The PC has long-time outgrown its function as a pure computer and has become an all-purpose machine. This book is targeted towards those people that want to control existing or self-built hardware from their computer. Using Visual Basic as Rapid Application Development tool we will take you on a journey to unlock the world beyond the connectors of the PC. After familiarising yourself with Visual Basic, its development environment and the toolset it offers, items such as serial communications, printer ports, bit-banging, protocol emulation, ISA, USB and Ethernet interfacing and the remote control of test-equipment over the GPIB bus, are covered in extent. Each topic is accompanied by clear, ready to run code, and where necessary, schematics are provided that will get your projects up to speed in no time. This book will show you advanced things like: using tools like Debug to find hardware addresses, setting up remote communication using TCP/IP and UDP sockets and even writing your own internet servers. Or how about connecting your own block of hardware over USB or Ethernet and controlling it from Visual Basic. Other things like internet-program communication, DDE and the new graphics interface of Windows XP are covered as well. All examples are ready to compile using Visual Basic 5.0, 6.0, NET or 2005. Extensive coverage is given on the differences between what could be called Visual Basic Classic and Visual basic .NET / 2005.

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STmicroelectronics’ wireless IoT & wearable sensor development kit ‘SensorTile.box’ is a portable multi-sensor circuit board housed in a plastic box and developed by STMicroelectronics. It is equipped with a high-performance 32-bit ARM Cortex-M4 processor with DSP and FPU, and various sensor modules, such as accelerometer, gyroscope, temperature sensor, humidity sensor, atmospheric pressure sensor, microphone, and so on. SensorTile.box is ready to use with wireless IoT and Bluetooth connectivity that can easily be used with an iOS or Android compatible smartphone, regardless of the level of expertise of the users. SensorTile.box is shipped with a long-life battery and all the user has to do is connect the battery to the circuit to start using the box. The SensorTile.box can be operated in three modes: Basic mode, Expert mode, and Pro mode. Basic mode is the easiest way of using the box since it is pre-loaded with demo apps and all the user has to do is choose the required apps and display or plot the measured data on a smartphone using an app called STE BLE Sensor. In Expert mode users can develop simple apps using a graphical wizard provided with the STE BLE Sensor. Pro mode is the most complex mode allowing users to develop programs and upload them to the SensorTile.box. This book is an introduction to the SensorTile.box and includes the following: Brief specifications of the SensorTile.box; description of how to install the STE BLE Sensor app on an iOS or Android compatible smartphone required to communicate with the box. Operation of the SensorTile.box in Basic mode is described in detail by going through all of the pre-loaded demo apps, explaining how to run these apps through a smartphone. An introduction to the Expert mode with many example apps developed and explained in detail enabling users to develop their own apps in this mode. Again, the STE BLE Sensor app is used on the smartphone to communicate with the SensorTile.box and to run the developed apps. The book then describes in detail how to upload the sensor data to the cloud. This is an important topic since it allows the sensor measurements to be accessed from anywhere with an Internet connection, at any time. Finally, Pro mode is described in detail where more experienced people can use the SensorTile.box to develop, debug, and test their own apps using the STM32 open development environment (STM32 ODE). The Chapter explains how to upload the developed firmware to the SensorTile.box using several methods. Additionally, the installation and use of the Unicleo-GUI package is described with reference to the SensorTile.box. This PC software package enables all of the SensorTile.box sensor measurements to be displayed or plotted in real time on the PC.

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Le monde de l'électronique est à la fois vaste et… tout petit ! Voici un livre qui confirme ces deux constatations contradictoires. En effet, en électronique, tout touche à tout, d'une manière ou d'une autre. Le plus petit détail peut avoir les plus grandes conséquences, et pas toujours celles que l'on attendrait. L'objectif de l'auteur de cette série d'articles autonomes intitulée hors-circuits, réunis ici en un livre, n'est pas de vous tenir par la main. Robert Lacoste, électronicien professionnel de haut-niveau, vous donne des pistes pour comprendre ce qui paraît mystérieux. Il vous guide juste assez pour vous permettre ensuite de progresser tout seul. Avec lui, non seulement vous repousserez vos propres limites, mais saurez aussi détecter celles du matériel et du logiciel que vous utilisez. En vous invitant à repasser par les notions de physique de base, il vous permettra de séparer les véritables progrès techniques des laïus commerciaux. Les bases, ça peut mener loin D'où vient la sensibilité d'un récepteur d'ondes radio ? Pourquoi le téléchargement d'une vidéo sur votre portable est-il beaucoup plus lent à la campagne qu'en centre-ville ? Si pour vous la réponse technique à des questions comme celles-ci (et bien d'autres que vous n'osez peut-être même pas vous poser) n'est pas évidente, ce livre vous aidera à y voir plus clair. Oui, on peut être à l'aise avec les microcontrôleurs, mais dérouté par le comportement d'un simple transistor. Vous sentez-vous concerné par de telles interrogations ? Ce livre est donc pour vous. Sans aucune formule mathématique qui ne soit pas à la portée d'un lycéen, il balaye tout le champ de l'électronique, depuis l'analogique jusqu'au traitement numérique du signal en passant par le domaine si redouté des hautes-fréquences. La théorie ne s'y éloigne jamais beaucoup de la loi d'Ohm ! Avec des mots simples, l'auteur explique comment ça marche, pourquoi parfois ça ne marche pas comme on veut, et comment mieux utiliser différentes techniques dans vos propres projets pour que ça marche. Liste des sujets abordés : adaptation d'impédance : qu'est-ce-que c'est ? petite introduction aux microrubans jouons avec la réflectométrie temporelle circuits imprimés : éviter les bourdes en HF et avec les fréquences élevées le marquage CE pour les béotiens le quartz magie de la PLL VCO & PLL : pour obtenir des fréquences à la fois précises, stables et variables synthèse numérique directe : une introduction comprendre l'amplificateur à transistor : sexagénaire vaillant ampli de classe A, B, C, D, E, F, G, H : quesako ? le filtrage numérique sans stress : les filtres FIR le filtrage numérique sans stress : les filtres CIC le filtrage numérique sans stress : les filtres IIR l'ABC des CA/N DNL, INL, SNR, SINAD, ENOB, SFDR et consorts l'ABC des CA/N sigma-delta, quésaco ? bruit et sensibilité des récepteurs échange débit contre portée

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40+ Projects using Arduino, Raspberry Pi and ESP32 This book is about developing projects using the sensor-modules with Arduino Uno, Raspberry Pi and ESP32 microcontroller development systems. More than 40 different sensors types are used in various projects in the book. The book explains in simple terms and with tested and fully working example projects, how to use the sensors in your project. The projects provided in the book include the following: Changing LED brightness RGB LEDs Creating rainbow colours Magic wand Silent door alarm Dark sensor with relay Secret key Magic light cup Decoding commercial IR handsets Controlling TV channels with IT sensors Target shooting detector Shock time duration measurement Ultrasonic reverse parking Toggle lights by clapping hands Playing melody Measuring magnetic field strength Joystick musical instrument Line tracking Displaying temperature Temperature ON/OFF control Mobile phone-based Wi-Fi projects Mobile phone-based Bluetooth projects Sending data to the Cloud The projects have been organized with increasing levels of difficulty. Readers are encouraged to tackle the projects in the order given. A specially prepared sensor kit is available from Elektor. With the help of this hardware, it should be easy and fun to build the projects in this book.

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If you are searching for a possibility to keep your Raspberry Pi cool, than this mini fan is the perfect possibility for this. The active cooler is ready to use right after pluging in the two GPIO pins into the 5V and GND GPI-O port. The cooler is compatible to all Raspberry Pis and is perfect to keep them cool, even under full load. Voltage: 5 V Current: 0.2 A Dimensions: 30 x 30 x 7 mm

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Features Dual-Core 64-bit RISC-V RV64IMAFDC (RV64GC) CPU / 400Mhz(Normal) Dual Independent Double Precision FPU 8MiB 64bit width On-Chip SRAM Neural Network Processor(KPU) / 0.8Tops Field-Programmable IO Array (FPIOA) AES, SHA256 Accelerator Direct Memory Access Controller (DMAC) Micropython Support Firmware encryption support On-board Hardware: Flash: 16M Camera :OV7740 2x Buttons Status Indicator LED External storage: TF card/Micro SD Interface: HY2.0/compatible GROVE Applications Face recognition/detection Object detection/classification Obtain the size and coordinates of the target in real-time Obtain the type of detected target in real-time Shape recognition Video recorder Included 1x UNIT-V(include 20cm 4P cable and USB-C cable)

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Set of 4 extra long pin headers (pins 15 mm). 1x 6 pins 2x 8 pins 1x 10 pins Usable for Arduino and other projects.

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De PeakTech 1094 tweepolige spanningstester is een betrouwbaar en praktisch instrument voor het meten van spanningen tot 400 V. Hij maakt gebruik van LED-indicatoren om spanningsniveaus van 12 V, 24 V, 50 V, 120 V, 240 V en 400 V weer te geven. Het apparaat ondersteunt zowel AC- als DC-spanningsmetingen en detecteert en toont automatisch de polariteit bij het meten van DC-spanningen – handmatig schakelen tussen AC en DC is niet nodig. Deze tester werkt zonder batterijen, waardoor hij altijd klaar is voor gebruik, zelfs na langere tijd niet gebruikt te zijn. Met zijn IP54-beschermingsgraad is de PeakTech 1094 robuust en bestand tegen stof en spatwater, waardoor hij geschikt is voor zowel binnen- als buitengebruik. Specificaties DC-spanning (max.) 400 V AC-spanning (max.) 400 V Overspanningscategorie CAT III 400 V Nauwkeurigheid -30% tot 0% van de meetwaarde Spanningstest Automatisch Polariteitscontrole Volledige meetbereik Bereik selectie Automatisch Reactietijd <0,1 s AC-spanningsfrequentiebereik 50/60 Hz Afmetingen 223 x 40 x 32 mm Gewicht 95 g Downloads Manual

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De ESP8266 van Espressif is een Wi-Fi microchip met volledige TCP/IP stack en functionaliteit van een microcontroller. Het heeft indruk gemaakt in de maker community met zijn lage prijs. Maar veel ontwikkelaars waren ontevreden over het hoge stroomverbruik van de ESP8266. De ESP32, uitgerust met een ULP (Ultra Low Power) coprocessor, biedt hiervoor een oplossing. Dit e-book bevat een aantal projecten met ESP32 & ESP8266 en een interview met de CEO Teo Swee Ann van Espressif. Artikelen Lichtkrant met ESP-12F, 512 LED’s via WiFi aansturen VFD-klok met ESP32, met nauwkeurige internettijd Zuinige ESP32, de programmering van de ULP-coprocessor DCF77-emulator met ESP8266, internettijd vervangt draadloze tijd WiFi desktop-thermostaat, flexibele en programmeerbare temperatuurregeling Timers voor de WiFi desktop-thermostaat, zeven kanalen met atoomprecisie Zwitsers zakmes voor microcontrollers, PlatformIO als universeel programmeertool ESP8266 USB-programmeer-adapter voor de Espressif-modules ESP-01 en ESP-012 De ESP8266 op het Android I/O-board, zelf nieuwe firmware flashen Weerdisplay, actuele weersinformatie op een kleuren-LCD GoNotify, een flexibele IoT sensor-interface. Join the bubble! CV-monitor met ESP8266, domotica voor de overgang naar duurzame energie MicroPython en het pyboard, van een knipperende LED naar … een knipperende LED aan een webserver De grote broer van de ESP8266, de eerste stappen met de ESP32 en de Arduino-IDE RGBDigit klok, een kleurrijk 7-segment-display voor uw data WLAN voor microcontrollers, besturen met de ESP8266 De terugkeer van de Wi-Fi-besturingskaart, apparatuur bedienen met uw smartphone Compact en autonoom WLAN, handig gebruik van de ESP8266 zonder MCU

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Mastering the Language and the Development PlatformMany people would like to learn Java but getting started is not easy since programming with Java requires at least two things: mastering the programming language and the development environment. With the help of many examples, this book shows how the language is structured. In addition, it employs the Eclipse development environment as an example of a powerful tool to teach developing Java programs.In Basics, the first part of the book, you acquire your Java and Eclipse basic knowledge. This part lays the programming foundations, gives you an overview of Java technology, and shows you what is special about object-oriented programming.In the second part called Java Language, everything revolves around the subtleties of the Java language and this is where the first small Java applications are created, aided by a fine blend of the knowledge part and practical exercises.Java Technology is both the name and the focus of the third part which also introduces you to the rules to observe when programming, what class libraries are and what advantages they have. In addition, you will learn how to test programs, what algorithms are, and how to program them.The fourth part, Java Projects, enables you to apply all the previous elements in an application with a graphical user interface. The project shows how to develop a larger application piece by piece with the Eclipse development environment. The Appendix concludes with a section on frequent errors that can occur when working with Eclipse, and a Glossary.

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De SparkFun GPS-RTK2 verhoogt de lat voor hoge precisie GPS en is de nieuwste in een reeks van krachtige RTK kaarten met de ZED-F9P module van u-blox. De ZED-F9P is een top-of-the-line module voor hoge nauwkeurigheid GNSS en GPS locatie-oplossingen, met inbegrip van RTK in staat tot 10mm, drie-dimensionale nauwkeurigheid. Met deze kaart, zult u in staat zijn om te weten waar uw (of een object) X, Y, en Z locatie is binnen ruwweg de breedte van uw vingernagel! De ZED-F9P is uniek omdat hij zowel als rover als basis station kan werken. Door gebruik te maken van ons handige Qwiic systeem, hoeft u niet te solderen om hem aan te sluiten op de rest van uw systeem. We hebben echter nog steeds 0,1'-spaced pinnen als u liever een breadboard gebruikt. We hebben zelfs een oplaadbare backupbatterij ingebouwd om de laatste moduleconfiguratie en satellietgegevens tot twee weken lang beschikbaar te houden. Deze batterij helpt bij het 'warm-starten' van de module, waardoor de tijd tot de eerste fix drastisch wordt verkort. Deze module beschikt over een survey-in modus waardoor de module een basisstation kan worden en RTCM 3.x correctiegegevens kan produceren. Het aantal configuratiemogelijkheden van de ZED-F9P is ongelofelijk! Geofencing, variabel I2C-adres, variabele updatefrequenties, zelfs de hoge precisie RTK-oplossing kan worden verhoogd tot 20Hz. De GPS-RTK2 heeft zelfs vijf communicatiepoorten die allemaal tegelijk actief zijn: USB-C (die als COM-poort wordt geteld), UART1 (met 3,3V TTL), UART2 voor RTCM-ontvangst (met 3,3V TTL), I2C (via de twee Qwiic-connectoren of uitgevallen pinnen), en SPI. Sparkfun heeft ook een uitgebreide Arduino bibliotheek voor u-blox modules geschreven om de GPS-RTK2 gemakkelijk uit te lezen en te besturen via het Qwiic Connect System. Laat NMEA achter! Begin met het gebruik van een veel lichter gewicht binaire interface en geef je microcontroller (en zijn ene seriële poort) een pauze. De SparkFun Arduino bibliotheek laat zien hoe je breedtegraad, lengtegraad, zelfs koers en snelheid over I2C kunt lezen zonder de noodzaak van constante seriële polling. Features Parallel ontvangst van GPS, GLONASS, Galileo en BeiDou Ontvangt zowel L1C/A als L2C banden Spanning: 5 V of 3,3 V, maar alle logica is 3,3 V Stroom: 68 mA - 130 mA (varieert met constellaties en volgstatus) Tijd tot eerste fix: 25 s (koud), 2 s (warm) Maximale navigatiesnelheid: PVT (basis locatie over UBX binair protocol) - 25 Hz RTK - 20 Hz Raw - 25 Hz Horizontale Positie Nauwkeurigheid: 2,5 m zonder RTK 0,010 m met RTK Max Hoogte: 50k m Max Snelheid: 500 m/s Gewicht: 6.8 g Afmetingen: 43,5 mm x 43,2 mm 2 x Qwiic aansluitingen

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As demand for solar panel installation has risen sharply, especially for installations larger than balcony power plants, the order books of solar companies are full. If you ask for a quote today, you may have to wait a while, if your request isn't simply postponed indefinitely. Another consequence of the solar boom is that some companies are charging very high prices for installations. Yet there is an obvious and radical solution to the problem of excessive prices: Do it yourself, as the English say. The price of materials is currently affordable, and it's the ideal time for those who do the work themselves. They couldn't save more. Add to this the satisfaction of doing something useful, both economically and ecologically, and the pleasure of building yourself. In this special issue, you'll find a wide selection of Elektor assemblies, from solar panel controllers to solar water heaters and solar panel orientation systems. The issue also contains practical information on solar panel installation and the technology behind them. Finally, there are a number of articles on the subject of balcony power plants, from how to install them to how to connect them to the Internet... Contents BASICS Dimensioning Photovoltaic Panel ArraysAn introduction to photovoltaic energy and the commonest techniques,followed by simplified calculation models and setup guidelines. Light Sensor TechnologyMeasuring daylight using LEDs. Solar Power Made SimpleSolar charging with and without a controller. Cable Cross-sections and Energy Losses in Solar SystemsKey considerations on the minimum values to respect for electricalcurrent in solar panel cabling. Solar ModulesEverything you always wanted to know about solar panels... Ideal Diode ControllerDiode Circuits with Low Power Dissipation. TIPS Tracking for Solar Modules zBot Solar/Battery Power Supply Solar Cell Array Charger with Regulator Solar Cell Voltage Regulator Solar-Powered Night Light Alternative Solar Battery Charger PROJECTS Energy LoggerMeasuring and Recording Power Consumption. Tiny Solar SupplySunlight In, 3.3 V Out. A Do-It-Yourself DTURead Data from Small Inverters by μC. Solar ChargerPortable energy for people on the move. Solar Thermal Energy RegulatorMaximum power point tracking explored. 2-amp Maximum Power Tracking ChargerSolar Power To The Max. Computer-driven HeliostatFollow the sun or the stars. Garden LightingUsing solar cells. Solar Panel Voltage Converter for IoT DevicesYes we CAN exploit indoor lighting. Travel ChargerFree power in the mountains. Solar Cell Battery Charger/MonitorWith protection against deep discharge. Solar-powered Battery ChargerPIC12C671 avoids overcharging and deep charging. Converters for Photovoltaic PanelsContributed by TME (Transfer MultisortElektronik). Solar Charging RegulatorFor panels up to 53 watts. Solar-Powered ChargerFor lead-acid batteries. CAN Bus + Arduino for Solar PV Cell MonitoringDetect and locate serviceable panels in large arrays. Balcony Power Plant 2.0The latest: solar panels, installation and inverters

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Program your REKA:BIT with Microsoft MakeCode Editor. Just add REKA:BIT MakeCode Extension and you’re good to go. If you’re a beginner, you can start with the block programming mode; simply drag, drop and snap the coding blocks together. For more advanced users, you can easily switch into JavaScript or Python mode on MakeCode Editor for text-based programming. REKA:BIT possesses a lot of indicator LEDs to assist your coding and troubleshooting. It covers the IO pins connected to all six Grove ports and DC motor outputs from the co-processor. One is able to check his/her program and circuit connection easily by monitoring these LEDs. Besides, REKA:BIT also has a power on/off indicator, undervoltage, and overvoltage LEDs built-in to give appropriate warnings should there be any problem with the power input. REKA:BIT features a co-processor to handle multitasking more efficiently. Playing music while controlling up to 4x servo motors and 2x DC motors, animating micro:bit LED matrix, and even lighting up RGB LEDs in different colors, all at the same time, is not a problem for REKA:BIT. Kenmerken 2x DC motor terminals Built-in motor quick test buttons (no coding needed) 4x Servo motor ports 2x Neopixel RGB LEDs 6x Grove port (3.3 V) 3x Analog Input / Digital IO ports 2x Digital IO ports 1x I²C Interface DC jack for power input (3.6 - 6 VDC) ON/OFF switch Power on indicator Undervoltage (LOW) indicator & protection Over-voltage (HIGH) indicator & protection Dimensions: 10.4 x 72 x 15 mm Inbegrepen 1x REKA:BIT expansion board 1x USB power and data cable 1x 4xAA battery holder 1x Mini screwdriver 3x Grove to female header cable 2x Building block 1x9 lift arm 4x Building block friction pin Please note: micro:bit board not included

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PÚCA DSP is an open-source, Arduino-compatible ESP32 development board for audio and digital signal processing (DSP) applications with expansive audio-processing features. It provides audio inputs, audio outputs, a low-noise microphone array, an integrated test-speaker option, additional memory, battery-charge management, and ESD protection all on a small, breadboard-friendly PCB. Synthesizers, Installations, Voice UI, and More PÚCA DSP can be used for a wide range of DSP applications, including but not limited to those in the fields of music, art, creative technology, and adaptive technology. Music-related examples include digital-music synthesis, mobile recording, Bluetooth speakers, wireless line-level directional microphones, and the design of smart musical instruments. Art-related examples include acoustic sensor networks, sound-art installations, and Internet-radio applications. Examples related to creative and adaptive technology include voice user interface (VUI) design and Web audio for the Internet of Sounds. Compact, Integrated Design PÚCA DSP was designed for portability. When used with an external 3.7 V rechargeable battery, it can be deployed almost anywhere or integrated into just about any device, instrument, or installation. Its design emerged from months of experimentation with various ESP32 development boards, DAC breakout boards, ADC breakout boards, Microphone breakout boards, and audio-connector breakout boards, and – despite its diminutive size – it manages to provide all of that functionality in a single board. And it dos so without compromising signal quality. Specifications Processor & Memory Espressif ESP32 Pico D4 Processor 32-bit dual core 80 MHz / 160 MHz / 240 MHz 4 MB SPI Flash with 8 MB additional PSRAM (Original Edition) Wireless 2.4 GHz Wi-Fi 802.11b/g/n Bluetooth BLE 4.2 3D Antenna Audio Wolfson WM8978 Stereo Audio Codec Audio Line In on 3.5 mm stereo onnector Audio Headphone / Line Out on 3.5 mm stereo connector Stereo Aux Line In, Audio Mono Out routed to GPIO Header 2x Knowles SPM0687LR5H-1 MEMS Microphones ESD protection on all audio inputs and outputs Support for 8, 11.025, 12, 16, 22.05, 24, 32, 44.1 and 48 kHz sample rates 1 W Speaker Driver, routed to GPIO Header DAC SNR 98 dB, THD -84 dB (‘A’ weighted @ 48 kHz) ADC SNR 95 dB, THD -84 dB (‘A’ weighted @ 48 kHz) Line input impedance: 1 MOhm Line output impedance: 33 Ohm Form Factor and Connectivity Breadboard friendly 70 x 24 mm 11x GPIO pins broken out to 2.54 mm pitch header, with access to both ESP32 ADC channels, JTAG and capacitive touch pins USB 2.0 over USB Type C connector Power 3.7/4.2 V Lithium Polymer Rechargeable Battery, USB or external 5 V DC power source ESP32 and Audio Codec can be placed into low power modes under software control Battery voltage level detection ESD protection on USB data bus Downloads GitHub Datasheet Links Crowd Supply Campaign (includes FAQs) Hardware Overview Programming the Board The Audio Codec

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ESP32-S2-Saola-1R is a small-sized ESP32-S2 based development board. Most of the I/O pins are broken out to the pin headers on both sides for easy interfacing. Developers can either connect peripherals with jumper wires or mount ESP32-S2-Saola-1R on a breadboard.ESP32-S2-Saola-1R is equipped with the ESP32-S2-WROVER module, a powerful, generic Wi-Fi MCU module that has a rich set of peripherals. It is an ideal choice for a wide variety of application scenarios relating to Internet of Things (IoT), wearable electronics and smart home. The board a PCB antenna and features a 4 MB external SPI flash and an additional 2 MB SPI Pseudo static RAM (PSRAM).FeaturesMCU ESP32-S2 embedded, Xtensa® single-core 32-bit LX7 microprocessor, up to 240 MHz 128 KB ROM 320 KB SRAM 16 KB SRAM in RTC Wi­Fi 802.11 b/g/n Bit rate: 802.11n up to 150 Mbps A-MPDU and A-MSDU aggregation 0.4 µs guard interval support Center frequency range of operating channel: 2412 ~ 2484 MHz Hardware Interfaces: GPIO, SPI, LCD, UART, I²C, I²S, Camera interface, IR, pulse counter, LED PWM, TWAI (compatible with ISO 11898-1), USB OTG 1.1, ADC, DAC, touch sensor, temperature sensor 40 MHz crystal oscillator 4 MB SPI flash Operating voltage/Power supply: 3.0 ~ 3.6 V Operating temperature range: –40 ~ 85 °C Dimensions: 18 × 31 × 3.3 mm Applications Generic Low-power IoT Sensor Hub Generic Low-power IoT Data Loggers Cameras for Video Streaming Over-the-top (OTT) Devices USB Devices Speech Recognition Image Recognition Mesh Network Home Automation Smart Home Control Panel Smart Building Industrial Automation Smart Agriculture Audio Applications Health Care Applications Wi-Fi-enabled Toys Wearable Electronics Retail & Catering Applications Smart POS Machines

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The AVR-IoT WA development board combines a powerful ATmega4808 AVR MCU, an ATECC608A CryptoAuthentication™ secure element IC and the fully certified ATWINC1510 Wi-Fi network controller – which provides the most simple and effective way to connect your embedded application to Amazon Web Services (AWS). The board also includes an on-board debugger, and requires no external hardware to program and debug the MCU.Out of the box, the MCU comes preloaded with a firmware image that enables you to quickly connect and send data to the AWS platform using the on-board temperature and light sensors. Once you are ready to build your own custom design, you can easily generate code using the free software libraries in Atmel START or MPLAB Code Configurator (MCC).The AVR-IoT WA board is supported by two award-winning Integrated Development Environments (IDEs) – Atmel Studio and Microchip MPLAB X IDE – giving you the freedom to innovate with your environment of choice.Features ATmega4808 microcontroller Four user LED’s Two mechanical buttons mikroBUS header footprint TEMT6000 Light sensor MCP9808 Temperature sensor ATECC608A CryptoAuthentication™ device WINC1510 WiFi Module On-board Debugger Auto-ID for board identification in Atmel Studio and Microchip MPLAB X One green board power and status LED Programming and debugging Virtual COM port (CDC) Two DGI GPIO lines USB and battery powered Integrated Li-Ion/LiPo battery charger

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Je zou Pirate Audio Headphone Amp kunnen gebruiken om een nette, zakformaat speler te bouwen voor lokale audiobestanden (MP3, FLAC, etc) of voor het streamen van muziek van online diensten zoals Spotify. Om je op weg te helpen heeft Pimoroni plugins gebouwd voor Mopidy waarmee je prachtige album art kunt weergeven, je tracks kunt afspelen/pauzeren en het volume kunt regelen. De DAC en hoofdtelefoonversterker geven je heldere digitaal versterkte audio via je hoofdtelefoon met kabel. Pirate Audio is een reeks van alles-in-een audio boards voor Raspberry Pi, met hoge kwaliteit digitale audio, prachtig heldere IPS displays voor album art, tactiele knoppen voor playback controle, en een aangepaste Pirate Audio software en installer om het opzetten van dit allemaal een fluitje van een cent te maken.Functies Versterkte digitale audio (24-bit / 192KHz) over I2S PAM8908 hoofdtelefoonversterker chip Low-gain / high-gain schakelaar (high-gain verhoogt met 12dB) PCM5100A DAC-chip 3.5mm stereo aansluiting 1,3' IPS-kleurenscherm (240x240px) (ST7789 driver) Vier tactiele knoppen Mini HAT-formaat bord Volledig gemonteerd Compatibel met alle 40-pin header Raspberry Pi modellen Afmetingen: 65x30.5x9.5mm SoftwareDe Pirate Audio software en installer installeert de Python bibliotheek voor de LCD, configureert de I2S audio en SPI, en installeert vervolgens Mopidy en de aangepaste Pirate Audio plugins om album art en track info weer te geven, en om de knoppen te gebruiken voor playback control.Hier ziet u hoe u aan de slag kunt: Stel een SD-kaart in met de laatste versie van Raspberry Pi OS. Gebonden met Wi-Fi of een bekabeld netwerk. Open een terminal en typ het volgende:git clone https://github.com/pimoroni/pirate-audiocd pirate-audio/mopidysudo ./install.sh Reboot uw Pi Downloads PAM8908 Datasheet PCM5100A-gegevensblad Pirate Audio software

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De Mr. Pulsar Violent Turbo Fan X3 Pro levert een krachtige luchtstroom met zijn indrukwekkende 140.000 RPM motor, en biedt uitzonderlijke prestaties in een compact, draagbaar ontwerp. Met een 8.000 mAh batterij voor langdurige draadloze werking, instelbare luchtstroomsnelheden en een gewicht van slechts 277 gram is hij perfect voor snelle taken zoals het schoonmaken van computers, het drogen van huisdieren, het opblazen van luchtbedden, het verwijderen van stof of zelfs het blazen van sneeuw uit uw auto. Specificaties Motorsnelheid 140.000 RPM Accu 8.000 mAh lithiumbatterij Afmetingen 160 x 60 x 90 mm Gewicht 277 g Inbegrepen 1x Mr. Pulsar Violent Turbo Fan X3 Pro 1x Kort mondstuk 1x Opbergtas 1x USB-C kabel

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RFID technology has conquered many areas in which barcodes, magnetic strips and contact smartcards were used previously. Everyday applications, such as electronic ticketing, access cards, debit cards and electronic identity documents would not be possible without this technology. MIFARE is the most widely used RFID technology, and this book provides a practical and comprehensive introduction to it. Among other things, the initial chapters cover physical fundamentals, relevant standards, RFID antenna design, security considerations and cryptography. The complete design of a reader’s hardware and software is described in detail. The reader’s firmware and the associated PC software support programming using any .NET language. The specially developed PC program, “Smart Card Magic.NET”, is a simple development environment that supports sending commands to a card at the click of a mouse, as well as the ability to create C# scripts. Alternatively, one may follow all of the examples using Visual Studio 2010 Express Edition. Finally, the major smart card reader API standards are introduced. The focus is on programming contactless smartcards using standard PC/SC readers using C/C++, Java and C#.

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This book is intended for electronics enthusiasts and professionals alike, who want a much deeper understanding of the incredible technology conquests over the pre-digital decades that created video. It details evolution of analogue video electronics and technology from the first electro-mechanical television, through advancements in Cathode Ray Tubes, transistor circuits and signal processing, up to the latest analogue, colour-rich TV, entertainment devices and calibration equipment. Key technological advances that enabled monochrome video and, eventually, colour are explained. The importance, compromises and techniques of maintaining crucial backward legacy compatibilities are described. The generation, signal processing and playback of analogue video signals in numerous capture, display, recording and playback devices together with operating principles and practices are examined. Technical and, often, political merits and deficiencies of key national and international video standards are highlighted. Several formats are shown to win and ultimately to co-exist. This book begins at fairly basic levels; concepts are introduced with human physiological perceptions of light and colour explained. This leads to the subject matter of luminance and chrominance; their equations and the circuits to process. There is full, detailed analysis of waveform shapes and timings inside video equipment and relevant popular connections e.g. S-video. Several analogue video projects which you can build yourself are also included in this book; with schematics, circuit board layouts and calibration steps to help you obtain the best results. The book makes use of many colour pages where the subject matter demands it (e.g. test cards). If you really want a deeper understanding of analogue video then this book is for you!

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Le langage de programmation Python est apprécié par les pédagogues parce que sa syntaxe le rend facile à comprendre. Il s'est également imposé chez les informaticiens expérimentés. La société Adafruit a développé une version spéciale de Python pour l'embarquer sur les microcontrôleurs à 32 bits : CircuitPython. Ce livre permettra au lecteur de s'initier à la programmation en CircuitPython sur deux cartes : Feather BlueFruit Sense (également appelée Feather nRF52840 Sense) et CLUE nRF52840 Express. Chacune est animée par le SoC nRF52840 de NORDIC avec une architecture à 32 bits. Pour ce voyage dans le monde de la programmation embarquée, l'auteur sort du chemin classique, à savoir un cours complet sur la programmation orientée objet appliquée à ce langage. Il préfère emmener le lecteur directement sur le terrain avec des projets qui mettent en oeuvre les cartes et différents périphériques. Plus d'une quarantaine d'exemples et de montages permettent de découvrir la richesse de CircuitPython. Toutefois l'auteur s'est imposé une limite pour ne pas décourager les novices : le code de chaque projet ne dépasse jamais la centaine de lignes. Pour ce qui est du matériel, là aussi la simplicité domine : aucun programmateur, un simple PC suffit ; aucun soudage grâce au câblage sur platine d'essai. Les cartes d'extension FeatherWing à enficher sur la Feather nRF52840 Sense permettent de démultiplier ses fonctions : matrice de LED, enregistreur de données, écran à encre électronique, écran OLED, écran TFT, commande de moteurs, audio, relais… Toutes les étapes (assemblage des différents composants, installation des bibliothèques requises, programmation, tests…) sont expliquées en détail. Le code des différents exemples et projets est disponible sur Github. Le résultat de chaque projet est même présenté sur de courtes vidéos disponibles sur YouTube. À la fin de sa lecture, le nouveau Pythonien pourra facilement approfondir les notions abordées et donner vie à ses propres projets grâce aux outils qu'il aura essayés. Ce livre s'adresse aux lycéens et étudiants ainsi qu'à toute la communauté des makers. Chaîne YouTube de l'auteur YouTube (Michaël Bottin)

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Elektor GREEN en GOLD leden kunnen deze uitgave hier downloaden. Nog geen lid? Klik hier om een lidmaatschap af te sluiten. STM32 Wireless Innovation Design Contest: de winnaars In-circuit LC-meteroverwegingen bij een prototype AmpVolt: een modulaire DC-vermogensmeter (deel 1)meet gelijkstroom en energieverbruik tot 50 V en 5 A embedded world 2024 Elektronische apparatuur reparerentools, technieken en tips Alle begin... - NL TRANSLATION...gaat verder met de opamp-theorie Eenvoudige DDS-signaalgeneratordirecte digitale synthese in zijn puurste vorm Sparkplug bekekenspecificatie voor MQTT-data De CRTCvreemde onderdelen Radargestuurde verlichtingautomatische trapverlichting met personendetectie Digitale waterpas en actieve stroboscoop voor draaitafelsregel je platenspeler perfect af met dit alles-in-één tool Onderzoek naar de uitdagingen en commerciële waarde van open source-elektronica (2) Ronde M12-connector met A-coderingvoorkeursoplossing voor industriële toepassingen Het Arduino-Inside Measurement Labeen 8-in-1 test- en meetinstrument voor de elektronica-werkbank Frequentie-, fase- en impedantieanalyse met een geluidskaartvoor frequenties van 100 Hz tot 90 kHz Zuurgraad meten met de Arduino UNO R4controleer de waterkwaliteit Uit het leven gegrepenpangpongbilletjes-lanceermachine FNIRSI 1014D digitale geheugenoscilloscoopgoede prestaties voor weinig geld 2024: een AI-odysseeobjectdetectie aan de praat krijgen 10MHz-referentiegeneratorzeer nauwkeurig, met verdeler en galvanische isolatie Project-update #2: ESP32-gebaseerde energiemeterenkele verbeteringen Project 2.0correcties, updates en brieven van lezers Een vraaggesprek met Eben Upton, CEO van Raspberry Pide Raspberry Pi 5 – en daarna

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Dit polysilicium zonnepaneel (18 V / 10 W) biedt stabiele prestaties met een hoge conversie efficiëntie van >20%. Specificaties Type zonnecel Polysilicium Uitgangsvermogen tolerantie ±3% Bedrijfsspanning 17,6 V Open circuit spanning 21,6 V Hoeveelheid cellen 36 (4x9) Vermogen 10 Wp (max) Conversie efficiëntie >20% Bedrijfsstroom 0,57 A Kortsluitstroom 0,61 A Standaard systeemspanning 1000 V (max) Bedrijfstemperatuur -40° C ~ +85°C Druk op paneel 30 m/s (200 kg/m²) (max) Kabel Lengte 90 cm, DC stekker, OD 3,5 mm ID 1,35 mm Frame materiaal Anodische oxidatie aluminiumlegering Afmetingen 340 x 232 x 17 mm Gewicht 0,935 kg

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In this book the author presents all essential aspects of microcontroller programming, without overloading the reader with unnecessary or quasi-relevant bits of information. Having read the book, you should be able to understand as well as program, 8-bit microcontrollers. The introduction to microcontroller programming is worked out using microcontrollers from the PIC series. Not exactly state-of-the-art with just 8 bits, the PIC micro has the advantage of being easy to comprehend. It is offered in a DIP enclosure, widely available and not overly complex. The entire datasheet of the PIC micro is shorter by decades than the description of the architecture outlining the processor section of an advanced microcontroller. Simplicity has its advantages here. Having mastered the fundamental operation of a microcontroller, you can easily enter into the realms of advanced softcores later. Having placed assembly code as the executive programming language in the foreground in the first part of the book, the author reaches a deeper level with ‘C’ in the second part. Cheerfully alongside the official subject matter, the book presents tips & tricks, interesting measurement technology, practical aspects of microcontroller programming, as well as hands-on options for easier working, debugging and faultfinding.

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