Specifications Dimensions 200 x 9.60 x 4 mm Weight 21g Battery Exclude Grove - Universal 4 Pin 20cm 5 RoHS Compliant

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The Raspberry Pi SSD unlocks outstanding performance for I/O intensive applications on Raspberry Pi 5 and other devices, including super-fast startup when booting from SSD. It is a reliable, responsive, and high-performance PCIe Gen 3-compliant SSD capable of fast data transfer, available also with 256 GB capacity. Features 50k IOPS (4 kB random reads) 90k IOPS (4 kB random writes) Downloads Datasheet

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The Raspberry Pi SSD unlocks outstanding performance for I/O intensive applications on Raspberry Pi 5 and other devices, including super-fast startup when booting from SSD. It is a reliable, responsive, and high-performance PCIe Gen 3-compliant SSD capable of fast data transfer, available also with 512 GB capacity. Features 40k IOPS (4 kB random reads) 70k IOPS (4 kB random writes) Downloads Datasheet

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The solar tracking kit is based on Arduino. It consists of 4 ambient light sensors, 2 DOF servos, a solar panel and so on, aiming at converting light energy into electronic energy and charging power devices. It also boasts a charging module, a temperature and humidity sensor, a BH1750 light sensor, a buzzer, an LCD1602 display, a push button module, an LED module and others, highly enriching the tutorial and making projects more interesting. This kit can not only help kids have a better learning about programming but obtain knowledge about electronics, machinery, controlling logic and computer science. Features Multiple functions: Track light automatically, read temperature, humidity and light intensity, button control, LCD1602 display and charge by solar energy. Easy to build: Insert into Lego jack to install and no need to fix with screws and nuts or solder circuit; also easy to dismantle. Novel style: Adopt acrylic boards and copper pillars; sensors or modules connected to acrylic boards via Lego jacks; LCD1602 modules and solar panels add technologies to it. High extension: Preserve I²C, UART, SPI ports and Lego jacks, and extend other sensors and modules. Basic programming: Program in C language with Arduino IDE. Specifications Working voltage 5 V Input voltage 3.7 V Max. output current 1.5 A Max. power dissipation 7.5 W Downloads Wiki

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This display features an IPS resolution of 480x480 with capacitive touch and a frame rate of up to 75 FPS. It is very bright and has 65,000 colors. The mechanical rotary encoder supports clockwise/counterclockwise rotation and also supports the entire pressing process, which can usually be used to confirm the process. The display module is based on ESP32-S3 with WiFi & Bluetooth 5.0 to easily connect to the Internet for IoT projects. It can be powered and programmed directly via the USB port. It also has two expansion ports, I²C and UART. Specifications Controller ESP32-S3 WROOM-1-N16R8 (16 MB Flash, 8 MB PSRAM, PCB antenna) Wireless WiFi & Bluetooth 5.0 Resolution 480x480 LCD 2.1' IPS LCD, 65K color LCD driver ST7701S Frame rate >70 FPS LCD interface RGB 565 Touch panel 5-points capacitive touch Touch panel driver CST8266 USB USB-C native Interfaces 1x I²C, 1x UART (1.25 mm, 4-pin connector) Arduino support Yes Downloads Wiki Usage with Squareline/LVGL GitHub Datasheet_ESP32-S3-WROOM-1

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Use acoustic waves to hold in mid-air samples such as water, ants, or tiny electric components. This technology has been previously restricted to a couple of research labs but now you can make it at your home. Included 76x 10 mm 40 kHz transducers 1x Arduino Nano 1x L298N Dual Motor Drive Board 1x Power Switch 1x DC Adaptor 9 V 1x Jumper Wires 6x Black and Red Wire Some Exposed Wire 1x 3D-Printed TinyLev Downloads Instructables Scientific Information

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The kit is a faithful and functional transistor-scale replica of the classic NE555 timer integrated circuit, one of the most classic, popular, and all-around useful chips of all time. The kit is designed to resemble an (overgrown) integrated circuit, based around an extra-thick matte-finish printed circuit board. The stand – which gives the circuit board eight legs in the shape of DIP-packaged integrated circuit pins – is made from machined and formed semi-rigid PVC foam.

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GreatFET One is a hardware hacker’s best friend. With an extensible, open source design, two USB ports, and 100 expansion pins, GreatFET One is your essential gadget for hacking, making, and reverse engineering. By adding expansion boards called neighbors, you can turn GreatFET One into a USB peripheral that does almost anything.Whether you need an interface to an external chip, a logic analyzer, a debugger, or just a whole lot of pins to bit-bang, the versatile GreatFET One is the tool for you. Hi-Speed USB and a Python API allow GreatFET One to become your custom USB interface to the physical world.Features Serial protocols: SPI, I²C, UART, and JTAG Programmable digital I/O Analog I/O (ADC/DAC) Logic analysis Debugging Data acquisition Four LEDs Versatile USB functions High-throughput hardware-assisted streaming serial engine Downloads Documentation GitHub

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The Raspberry Pi 500 (based on the Raspberry Pi 5) features a quad-core 64-bit Arm processor, RP1 I/O controller, 8 GB RAM, wireless networking, dual-display output, 4K video playback, and a 40-pin GPIO header. It's a powerful, compact all-in-one computer built into a portable keyboard. The built-in aluminum heatsink provides improved thermal performance, allowing the Raspberry Pi 500 to run quickly and smoothly even under heavy load. Specifications SoC Broadcom BCM2712 CPU ARM Cortex-A76 (ARM v8) 64-bit Clock rate 4x 2.4 GHz GPU VideoCore VII (800 MHz) RAM 8 GB LPDDR4X (4267 MHz) WiFi IEEE 802.11b/g/n/ac (2.4 GHz/5 GHz) Bluetooth Bluetooth 5.0, BLE Ethernet Gigabit Ethernet (with PoE+ support) USB 2x USB-A 3.0 (5 GBit/s)1x USB-A 2.01x USB-C (for power supply) PCI Express 1x PCIe 2.0 GPIO Standard 40-pin GPIO header Video 2x micro-HDMI ports (4K60) Multimedia H.265 (4K60 decode)OpenGL ES 3.1, Vulkan 1.2 SD card microSD Power supply 5 V DC (via USB-C) Keyboard layout US (QWERTY) Dimensions 286 x 122 x 23 mm Included Raspberry Pi 500 (US keyboard layout, QWERTY) Official 27 W Power Supply for Raspberry Pi (EU, white) Official Raspberry Pi Mouse (white) Official Raspberry Pi HDMI Cable (white, 2 m) 32 GB microSD Card with pre-installed Raspberry Pi OS The Official Raspberry Pi Beginner's Guide (5th Edition) Downloads Datasheet

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The Raspberry Pi High Quality Camera is an affordable high-quality camera from Raspberry Pi. It offers 12-megapixel resolution and a 7.9-mm diagonal sensor for impressive low-light performance. The M12 Mount variant is designed to work with most interchangeable M12 lenses, and the CS Mount variant is designed to work with interchangeable lenses in both CS and C mount form factors (C mount lenses require the use of the C-CS adapter included with this variant). Other lens form factors can be accommodated using third-party lens adapters. The High Quality Camera is well suited to industrial and consumer applications, including security cameras, which require the highest levels of visual fidelity and/ or integration with specialist optics. It is compatible with all models of Raspberry Pi from Model B onwards. Specifications Sensor Sony IMX477R stacked, back-illuminated sensor Resolution 12.3 megapixels Sensor size 7.9 mm sensor diagonal Pixel size 1.55 x 1.55 μm Output RAW12/10/8, COMP8 Back focus length of lens 2.6–11.8 mm (M12 Mount variant)12.5–22.4 mm (CS Mount variant) Lens sensor format 1/2.3” (7.9 mm) or larger IR cut filter Integrated Ribbon cable length 200 mm Tripod mount 1/4”-20 Included 1x Circuit board carrying a Sony IMX477 sensor 1x FPC cable for connection to a Raspberry Pi computer 1x Milled aluminium lens mount with integrated tripod mount 1x C to CS mount adapter 3x Lens locking rings Required M12 Mount Lens

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Arduboy is a miniture game development system the size of a credit card based on the popular open source Arduino platform. Learn to program/code with lots of tutorials and an active community of developers, develop and share your own games using Arduino software via the USB-Cable. Use your PC/Mac/Linux machine to download over 200 unique games created by members of the Arduboy Community. Features Processor: ATmega32u4 (same as Arduino Leonardo & Micro) Memory: 32 KB Flash, 2.5 KB RAM, 1 KB EEPROM Inputs: 6 Momentary Tactile Buttons Outputs: 128 x 64 1-bit OLED, 4 Ch. Piezo Speaker & Blinky LED Battery: 180 mAh Thin-Film Lithium Polymer Connectivity: Micro-USB 2.0 with built-in HID profile Programming: Arduino IDE, Arduboy Game Loader, GCC & AVRDude Open source gaming Anyone can make games for the Arduboy! Free online tutorials guide you through a step by step process on how to develop your own software! There are already plenty of examples to learn from. Ever wanted to create a level or map for your favorite game, or make your favorite character jump higher? Now is your chance! Super retro Designed to remind you of a more simple time in the world of gaming, the Arduboy brings true 8-bit gaming into the 21st century with style. The black and white screen invites you to involve your imagination once again while gaming. Durable construction A polycarbonate front, ultra thin circuit board, and stamped aluminum metal back is the ultimate combination. A rechargeable lithium polymer battery provides over 8 hours of battery life, and the same cable you use to charge can be used to upload new games! At only 5 mm thick, Arduboy can live in your pocket (or even wallet) and is thinner than nearly any mobile phone! Downloads Schematics GitHub Documentation

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This pack contains the LCR45 Passive Component Impedance Meter, great for advanced hobbyists and professionals. It also contains the very popular DCA Pro (model DCA75), fantastic for component identification, pinout identification, detailed characteristic measurement and curve tracing on a PC. Complete with USB cable and software on a USB flash drive. DCA75 Building on the continued success of Peak's existing component identification and analysis instruments, the DCA Pro brings an array of exciting new features for the hobbyist and professional alike. The DCA Pro is an advanced new design that features a graphics display, USB communications, PC Software and an enhanced component identification library. Automatic component type identification Automatic pinout identification (connect any way round) The DCA Pro supports all the components that the popular Peak Atlas DCA55 supports, but adds plenty more. Components supported include: Transistors (including Darlingtons), Silicon and Germanium types. Measures gain, Vbe and leakage MOSFETs, enhancement mode and depletion mode types. Measure on-threshold (at 5 mA) and approx transconductance (for span of 3-5 mA) JFETs, including normally off SiC types. Measures pinch-off voltage (at 1 uA) and approx transconductance (for span of 3-5 mA) IGBTs (insulated gate bipolar transistors). Measures on-threshold (at 5 mA) Diodes and Diode networks LEDs and bicolour LEDs (2 lead and 3 lead types) Zener Diodes with measurement of zener voltage up to 9 V at 5 mA Voltage regulators (measures regulation voltage, drop-out voltage, quiescent current) Triacs and Thyristors that require less than 10 mA of gate current and holding current Stand-alone or with a PC The instrument can be used stand-alone or connected to a PC. Either way, the DCA Pro will automatically identify the component type, identify the pinout and also measure a range of component parameters such as transistor gain, leakage, MOSFET and IGBT threshold voltages, pn characteristics and much more. Curve Tracing When connected to a PC using the supplied USB cable, a range of low current curve-tracing functions can be performed. Various graph types are available, with more to follow: Bipolar transistor output characteristics, IC vs VCE Bipolar transistor gain characteristics, HFE vs VCE Bipolar transistor gain characteristics, HFE vs IC MOSFET and IGBT output function, ID vs VDS MOSFET and IGBT transfer function, ID vs VGS JFET output function, ID vs VDS JFET transfer function, ID vs VGS Voltage regulator, VOUT vs VIN Voltage regulator, IQ vs VIN. PN junction I/V curves, forward and reverse options (for Zener diodes) Curve tracing is performed using test parameters in the range of +/-12 V or +/-12 mA. All curve-tracing data can be instantly pasted into Excel for further graphing and analysis. PC Software is included with the DCA Pro on a Peak USB memory stick. Software designed for Windows 7 and higher (all 32 or 64 bit). LCR45 A great handheld LCR analyzer that can measure the value of your passive component (inductor, capacitor or resistor) and also measure the detailed impedance in a number of modes. The LCR45 offers enhanced measurement resolution (better than 0.1 uH!) whilst also giving you continuous fluid measurements. Additionally, the test frequencies of DC, 1 kHz, 15 kHz and 200 kHz can be set to automatic or manual modes. Supplied with removable gold plated hook probes, battery and user guide. Compatible with standard 2 mm test connectors. Not designed for in-circuit use. Automatic or manual component type selection: Inductor, Capacitor or Resistor Automatic or manual test frequency selection: DC, 1 kHz, 15 kHz and 200 kHz Inductance from 0.1 uH to 10 H Capacitance from 0.1 pF to 10,000 uF Resistance from 0.1 Ohm to 2 MOhm Inductance measurement also shows DC winding resistance Display of "Component type and values", "Complex Impedance", "Magnitude/Phase" and "Admittance" Test frequency displayed for all measurements Typical accuracy of 1.5% for inductors and capacitors (see spec table for details) Typical accuracy of 1% for resistors Test lead complete with gold plated 2 mm plugs and sockets Supplied with removable gold plated hook probes Included LCR45 DCA75 Extra GP23 Battery Extra AAA cell Dual Carry Case

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The official Sense HAT from the Raspberry Pi Foundation is an add-on board for Raspberry Pi (4, 3, 2, B+ and A+). The Sense HAT has the following sensors: 8x8 RGB LED matrix display Accelerometer Gyroscope Magnetometer Air pressure sensor Temperature Humidity sensor Five-button joystick

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Tower-Case for Raspberry Pi Server Cluster Material Acryl, brass Capacity up to 7 boards Color Transparent Dimensions 75 mm x 104 mm x 202 mm Weight 226 g

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The Aoyue 8486 fume extractor utilizes 3 filters including HEPA and activated carbon beads for the max. extraction efficiency. It removes 97% of particles greater than 0.3 um. Easily position the fume extractor soldering hose exactly where you need it over the work. Dial in the perfect amount of fume extraction power using the large front panel readout and control dial. Aoyue 8486 redirects soldering smoke caused by burning flux and other fumes away from your face so you can breathe. Features Desktop fume extraction system with HEPA filter (high efficiency particulate air filter) for removing the dust particles and enhanced activated carbon filtration system. With actual carbon filter beads. Powerful suction, quiet operation. Electronic control panel with variable airflow adjustment. Sub-filters extend the life of main filters. Free standing arms. Arms can be bent as desired and maintain their shape after adjustment. Unit has mount holes so it can be attached to walls to free up desk space. Specifications Voltage input 220 V DC voltage 12 V Suction fan 3.59 m/s Suction power 18-100% HEPA filter H11 class Carbon filter Activated carbon 800 IV (cylinder type) Dimensions 184 x 184 x 152 mm (W x H x D) Weight 1.8 kg Included Main unit Flexible extractor tube Filter hood HEPA filter Activated carbon filter Sub air filter DC power brick Instruction manual

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This exceptional GPS/GNSS antenna is designed for both GPS and GLONASS reception. The magnetic mount allows it to be easily mounted to a metal base such as a ground plate or car roof. The antenna is terminated with a 3m cable and standard SMA connector. Features Dimensions: 50x38x17mm Weight: 75g including 3m cable Frequency Range: 1575 - 1610MHz GPS Center Frequency: 1575.42MHz GLONASS Center Frequency: 1602MHz LNA Voltage: 3 to 5VDC LNA Gain: 28dB LNA Current: 10mA Termination Connector: SMA Impedance: 50Ω Right-hand polarization Cable Length: 3 meter

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