Driver Board voor de Raspberry Pi Pico

    Kitronik Kitronik Motor Driver Board for Raspberry Pi Pico

    This board allows the Raspberry Pi Pico (connected via pin header) to drive two motors simultaneously with full forward, reverse & stop control, making it ideal for Pico controlled buggy projects. Alternatively, the board can be used to power a stepper motor. The board features the DRV8833 motor driver IC, which has built-in short circuit, over current and thermal protection. The board has 4 external connections to GPIO pins and a 3 V and GND supply from the Pico. This allows for additional IO options for your buggy builds that can be read or controlled by the Pico. In addition there is an on/off switch and power status LED, allowing you to see at a glance if the board is powered up and save your batteries when your project is not in use. To use the motor driver board, the Pico should have a soldered pin header and be inserted firmly into the connector. The board produces a regulated supply that is fed into the 40-way connector to power the Pico, removing the need to power the Pico directly. The motor driver board is powered via either screw terminals or a servo style connector. Kitronik has developed a micro-python module and sample code to support the use of the Motor Driver board with the Pico. This code is available in the GitHub repo. Features A compact yet feature-packed board designed to sit at the heart of your Raspberry Pi Pico robot buggy projects. The board can drive 2 motors simultaneously with full forward, reverse, and stop control. It features the DRV8833 motor driver IC, which has built-in short circuit, over current and thermal protection. Additionally, the board features an on/off switch and power status LED. Power the board via a terminal block style connector. The 3V and GND pins are also broken out, allowing external devices to be powered. Code it with MicroPython via an editor such as the Thonny editor. Dimensions: 63 mm (L) x 35 mm (W) x 11.6 mm (H) Download Datasheet

    € 15,95

    Members € 14,36

  • Adafruit Feather RP2040

    Adafruit Adafruit Feather RP2040

    1 review

    Inside the RP2040 is a 'permanent ROM' USB UF2 bootloader. What that means is when you want to program new firmware, you can hold down the BOOTSEL button while plugging it into USB (or pulling down the RUN/Reset pin to ground) and it will appear as a USB disk drive you can drag the firmware onto. Folks who have been using Adafruit products will find this very familiar – Adafruit uses the technique on all thier native-USB boards. Just note you don't double-click reset, instead hold down BOOTSEL during boot to enter the bootloader!The RP2040 is a powerful chip, which has the clock speed of our M4 (SAMD51), and two cores that are equivalent to our M0 (SAMD21). Since it is an M0 chip, it does not have a floating point unit, or DSP hardware support – so if you're doing something with heavy floating-point math, it will be done in software and thus not as fast as an M4. For many other computational tasks, you'll get close-to-M4 speeds!For peripherals, there are two I²C controllers, two SPI controllers, and two UARTs that are multiplexed across the GPIO – check the pinout for what pins can be set to which. There are 16 PWM channels, each pin has a channel it can be set to (ditto on the pinout).Technical Specifications Measures 2.0 x 0.9 x 0.28' (50.8 x 22.8 x 7 mm) without headers soldered in Light as a (large?) feather – 5 grams RP2040 32-bit Cortex M0+ dual core running at ~125 MHz @ 3.3 V logic and power 264 KB RAM 8 MB SPI FLASH chip for storing files and CircuitPython/MicroPython code storage. No EEPROM Tons of GPIO! 21 x GPIO pins with following capabilities: Four 12 bit ADCs (one more than Pico) Two I²C, Two SPI and two UART peripherals, one is labeled for the 'main' interface in standard Feather locations 16 x PWM outputs - for servos, LEDs, etc The 8 digital 'non-ADC/non-peripheral' GPIO are consecutive for maximum PIO compatibility Built in 200 mA+ lipoly charger with charging status indicator LED Pin #13 red LED for general purpose blinking RGB NeoPixel for full color indication. On-board STEMMA QT connector that lets you quickly connect any Qwiic, STEMMA QT or Grove I²C devices with no soldering! Both Reset button and Bootloader select button for quick restarts (no unplugging-replugging to relaunch code) 3.3 V Power/enable pin Optional SWD debug port can be soldered in for debug access 4 mounting holes 24 MHz crystal for perfect timing. 3.3 V regulator with 500mA peak current output USB Type C connector lets you access built-in ROM USB bootloader and serial port debugging RP2040 Chip Features Dual ARM Cortex-M0+ @ 133 MHz 264 kB on-chip SRAM in six independent banks Support for up to 16 MB of off-chip Flash memory via dedicated QSPI bus DMA controller Fully-connected AHB crossbar Interpolator and integer divider peripherals On-chip programmable LDO to generate core voltage 2 on-chip PLLs to generate USB and core clocks 30 GPIO pins, 4 of which can be used as analog inputs Peripherals 2 UARTs 2 SPI controllers 2 I²C controllers 16 PWM channels USB 1.1 controller and PHY, with host and device support 8 PIO state machines Comes fully assembled and tested, with the UF2 USB bootloader. Adafruit also tosses in some header, so you can solder it in and plug it into a solderless breadboard.

    € 16,95

    Members € 15,26

  • Waveshare L76B GNSS Module for Raspberry Pi Pico

    Waveshare Waveshare L76B GNSS Module for Raspberry Pi Pico

    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

    € 21,95

    Members € 19,76

  • SparkFun MicroMod RP2040

    SparkFun SparkFun MicroMod RP2040

    The RP2040 utilizes dual ARM Cortex-M0+ processors (up to 133MHz): 264kB 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 The RP2040 is supported with C/C++ and MicroPython cross-platform development environments, including easy access to runtime debugging. It has a UF2 boot and floating-point routines baked into the chip. The built-in USB can act as both device and host. It has two symmetric cores and high internal bandwidth, making it useful for signal processing and video. While the chip has a large internal RAM, the board includes an additional external flash chip. Features Dual Cortex M0+ processors, up to 133 MHz 264 kB of embedded SRAM in 6 banks 6 dedicated IO for QSPI flash, supporting execute in place (XIP) 30 programmable IO for extended peripheral support SWD interface Timer with 4 alarms Real-time counter (RTC) USB 1.1 Host/Device functionality Supported programming languages MicroPython C/C++

    € 12,95

    Members € 11,66

  • Kitronik Robotics Board for Raspberry Pi Pico

    Kitronik Kitronik Robotics Board for Raspberry Pi Pico

    The Robotics Board features 2 Dual H Bridge Motor Driver ICs. These are capable of driving 2 standard motors or 1 stepper motor each, with full forward, reverse, and stop control. There are also 8 servo outputs, capable of driving standard and continuous rotation servos. They can all be controlled by the Pico using the I²C protocol, via a 16 channel driver IC. The IO break out provides connections to all the unused pins on the Pico. The 27 available I/O pins allow other devices, such as sensors or ZIP LEDs, to be added to the board. Power is provided via either a terminal block or servo style connector. The supply is then controlled by an on/off power switch to the board and there is also a green LED to indicate when the board has power. The board then produces a regulated 3.3V supply which is fed into the 3 V and GND connections to power the connected Pico. This removes the need to power the Pico separately. The 3 V and GND pins are also broken out on the header, which means external devices can also be powered. To use the robotics board, the Pico should be firmly inserted into the dual row pin socket on the board. Ensure the Pico is inserted with the USB connector at the same end as the power connectors on the robotics board. This will allow access to all of the board functions and each pin is broken out. Features A compact yet feature-packed board designed to sit at the heart of your Raspberry Pi Pico robotics projects. The board can drive 4 motors (or 2 stepper motors) and 8 servos, with full forward, reverse, and stop control. It also features 27 other I/O expansion points and Power and Ground connections. The I²C communication lines are also broken out allowing other I²C compatible devices to be controlled. This board also features an on/off switch and power status LED. Power the board via either a terminal block or servo style connector. The 3V and GND pins are also broken out on the Link header, allowing external devices to be powered. Code it with MicroPython or via an editor such as the Thonny editor. 1 x Kitronik Compact Robotics Board for Raspberry Pi Pico Dimensions: 68 x 56 x 10 mm Requires Raspberry Pi Pico board

    € 24,95

    Members € 22,46

  • Raspberry Pi Pico 6 DOF Robotarm van MakerFabs

    Makerfabs Makerfabs 6 DOF Robot Arm with Raspberry Pi Pico

    Raspberry Pi Pico is a great solution for servo control. With the hardware PIO, the Pico can control the servos by hardware, without usage of times/ interrupts, and limit the usage of the MCU. Driving the six servos on this robotic arm takes very little MCU capacity, so the MCU can deal with other tasks easily. This 6 DOF robotic arm is a handy tool for teaching and learning robotics and Pico usage. There are five MG996s (four are needed in the assembly and one for backup) and three 25-kg servos (two needed in the assembly and one for backup). Note that for the servos the angle ranges from 0° to 180°. All the servos need to be preset to 90° (with logic HIGH 1.5 ms duty) before the assembly to avoid servo damage during movement. This product includes all the necessary items needed to create a robotic arm based on Pico and Micropython. Included 1x Raspberry Pi Pico 1x Raspberry Pi Pico Servo Driver 1x Set '6 DOF Robot Arm' 1x 5 V/5 A Power Supply 2x Backup Servo Downloads GitHub Wiki Assembly Guide Assembly Video

    € 139,95

    Members € 125,96

  • "Waveshare 2.66\" E-Paper E-Ink Display Module for Raspberry Pi Pico (296x152)"

    Waveshare Waveshare 2.66" E-Paper E-Ink Display Module for Raspberry Pi Pico (296x152)

    Features No backlight, keeps displaying last content for a long time even when power down Ultra low power consumption, basically power is only required for refreshing SPI interface, requires minimal IO pins Comes with development resources and manual (Raspberry Pi Pico C/C++ and MicroPython examples) Specifications Operating voltage 3.3 V Display color red, black, white Interface 3-wire SPI, 4-wire SPI Grey scale 2 Outline dimensions 74.00 × 37.5 0mm Full refresh time 15s Display size 60.088 × 30.704 mm Refresh power 42.4 mW (typ.) Dot pitch 0.203 × 0.202 mm Standby current <0.01 uA (almost none) Resolution 296×152 pixels Viewing angle >170° Downloads Wiki

    € 27,95

    Members € 25,16

  • RA-08H LoRaWAN Development Board with integrated RP2040 and 1.8" LCD (EU868)

    RA-08H LoRaWAN Development Board with integrated RP2040 and 1.8" LCD (EU868)

    Lora technology and Lora devices have been widely used in the field of the Internet of Things (IoT), and more and more people are joining and learning Lora development, making it an indispensable part of the IoT world. To help beginners learn and develop Lora technology better, a Lora development board has been designed specifically for beginners, which uses RP2040 as the main control and is equipped with the RA-08H module that supports Lora and LoRaWAN protocols to help users realize development. RP2040 is a dual-core, high-performance, and low-power ARM Cortex-M0+ architecture chip, suitable for IoT, robots, control, embedded systems, and other application fields. RA-08H is made from the Semtech-authorized ASR6601 RF chip, which supports the 868 MHz frequency band, has a 32 MHz MCU built-in, which has more powerful functions than ordinary RF modules, and also supports AT command control. This board retains various functional interfaces for development, such as the Crowtail interface, the common PIN to PIN header that leads out GPIO ports, and provides 3.3 V and 5 V outputs, suitable for the development and use of commonly used sensors and electronic modules on the market. In addition, the board also reserves RS485 interface, SPI, I²C, and UART interfaces, which can be compatible with more sensors/modules. In addition to the basic development interfaces, the board also integrates some commonly used functions, such as a buzzer, a custom button, red-yellow-green three-color indicator lights, and a 1.8-inch SPI interface LCD screen with a resolution of 128x160. Features Uses RP2040 as the main controller, with two 32-bit ARM Cortex M0+ processor cores (dual-core), and provides more powerful performance Integrates the RA-08H module with 32 MHz MCU, supports the 868 MHz frequency band and AT command control Abundant external interface resources, compatible with Crowtail series modules and other common interface modules on the market Integrates commonly used functions like buzzer, LED light, LCD display and custom button, making it more concise and convenient when creating projects Onboard 1.8-inch 128x160 SPI-TFT-LCD, ST7735S driver chip Compatible with Arduino/Micropython, easy to carry out different projects Specifications Main Chip Raspberry Pi RP2040, built-in 264 KB SRAM, onboard 4 MB Flash Processor Dual Core Arm Cortex-M0+ @ 133 MHz RA-08H Frequency band 803-930 MHz RA-08H Interface External antenna, SMA interface or IPEX first-generation interface LCD Display Onboard 1.8-inch 128x160SPI-TFT-LCD LCD Resolution 128x160 LCD Driver ST7735S (4-wire SPI) Development environment Arduino/MicroPython Interfaces 1x passive buzzer 4x user-defined buttons 6x programmable LEDs 1x RS485 communication interface 8x 5 V Crowtail interfaces (2x analog interfaces, 2x digital interfaces, 2x UART, 2x I²C) 12x 5 V universal pin header IO 14x 3.3 V universal pin header IO 1x 3.3 V/5 V switchable SPI 1x 3.3 V/5 V switchable UART 3x 3.3 V/5 V switchable I²C Working input voltage USB 5 V/1 A Operating temperature -10°C ~ 65°C Dimensions 102 x 76.5 mm (L x W) Included 1x Lora RA-08H Development Board 1x Lora Spring Antenna (868 MHz) 1x Lora Rubber Antenna (868 Mhz) Downloads Wiki

    € 32,95

    Members € 29,66

  • SparkFun Thing Plus (RP2040)

    SparkFun SparkFun Thing Plus (RP2040)

    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 The RP2040 is supported with C/C++ and MicroPython cross-platform development environments, including easy access to runtime debugging. It has a UF2 boot and floating-point routines baked into the chip. While the chip has a large internal RAM, the board includes an additional 16 MB of external QSPI flash memory to store program code. Features Raspberry Pi Foundation's RP2040 microcontroller 16MB QSPI Flash Memory JTAG PTH Pins Thing Plus (or Feather) Form-Factor: 18x Multifunctional GPIO Pins Four available 12-bit ADC channels with an internal temperature sensor (500 kSa/s) Up to eight 2-channel PWM Up to two UARTs Up to two I²C buses Up to two SPI buses USB-C Connector: USB 1.1 Host/Device functionality 2-pin JST Connector for a LiPo Battery (not included): 500 mA charging circuit Qwiic Connector Buttons: Boot Reset LEDs: PWR - Red 3.3 V power indicator CHG - Yellow battery charging indicator 25 - Blue status/test LED (GPIO 25) WS2812 - Addressable RGB LED (GPIO 08) Four Mounting Holes: 4-40 screw compatible Dimensions: 2.3' x 0.9' RP2040 Features Dual Cortex M0+ processors, up to 133 MHz 264 kB of embedded SRAM in 6 banks 6 dedicated IO for QSPI flash, supporting execute in place (XIP) 30 programmable IO for extended peripheral support SWD interface Timer with 4 alarms Real-time counter (RTC) USB 1.1 Host/Device functionality Supported programming languages MicroPython C/C++

    € 19,95

    Members € 17,96

  • Pimoroni Raspberry Pi Pico Audio Pack (Line-Out and Headphone Amp)

    Pimoroni Pimoroni Raspberry Pi Pico Audio Pack (Line-Out and Headphone Amp)

    Pico Audio Pack uses its PCM5100A DAC to output up to 32-bit, 384 KHz stereo audio along its 3.5 mm line out connector, ready for plugging into an external amp or powered speakers. If you're after something a little louder for your ears, it can also pump out amplified stereo audio from its 3.5 mm headphone jack.You could generate interesting noises with code on your Pico to output into a lo-fi synth, or hook your Pico up to another device and use it as a custom USB sound card.Features PCM5100A stereo DAC (datasheet) PAM8908JER stereo headphone amp (datasheet) 3.5 mm stereo headphone jack connector 3.5 mm stereo line out jack connector Switch to adjust headphone amp gain (low / high) Pre-soldered female headers for attaching to Pico Compatible with Raspberry Pi Pico Fully assembled No soldering required (as long as your Pico has header pins attached). Dimensions: approx 53 x 29 x 11 mm (L x W x H, including headers and audio jacks) Programmable with C/C++ The labels on the underside of Pico Audio will show you which way round to plug it into your Pico ‐ just match up the USB port with the markings on the board.

    € 19,95

    Members € 17,96

  • Waveshare 2.23` OLED Display Module for Raspberry Pi Pico (128x32)

    Waveshare Waveshare 2.23" OLED Display Module for Raspberry Pi Pico (128x32)

    Features Adopts both 4-wire SPI and I²C interface, better compatibility, fast data rate Standard Raspberry Pi Pico header, supports Raspberry Pi Pico series boards Comes with development resources and manual (Raspberry Pi Pico C/C++ and MicroPython examples) Specifications Logical voltage 3.3 V Viewing angle >160° Operating voltage 3.3 V/5 V Resolution 128×32 pixels Communication interface 4-wire SPI, I²C Display size 55.02 × 13.10 mm Display panel OLED Pixel size 0.41 × 0.39 mm Driver SSD1305 Dimensions 63.00 × 26.00 mm

    € 19,95

    Members € 17,96

  • Waveshare 10-DOF IMU Sensor Module for Raspberry Pi Pico

    Waveshare Waveshare 10-DOF IMU Sensor Module for Raspberry Pi Pico

    The Pico-10DOF-IMU is an IMU sensor expansion module specialized for Raspberry Pi Pico. It incorporates sensors including gyroscope, accelerometer, magnetometer, baroceptor, and uses I²C bus for communication. Combined with the Raspberry Pi Pico, it can be used to collect environment sensing data like temperature and barometric pressure, or to easily DIY a robot that detects motion gesture and orientation. Features Standard Raspberry Pi Pico header, supports Raspberry Pi Pico series Onboard ICM20948 (3-axis gyroscope, 3-axis accelerometer, and 3-axis magnetometer) for detecting motion gesture, orientation, and magnetic field Onboard LPS22HB barometric pressure sensor, for sensing the atmospheric pressure of the environment Comes with development resources and manual (Raspberry Pi Pico C/C++ and MicroPython examples) Specifications Operating voltage 5 V Accelerometer Resolution: 16-bitMeasuring range (configurable): ±2, ±4, ±8, ±16gOperating current: 68.9uA Gyroscope Resolution: 16-bitMeasuring range (configurable): ±250, ±500, ±1000, ±2000°/secOperating current: 1.23mA Magnetometer Resolution: 16-bitMeasuring range: ±4900µTOperating current: 90uA Baroceptor Measuring range: 260 ~ 1260hPaMeasuring accuracy (ordinary temperature): ±0.025hPaMeasuring speed: 1Hz - 75Hz

    € 19,95

    Members € 17,96

  • Pimoroni Raspberry Pi Pico Proto

    Pimoroni Pimoroni Raspberry Pi Pico Proto

    With a 6x20 grid of 2.54 mm spaced holes for easy soldering and labelled Pico pins so you know what's what, Pico Proto is perfect for when you're happy with your breadboard project and want to give it a secure, smart and compact long-term home. Pico Proto doesn't come with any headers attached, so you will need to either solder it directly to your Pico's male header pins (for a permanent, but super slim sandwich) or solder it to some female header. Features 40 2.54 mm spaced holes for attaching to your Pico. 120 2.54 mm spaced holes (6x20 grid) for attaching other things Compatible with Raspberry Pi Pico. Dimensions: approx 51 x 25 x 1 mm (L x W x H)

    € 6,95

    Members € 6,26

  • LILYGO TTGO T-Display RP2040 Development Board

    LILYGO LILYGO T-Display RP2040 Development Board

    LILYGO T-Display RP2040 Raspberry Pi Module 1.14-inch LCD Development Board This board is based on a Raspberry Pi Pico RP2040 with Dual Cortex-M0+ and 4 MB Flash memory. It is equipped with a 1.14-inch full color IPS display. The ST7789V display has a resolution of 135 x 240 pixels and is connected via the SPI interface. Specifications MCU RP2040 Dual ARM Cortex M0+ Flash 4 MB Bus interfaces 2x UART, 2x SPI, 2x I²C, 6x PWM Programming language C/C++, MicroPython Support machine learning library TensorFlow Lite Onboard functions Buttons: IO06+IO07, battery power detection TFT Display 1.14-inch ST7789V IPS LCD Resolution 135 x 240, full color Interface 4-Wire SPI interface Operating temperature -20°C ~ +70°C Working power supply 3.3 V Connector JST-GH 1.25 mm 2-pin Included LILYGO T-Display RP2040 Unsoldered headers JST cable Downloads Pinout GitHub

    € 19,95

    Members € 17,96

  • Kitronik Discovery Kit for Raspberry Pi Pico

    Kitronik Kitronik Discovery Kit for Raspberry Pi Pico

    The kit ships with a comprehensive guide booklet. The booklet covers the basic setup and then how to complete each of the 7 experiments. Each experiment is complete with detailed circuit diagrams, explanations, and a complete code run-through. This means that you can get started without having to understand too much Python.The Raspberry Pi Pico board, a new low cost, high-performance microcontroller. The board features a powerful new, Raspberry Pi designed ARM-based dual-core chip-- the RP2040. The pico also features 64KB of internal RAM and support for up to 16MB of off-chip Flash. A wide range of flexible I/O options includes I2C, SPI, and Programmable I/O (PIO). These support endless possible applications for this small and affordable board.The kit is programmed using MicroPython. This is a full Python 3 implementation created specifically for small embedded microcontrollers, such as the Pico and the popular BBC micro:bit. You will use the Thonny editor to create your code, which can then be saved directly to the Pico from the editor via USB. Thonny is a Python Editor/IDE designed to allow beginners to get up and running with Python coding with as little fuss as possible.A power pack is not required as power will be supplied via the USB connection to the computer that the Thonny editor is running on.Features This kit offers a great introduction to microcontrollers, Python coding, and physical computing. Make the 7 experiments in the step-by-step tutorial book and learn as you go. All parts are included to conduct the 7 experiments. The kit is supplied with a detailed booklet that covers setup and then how to complete the 7 experiments. The experiments explore; simple coding, Interrupts, Threads, Digital Inputs, and Analog and Digital Outputs. Once you have completed all of the included experiments, you have the perfect prototyping system for further learning/prototyping with the Raspberry Pi Pico board. Included is a large format breadboard for ease of prototyping. The kit is supplied in re-usable packaging suitable for long term storage of the kit. Contents 1x Large Prototype Breadboard 2x Red 5mm LED 2x Yellow 5mm LED 2x Green 5mm LED 10x 330Ω Resistor 1x Piezo Element Buzzer 20x Male to Male Jumper Wires 2x Push Switches A booklet guide containing basic setup information and the following 7 experiments Exp. 1 - Show Me The Light Exp. 2 - Control an Input Exp. 3 - Interrupt Me Exp. 4 - Making a Noise Exp. 5 - So Many Interruptions Exp. 6 - Rub Head and Pat Tummy - Threads Exp. 7 - Building a System from the Blocks we have Learnt The kit is supplied in re-usable packaging suitable for long term storage of the kit. Requires USB Lead Raspberry Pi Pico Pin Headers

    € 17,95

    Members € 16,16

  •  -18% DiP-Pi Pico PIoT for Raspberry Pi Pico

    DiP-Pi Pico PIoT for Raspberry Pi Pico

    The DiP-Pi PIoT is an Advanced Powered, WiFi connectivity System with sensors embedded interfaces that cover most of possible needs for IoT application based on Raspberry Pi Pico. It can supply the system with up to 1.5 A @ 4.8 V delivered from 6-18 VDC on various powering schemes like Cars, Industrial plant etc., additionally to original micro-USB of the Raspberry Pi Pico. It supports LiPo or Li-Ion Battery with Automatic Charger as also automatic switching from cable powering to battery powering or reverse (UPS functionality) when cable powering lost. Extended Powering Source (EPR) is protected with PPTC Resettable fuse, Reverse Polarity, as also ESD.The DiP-Pi PIoT contains Raspberry Pi Pico embedded RESET button as also ON/OFF Slide Switch that is acting on all powering sources (USB, EPR or Battery). User can monitor (via Raspberry Pi Pico A/D pins) battery level and EPR Level with PICO’s A/D converters. Both A/D inputs are bridged with 0402 resistors (0 OHM) therefore if for any reason user needs to use those Pico pins for their own application can be easy removed. The charger is automatically charging connected battery (if used) but in addition user can switch charger ON/OFF if their application needs it.DiP-Pi PIoT can be used for cable powered IoT systems, but also for pure Battery Powered System with ON/OFF. Each powering source status is indicated by separate informative LEDs (VBUS, VSYS, VEPR, CHGR, V3V3).User can use any capacity of LiPo or Li-Ion type; however, must take care to use PCB protected batteries with max discharge current allowed of 2 A. The embedded battery charger is set to charge battery with 240 mA current. This current is set by resistor so if user need more/less can himself to change it. The DiP-Pi PIoT is also 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 PIoT 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 PIoT ideal for IoT applications like data logger, plants monitoring, refrigerators monitoring etc.DiP-Pi PIoT is supported with plenty of ready to use examples written in Micro Python or C/C++.SpecificationsGeneral Dimensions 21 x 51 mm Raspberry Pi Pico pinout compatible Independent Informative LEDs (VBUS, VSYS, VEPR, CHGR, V3V3) Raspberry Pi Pico RESET Button ON/OFF Slide Switch acting on all powering sources (USB, EPR, Battery) External Powering 6-18 VDC (Cars, Industrial Applications etc.) External Power (6-18 VDC) Level Monitoring Battery Level Monitoring Inverse Polarity Protection PPTC Fuse Protection ESD Protection Automatic Battery Charger (for PCB protected LiPo, Li-Ion – 2 A Max) Automatic/User Control Automatic Switch from Cable Powering to Battery Powering and reverse (UPS Functionality) Various powering schemes can be used at the same time with USB Powering, External Powering and Battery Powering 1.5 A @ 4.8 V Buck Converter on EPR 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) External Powering 6-18 V (via dedicated Socket – 3.4/1.3 mm) External Battery Supported Battery Types LiPo with protection PCB max current 2A Li-Ion with protection PCB max current 2A 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 CompatibilityDiP-Pi Plexi-Cut CaseSystem Monitoring Battery Level via Raspberry Pi Pico ADC0 (GP26) EPR Level via Raspberry Pi Pico ADC1 (GP27) Informative LEDs VB (VUSB) VS (VSYS) VE (VEPR) CH (VCHR) V3 (V3V3) System Protection Direct Raspberry Pi Pico Hardware Reset Button ESD Protection on EPR Reverse Polarity Protection on EPR 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

    € 21,95€ 17,95

    Members identical

  • SunFounder Kepler Kit (Ultimate Starter Kit for Raspberry Pi Pico W)

    SunFounder SunFounder Kepler Kit (Ultimate Starter Kit for Raspberry Pi Pico W)

    Pre-order

    Your gateway to IoT and microcontroller programming With 450+ components and 117 online projects, this comprehensive kit ignites your creativity. The tutorials by Paul McWhorter make learning enjoyable for beginners and advanced users. This kit supports MicroPython, C/C++, and Piper Make, offering diverse programming options. Explore sensors, actuators, LEDs, and LCDs for endless project possibilities. From home automation to robotics, this kit empowers your tech journey. Features IoT Starter Kit for Beginners: This kit offers a rich IoT learning experience for beginners. With 450+ components, 117 projects, and expert-led video lessons, this kit makes learning microcontroller programming and IoT engaging and accessible. Expert-Guided Video Lessons: The kit includes 27 video tutorials by the renowned educator, Paul McWhorter. His engaging style simplifies complex concepts, ensuring an effective learning experience in microcontroller programming. Wide Range of Hardware: The kit includes a diverse array of components like sensors, actuators, LEDs, LCDs, and more, enabling you to experiment and create a variety of projects with the Raspberry Pi Pico W. Supports Multiple Languages: The kit offers versatility with support for three programming languages - MicroPython, C/C++, and Piper Make, providing a diverse programming learning experience. Dedicated Support: Benefit from our ongoing assistance, including a community forum and timely technical help for a seamless learning experience. Included Raspberry Pi Pico W Breadboard Jumper Wires Resistor Transistor Capacitor Diode Li-po Charger Module 74HC595 TA6586 – Motor Driver Chip LED RGB LED LED Bar Graph 7-segment Display 4-Digit 7-Segment Display LED Dot Matrix I²C LCD1602 WS2812 RGB 8 LEDs Strip Buzzer DC Motor Servo DC Water Pump Relay Button Micro Switch Slide Switch Potentiometer Infrared Receiver Joystick Module 4x4 Keypad MPR121 Module MFRC522 Module Photoresistor Thermistor Tilt Switch Reed Switch PIR Motion Sensor Module Water Level Sensor Module Ultrasonic Module DHT11 Humiture Sensor MPU6050 Module Documentation Online Tutorials in 3 languages (EN, DE and JP)

    Pre-order

    € 69,95

    Members € 62,96

  • SB Components Raspberry Pi Pico LoRa Expansion (EU868)

    SB Components SB Components Raspberry Pi Pico LoRa Expansion (EU868)

    Pico LoRa Expansion is a low-power consumption data transmission board, comes with an onboard CH340 USB to UART converter, Voltage Level Translator (74HC125V), E22-900T22S SMA antenna connector that covers 868 MHz frequency band, Onboard 1.14' LCD, IPEX antenna connector, LoRa Spread Spectrum Modulation technology with auto multi-level repeating. Pico LoRa Expansion is developed to enable data transmission up to 5 km through serial port. With the new generation LoRa spread spectrum modulation technology, a user can easily transmit the data in low-power consumption. E22-900T22S Pico LoRa Expansion discrete itself from the normal LoRa with its longer communication distance, lower power consumption with better safety and ani-inference system. USB-UART communication of Pico LoRa enables the direct communication with a desktop/laptop without using Raspberry Pi Pico. LoRa is the abbreviation of Long-range that runs on a technique called spread-spectrum technique, procured from chirp spread spectrum (CSS) technology, that encodes information by using the wideband linear frequency modulated chirp pulses. Features Onboard 1.14' LCD Voltage Level Translator (74HC125V) Communication range up to 5 km Supports auto repeating to transmit longer Low Power Consumption Highly Secured For Evaluating signal quality with the RSSI or 'Received Signal Strength Indicator' Wireless parameter configuration support Fixed-point transmission support SMA and IPEX Antenna Connector USB to LoRa and Pico to LoRa Communication via UART Comes with development resources and manual LED Indicators: RXD/TXD: UART RX/TX indicator AUX: auxiliary indicator PWR: power indicator Serial/USB selection jumpers: A: USB to UART to control the LoRa module through USB B: control the LoRa module through Raspberry Pi Pico Data/Command mode selection jumpers: Short M0, short M1: Transmission mode Short M0, open M1: Configuration mode Open M0, short M1: WOR mode Open M0, open M1: Deep sleep mode Included 1x Raspberry Pi Pico LoRa Expansion (868 MHz) 1x Antenna Note: Raspberry Pi Pico is not included. Downloads GitHub Wiki

    € 64,95

    Members € 58,46

  • Pimoroni Pico LiPo

    Pimoroni Pimoroni Pico LiPo

    Pimoroni Pico LiPo is powered and programmable via USB-C and comes with 16 MB of QSPI (XiP) flash. With the Qwiic/STEMMA QT connector you can hook up a whole host of different sensors and breakouts, and a debug connector for if you want to do your programming using a SWD debugger. There is an on/off button and a BOOTSEL button, which can also be used as a user switch.Pimoroni Pico LiPo also has onboard LiPo/LiIon battery management – the inbuilt charging circuitry means charging your battery is as easy as plugging your Pimoroni Pico Lipo in via USB. Two indicator LEDs connected to the battery circuit keep you informed of on/off state and charging status and it's compatible with any of our LiPo, LiIon and high capacity LiPo batteries.Programmable with C++, MicroPython or CircuitPython, Pimoroni Pico LiPo is the perfect powerhouse for your portable projects.Features Powered by RP2040 Dual ARM Cortex M0+ running at up to 133 Mhz 264 kB of SRAM 16 MB of QSPI flash supporting XiP MCP73831 charger with 215 mA charging current (datasheet) XB6096I2S battery protector (datasheet) USB-C connector for power, programming, and data transfer 4 pin Qw-ST (Qwiic / STEMMA QT) connector 3 pin debug connector (JST-SH) 2-pole JST PH battery connector, with polarity marked on the board Switch for basic input (doubles up as DFU select on boot) Power button Power, charging and user LED indicators On-board 3V3 regulator (max regulator current output 600mA) Input voltage range 3 - 5.5 V Compatible with Raspberry Pi Pico add-ons Measurements: approx 53 x 21 x 8 mm (L x W x H, including connectors) Downloads CircuitPython Getting started with CircuitPython guide

    € 19,95

    Members € 17,96

  • iLabs Challenger RP2040 LoRa (EU868)

    iLabs iLabs Challenger RP2040 LoRa (EU868)

    The Challenger RP2040 LoRa is an Arduino/CircuitPython compatible Adafruit Feather format microcontroller board based on the Raspberry Pi Pico (RP2040) chip.The transceiver features a LoRa long range modem that provides ultra-long range spread spectrum communication and high interference immunity whilst minimizing current consumption.LoRaThe integrated module LoRa module (RFM95W) can achieve a sensitivity of over -148 dBm utilizing a low cost crystal and bill of materials. The high sensitivity combined with the integrated +20 dBm power amplifier yields industry leading link budget making it optimal for any application requiring range or robustness. LoRa also provides significant advantages in both blocking and selectivity over conventional modulation techniques, solving the traditional design compromise between range, interference immunity and energy consumption.The RFM95W is connected to the RP2040 via SPI channel 1 and a few GPIO’s that is required for signaling. A U.FL connector is used to attach your LoRa antenna to the board. 168 dB maximum link budget +20 dBm – 100 mW constant RF output vs. V supply +14 dBm high efficiency PA Programmable bit rate up to 300 kbps High sensitivity: down to -148 dBm Bullet-proof front end: IIP3 = -12.5 dBm Excellent blocking immunity Low RX current of 10.3 mA, 200 nA register retention Fully integrated synthesizer with a resolution of 61 Hz FSK, GFSK, MSK, GMSK, LoRaTM and OOK modulation Built-in bit synchronizer for clock recovery Preamble detection 127 dB Dynamic Range RSSI Automatic RF Sense and CAD with ultra-fast AFC Packet engine up to 256 bytes with CRC Specifications Microcontroller RP2040 from Raspberry Pi (133 MHz dual-core Cortex-M0) SPI Two SPI channels configured (second SPI connected to RFM95W) I²C One I²C channel configured UART One UART channel configured Analog inputs 4 analog input channels Radio module RFM95W from Hope RF 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 Downloads Datasheet Design files

    € 24,95

    Members € 22,46

  • Pimoroni Raspberry Pi Pico DV Demo Base

    Pimoroni Pimoroni Raspberry Pi Pico DV Demo Base

    This board is an all-digital conversion of Raspberry Pi's VGA reference design, great for if you want to start hacking on video and/or audio output from a Raspberry Pi Pico and piping it straight into a modern monitor.Features HDMI connector PCM5100A DAC for line out audio over I²S (datasheet) SD card slot Reset button Socket headers to install your Raspberry Pi Pico Three user-controllable switches Rubber feet Compatible with Raspberry Pi Pico No soldering required (as long as your Pico has header pins attached) Programmable with C/C++ Note: Raspberry Pi Pico is not included. Your Pico will need to have pin headers soldered to it (with the pins pointing downwards) to attach to our add-on boards.Downloads Schematic GitHub

    € 24,95

    Members € 22,46

Features of the Raspberry Pi Pico

Raspberry Pis are small, versatile mini computers that you can use for all kinds of different projects. Whether it's simple tasks like streaming media or more advanced applications like building a Raspberry Pi-powered robot, the possibilities are endless! One of the latest additions to the Raspberry Pi family is the Pico RP2040

The Raspberry Pi Pico is easy to program with popular high-level languages such as MicroPython and or C/C++. The Pico is small in size and no less than twice as fast as its predecessor, the Raspberry Pi Zero. In addition, it is also a formidable Arduino competitor.

Raspberry Pi Pico is a cost-effective and versatile controller that is perfect for a wide variety of projects. The Pico RP2040 has two powerful Cortex M0+ cores that can be clocked up to 133 MHz and has 264 KB SRAM and 2 MB Flash memory.

Our Raspberry Pico products: From boards to modules & books!

Mastering the Raspberry Pi Pico can be done using 50 projects with Micropython in our Raspberry Pi Pico Essentials book. This book gives you a practical introduction to the world of Raspberry Pi Pico in combination with this programming language.

Or choose a 3.5" inch Waveshare touch display module with a smoother touch effect than AD-driven solutions. This touchscreen comes with development resources and manual (examples Raspberry Pi Pico C/C++ and MicroPython)

The official Raspberry Pi Pico products are available thanks to an official partnership with Raspberry, directly from the manufacturer's factory. This means that when Raspberry launches a new product, it can be delivered on the launch day.

Other applications for your Raspberry Pi

In the offer on Elektor Store you will find various other applications for the Raspberry Pi Pico with which you can give your projects a new dimension. Some of the most popular other applications come from Waveshare and Pimoroni. Both are suppliers and manufacturers of educational, industrial and hobbyist electronics.

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