De LILYGO T-Panel S3 is een veelzijdig ontwikkelbord ontworpen voor IoT-toepassingen, met een 4-inch IPS LCD-scherm met een resolutie van 480 x 480. Aangedreven door de ESP32-S3-microcontroller, biedt hij 2,4 GHz Wi-Fi- en Bluetooth 5 (LE)-connectiviteit, met 16 MB flashgeheugen en 8 MB PSRAM. Het bord ondersteunt ontwikkelomgevingen zoals Arduino, PlatformIO-IDE en MicroPython. Het bevat met name een capacitieve aanraakinterface, waardoor de mogelijkheden voor gebruikersinteractie worden verbeterd. Ingebouwde functies omvatten Boot (IO00), Reset en twee extra toetsen, die flexibiliteit bieden voor verschillende toepassingen. Deze combinatie van functies maakt de T-Panel S3 geschikt voor een breed scala aan IoT-projecten en besturingsinterfaces voor slimme apparaten. Specificaties MCU1 ESP32-S3 Flash 16 MB PSRAM 8 MB Draadloze connectiviteit 2,4 GHz wifi + Bluetooth 5 (LE) MCU2 ESP32-H2 Flash 4 MB Draadloze connectiviteit IEEE 802.15.4 + Bluetooth 5 (LE) Ontwikkelen Arduino, PlatformIO-IDE, Micropython Display 4,0" 480x480 IPS ST7701S LCD Resolutie 480 x 480 (RGB) Interface SPI + RGB Compatibiliteitsbibliotheek Arduino_GFX, LVGL Ingebouwde functies QWiiCx2 + TF-kaart + antenneESP32 4x knop= S3 (opstarten + RST) + H2 (opstarten + RST) Transceivermodule RS485 Gebruikt een buscommunicatieprotocol UART Inbegrepen 1x T-Panel S3 1x Female pin (2x 8x1.27) Downloads GitHub

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T-PicoC3 is LILYGO's first motherboard with dual MCUs – equipped with Raspberry Pi RP2040 and ESP32-C3 chip (supporting WiFi and Bluetooth).Specifications MCU RP2040 Dual ARM Cortex-M0+ Flash 4 MB Programming language C/C++, MicroPython Support machine leraning library TensorFlow Lite Onboard functions Buttons: IO06+IO07, battery power detection 1.14 inch ST7789V IPS LCD Resolution 135 x 240 Display Full-color TFT Interface 4-Wire SPI Power supply 3.3 V Operating temperature -20~70°C Dimensions 2.4 x 5.3 cm (W x H) DownloadsGitHub

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This book is intended as a highly-practical guide for Hobbyists, Engineers and Scientists wishing to build measurement and control systems to be controlled by a local or remote Personal Computer running the Linux operating system. Both hardware and software aspects of designing typical embedded systems are covered in detail with schematics, code listings and full descriptions. Numerous examples have been designed to show clearly how straightforward it can be to create the interfaces between digital and analog electronics, with programming techniques for creating control software for both local and remote systems. Hardware developers will appreciate the variety of circuits, including a novel, low cost modulated wireless link and will discover how using Matlab® overcomes the need for specialist programming skills. Software developers will appreciate how a better understanding of circuits plus the freedom offered by Linux to directly control at the register level enables them to optimize related programs. There is no need to buy special equipment or expensive software tools in order to create embedded projects covered in this book. You can build such quality systems quickly using popular low-cost electronic components and free distributed or low-cost software tools. Some knowledge of basic electronics plus the very basics of C programming only is required. Many projects in this book are developed using Matlab® being a very popular worldwide computational tool for research in engineering and science. The book provides a detailed description of how to combine the power of Matlab® with practical electronics. With an emphasis on learning by doing, readers are encouraged by examples to program with ease; the book provides clear guidelines as to the appropriate programming techniques “on the fly”. Complete and well-documented source code is provided for all projects. If you want to learn how to quickly build Linux-based applications able to collect, process and display data on a PC from various analog and digital sensors, how to control circuitry attached to a computer, then even how to pass data via a network or control your embedded system wirelessly and more – then this is the book for you! Features of this Book Use the power, flexibility and control offered only by a Linux operating system on a PC. Use a free, distributed downloadable GNU C compiler Use (optional) a low-cost Student Version of Matlab®. Use low-cost electronic sub-assemblies for projects. Improve your skills in electronics, programming, networking and wireless design. A full chapter is dedicated to controlling your sound card for audio input and output purposes. Program sound using OSS and ALSA. Learn how to combine electronic circuits, software, networks and wireless technologies in the complete embedded system.

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Lo-Fi (ESP32 + LoRa combination) is the perfect solution for anyone looking to establish long-range wireless communication in a variety of applications with WiFi capabilities. LoRa offers exceptional range and easy connectivity, it allows you to seamlessly communicate with devices up to 5 km away. Devices provide an efficient and trustworthy choice for long-range wireless communication in addition to WiFi access to link internet clouds best suited for Internet of Things applications, enabling connectivity in remote and challenging settings. Features Device powered by powerful ESP32 S3 WROOM-1 which is having Xtensa dual-core 32-bit LX7 microprocessor, up to 240 MHz Inbuilt Wi-Fi & Bluetooth LE for wireless connectivity Type C interface for Programming/Power 1.14" TFT display for visual interactions GPIO breakouts for interfacing additional peripherals Breadboard compatible for easy DIY breadboarding projects 2 separate user programmable buttons along with Reset and Boot buttons 3.7 V Lithium Battery connector for a portable use case with an onboard charging option Use new generation LoRa spread spectrum to ensure stable communication For LoRa, faster speed and a longer data transmission range of up to 5 km Applications Internet of Things (IoT) Smart Home Automation Agricultural Automation Emergency Services Environmental Monitoring Industrial Automation Specifications Microcontroller: ESP32 S3 WROOM-1 Wireless Interface: WiFi, BLE, LoRa Protocol: 802.11b/g/n, Bluetooth 5.0 Memory Size: 16 MB Flash, 384 kB ROM, 8 MB SRAM Supply Voltage: 5 V Operating Voltage: 3.3 V Display Size: 1.14” Display Type: TFT Display resolution: 135 x 240 pixels Display driver: ST7789V Display Appearance: RGB Display color: 4k/65k/252k Display Luminance: 400 Cd/m² Operating Temperature: -20 to 70°C Storage Temperature: -30 to 80°C LoRa Module Specs: Carrier Frequency (License Free ISM): 868 MHz Chip: Based on SX1262 RF chip Range: 5Km Transmitting Power: 22 dBm Receiving Sensitivity: -147 dbm Data Rate: Up to 62.5 kbps Communication Port: UART serial Downloads Getting started guide Hardware design files Included 1x Lo-Fi Board 1x Antenna (868 MHz)

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PC USB Logic Analyzers with Arduino, Raspberry Pi, and Co. Step-by-step instructions guide you through the analysis of modern protocols such as I²C, SPI, UART, RS-232, NeoPixel, WS28xx, HD44780 and 1-Wire protocols. With the help of numerous experimental circuits based on the Raspberry Pi Pico, Arduino Uno and the Bus Pirate, you will learn the practical application of popular USB logic analyzers. All the experimental circuits presented in this book have been fully tested and are fully functional. The necessary program listings are included – no special programming or electronics knowledge is required for these circuits. The programming languages used are MicroPython and C along with the development environments Thonny and Arduino IDE. This book uses several models of flexible and widely available USB logic analyzers and shows the strengths and weaknesses of each price range. You will learn about the criteria that matter for your work and be able to find the right device for you. Whether Arduino, Raspberry Pi or Raspberry Pi Pico, the example circuits shown allow you to get started quickly with protocol analysis and can also serve as a basis for your own experiments. After reading this book, you will be familiar with all the important terms and contexts, conduct your own experiments, analyze protocols independently, culminating in a comprehensive knowledge set of digital signals and protocols.

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PC USB Logic Analyzers with Arduino, Raspberry Pi, and Co. Step-by-step instructions guide you through the analysis of modern protocols such as I²C, SPI, UART, RS-232, NeoPixel, WS28xx, HD44780 and 1-Wire protocols. With the help of numerous experimental circuits based on the Raspberry Pi Pico, Arduino Uno and the Bus Pirate, you will learn the practical application of popular USB logic analyzers. All the experimental circuits presented in this book have been fully tested and are fully functional. The necessary program listings are included – no special programming or electronics knowledge is required for these circuits. The programming languages used are MicroPython and C along with the development environments Thonny and Arduino IDE. This book uses several models of flexible and widely available USB logic analyzers and shows the strengths and weaknesses of each price range. You will learn about the criteria that matter for your work and be able to find the right device for you. Whether Arduino, Raspberry Pi or Raspberry Pi Pico, the example circuits shown allow you to get started quickly with protocol analysis and can also serve as a basis for your own experiments. After reading this book, you will be familiar with all the important terms and contexts, conduct your own experiments, analyze protocols independently, culminating in a comprehensive knowledge set of digital signals and protocols.

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Double Backlit User Interface: The dual backlit button is just like the single backlit button, but twice the fun! Use this component when you need to operate something up and down, or right to left. Using cut-out vinyl, you can create icons and stickers on fabric that show your users button functionality. Features Component: 4.6' x 6.3' Individual Button Size: 1' radius circle Press Durability: Up to 10,000 presses under 5lbf LED Voltage: 5 V

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Like the mini pressure sensor, but bigger! Our 3x3 mega pressure matrix has 6 leads, allowing you to map which point you are at in the 3x3 matrix and get a pressure mapping over a surface. Each area has an analog readout that varies depending on the weight of the item on the pressure sensor. Generally, sensor values will read from 500 Kohms to 100 ohms depending on the force put onto the sensor. Features Component: 5' x 6.5 Sensing Area 3.0' Square Thickness: Approx 20 mils

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The single backlit button is a simple mechanical switch that comes with an LED inside. When you press the button, the circuit is completed, driving your pin high or low. Use the embedded LED to make a glowing power icon, logo , or whatever suits your fancy. Features Press durability: Up to 10,000 times pressing under 5lbf (22.24 N) LED Voltage: 5 V Component: 2' x 3' Individual (5,08 cm x 7,62 cm) Button Size: 1' radius circle (2,54 cm)

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Deze LR1302 module is een LoRaWAN gateway module van de nieuwe generatie. Zijn vormfactor is gebaseerd op mini-PCIe, en hij heeft een laag stroomverbruik en hoge prestaties. Voorzien van de SX1302 LoRaWAN baseband chip van Semtech Network biedt de LR1302 gateway module diverse gateway functies met potentieel de capaciteit voor draadloze transmissie over lange afstanden. Vergeleken met de vorige SX1301 en SX1308 LoRa chips heeft de SX1302 chip een hogere gevoeligheid, een lager stroomverbruik en een lagere bedrijfstemperatuur. Hij ondersteunt 8-kanaals gegevensoverdracht, verbetert de communicatie efficiëntie en capaciteit, en ondersteunt de verbindingen en gegevensoverdracht naar meer apparaten. Hij heeft twee antenne interfaces, één voor het verzenden en ontvangen van LoRa-signalen en één U.FL (IPEX) interface voor onafhankelijke transmissie. Hij heeft ook een metalen afscherming om te beschermen tegen externe interferentie, en om een betrouwbare communicatieomgeving te bieden. De LR1302 is speciaal ontworpen voor IoT, en is derhalve geschikt voor een verscheidenheid aan IoT toepassingen. Of het nu gaat om gebruik in smart cities, landbouw, industriële automatisering of andere gebieden, de LR1302 module kan betrouwbare verbindingen en efficiënte gegevensoverdracht bieden. Kenmerken Maakt gebruik van de Semtech SX1302 baseband LoRa chip met extreem laag stroomverbruik en uitstekende prestaties De Mini-PCIe vormfactor en het compact ontwerp maken het gemakkelijker om hem te integreren in verschillende gateway-apparaten, en maakt hem geschikt voor toepassingen met beperkte ruimte, en biedt flexibele implementatieopties Ondersteuning van 8-kanaals datatransmissie, zorgt voor betere communicatie-efficiëntie en capaciteit Ultra-lage bedrijfstemperatuur elimineert de noodzaak van extra koeling, en verkleint de afmeting van de LoRaWAN gateway Gebruikt het SX1250 TX/RX front-end met een gevoeligheid tot -139 dBm@SF12; TX-vermogen tot 26 dBm @3,3 V Specificaties Frequentie 863 - 870 MHz (EU868) Chipset Semtech SX1302 chip Gevoeligheid -125 dBm @125K/SF7-139 dBm @125K/SF12 TX vermogen 26 dBm (met 3,3 V voeding) Bandbreedte 125/250/500 kHz Kanalen 8 kanaals LED's Power: GroenConfig: RoodTX: GroenRX: Blauw Vormfactor Mini PCIe, 52-pins Golden Finger Stroomverbruik (SPI-versie) Stand-by: 7,5 mATX maximaal vermogen: 415 mARX: 40 mA Stroomverbruik (USB-versie) Stand-by: 20 mATX maximaal vermogen: 425 mARX: 53 mA LBT (Listen Before Talk) Ondersteund Antenne connector U.FL Bedrijfstemperatuur -40 tot 85°C Afmetingen (B x L) 30 x 50,95 mm Note De LR1302 LoRaWAN Gateway Module is niet inbegrepen. Downloads Wiki SX1302 Datasheet Schema

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An Introduction to Circuit Simulation LTspice, developed by Analog Devices, is a powerful, fast, and free SPICE simulator, schematic capture, and waveform viewer with a large database of components supported by SPICE models from all over the world. Drawing a schematic in LTspice is easy and fast. Thanks to its powerful graphing features, you can visualize the voltages and currents in a circuit, and also the power consumption of its components and much more. This book is about learning to design and simulate electronic circuits using LTspice. Among others, the following topics are treated: DC and AC circuits Signal diodes and Zener diodes Transistor circuits including oscillators Thyristor/SCR, diac, and triac circuits Operational amplifier circuits including oscillators The 555 timer IC Filters Voltage regulators Optocouplers Waveform generation Digital logic simulation including the 74HC family SPICE modeling LTspice is a powerful electronic circuit simulation tool with many features and possibilities. Covering them all in detail is not possible in a book of this size. Therefore, this book presents the most common topics like DC and AC circuit analysis, parameter sweeping, transfer functions, oscillators, graphing, etc. Although this book is an introduction to LTspice, it covers most topics of interest to people engaged in electronic circuit simulation. The book is aimed at electronic/electrical engineers, students, teachers, and hobbyists. Many tested simulation examples are given in the book. Readers do not need to have any computer programming skills, but it will help if they are familiar with basic electronic circuit design and operation principles. Readers who want to dive deeper can find many detailed tutorials, articles, videos, design files, and SPICE circuit models on the Internet. All the simulation examples used in the book are available as files at the webpage of this book. Readers can use these example circuits for learning or modify them for their own applications.

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An Introduction to Circuit Simulation LTspice, developed by Analog Devices, is a powerful, fast, and free SPICE simulator, schematic capture, and waveform viewer with a large database of components supported by SPICE models from all over the world. Drawing a schematic in LTspice is easy and fast. Thanks to its powerful graphing features, you can visualize the voltages and currents in a circuit, and also the power consumption of its components and much more. This book is about learning to design and simulate electronic circuits using LTspice. Among others, the following topics are treated: DC and AC circuits Signal diodes and Zener diodes Transistor circuits including oscillators Thyristor/SCR, diac, and triac circuits Operational amplifier circuits including oscillators The 555 timer IC Filters Voltage regulators Optocouplers Waveform generation Digital logic simulation including the 74HC family SPICE modeling LTspice is a powerful electronic circuit simulation tool with many features and possibilities. Covering them all in detail is not possible in a book of this size. Therefore, this book presents the most common topics like DC and AC circuit analysis, parameter sweeping, transfer functions, oscillators, graphing, etc. Although this book is an introduction to LTspice, it covers most topics of interest to people engaged in electronic circuit simulation. The book is aimed at electronic/electrical engineers, students, teachers, and hobbyists. Many tested simulation examples are given in the book. Readers do not need to have any computer programming skills, but it will help if they are familiar with basic electronic circuit design and operation principles. Readers who want to dive deeper can find many detailed tutorials, articles, videos, design files, and SPICE circuit models on the Internet. All the simulation examples used in the book are available as files at the webpage of this book. Readers can use these example circuits for learning or modify them for their own applications.

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LuckFox Pico Mini is een compact Linux-micro-ontwikkelbord gebaseerd op de Rockchip RV1103-chip en biedt een eenvoudig en efficiënt ontwikkelingsplatform voor ontwikkelaars. Het ondersteunt een verscheidenheid aan interfaces, waaronder MIPI CSI, GPIO, UART, SPI, I²C, USB, enz., wat handig is voor snelle ontwikkeling en foutopsporing. Kenmerken Single-core ARM Cortex-A7 32-bit kern met geïntegreerde NEON en FPU Ingebouwde, door Rockchip zelf ontwikkelde NPU van de 4e generatie, beschikt over een hoge computerprecisie en ondersteunt int, int8 en int16 hybride kwantisering. De rekenkracht van int8 is 0,5 TOPS, en tot 1,0 TOPS met int4 Ingebouwde, zelfontwikkelde ISP3.2 van de derde generatie, ondersteunt 4-megapixel, met meerdere beeldverbeterings- en correctie-algoritmen zoals HDR, WDR, ruisonderdrukking op meerdere niveaus, enz. Beschikt over krachtige coderingsprestaties, ondersteunt intelligente coderingsmodus en adaptieve streambesparing afhankelijk van de scène, bespaart meer dan 50% bitsnelheid van de conventionele CBR-modus, zodat de beelden van de camera high-definition zijn met een kleiner formaat, dubbele opslag spatie Ingebouwde RISC-V MCU ondersteunt een laag stroomverbruik en snel opstarten, ondersteunt 250 ms snelle beeldopname en laden van de AI-modelbibliotheek tegelijkertijd om gezichtsherkenning "in één seconde" te realiseren Ingebouwde 16-bit DRAM DDR2, die veeleisende geheugenbandbreedtes kan ondersteunen Geïntegreerd met ingebouwde POR, audiocodec en MAC PHY Specificaties Processor ARM Cortex-A7, single-core 32-bit CPU, 1,2 GHz, met NEON en FPU NPU Rockchip 4e generatie NPU, ondersteunt int4, int8, int16; tot 1,0 TOPS (int4) ISP Derde generatie ISP3.2, invoer tot 4 MP bij 30 fps, HDR, WDR, ruisonderdrukking RAM 64 MB DDR2 Geheugen 128 MB SPI NAND-flash USB USB 2.0-host/apparaat via Type-C Camera-interface MIPI CSI 2-baans GPIO-pinnen 17 GPIO-pinnen Stroomverbruik Laag stroomverbruik, RISC-V MCU voor snel opstarten Afmetingen 28 x 21 mm Downloads Wiki

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De LuckFox Pico Ultra is een compacte single-board computer (SBC) die wordt aangestuurd door de Rockchip RV1106G3-chipset, ontworpen voor AI-verwerking, multimedia en low-power embedded-toepassingen. Hij is uitgerust met een ingebouwde 1 TOPS NPU, waardoor hij ideaal is voor edge AI-werklasten. Met 256 MB RAM, 8 GB onboard eMMC-opslag, geïntegreerde wifi en ondersteuning voor de LuckFox PoE-module levert het bord zowel prestaties als veelzijdigheid in een breed scala aan use cases. De LuckFox Pico Ultra draait op Linux en ondersteunt verschillende interfaces, waaronder MIPI CSI, RGB LCD, GPIO, UART, SPI, I²C en USB. Dit biedt een eenvoudig en efficiënt ontwikkelplatform voor toepassingen in smart home, industriële besturing en IoT. Specificaties Chip Rockchip RV1106G3 Processor Cortex A7 1,2 GHz Neurale netwerkprocessor (NPU) 1 TOPS, ondersteunt int4, int8, int16 Beeldprocessor (ISP) Max. invoer 5M @30fps Geheugen 256 MB DDR3L WiFi + Bluetooth 2,4GHz WiFi-6 Bluetooth 5.2/BLE Camera-interface MIPI CSI 2-lane DPI-interface RGB666 PoE-interface IEEE 802.3af PoE Luidsprekerinterface MX1,25 mm USB USB 2.0-host/apparaat GPIO 30 GPIO pinnen Ethernet 10/100M Ethernet-controller en ingebedde PHY Standaardopslagmedium eMMC (8 GB) Inbegrepen 1x LuckFox Pico Ultra W 1x LuckFox PoE module 1x IPX 2.4G 2 db-antenne 1x USB-A naar USB-C kabel 1x Schroevenpakket Downloads Wiki

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De M12-mountlens (12 MP, 8 mm) is ideaal voor gebruik met de Raspberry Pi HQ Cameramodule en levert scherpe, gedetailleerde beelden voor uiteenlopende toepassingen.

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De M12-mountlens (5 MP, 25 mm) is ideaal voor gebruik met de Raspberry Pi HQ Cameramodule en levert scherpe, gedetailleerde beelden voor uiteenlopende toepassingen.

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De M12-Mount groothoeklens (12 MP, 2,7 mm) is ideaal voor gebruik met de Raspberry Pi HQ Cameramodule en levert scherpe, gedetailleerde beelden voor een breed scala aan toepassingen.

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M5Atom Joystick is een veelzijdige programmeerbare afstandsbediening met dubbele joystick, met de AtomS3 als hoofdcontroller, terwijl een STM32 de co-verwerkingsfuncties afhandelt. Hij is uitgerust met twee 5-weg joysticks met Hall-sensoren, twee functieknoppen en ingebouwde RGB-LED's voor mens-machine-interactie en statusindicatie. Het apparaat bevat twee hoogspanningslaadcircuits voor de batterij. Het wordt vooraf geladen met de Stamp Fly-besturingsfirmware en communiceert met Stamp Fly via het ESP-NOW-protocol. De broncode van de firmware is open source. Dit product is geschikt voor dronebesturing, robotbesturing, slimme auto's en diverse doe-het-zelfprojecten. Toepassingen Dronebesturing Robotbesturing Slimme auto's DIY-projecten Kenmerken STM32F030F4P6 Uitgerust met M5AtomS3 Compatibel met Atom Lite, Atom Matrix, AtomS3 Lite, AtomS3 Dubbele joysticks, dubbele knoppen, tuimelschakelaar WS2812 RGB-LED's Dubbele hoogspanningscircuits voor het opladen van lithiumbatterijen Batterijdetectie Specificaties MCU STM32F030F4P6 RGB WS2812C Oplaad-IC TP4067 @ 4,35 V Batterij 300 mAh Laadstroom 500 mA Knop Links/Rechts-knop Zoemer Ingebouwde passieve zoemer @ 5020 Bedrijfstemperatuur 0-40°C Afmetingen 84 x 60 x 31,5 mm Gewicht 63,5 g Inbegrepen 1x Atom JoyStick 1x 300 mAh hoogspannings-lithiumbatterij Downloads Documentation

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ATOM U is a compact low-power consumption speech recognition IoT development kit. It adopts an ESP32 chipset, equipped with 2 low-power Xtensa 32-bit LX6 microprocessors with the main frequency of up to 240 MHz. Built-in USB-A interface, IR emitter, programmable RGB LED. Plug-and-play, easy to upload and download programs. Integrated Wi-Fi and digital microphone SPM1423 (I2S) for the clear sound record. suitable for HMI, Speech-to-Text (STT). Low-code development ATOM U supports UIFlow graphical programming platform, scripting-free, cloud push; Fully compatible with Arduino, MicroPython, ESP32-IDF, and other mainstream development platforms, to quickly build various applications. High integration ATOM U contains a USB-A port for programming/power supply, IR emitter, programmable RGB LED x1, button x1; Finely tuned RF circuit, providing stable and reliable wireless communication. Strong expandability ATOM U is easy access to M5Stack's hardware and software system. Features ESP32-PICO-D4 (2.4GHz Wi-Fi dual mode) Integrated programmable RGB LED and button Compact design Built-in IR emitter Expandable pinout and GROVE port Development platform: UIFlow MicroPython Arduino Specifications ESP32-PICO-D4 240MHz dual core, 600 DMIPS, 520KB SRAM, 2.4G Wi-Fi Microphone SPM1423 Microphone sensitivity 94 dB SPL@1 KHz Typical value: -22 dBFS Microphone signal-to-noise ratio 94 dB SPL@1 KHz, A-weighted Typical value: 61.4 dB Standby working current 40.4 mA Support input sound frequency 100 Hz ~ 10 KHz Support PDM clock frequency 1.0 ~ 3.25 MHz Weight 8.4 g Product size 52 x 20 x 10 mm Downloads Documentation

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The M5Stack Core Ink Development Kit is a new E-Ink display that uses an ESP32-Pico-D4 to take advantage of the benefits of the E-Ink technology. E-Ink displays are easier on the eyes, have extremely low power consumption and can retain an image even after they have run out of power. Features ESP32 Standard wireless functions WiFi, Bluetooth Internal 4M Flash Low Power Display 180-degree viewing angle Expansion ports Built-in Magnet Internal Battery Multi-function button Status LED Buzzer Deep Sleep functionality Applications IoT Terminal E-Book Industrial Control Panel Electronic Tag Included 1x CoreInk 1x LiPo 390 mAh 1x Type-C USB(20cm) Please note: avoid long-time high-frequency refresh when using it. The recommended refresh interval is (15s/time). Do not expose to ultraviolet rays for a long time, otherwise, it may cause irreversible damage to the ink screen.

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PROTO board wordt gebruikt als een Core Extensions functie. Geschikt met Arduino en ESP32

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