This kit is the perfect solution for you to communicate with your vehicle's OBD-II interface without visiting a mechanic. It includes a Serial CAN Bus module, an OBD-II Connector, and other accessories to help you do all the diagnostics and data logging with ease. There is also a tutorial which is based on Arduino and you can easily obtain data from your vehicle by following this tutorial. Features Fast serial communication with CAN Bus rate up to 1 MB/s Easy Setup with all components included Easily get started with the provided Arduino-based tutorials Multi-platform support (Arduino, Raspberry Pi, Beaglebone Board, etc.) Included 1x Serial CAN Bus Module 1x OBD-II Connector 1x Screwdriver 1x Cable for CAN Bus 1x Grove Cable Downloads Wiki Arduino Library Schematics

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The ESP32-S3 Parallel TFT not only offers more SRAM and ROM (compared to the S2 version), but with Bluetooth 5.0 it is also suitable for applications such as local monitoring and controlling. The built-in LCD driver ILI9488 uses 16-bit parallel lines to communicate with ESP32-S3, the main clock can be up to 20 MHz, which makes the display smooth enough for video displays. With this display, you can create more IoT display projects. Features Controller: ESP32-S3-WROOM-1, PCB Antenna, 16 MB Flash, 2 MB PSRAM, ESP32-S3-WROOM-1-N16R2 Wireless: Wifi & Bluetooth 5.0 LCD: 3.5-inch TFT LCD Resolution: 480x320 Color: RGB LCD Interface: 16-bit parallel LCD Driver: ILI9488 Touch Panel: Capacitive Touch Panel Driver: FT6236 USB: Dual USB Type-C (one for USB-to-UART and one for native USB) UART to UART Chip: CP2104 Power Supply: USB Type-C 5.0 V (4.0 V~5.25 V) Button: Flash button and reset button Mabee Interface: 1x I²C, 1x GPIO Backlight Controller: Yes MicroSD: Yes Arduino support: Yes Type-C Power Delivery: Not supported Operation temperature: -40℃ to +85℃ Dimension: 66 x 84.3 x 12 mm Weight: 52 g Downloads ESP32-S3 Datasheet GitHub Wiki LVGL Demo Code

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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

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This ESP32 S3 7-inch IPS 5-point capacitive touch display with an ultra-high resolution of 1024 x 600 pixels is ideal for IoT applications. It is ideal for applications such as home automation. An integrated SD card enables recording/playback of stored data. There are also two Mabee/Grove connectors to connect various sensors to this board to create personal prototype projects in no time. Specifications Controller: ESP32-S3-WROOM-1, PCB antenna, 16 MB Flash, 8 MB PSRAM, ESP32-S3-WROOM-1-N16R8 Wireless: Wifi & Bluetooth 5.0 LCD: 7-inch High Lightness IPS FPS: >30 Resolution: 1024 x 600 LCD interface: RGB 565 Touch panel: Capacitive 5-point touch Touch panel driver: GT911 USB: Dual USB-C (one for USB-to-UART and one for native USB) UART to UART chip: CP2104 Power supply: USB-C 5.0 V (4.0 V~5.25 V) Button: Flash button and reset button Mabee interface: 1x I²C, 1x GPIO MicroSD: Yes Arduino support: Yes Type-C Power Delivery: Not supported Operation temperature: −40 to +85°C Downloads Wiki GitHub ESP32-S3 Datasheet Screen touch coordinates calibration

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This Nixie Clock DIY Kit offers a captivating journey into the world of retro electronics and contains everything you need to assemble a luminous vintage-style masterpiece. At its heart are 4x IN-12 Nixie Tubes, whose mesmerizing neon light displays the digits with a charm reminiscent of the golden age of technology. Designed for enthusiasts who appreciate both artistic expression and technical challenges, this kit allows you to create something truly special. Each tube operates with an ignition voltage of approximately 170 V, generated by an internal boost circuit. Although this high voltage produces the characteristic glow effect, it also requires careful handling. For safety reasons, it is recommended to use a glass cover (not included) during testing and operation to shield the components and avoid contact with exposed wires. The assembly is as rewarding as it is complicated and requires a careful approach and a variety of tools such as soldering iron, solder, pliers, tweezers, multimeter, knife and screwdriver. This DIY kit contains all components including 4x IN-12 tubes and a remote control. Please note that the glass cover and base are not included.

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Based on the SparkFun GPS-RTK2 designs, the SparkFun GPS-RTK-SMA raises the bar for high-precision GPS and is the latest in a line of powerful RTK boards featuring the ZED-F9P module from u-blox. The ZED-F9P is a top-of-the-line module for high accuracy GNSS and GPS location solutions, including RTK capable of 10mm, three-dimensional accuracy. With this board, you will be able to know where your (or any object's) X, Y, and Z location is within roughly the width of your fingernail! The ZED-F9P is unique in that it is capable of both rover and base station operations. Utilizing our handy Qwiic system, no soldering is required to connect it to the rest of your system. However, we still have broken out 0.1"-spaced pins if you prefer to use a breadboard. We've included a rechargeable backup battery to keep the latest module configuration and satellite data available for up to two weeks. This battery helps 'warm start' the module decreasing the time-to-first-fix dramatically. This module features a survey-in mode allowing the module to become a base station and produce RTCM 3.x correction data. Based on your feedback, we switched out the u.FL connector and included an SMA connector in this version of the board. The number of configuration options of the ZED-F9P is incredible! Geofencing, variable I²C address, variable update rates, even the high precision RTK solution can be increased to 20Hz. The GPS-RTK2 even has five communications ports which are all active simultaneously: USB-C (which enumerates as a COM port), UART1 (with 3.3V TTL), UART2 for RTCM reception (with 3.3V TTL), I²C (via the two Qwiic connectors or broken out pins), and SPI. SparkFun has also written an extensive Arduino library for u-blox modules to easily read and control the GPS-RTK-SMA over our Qwiic Connect System. Leave NMEA behind! Start using a much lighter weight binary interface and give your microcontroller (and its one serial port) a break. The SparkFun Arduino library shows how to read latitude, longitude, even heading and speed over I²C without the need for constant serial polling. Features Concurrent reception of GPS, GLONASS, Galileo and BeiDou Receives both L1C/A and L2C bands Voltage: 5 V or 3.3 V, but all logic is 3.3 V Current: 68 mA - 130 mA (varies with constellations and tracking state) Time to First Fix: 25 s (cold), 2 s (hot) Max Navigation Rate: PVT (basic location over UBX binary protocol) - 25 Hz RTK - 20 Hz Raw - 25 Hz Horizontal Position Accuracy: 2.5 m without RTK 0.010 m with RTK Max Altitude: 50 km Max Velocity: 500 m/s Weight: 6.8 g Dimensions: 43.5 mm x 43.2 mm 2 x Qwiic Connectors

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The LILYGO TTGO T-Display-GD32 is a compact and minimalist development board featuring a powerful GD32VF103CBT6 RISC-V microcontroller. Ideal for IoT applications, wearables, and rapid prototyping, it provides versatile connectivity options like GPIO, SPI, UART, and I²C interfaces. Thanks to its efficient RISC-V architecture and clear, high-quality screen, this board is perfect for small projects requiring graphical interfaces or data visualization in a space-saving form factor. Specifications Chipset GD32VF103CBT6 FLASH 128 kB SRAM 32 kB On-board clock 108 MHz crystal oscillator Working Voltage 2.7-3.6 V Button BOOT - RESET LCD ST7789 1.14" IPS 240 x 135 USB to TTL CP2104 Modular interface TIMER, UART, SPI, I²C, PWM, ADC, DAC, CAN, USBOTG Working Temperature Range −40~85°C Peripheral Button, RGB LED, SD slot, LCD Power Supply Input USB 5 V @ 1 A Charging Current 500 mA Battery Input 3.7-4.2 V USB USB-C Dimensions 51.49 x 25.2 x 10 mm Weight 10 g Downloads GitHub

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The Arduino Nano is a complete Arduino-compatible single board computer that can be plugged directly into a 32-pin socket, a breadboard or a corresponding carrier board. It offers the complete Arduino functionality in very compact dimensions. Via the micro-USB socket, you can supply the board and circuit with power as well as conveniently transfer new programs to the controller. Technical details Pin headers for direct use on the pinboard Ideal for prototyping Programmable via free Arduino IDE Connection via mini USB socket Chipset CH340G Interfaces: I²C, UART, SPI Size: 45 x 18 mm Microcontroller ATmega328P-AU Operating Voltage 5 V Flash Memory 32 KB (2 KB used for Bootloader) SRAM 2 KB EEPROM 1 KB Digital Pins 22 (6 with PWM) Analog Pins 8 DC Current per I/O Pin 40 mA Input Voltage 7-12 V Downloads Datasheet User Guide

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The temperature sensor used in LSN50v2-D20 is DS18B20, which can measure -55°C~125°C with accuracy ±0.5°C (max ±2.0°C). The sensor cable is made by Silica Gel, and the connection between the metal probe and cable is double compressed for waterproof, moisture-proof, and anti-rust for long-term usage. The LSN50v2-D20 supports a temperature alarm feature, the user can set a temperature alarm for instant notice. It is powered by an 8500 mAh Li-SOCI2 battery, It is designed for long-term use up to 10 years. Each LSN50v2-D20 is pre-load with a set of unique keys for LoRaWAN registration, register these keys to the local LoRaWAN server and it will auto-connect after power on. Features LoRaWAN v1.0.3 Class A Ultra-low power consumption External DS18B20 Probe (default 2meters) Measure range -55°C~125°C Temperature alarm AT Commands to change parameters Uplink on periodically or Interrupt Downlink to change configure Applications Wireless Alarm and Security Systems Home and Building Automation Automated Meter Reading Industrial Monitoring and Control Long-range Irrigation Systems

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Build your first IoT devices with this kit by seamlessly integrating hardware and software without diving into complex theory. Plug and Make Kit is the easiest way to get started with Arduino. It includes everything you need for your very first seven projects – as well as many more that our community shares and you can invent yourself! Weather Report: Never get caught in the rain again, with a visual reminder to take an umbrella when needed Hourglass: Who needs an egg timer? Customize your own digital hourglass Eco Watch: Make sure your plants thrive in the perfect temperature and humidity Game Controller: Level up with your very own HID (Human Interface Device) gamepad Sonic Synth: Get one step closer to being a rockstar, DJ or sound engineer! Smart Lights: Set the mood with your very own smart lamp Touchless Lamp: Control lights with a simple gesture Each idea is inspiration for a fun activity that will not only teach you the basics of do-it-yourself electronics but leave you with a great sense of accomplishment. You can make technology too! With the innovative Modulino nodes, simply connect them sequentially using the onboard Qwiic connector of the Arduino Uno R4 WiFi. By utilizing one of the Arduino Cloud templates, you can swiftly transform your concept into a fully operational project. Features No extra tools needed, all you have to kick off you journey as maker is included in the kit. No breadboard and no soldering are involved. Build a fully functional IoT project, understanding its inner working, in under 45 minutes. Start from the project you find more interesting, you define your own learning path. Continue learning and working on your projects from any connected computer using the online Arduino ecosystem. Modulino Modulino are sensors and actuators that simply connect via the Uno R4 WiFi’s onboard Qwiic connector. You can connect more than one for more complex projects and never have to wonder which side goes where, because the connector is polarized. Modulino Knob: for super-fine value adjustments Modulino Pixels: eight LEDs to shine bright, dim down, or change color Modulino Distance: a time-of-flight proximity sensor to measure distances with precision Modulino Movement: to perfectly capture movements like pitch, roll or tilt Modulino Buzzer: to generate your own alarm sounds or simple tunes Modulino Thermo: a sensor for both temperature and humidity data Modulino Buttons: three buttons for quick project navigation Specifications Board included Arduino Uno R4 WiFi Modulino nodes Communications I²C (over Qwiic connector) Operational voltage 3.3 V Modulino nodes included Modulino Movement LSM6DSOXTR 0x6A (0x6B) Modulino Distance VL53L4CDV0DH/1 0x29 Modulino Thermo HS3003 0x44 Modulino Knob PEC11J (STM32C011F4 for I²C communication) 0x76 (address can change via software) Modulino Buzzer PKLCS1212E4001-R1 (STM32C011F4 for I²C communication) 0x3C (address can change via software) Modulino Pixels 8 LC8822-2020 (STM32C011F4 for I²C communication) 0x6C (address can change via software) Modulino Buttons 3 push buttons plus 3 yellow LEDs (STM32C011F4 for I²C communication) 0x7C (address can change via software) Included 1x Arduino Uno R4 WiFi 1x Modulino base 7x Modulino sensors 1x USB-C cable 7x Qwiic cables 24x Screws M3 (10 mm) 20x Nuts M3 4x Metal spacers Downloads Datasheet Schematics

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CrowBot BOLT is an ESP32-controlled, intelligent, simple and easy-to-use open source robot car. It is compatible with the Arduino and MicroPython environments, with graphical programming via Letscode. 16 learning courses with interesting experiments are available. Features 16 lessons in three languages (Letscode, Arduino, Micropython), fast learning and fun experiments Compatible with Arduino, MicroPython development environment, using Letscode graphical programming, easy to use Strong scalability, with a variety of interfaces, can be expanded and used with Crowtail modules A variety of remote control modes, you can use the infrared remote control and joystick to control the car Specifications Processor ESP32-Wrover-B (8 MB) Programming Letscode, Arduino, Micropython Control method Bluetooth Remote Control/Infrared Remote Control Input Button, Light sensor, Infrared Receiving Module, Ultrasonic Sensor, Line Tracking Sensor Output Buzzer, Programmable RGB Light, Motor Wifi & Bluetooth Yes Light sensor Can realize the function of chasing light or avoiding light Ultrasonic Sensor When an obstacle is detected, the driving route of the car can be corrected to avoid the obstacle Line Tracking Sensor Can make the car move along the dark/black lines, intelligently judge and correct the driving path Buzzer Can make the car sound/whistle, bringing a more direct sensory experience Programmable RGB Light Through programming, it can show colorful lights in different scenes Infrared receiver Receive infrared remote control signals to realize remote control Interfaces 1x USB-C, 1x I²C, 1x A/D Motor type GA12-N20 Micro DC Gear Motor Operating temperature -10℃~+55℃ Power supply 4x 1.5 V batteries (not included) Battery life 1.5 hours Dimensions 128 x 92 x 64 mm Weight 900 g Included 1x Chassis 1x Ultrasonic Sensor 1x Battery Holder 2x Wheels 4x M3x8 mm Screws 2x M3x5 mm Copper Column 2x Side Acrylic Plates 1x Front Acrylic Plates 1x Screwdriver 2x 4 Pin Crowtail Cable 1x USB-C Cable 1x Infrared remote control 1x Instructions & Line Track Map 1x Joystick Downloads Wiki CrowBot-BOLT_Assembly-Instruction Joystick-for-CrowBot-BOLT_Assembly-Instruction CrowBot_BOLT_Beginner’s_Guide Designing Documents of CrowBot Designing Documents of Joystick Lesson Code 3D Model Factory Source Code

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Standard 2x16 LCD (see Elektor Labs Preferred Parts - ELPP) with the following specifications: 2 rows, 16 characters wide 5 x 7 dots font and cursor Yellow-green LCD with yellow-green LED backlight HD44780 equivalent LCD controller High contrast Readable in sunlight 16 pin Connection port is 2.54 mm (0.1') pitch, single row for easy breadboarding and wiring pinning (left-to-right): 1-14,A,K Single LED backlight included; Easily dimmed with a resistor or via PWM; Uses much less power than electroluminescent backlights Can be fully controlled with only 6 digital lines(in 4-bit bus mode) 5V DC operating voltage Module dimension: 80 x 36 x 10 mm Viewing area size: 64.5x 15 mm

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This Crowtail series 4G module is a high-performance LTE Cat1 wireless module. It uses the SIM A7670E communication module from Simcom and communicates through a UART interface, which enables 4G data transmission and voice communication. The module supports multiple LTE bands, including B1/B3/B5/B7/B8/B20, as well as WCDMA and GSM networks. In addition, it supports various protocols such as TCP/IP, FTP, HTTP, and multiple satellite navigation systems such as GPS, GLONASS, and BDS. The module comes with a charging interface and can be powered by a 3.7 V lithium battery or a 5 V USB-C interface. It also has a 3.5 mm headphone jack, and by connecting a headphone with a microphone, it can be used for making and receiving phone calls. Its compact size makes it easy to integrate into various IoT devices and meet various application requirements. Furthermore, its low power consumption and reliable performance are also the reasons why it is widely used in IoT, smart home, automotive, and industrial control fields. Features Integrate the A7670E communication module, enabling 4G data transmission and voice communication with low power consumption and high reliability Supports multiple LTE bands, including B1/B3/B5/B7/B8/B20, as well as WCDMA and GSM networks Supports various protocols such as TCP/IP, FTP, HTTP, and multiple satellite navigation systems such as GPS, GLONASS, and BDS Comes with a charging interface and a headphone jack, which can be used for making and receiving phone calls by connecting a headphone with a microphone Small but powerful, compact size makes it easy to integrate into various IoT devices. Specifications Main Chip: SIM A7670E LTE-FDD: B1/B3/B5/B7/B8/B20 GSM: 900/1800 MHz GSM/GPRS power class EGSM900: 4 (33 dBm ±2 dB) DCS1800: 1 (30 dBm ±2 dB) EDGE power class: EGSM900: E2 (27 dBm ±3 dB) DCS1800 : E1 (26 dBm +3 dB/-4 dB) LTE power class: 3 (23 dBm ±7 dB) Supply Voltage: 4 V ~ 4.2 V Power: 3.8 V LTE(Mbps): 10 (DL)/5 (UL) GPRS/EDGE(Kbps): 236.8 (DL)/236.8 (UL) Protocol: TCP/IP/IPV4/IPV6/Multi-PDP/FTP/FTPS /HTTP/HTTPS/DNS Communication interface: USB / UART Firmware Upgrade: USB/FOTA Support phonebook types: SM/FD/ON/AP/SDN Interfaces: 1x Power button, 1x BAT, 1x UART, 1x USB-C, 1x SIM Card slot Dimensions: 35 x 50 mm Included 1x Crowtail-4G SIM-A7670E 1x 4G GSM NB-IoT Antenna 1x GPS ceramic antenna Downloads Wiki A7670 AT Command Manual A7670 Datasheet Source Code

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The RGB matrix module is equipped with 4096 LEDs and is characterized by a particularly small grid size of only 3mm. This makes it ideal for pictorial representations. Video sequences can also be displayed. The module is supplied with the necessary cables. It is perfectly suited in combinations with single board computers like the Raspberry Pi, Arduino, BBC Microbit and many more. Specifications Display RGB-LED Resolution 64 x 64 Amount of LED 4096 LEDs LED Size 3 mm Pitch Supply Voltage 5 V Max. Power Input 40 W Control 1/32 Scan Operating Temperature -20~55°C Viewing Angle 140° Pixel Density 111111 Pixel/m² Dimensions 192 x 192 x 14 mm Weight 246 g Items Shipped LED-Matrix, Kabel Downloads Datasheet Manual

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This affordable and increasingly powerful FPGA board is a fantastic starting point into the world of FPGAs and the heart of your next project. Finally, now that SparkFun builds this board, we added a Qwiic connector for easy I²C integration! The Alchitry Au features a Xilinx Artix 7 XC7A35T-1C FPGA with over 33,000 logic cells and 256 MB of DDR3 RAM. The Au offers 102 3.3 V logic level IO pins, 20 of which can be switched to 1.8 V; Nine differential analogue inputs; Eight general-purpose LEDs; a 100 MHz on-board clock that can be manipulated internally by the FPGA; a USB-C connector to configure and power the board; and a USB to serial interface for data transfer. To make getting started even easier, all Alchitry boards have full Lucid support, a built-in library of useful components to use in your project, and a debugger! Features Artix 7 XC7A35T-1C - 33,280 logic cells 256 MB DDR3 RAM 102 IO pins (3.3 V logic level, 20 of them can be switched to 1.8 V for LVDS) Nine differential analogue inputs (One dedicated, Eight mixed with digital IO) USB-C to configure and power the board Eight general-purpose LEDs One button (typically used as a reset) 100 MHz on-board clock (can be multiplied internally by the FPGA) Powered with 5 V through USB-C port, 0.1" holes, or headers USB to serial interface for data transfer (up to 12 Mbaud) Qwiic Connector Dimensions: 65 x 45 mm Downloads Datasheet Schematic 3D Model (IGES File) Element Eagle Library

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This small mono amplifier is surprisingly powerful – able to deliver up to 2.5 W into 4-8 Ω impedance speakers. Inside the miniature chip is a class D controller, able to run from 2.0-5.5 V DC. Since the amplifier is a class D, it's very efficient making it perfect for portable and battery-powered projects. It has built-in thermal and over-current protection. There's even a volume trim pot so you can adjust the volume on the board down from the default 24 dB gain. The A+ and A- inputs of the amplifier go through 1.0 µF capacitors, so they are fully 'differential' – if you don't have differential outputs, simply tie the Audio-pin to ground. The output is 'Bridge Tied' – that means the output pins connect directly to the speaker pins, no connection to ground. The output is a high frequency 250 KHz square wave PWM that is then 'averaged out' by the speaker coil – the high frequencies are not heard. All the above means that you can't connect the output into another amplifier, it should drive the speakers directly. The amplifier comes with a fully assembled and tested breakout board, a header to plug it into a breadboard and a 3.5 mm screw-terminal blocks so you can easily attach/detach your speaker. Speaker is not included, we recommend using any 4 Ω or greater impedance speaker. Features Output Power: 2.5 W at 4 Ω, 10% THD (total harmonic distortion), 1.5 W at 8 Ω, 10% THD, with 5.5 V Supply 50 dB PSRR (power supply rejection ratio) at 1 KHz Filterless design, with ferrite bead + capacitors on output. Fixed 24 dB gain, an onboard trim potentiometer for adjusting input volume. Thermal and short-circuit/over-current protection Low current draw: 4 mA quiescent and 0.5 mA in shutdown (due to pull-up resistor on SD pin)

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