JST SH jumper cable, 6 pins, 30cm

The GP-735 is a slim, ultra high performance and easy to use GPS smart antenna receiver. With -162dBm tracking sensitivity and only 29 seconds cold start time, the GP735 is a tiny but powerful piece of technology. The slim design makes it ideal for applications where you don't have a lot of space available. It's really quite small. This 56-channel GPS module, based on the 7th generation uBlox chipset, has an operating voltage of 3.3~5.5V, an antenna on the board and is connected to your system via TTL serial. The update rate of 1Hz is fast enough for most applications (and can be increased to 10Hz if required). So whether you're tracking a pet or building an autonomous car, the GP-735 has you covered! Note: We carry the "T" option of this module, which is TTL-UART and not USB. This receiver works with 6-pin JST cables and connectors with 1 mm spacing, which you can find in the Recommended Products section below! Features: 35 x 8 x 6.5 mm Documents: Data sheet GPS evaluation software

This is a more universal GPS breakout board that uses a vertical SMD connector (EM406) that is perfect for the GP-735T GPS receiver that we sell. It has 2 mounting holes and through hole connections for wires or headers. This is a lower profile breakout and should prove much easier to use while saving space in any project you need it for! Documents: Schematic Eagle files GitHub (design files)

The GP-735 is a slim, ultra high performance and easy to use GPS smart antenna receiver. With -162dBm tracking sensitivity and only 29 seconds cold start time, the GP735 is a tiny but powerful piece of technology. The slim design makes it ideal for applications where you don't have a lot of space available. It's really quite small. This 56-channel GPS module, based on the 7th generation uBlox chipset, has an operating voltage of 3.3~5.5V, an antenna on the board and is connected to your system via TTL serial. The update rate of 1Hz is fast enough for most applications (and can be increased to 10Hz if required). So whether you're tracking a pet or building an autonomous car, the GP-735 has you covered! Note: We carry the "T" option of this module, which is TTL-UART and not USB. This receiver works with 6-pin JST cables and connectors with 1 mm spacing, which you can find in the Recommended Products section below! Features: 35 x 8 x 6.5 mm Documents: Data sheet GPS evaluation software

Das Raspberry Pi Touch Display 2 ist ein 7-Zoll-Touchscreen-Display, das speziell für den Raspberry Pi entwickelt wurde. Es eignet sich hervorragend für interaktive Projekte wie Tablets, Unterhaltungssysteme und Informations-Dashboards. Das Raspberry Pi OS stellt Treiber für den Touchscreen bereit und unterstützt die gleichzeitige Verwendung von fünf Fingern sowie eine Bildschirmtastatur. Dadurch ist die vollständige Funktionalität gegeben, ohne dass eine zusätzliche Tastatur oder Maus erforderlich ist. Das Display verfügt über eine Auflösung von 720 x 1280 Pixeln. Der Anschluss an den Raspberry Pi erfolgt über nur zwei Verbindungen: Stromversorgung über den GPIO-Port und ein Flachbandkabel, das mit dem DSI-Port aller Raspberry Pi-Computer (außer der Raspberry Pi Zero Reihe) verbunden wird. Eigenschaften 7-Zoll-Touchscreen-Display Interaktive Nutzung für verschiedene Projekte Unterstützung für fünf Finger gleichzeitig Einfacher Anschluss über GPIO und DSI-Port Hochwertige TFT-LCD-Technologie Technische Daten Displaygröße (diagonal): 7 Zoll Displayformat: 720 (RGB) × 1280 Pixel Aktive Fläche: 88 mm × 155 mm LCD-Typ: TFT, normalerweise weiß, transmissiv Touch-Panel: True Multi-Touch kapazitiver Touch-Panel Oberflächenbehandlung: Anti-Glanz Farbausführung: RGB-Streifen Beleuchtungstyp: LED Abmessungen: 189,32 mm × 120,24 mm Produktlebensdauer: Mindestens bis Januar 2030 in Produktion Lieferumfang Raspberry Pi Touch Display 2 Flachbandkabel für DSI-Anschluss (Raspberry Pi 1-4) Flachbandkabel für DSI-Anschluss (Raspberry Pi 5) Kabel zur Stromversorgung Schrauben Downloads Product Brief Wichtiger Hinweis: Gehäuse und Rahmen die mit der vorherigen Version des Raspberry Pi Displays kompatibel waren, passen aufgrund der geänderten mechanischen Abmessungen dieser Version nicht!

The Raspberry Pi M.2 HAT+ enables the connection of M.2 peripherals such as NVMe drives and AI accelerators to the PCIe 2.0 interface of the Raspberry Pi 5 and supports fast data transfers (up to 500 MB/s) to and from NVMe drives and other PCIe accessories.The single-lane PCI Express 2.0 interface of the Raspberry Pi 5 is accessible via a 16-pin FPC connector with 0.5 mm pitch; the M.2 HAT+ M Key is a mechanical adapter board that converts between this connector and a sub-standard of the M.2 standard. It supports devices with the M.2 M Key Edge Connector in the 2230 and 2242 form factors and can deliver up to 3A to the connected M.2 devices.The Raspberry Pi M.2 HAT+ complies with the Raspberry Pi HAT+ specification and is automatically recognised by the latest Raspberry Pi software/firmware. It comes with a 16mm stacking header and threaded studs so it can be mounted on a Raspberry Pi 5 together with the Raspberry Pi Active Cooler.SpecificationsSupports single-lane PCIe 2.0 interface (500 MB/s maximum transfer rate)Supports devices with M.2 M Key Edge ConnectorSupports devices with 2230 or 2242 form factorsCan deliver up to 3A to connected M.2 devicesIncludes power and activity LEDsComplies with the Raspberry Pi HAT+ specificationSupplied with ribbon cable, 16mm stacking header, threaded studs and screws, and a knurled, double-flanged screw to secure and support the M.2 peripheral deviceDocumentsRaspberry Pi M.2 HAT+ Product BriefRaspberry Pi M.2 HAT+ Assembly InstructionsRaspberry Pi M.2 HAT+ Wiring Diagrams

This power supply module regulates a voltage of 9V-36V to a stable 5V/5A. This voltage can be used as a USB charger or to supply power to e.g. Raspberry Pi, Arduino.... for example.Technical features regulates the voltage from 9-36V to a stable 5V maximum output: 5A Input via screw terminal or DC hollow plug socket (5.5x2.1mm / inside +, outside -) Output via USB A socket or screw terminal Dimensions: 64 x 28 x 15 mm

Diese Wireless Variante Raspberry Pi Pico 2 W bietet 2,4 GHz 802.11n Wireless LAN und Bluetooth 5.2, mit integrierter Antenne. Raspberry Pi Pico 2 ist ein Mikrocontroller-Board, basierend auf dem RP2350: einem leistungsstarken und sicheren Mikrocontroller. Mit höherer Kern-Taktfrequenz, verdoppeltem On-Chip-SRAM, doppeltem On-Board-Flash-Speicher, leistungsfähigeren Arm-Kernen, optionalen RISC-V-Kernen, neuen Sicherheitsfunktionen und verbesserten Schnittstellenfähigkeiten bietet der Raspberry Pi Pico 2 eine erhebliche Leistungs- und Funktionssteigerung, während die Hardware- und Softwarekompatibilität mit früheren Mitgliedern der Raspberry Pi Pico-Serie erhalten bleibt.  RP2350 bietet eine umfassende Sicherheitsarchitektur, basierend auf Arm TrustZone für Cortex-M, und umfasst signiertes Booten, 8 KB Antifuse-OTP zur Schlüsselspeicherung, SHA-256-Beschleunigung, einen Hardware-TRNG und schnelle Störungsdetektoren. Diese Funktionen, einschließlich des sicheren Boot-ROMs, sind ausführlich dokumentiert und allen Benutzern uneingeschränkt zugänglich. Dieser transparente Ansatz, der im Gegensatz zur „Sicherheit durch Verschleierung“ steht, die von herkömmlichen Anbietern angeboten wird, ermöglicht professionellen Nutzern, RP2350 und Raspberry Pi Pico 2 mit Vertrauen in ihre Produkte zu integrieren. Die einzigartige Dual-Core, Dual-Architektur-Fähigkeit des RP2350 ermöglicht die Wahl zwischen einem Paar industrieüblicher Arm Cortex-M33-Kerne und einem Paar Open-Hardware Hazard3 RISC-V-Kerne. Programmierbar in C / C++ und Python sowie mit detaillierter Dokumentation ausgestattet, ist der Raspberry Pi Pico 2 das ideale Mikrocontroller-Board für Enthusiasten und professionelle Entwickler gleichermaßen. Technische Daten Formfaktor: 21 mm × 51 mm CPU: Dual Arm Cortex-M33 oder Dual RISC-V Hazard3 Prozessoren @ 150 MHz Speicher: 520 KB On-Chip-SRAM; 4 MB On-Board-QSPI-Flash Schnittstellen: 26 universelle GPIO-Pins, einschließlich 4 ADC-fähigen Pins Peripherie: 2 × UART 2 × SPI-Controller 2 × I2C-Controller 24 × PWM-Kanäle 1 × USB 1.1 Controller und PHY, mit Host- und Geräteunterstützung 12 × PIO-Zustandsmaschinen Konnektivität: 2.4GHz 802.11n Wireless LAN und Bluetooth 5.2 Eingangsspannung: 1,8–5,5V DC Betriebstemperatur: -20°C bis +85°C Produktionsdauer: Raspberry Pi Pico 2 bleibt mindestens bis Januar 2040 in Produktion Vorbestückter Header: 40-polige vorgelötete Stiftleiste Downloads Raspberry Pi Pico 2 Product Brief Raspberry Pi Pico 2 MicroPython SDK Raspberry Pi Pico 2 C/C++ SDK RP2350 Datenblatt

NVMe Base für Raspberry Pi 5, NVMe Base Fügen Sie Ihrem Raspberry Pi 5 superschnellen Speicher hinzu, der blitzschnelle Boots, NAS-Nutzung und flinke Anwendungen ermöglicht! NVMe Base ist eine PCIe-Erweiterungsplatine für den Raspberry Pi 5. Bestücken Sie sie einfach mit einer M-Key NVMe SSD (Unterstützung für 2230 bis 2280 Größen) und montieren Sie sie unter Ihrem Pi für eine kompakte und schnelle Speicherlösung - sie kommt sogar mit Gummifüßen! Merkmale im Überblick Perfekte Lösung, um Ihren Raspberry Pi 5 in einen Dateiserver, Medienzentrum, Reverse-Proxy usw. zu verwandeln. Unterstützt große Mengen an schnellem Speicher, besonders nützlich bei IOPS-intensiven Workloads. NVMe Base folgt den neuen "PIP"-Designrichtlinien von Raspberry Pi, was eine einfache Verwendung und langfristige Unterstützung durch Updates des Raspberry Pi OS gewährleistet. Technische Daten Kit beinhaltet: NVMe Base PCB mit M.2-Slot (M-Key), 'PCIe Pipe' Flachbandkabel, 4x Gummifüße, M2 Schraube und 2x Muttern zur SSD-Montierung, 4x 7mm M2.5 Distanzbolzen zur Basismontierung, 8x kurze M2.5 Schrauben zur Basismontierung, 4x lange M2.5 Schrauben zur 'Durchgangs'-Montierung mit einem HAT. Maximale Geschwindigkeit: 1700MB/s Lesen, 1600MB/s Schreiben. Maximale IOPS für zufällige 4k: 350k Lesen/400k Schreiben IOPS. MTBF: 1,5 Millionen Stunden. Abmessungen: 22.15 x 2.23 x 80.15 mm. Lieferumfang 1x NVMe Base für Raspberry Pi 5 Weiteres Zubehör wie im Kit beschrieben

Raspberry Pi 5 with 8 GB RAM This advanced model impresses with two microHDMI ports that enable outstanding image output. Two USB 3.0 ports and two USB 2.0 ports are available for data transfer. The Raspberry Pi 5 is equipped with a modern USB-C port for the power supply. The dual-band WLAN, which supports both 2.4 GHz and 5 GHz, and Bluetooth 5/BLE ensure outstanding networking capabilities. The Ethernet connection enables rapid data transfers at speeds of up to 1000 Mb/s. The Pi 5 also offers the option of being supplied with power via PoE (Power over Ethernet). All other specifications and features are consistent with those of the Raspberry Pi 4, ensuring continuity and reliability in the Raspberry Pi range. Accessories for the Raspberry Pi 5 To utilise the full potential of your Raspberry Pi 5, we recommend the following accessories: A microSD card, ideally with an operating system already installed. A stable power supply via USB-C, preferably 5V / 5A DC or 27W. A monitor and a suitable HDMI cable. Of course, a keyboard and mouse for easy operation. Product features Raspberry Pi 5 2.4GHz Quad-Core 64-bit Arm Cortex-A76 CPU: The power that will amaze you. VideoCore VII GPU: Enjoy state-of-the-art graphics with support for OpenGL ES 3.1 and Vulkan 1.2. Dual 4Kp60 HDMI output: For razor-sharp displays with HDR support. Up to 8GB LPDDR4X-4267 SDRAM: So that you always have enough RAM available. Dual-band 802.11ac Wi-Fi and Bluetooth 5.0/BLE: For the best connections at all times. The Raspberry Pi 5 offers an impressive variety of connection options 2 × USB 3.0 and 2 × USB 2.0 ports: For all your peripheral devices Gigabit Ethernet: Fast and stable network connections, with up to 1000Mb/s Dual 4Kp60 HDMI: For simultaneous, brilliant screen output And many more, from microSD card slots to GPIO headers 2 × 4-lane MIPI camera / display port PCIe2.0 for future HATs 40 GPIO pin headers: to realise your projects Advantages of the Raspberry Pi 5 The Raspberry Pi 5 is not just another mini-computer. It represents the future: a powerhouse in a compact design that is ready for a wide range of applications - whether for creative projects at home or demanding industrial applications. Can you imagine an everyday life where you are not just a consumer, but also a creator? Where you design technology according to your wishes? The Raspberry Pi 5 takes you there! Advantages of the Raspberry Pi 5 compared to the Raspberry Pi 4 What Raspberry Pi 4 Mod B Raspberry Pi 5 Processor Quad-Core Cortex A72 Quad-Core Cortex-A76 Architecture ARM 64-bit ARM 64-bit Clock frequency 1.5 GHz 2.4 GHz RAM 1GB, 2GB, 4GB, 8GB LPDDR4 2GB, 4GB and 8GB LPDDR4X *) WiFi 2.4 GHz and 5.0 GHz IEEE 802.11b/g/n/a Dual-band 802.11ac Bluetooth 5.0, BLE 5.0, BLE USB 2 x USB2.0 2 x USB3.0 2 x USB2.0 2 x USB3.0 with 5Gbps each Decoder H.265 (4Kp60 decode) H.264 (1080p60 decode, 1080p30 encode) OpenGL ES, 3.0 graphics 4Kp60 HECV OpenGL ES 3.1, Vulkan 1.2 LAN Gigabit Gigabit with PoE+ support Input power 5V / 3A DC 5V / 5A DC GPIO 40-pin header 40-pin header New features - RealTimeClock PCIe 2.0 Integrated power button Fan connector Operating system for Raspberry Pi 5 With the Raspberry Pi 5 you have the choice: The official Raspberry Pi OS is available, but other Linux distributions and even Windows 10 ARM64 can also be brought to life on this machine Important notes for the Raspberry Pi 5 Your Raspberry Pi 5 is a powerhouse that should be treated with care. Keep it away from moisture and avoid extremely high or low temperatures. The future has only just begun. With the Raspberry Pi 5, you are perfectly equipped to be at the forefront. Experience the technology you've always wanted! FAQ What is the main difference between the Raspberry Pi 5 and the Raspberry Pi 4? The Raspberry Pi 5 offers improved CPU performance, enhanced graphics options, more RAM and a variety of improved connectivity options and long-awaited features such as RTC or PCIe 2.0, compared to the Raspberry Pi 4. Does the Raspberry Pi 5 support 4K resolution? Yes, the Raspberry Pi 5 supports dual 4K displays via its HDMI ports. What operating systems are compatible with the Raspberry Pi 5? The Raspberry Pi 5 supports a variety of operating systems, including various Linux distributions and Windows IoT Core How much RAM is available in the Raspberry Pi 5? Models with 2 GB, 4 GB and 8 GB RAM are currently available. Does the Raspberry Pi 5 offer support for PoE (Power over Ethernet)? Yes, with an additional PoE+ HAT, the Raspberry Pi 5 can be supplied with power via Ethernet. Separate hardware that supports this in your network is required. What connections does the Raspberry Pi 5 offer? The Raspberry Pi 5 has USB 3.0 and 2.0 ports, Gigabit Ethernet, dual 4K HDMI, microSD card slot, 2 MIPI camera / display ports, PCIe 2.0 and the familiar 40-pin GPIO header. What safety precautions should I take when using the Raspberry Pi 5? The Raspberry Pi 5 should be operated in a well-ventilated area and should not be placed near water sources. It should be firmly secured or placed on a stable, flat, non-conductive surface.

Rotary encoder with breakout board This breakout board with encoder is ideal for making settings on a Raspberry Pi or Arduino, for example. The controller can also be pressed to select a menu item, for example. Features at a glance 20 pulses per revolution: Enables precise inputs and navigation. Push button function: Additional input mode by pressing the encoder. Shaft diameter 6mm: Standard size for easy integration into projects. Technical data Type: Rotary encoder with breakout board Pulses per revolution: 20 Pushbutton function: Yes Dimensions: 31 x 19 x 23 mm Shaft diameter: 6 mm Other data Mounting type: Without thread and nut, easy to install Scope of delivery 1 x Rotary encoder with breakout board

ESP32-CAM is a WIFI+ Bluetooth development board based on the ESP32 chip with the additional option of using a camera. It is ideal for various IoT applications. Technical data - Ultra-small 802.11b/g/n Wi-Fi + BT/BLE SoC module - WiFi 802.11 b/g/n/e/i - Bluetooth 4.2BR/EDR and BLE standards - Low-power dual-core 32-bit CPU for application processors - Built-in 520 KB SRAM, external 4M PSRAM (chipset: ESP PSRAM64H) - Interfaces: UART/SPI/I2C/PWM/ADC/DAC/DAC - Supports OV2640 and OV7670 cameras - Onboard Flash LED - Slot for MicroSD card - Powerful on-board antennas - U.FL connector for connecting external antennas Scope of delivery 1x ESP32-CAM module 1x OV2640 2MP camera module

With this 1-channel relay module, large loads can be easily controlled/switched with 5V from a microcontroller, e.g. Raspberry Pi, Arduino.... can be controlled / switched. All connections are accessible via screw terminals and can therefore be easily connected to a Raspberry Pi or other board using Dupont cables, for example. The definable switching level can be used to switch with either a high or a low level. Features 5V 1-channel relay module Relay requires 15-20mA for switching Equipped with heavy-duty relay (switching capacity AC: max. 250V / 10A ; DC: max. 30V / 10A DC) Relay type: changeover switch Can be switched with high and low level - definable via a jumper Can be controlled directly with a microcontroller (Raspberry Pi, Arduino, 8051, AVR, PIC, DSP, ARM, ARM, MSP430, TTL logic) All contacts are accessible via screw terminals LEDs for displaying the relay status Dimensions: 51 x 26 x 19 mm Ø mounting holes: approx. 3 mm

This module enables reading and writing to micro SD cards with a microcontroller board, for example Arduino.Technical dataOperating voltage: 4.5 - 5.5V DCsupports Micro SD Card memory cards up to 2GB or Micro SDHC up to 32GBOnboard 3.3V voltage regulatorCommunication via SPIDimensions: approx. 45 x 24 x 8 mm

BerryBase Modular expandable battery box for 18650 rechargeable batteries The modular battery box from BerryBase offers a flexible solution for accommodating 18650 rechargeable batteries. It enables both serial and parallel connections and can be extended indefinitely along the long sides. The box is made of durable plastic (PC+ABS) and has pure copper contacts, ensuring stable and reliable electrical connections. The product is suitable for both DIY projects and professional applications where modular and scalable power supply systems are required. The battery box is used to hold and connect 18650 rechargeable batteries. Thanks to the modular plug-in system, several boxes can be mechanically and electrically connected to each other to realise different voltage configurations (serial) or current capacities (parallel). It can be used both in experimental circuits and in permanently installed projects. The handling does not require soldering, which simplifies customisation and expansion. The box is made of polycarbonate-acrylonitrile-butadiene-styrene (PC+ABS), an impact-resistant and thermally stable plastic. The electrical contacts are made of pure copper and offer low contact resistance. Expansion is achieved by connecting the modules in series, with mechanical contacting ensured via connecting elements. 18650 batteries are cylindrical lithium-ion cells with a diameter of 18 mm and a length of 65 mm. The parallel connection increases the current capacity, while the serial connection adds voltage. The structure can be flexibly designed depending on the voltage or capacity requirements. Features at a glance Supports parallel and serial connections Made of plastic (PC+ABS) Pure copper contacts Batteries can be easily inserted and replaced Compatibility 18650 batteries (not included) Connection with copper wires or copper strips Technical specifications Material: Plastic (PC+ABS) Colour: Black Connections: Parallel or serial connection possible Other data Versatile in use Modularly expandable without limitation Scope of delivery 1x pluggable battery slot 2x M3x16 mm copper screws 3x M3 copper nut 2x flat connection with inner diameter M3 1x spring 10 mm 2x plug connector

Goobay desoldering wire 1 mm for removing solder from solder joints 1.5 m Pure copper, good thermal conductivity Desoldering wire for narrow solder joints, which also reaches hard-to-reach places thanks to its excellent bending behaviour. Thanks to its very good capillary action, the desoldering wire removes the molten solder effectively and cleanly. Fine copper mesh for removing solder residue and for optimum preparation of the solder joint Desoldering wick made of pure copper, resistant to oxidation and corrosion, with good thermal conductivity, low residue, no breakages Help for removing solder residue. For desoldering, the desoldering wick is heated with a soldering iron on the solder to be removed. Heated tin is absorbed by the braid and removed from the solder joint Removes more solder than conventional wicks and corrects slight defects on small circuit boards Technical specifications Width: 50 mm Height: 10 mm Length: 50 mm