Leer hoe je de ESP32 Microcontroller en het programmeren met MicroPython in je toekomstige projecten kunt gebruiken!Het (Engelstalige) projectboek, geschreven door de bekende Elektor auteur Dogan Ibrahim, bevat vele software- en hardware-gebaseerde projecten die speciaal voor de MakePython ESP32 ontwikkelkit ontwikkeld zijn. De kit wordt geleverd met verschillende LED's, sensoren, en actuatoren. De kit helpt je de basiskennis op te doen om eigen IoT projecten te maken.Alle volledig geëvalueerde projecten in het boek zijn voorzien van de bijgeleverde componenten. Elk project bevat een blokschema, een schakelschema, een volledige programmalijst, en een volledige programma beschrijving.Inbegrepen in de kit 1x MakePython ESP32 ontwikkelingsboard met kleuren LCD 1x Ultrasone afstandsmeter 1x Temperatuur- en luchtvochtigheidssensor 1x Zoemer module 1x DS18B20 module 1x Infrarood module 1x Potentiometer 1x WS2812 module 1x Geluidssensor 1x Trilsensor 1x Module met lichtgevoelige weerstand 1x Puls sensor 1x Servo motor 1x USB kabel 2x Knop 2x Breadboard 45x Schakeldraad 10x Weerstand 330R 10x LED (Rood) 10x LED (Groen) 1x Projectboek (Engelstalig, 206 pagina's) Boek met 46 projectenLED Projecten Knipperende LED SOS knipperende LED Knipperende LED – met behulp van een timer Afwisselend knipperende LEDs Knopbediening De knippersnelheid van de LED's veranderen met drukknop onderbrekingen Chasing-LEDs Binaire teller met LEDs Kerstverlichting (willekeurig-knipperende 8 LEDs) Elektronische dobbelsteen Geluksdag van het week Projecten voor Pulsewidth Modulation (PWM) Genereer een PWM golfvorm van 1000 Hz met 50% duty cycle LED helderheid regelen Meten van de frequentie en duty cycle van een PWM golfvorm Melodieën maker Eenvoudig elektronisch orgel Servo motor besturing Servo motor DS18B20 thermometer Projecten voor analoog naar digitaal converteren (ADC) Voltmeter Plotten van de analoge ingangsspanning Interne temperatuursensor van de ESP32 Ohmmeter Lichtgevoelige weerstandsmodule Projecten voor digitaal naar analoog converteren (DAC) Opwekken van vaste spanningen Opwekken van een zaagtand-golf signaal Opwekken van een driehoek-golf signaal Golfvorm met willekeurige periode Genereren van een sinus-golf signaal Genereren van een nauwkeurig sinus-golf signaal met behulp van een timer interrupts Gebruik van het OLED Display Seconden teller Gebeurtenisteller DS18B20 digitale thermometer met OLED ON-OFF temperatuur regelaar Meten van temperatuur en luchtvochtigheid Ultrasone afstandsmeting Hoogte van een persoon (stadiometer) Hartslag (polsslag) meten Andere bij de set geleverde sensoren Diefstal alarm Met geluid geactiveerd licht Infrarood obstakel-vermijding met zoemer WS2812 RGB LED ring Tijdregistratie van temperatuur en luchtvochtigheid Netwerkprogrammering Wi-Fi scanner Bediening op afstand vanuit de Internet browser (met een smartphone of PC) – Webserver Temperatuur- en luchtvochtigheidsgegevens opslaan in de Cloud Werking met Low-PowerGebruik een timer om de processor te laten ontwaken

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The Arduino Uno is an open-source microcontroller development system encompassing hardware, an Integrated Development Environment (IDE), and a vast number of libraries. It is supported by an enormous community of programmers, electronic engineers, enthusiasts, and academics. The libraries in particular really smooth Arduino programming and reduce programming time. What’s more, the libraries greatly facilitate testing your programs since most come fully tested and working. The Raspberry Pi 4 can be used in many applications such as audio and video media devices. It also works in industrial controllers, robotics, games, and in many domestic and commercial applications. The Raspberry Pi 4 also offers Wi-Fi and Bluetooth capability which makes it great for remote and Internet-based control and monitoring applications. This book is about using both the Raspberry Pi 4 and the Arduino Uno in PID-based automatic control applications. The book starts with basic theory of the control systems and feedback control. Working and tested projects are given for controlling real-life systems using PID controllers. The open-loop step time response, tuning the PID parameters, and the closed-loop time response of the developed systems are discussed together with the block diagrams, circuit diagrams, PID controller algorithms, and the full program listings for both the Raspberry Pi and the Arduino Uno. The projects given in the book aim to teach the theory and applications of PID controllers and can be modified easily as desired for other applications. The projects given for the Raspberry Pi 4 should work with all other models of Raspberry Pi family. The book covers the following topics: Open-loop and closed-loop control systems Analog and digital sensors Transfer functions and continuous-time systems First-order and second-order system time responses Discrete-time digital systems Continuous-time PID controllers Discrete-time PID controllers ON-OFF temperature control with Raspberry Pi and Arduino Uno PID-based temperature control with Raspberry Pi and Arduino Uno PID-based DC motor control with Raspberry Pi and Arduino Uno PID-based water level control with Raspberry Pi and Arduino Uno PID-based LED-LDR brightness control with Raspberry Pi and Arduino Uno

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Projects with Arduino Uno & Raspberry Pi with Examples for the MCP2515 CAN Bus Interface Module This book details the use of the Arduino Uno and the Raspberry Pi 4 in practical CAN bus based projects. Using either the Arduino Uno or the Raspberry Pi with off-the-shelf CAN bus interface modules considerably ease developing, debugging, and testing CAN bus based projects. This book is written for students, practicing engineers, enthusiasts, and for everyone else wanting to learn more about the CAN bus and its applications. The book assumes that the reader has some knowledge of basic electronics. Knowledge of the C and Python programming languages and programming the Arduino Uno using its IDE and Raspberry Pi will be useful, especially if the reader intends to develop microcontroller-based projects using the CAN bus. The book should be a useful source of reference material for anyone interested in finding answers to questions such as: What bus systems are available for the automotive industry? What are the principles of the CAN bus? How can I create a physical CAN bus? What types of frames (or data packets) are available in a CAN bus system? How can errors be detected in a CAN bus system and how dependable is a CAN bus system? What types of CAN bus controllers exist? How do I use the MCP2515 CAN bus controller? How do I create 2-node Arduino Uno-based CAN bus projects? How do I create 3-node Arduino Uno-based CAN bus projects? How do I set the acceptance masks and acceptance filters? How do I analyze data on the CAN bus? How do I create 2-node Raspberry Pi-based CAN bus projects? How do I create 3-node Raspberry Pi-based CAN bus projects?

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A Reference and User Guide for the Arduino Uno Hardware and Firmware A manual providing up-to-date hardware information for the popular Arduino Uno, the easy to use open-source electronics platform used by hobbyists, makers, hackers, experimenters, educators and professionals. Get all the information you need on the hardware and firmware found on Arduino Uno boards in this handy reference and user guide. Ideal for the workbench or desktop Contains all of the Arduino Uno hardware information in one place Covers Arduino / Genuino Uno revision 3 and earlier boards Easily find hardware technical specifications with explanations Pin reference chapter with interfacing examples Diagrams and illustrations for easy reference to alternate pin functions and hardware connections Learn to back up and restore the firmware on the board or load new firmware Basic fault finding and repair procedures for Arduino Uno boards Power supply circuits simplified and explained Mechanical dimensions split into five easy to reference diagrams Contains circuit diagrams, parts list and board layout reference to locate components easily

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Practical Multitasking Fundamentals Programming embedded systems is difficult because of resource constraints and limited debugging facilities. Why develop your own Real-Time Operating System (RTOS) as well as your application when the proven FreeRTOS software is freely available? Why not start with a validated foundation? Every software developer knows that you must divide a difficult problem into smaller ones to conquer it. Using separate preemptive tasks and FreeRTOS communication mechanisms, a clean separation of functions is achieved within the entire application. This results in safe and maintainable designs. Practicing engineers and students alike can use this book and the ESP32 Arduino environment to wade into FreeRTOS concepts at a comfortable pace. The well-organized text enables you to master each concept before starting the next chapter. Practical breadboard experiments and schematics are included to bring the lessons home. Experience is the best teacher. Each chapter includes exercises to test your knowledge. The coverage of the FreeRTOS Application Programming Interface (API) is complete for the ESP32 Arduino environment. You can apply what you learn to other FreeRTOS environments, including Espressif’s ESP-IDF. The source code is available from GitHub. All of these resources put you in the driver’s seat when it is time to develop your next uber-cool ESP32 project. What you will learn: How preemptive scheduling works within FreeRTOS The Arduino startup “loopTask” Message queues FreeRTOS timers and the IDLE task The semaphore, mutex, and their differences The mailbox and its application Real-time task priorities and its effect Interrupt interaction and use with FreeRTOS Queue sets Notifying tasks with events Event groups Critical sections Task local storage The gatekeeper task

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Met deze jumper draden (lengte: 20 cm) kunt u een Raspberry Pi of een Arduino met breadboards verbinden. Elke kabel bestaat uit 40 afzonderlijke draden/pinnen die ook weer van elkaar kunnen worden gescheiden. Inclusief 1x 40-pins female naar female 1x 40-pins mannelijk naar mannelijk 1x 40-pins mannelijk naar vrouwelijk

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Technology is constantly changing. New microcontrollers become available every year. The one thing that has stayed the same is the C programming language used to program these microcontrollers. If you would like to learn this standard language to program microcontrollers, then this book is for you! Arduino is the hardware platform used to teach the C programming language as Arduino boards are available worldwide and contain the popular AVR microcontrollers from Atmel. Atmel Studio is used as the development environment for writing C programs for AVR microcontrollers. It is a full-featured integrated development environment (IDE) that uses the GCC C software tools for AVR microcontrollers and is free to download. At a glance: Start learning to program from the very first chapter No programming experience is necessary Learn by doing – type and run the example programs A fun way to learn the C programming language Ideal for electronic hobbyists, students and engineers wanting to learn the C programming language in an embedded environment on AVR microcontrollers Use the free full-featured Atmel Studio IDE software for Windows Write C programs for 8-bit AVR microcontrollers as found on the Arduino Uno and MEGA boards Example code runs on Arduino Uno and Arduino MEGA 2560 boards and can be adapted to run on other AVR microcontrollers or boards Use the AVR Dragon programmer/debugger in conjunction with Atmel Studio to debug C programs

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Met de RFID-starterkit biedt Elektor een basisuitrusting voor interessante elektronicaexperimenten met de Arduino Uno.Moderne elektronica-kits zoals deze bevatten steeds minder losse elektronische componenten, maar meer kant-en-klare modules. Daarmee kunnen we wel snel en eenvoudig nuttige en in de praktijk toepasbare projecten bouwen. Dankzij uitgebreide bibliotheken kunnen we de bijbehorende sketches snel en gemakkelijk programmeren. Op die manier hebben de klassieke experimenteerdozen uit de beginjaren van de elektronica een waardige opvolger gevonden.De twee in het Elektor artikel beschreven voorbeelden (Universeel weerstation met LC-display en Deurslot met RFID-beveiliging) zijn maar een heel kleine greep uit de vele mogelijkheden. Deze kit omvat niet alleen een RFID-ontvangerprint en twee bijbehorende transponderchips in de vorm van een kaart en van een sleutelhanger, maar ook nog heel veel andere onderdelen zoals onder andere: een vochtigheidssensor, een meerkleurenled, een grote led-matrix met 64 geïntegreerde lichtpunten, een 7-segment-display met 4 cijfers, een infrarood-afstandsbediening met een bijpassende ontvanger, een complete LC-display-module met I²C-aansluiting. In het Engelstalig boek Home Automation Projects with Arduino worden meer dan 30 projecten met alle in de kit beschikbare modules gepresenteerd en gedetailleerd besproken. De bijbehorende sketches en programma’s worden nauwkeurig uitgelegd, zodat u bij het doorwerken van het boek altijd weer iets kunt leren. En daarna staat niets u meer in de weg om ook eigen apparaten en systemen te gaan ontwikkelen!Kit Inhoud LCD1602 with I²C Rc522 module White card Key chain Joystick module Key board RTC module Water level sensor Humidity sensor RGB module Motor driver module Motor 1 Channel module MB-102 breadboard 65 pcs jumper wire 10 PCS F-M cable Sound sensor module Remote 10K potentiometer 1 digital tube 4 digital tube Matrix tube 9G servo Buzzer 2 pcs ball switches 3 pcs photoresistance 5 pcs switches with caps 9V battery with DC 15 pcs LED 30 pcs resistance Flame sensor IR receive sensor 74HC595 LM35DZ Uno R3 board Lees meer over soortgelijke kit.

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The Arduino Nano ESP32 is a Nano form factor board based on the ESP32-S3 (embedded in the NORA-W106-10B from u-blox). This is the first Arduino board to be based fully on an ESP32, and features Wi-Fi, Bluetooth LE, debugging via native USB in the Arduino IDE as well as low power. The Nano ESP32 is compatible with the Arduino IoT Cloud, and has support for MicroPython. It is an ideal board for getting started with IoT development. Kenmerken Tiny footprint: Designed with the well-known Nano form factor in mind, this board's compact size makes it perfect for embedding in standalone projects. Wi-Fi and Bluetooth: Harness the power of the ESP32-S3 microcontroller, well-known in the IoT realm, with full Arduino support for wireless and Bluetooth connectivity. Arduino and MicroPython support: Seamlessly switch between Arduino and MicroPython programming with a few simple steps. Arduino IoT Cloud compatible: Quickly and easily create IoT projects with just a few lines of code. The setup takes care of security, allowing you to monitor and control your project from anywhere using the Arduino IoT Cloud app. HID support: Simulate human interface devices, such as keyboards or mice, over USB, opening up new possibilities for interacting with your computer. Specificaties Microcontroller u-blox NORA-W106 (ESP32-S3) USB connector USB-C Pins Built-in LED pins 13 Built-in RGB LED pins 14-16 Digital I/O pins 14 Analog input pins 8 PWM pins 5 External interrupts All digital pins Connectivity Wi-Fi u-blox NORA-W106 (ESP32-S3) Bluetooth u-blox NORA-W106 (ESP32-S3) Communication UART 2x I²C 1x, A4 (SDA), A5 (SCL) SPI D11 (COPI), D12 (CIPO), D13 (SCK). Use any GPIO for Chip Select (CS) Power I/O Voltage 3.3 V Input voltage (nominal) 6-21 V Source Current per I/O pin 40 mA Sink Current per I/O pin 28 mA Clock speed Processor Up to 240 MHz Memory ROM 384 kB SRAM 512 kB External Flash 128 Mbit (16 MB) Dimensions 18 x 45 mm Downloads Datasheet Schematics

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Clever Tricks with ATmega328 Pro Mini BoardsWith a simple Pro Mini board and a few other components, projects that 20 or 30 years ago were unthinkable (or would have cost a small fortune) are realized easily and affordably in this book: From simple LED effects to a full battery charging and testing station that will put a rechargeable through its paces, there’s something for everyone.All the projects are based on the ATmega328 microcontroller, which offers endless measuring, switching, and control options with its 20 input and output lines. For example, with a 7-segment display and a few resistors, you can build a voltmeter or an NTC-based thermometer. The Arduino platform offers the perfect development environment for programming this range of boards.Besides these very practical projects, the book also provides the necessary knowledge for you to create projects based on your own ideas. How to measure, and what? Which transistor is suitable for switching a certain load? When is it better to use an IC? How do you switch mains voltage? Even LilyPad-based battery-operated projects are discussed in detail, as well as many different motors, from simple DC motors to stepper motors.Sensors are another exciting topic: For example, a simple infrared receiver that can give disused remote controls a new lease on life controlling your home, and a tiny component that can actually measure the difference in air pressure between floor and table height!

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De Arduino Pro Mini is een microcontroller board gebaseerd op de ATmega328P.Het heeft 14 digitale in-/uitgangspinnen (waarvan er 6 kunnen worden gebruikt als PWM-uitgangen), 6 analoge ingangen, een on-board resonator, een reset-knop, en gaten voor het monteren van pin headers. Een six-pin header kan worden aangesloten op een FTDI-kabel of Sparkfun breakout board om USB-voeding en communicatie te bieden aan de board.De Arduino Pro Mini is bedoeld voor semi-permanente installatie in voorwerpen of tentoonstellingen. Het board komt zonder pre-gemonteerde headers, waardoor het gebruik van diverse types van schakelaars of het directe solderen van draden is toegestaan. De pin lay-out is compatibel met Arduino Mini.De Arduino Pro Mini werd ontworpen en wordt vervaardigd door SparkFun Electronics.SpecificatiesDownloads Eagle bestanden Schema's Microcontroller ATmega328P Boord Stroomvoorziening 5-12 V Circuit Werkspanning 5 V Digitale I/O Pinnen 14 PWM Pennen 6 UART 1 SPI 1 I²C 1 Analoge ingangspinnen 6 Externe Onderbrekingen 2 DC stroom per I/O Pin 40 mA Flash Geheugen 32 KB waarvan 2 KB gebruikt door bootloader SRAM 2 KB EEPROM 1 KB Kloksnelheid 16 MHz Afmetingen 18 x 33,3 mm

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Arduino Uno is een open-source microcontroller bord gebaseerd op de ATmega328P. Het heeft 14 digitale in-/uitgangspinnen (waarvan er 6 kunnen worden gebruikt als PWM-uitgangen), 6 analoge ingangen, een 16 MHz keramische resonator (CSTCE16M0V53-R0), een USB-aansluiting, een voedingsaansluiting, een ICSP-header en een reset-knop. Het bevat alles wat nodig is om de microcontroller te ondersteunen; sluit het gewoon aan op een computer met een USB-kabel of voed het met een AC-to-DC adapter of batterij om aan de slag te gaan. Je kunt aan je Uno sleutelen zonder je al te veel zorgen te maken dat je iets verkeerd doet, in het ergste geval kun je de chip voor een paar dollar vervangen en opnieuw beginnen. 'Uno' betekent één in het Italiaans en werd gekozen om de release van Arduino Software (IDE) 1.0 te markeren. Het Uno-bord en versie 1.0 van Arduino Software (IDE) waren de referentieversies van Arduino, nu geëvolueerd naar nieuwere versies. De Uno board is de eerste in een reeks van USB Arduino boards, en het referentiemodel voor het Arduino platform; voor een uitgebreide lijst van huidige, voorbije of verouderde boards zie de Arduino index van boards. Specificaties Microcontroller ATmega328P Bedrijfsspanning 5 V Ingangsspanning (aanbevolen) 7-12 V Ingangsspanning (limiet) 6-20 V Digitale I/O-pinnen 14 (waarvan 6 met PWM-uitgang) PWM digitale I/O-pinnen 6 Analoge ingangspinnen 6 DC Stroom per I/O Pen 20 mA DC Stroom voor 3,3 V Pin 50 mA Flashgeheugen 32 KB (ATmega328P) waarvan 0,5 KB gebruikt door bootloader SRAM 2 KB (ATmega328P) EEPROM 1 KB (ATmega328P) Kloksnelheid 16 MHz LED_BUILTIN 13 Afmetingen 68,6 x 53,4 mm Gewicht 25 g

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Program and build Arduino-based ham station utilities, tools, and instruments In addition to a detailed introduction to the exciting world of the Arduino microcontroller and its many variants, this book introduces you to the shields, modules, and components you can connect to the Arduino. Many of these components are discussed in detail and used in the projects included in this book to help you understand how these components can be incorporated into your own Arduino projects. Emphasis has been placed on designing and creating a wide range of amateur radio-related projects that can easily be built in just a few days. This book is written for ham radio operators and Arduino enthusiasts of all skill levels, and includes discussions about the tools, construction methods, and troubleshooting techniques used in creating amateur radio-related Arduino projects. This book teaches you how to create feature-rich Arduino-based projects, with the goal of helping you to advance beyond this book, and design and build your own ham radio Arduino projects. In addition, this book describes in detail the design, construction, programming, and operation of the following projects: CW Beacon and Foxhunt Keyer Mini Weather Station RF Probe with LED Bar Graph DTMF Tone Encoder DTMF Tone Decoder Waveform Generator Auto Power On/Off Bluetooth CW Keyer Station Power Monitor AC Current Monitor This book assumes a basic knowledge of electronics and circuit construction. Basic knowledge of how to program the Arduino using its IDE will also be beneficial.

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Het Uno R3 bord is de perfecte microcontroller voor diegenen die de programmeerwereld willen betreden zonder enige poespas. De ATMega328 microcontroller geeft u genoeg power voor uw ideeën en projecten. Het Uno-bord heeft een USB type B aansluiting zodat u het gemakkelijk kunt gebruiken met programma's - uiteraard via de bekende programmeeromgeving Arduino IDE. U kunt hem via de USB-poort op de stroombron aansluiten of als alternatief zijn eigen stroomaansluiting gebruiken. Let op:De CH341 driver moet vooraf worden geïnstalleerd, zodat het Uno-bord wordt herkend door de Arduino IDE. Microcontroller ATmega 328 Kloksnelheid 16 MHz Bedrijfsspanning 5 V Invoerspanning 5-10 V Digitale I/O pinnen 14 met PWM 6 USB 1x SPI 1x I²C 1x ICSP 1x Flashgeheugen 32 KB EEPROM 1x

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EU Voeding voor Arduino Uno (9 V, 1 A)

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An 8-in-1 test & measurement instrument for the electronics workbench A well-equipped electronics lab is crammed with power supplies, measuring devices, test equipment and signal generators. Wouldn‘t it be better to have one compact device for almost all tasks? Based on the Arduino, a PC interface is to be developed that’s as versatile as possible for measurement and control. It simply hangs on a USB cable and – depending on the software – forms the measuring head of a digital voltmeter or PC oscilloscope, a signal generator, an adjustable voltage source, a frequency counter, an ohmmeter, a capacitance meter, a characteristic curve recorder, and much more. The circuits and methods collected here are not only relevant for exactly these tasks in the "MSR" electronics lab, but many details can also be used within completely different contexts.

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De mens is van nature uitgerust met sensoren voor geluid, licht, geur, smaak en gevoel. Zintuigen die met elektronica slechts ten dele gekopieerd kunnen worden. Met de Elektor sensorkit kunnen we wel aardig in de buurt komen. Sensoren kunnen elektronica aansturen, maar ze kunnen ons ook van informatie voorzien. Daarom vormt niet alleen het meten van grootheden, maar ook het zichtbaar maken ervan via de Arduino seriële monitor een niet onbelangrijk deel van dit boek. De microprocessor ATtiny85 die de Arduino-taal begrijpt, maakt het experimenteren met sensoren gemakkelijk en goedkoop. We zullen niet snel een Arduino-kaartje vast solderen in een permanente opstelling. Bij een achtpotige ATtiny zal dat geen schuldgevoel opleveren. Dat neemt niet weg dat alle sketches gewoon op elk Arduino-board draaien met mogelijk hier en daar een aanpassing van pennummers omdat die kunnen verschillen met reguliere Arduino-boards. We zullen uitgebreid aandacht besteden aan het programmeren van de ATtiny. Veel schakelingen zijn bruikbaar in het natuurkundepracticum op school of voor bedrijfsmatige toepassingen. Maar de nadruk ligt toch wel op de (beginnende) elektronicahobbyist die zijn vrije tijd op een leuke maar vooral ook nuttige manier wil besteden. Want meer dan ooit tevoren heeft techniek de toekomst.

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Get Cracking with the Arduino Nano V3, Nano Every, and Nano 33 IoT The seven chapters in this book serve as the first step for novices and microcontroller enthusiasts wishing to make a head start in Arduino programming. The first chapter introduces the Arduino platform, ecosystem, and existing varieties of Arduino Nano boards. It also teaches how to install various tools needed to get started with Arduino Programming. The second chapter kicks off with electronic circuit building and programming around your Arduino. The third chapter explores various buses and analog inputs. In the fourth chapter, you get acquainted with the concept of pulse width modulation (PWM) and working with unipolar stepper motors. In the fifth chapter, you are sure to learn about creating beautiful graphics and basic but useful animation with the aid of an external display. The sixth chapter introduces the readers to the concept of I/O devices such as sensors and the piezo buzzer, exploring their methods of interfacing and programming with the Arduino Nano. The last chapter explores another member of Arduino Nano family, Arduino Nano 33 IoT with its highly interesting capabilities. This chapter employs and deepens many concepts learned from previous chapters to create interesting applications for the vast world of the Internet of Things. The entire book follows a step-by-step approach to explain concepts and the operation of things. Each concept is invariably followed by a to-the-point circuit diagram and code examples. Next come detailed explanations of the syntax and the logic used. By closely following the concepts, you will become comfortable with circuit building, Arduino programming, the workings of the code examples, and the circuit diagrams presented. The book also has plenty of references to external resources wherever needed. An archive file (.zip) comprising the software examples and Fritzing-style circuit diagrams discussed in the book may be downloaded free of charge below.

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Deze USB-stick bevat een selectie van meer dan 300 artikelen over Arduino gepubliceerd in Elektor Magazine. De inhoud bestaat uit zowel achtergrondartikelen als projecten met de volgende onderwerpen: Software & hardware ontwikkeling: Tutorials over de ontwikkeling van Arduino-software met behulp van Arduino IDE, Atmel Studio, Shields en essentiële programmeerconcepten. Educatie: Een microcontroller Bootcamp biedt een gestructureerde aanpak voor het programmeren van embedded systemen. Data acquisitie & meten: Projecten zoals een 16-bits datalogger, draaibank toerenteller en een AC netanalyser voor het vastleggen en analyseren van real-time signalen. Draadloze communicatie: Leer hoe je draadloze netwerken implementeert, een Android interface maakt en effectief communiceert met microcontrollers. Robotica en automatisering: Omvat de Arduino Nano Robot Controller, ondersteunende boards voor automatisering, en een verkenning van verschillende Arduino-shields om de functionaliteit te verbeteren. Zelfbouw-projecten: Unieke projecten zoals laserprojectie, Numitron klok en thermometer, ELF ontvanger, Theremino, en touch LED interfaces laten creatieve toepassingen zien. Of u nu een beginner bent of een ervaren maker, deze collectie is een waardevolle bron om te leren, te experimenteren en de grenzen van de Arduino-technologie te verleggen.

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Features Ondersteunt motorspanning van 5 V tot 30 V DC Stroom tot 13 A continu en 30 A piek 3,3 V en 5 V logisch niveau ingang Compatibel met Arduino en Raspberry Pi Snelheidsregeling PWM-frequentie tot 20 kHz Volledig NMOS H-Bridge voor betere efficiëntie Er is geen koellichaam nodig Bi-directionele regeling voor één geborstelde DC-motor Regeneratief remmen Voor meer informatie, bekijk de gebruikershandleiding Voor de Arduino-bibliotheek geleverd door mijn Cytron klik hier

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De Arduino Nano RP2040 Connect is een op de RP2040 gebaseerd Arduino-bord dat is uitgerust met Wi-Fi (802.11b/g/n) en Bluetooth 4.2. Naast draadloze connectiviteit wordt het bord geleverd met een microfoon voor geluid en stemactivatie en een zes-assige slimme bewegingssensor met AI-mogelijkheden. Een RGB LED is ook aanwezig. 22 GPIO-poorten (20 met PWM-ondersteuning en acht analoge ingangen) laten de gebruiker bijvoorbeeld relais, motoren en LED's aansturen en schakelaars en andere sensoren uitlezen. Programmageheugen is er in overvloed met 16 MB flash-geheugen, meer dan genoeg ruimte voor het opslaan van vele webpagina's of andere gegevens. Technische specificaties Microcontroller Raspberry Pi RP2040 USB-aansluiting Micro USB Pinnen Ingebouwde LED pinnen 13 Digitale I/O pinnen 20 Analoge ingangspinnen 8 PWM-pinnen 20 (behalve A6, A7) Externe interrupts 20 (behalve A6, A7) Connectiviteit Wi-Fi Nina W102 uBlox module Bluetooth Bluetooth Nina W102 uBlox module Beveiligingselement ATECC608A-MAHDA-T Crypto IC Sensoren IMU LSM6DSOXTR (6 assen) Microfoon MP34DT05 Communicatie UART Ja I²C Ja SPI Ja Vermogen Circuitbedrijfsspanning 3,3 V Ingangsspanning (VIN) 5-21 V DC-stroom per I/O-pen 4 mA Kloksnelheid Processor 133 MHz Geheugen AT25SF128A-MHB-T 16 MB Flash IC Nina W102 uBlox module 448 KB ROM, 520 KB SRAM, 16 MB Flash Afmetingen 45 x 18 mm Gewicht 6 g Downloads Schema's Pinout Datasheet

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Third, extended and revised edition with AVR Playground and Elektor Uno R4 Arduino boards have become hugely successful. They are simple to use and inexpensive. This book will not only familiarize you with the world of Arduino but it will also teach you how to program microcontrollers in general. In this book theory is put into practice on an Arduino board using the Arduino programming environment. Some hardware is developed too: a multi-purpose shield to build some of the experiments from the first 10 chapters on; the AVR Playground, a real Arduino-based microcontroller development board for comfortable application development, and the Elektor Uno R4, an Arduino Uno R3 on steroids. The author, an Elektor Expert, provides the reader with the basic theoretical knowledge necessary to program any microcontroller: inputs and outputs (analog and digital), interrupts, communication busses (RS-232, SPI, I²C, 1-wire, SMBus, etc.), timers, and much more. The programs and sketches presented in the book show how to use various common electronic components: matrix keyboards, displays (LED, alphanumeric and graphic color LCD), motors, sensors (temperature, pressure, humidity, sound, light, and infrared), rotary encoders, piezo buzzers, pushbuttons, relays, etc. This book will be your first book about microcontrollers with a happy ending! This book is for you if you are a beginner in microcontrollers, an Arduino user (hobbyist, tinkerer, artist, etc.) wishing to deepen your knowledge,an Electronics Graduate under Undergraduate student or a teacher looking for ideas. Thanks to Arduino the implementation of the presented concepts is simple and fun. Some of the proposed projects are very original: Money Game Misophone (a musical fork) Car GPS Scrambler Weather Station DCF77 Decoder Illegal Time Transmitter Infrared Remote Manipulator Annoying Sound Generator Italian Horn Alarm Overheating Detector PID Controller Data Logger SVG File Oscilloscope 6-Channel Voltmeter All projects and code examples in this book have been tried and tested on an Arduino Uno board. They should also work with the Arduino Mega and every other compatible board that exposes the Arduino shield extension connectors. Please note For this book, the author has designed a versatile printed circuit board that can be stacked on an Arduino board. The assembly can be used not only to try out many of the projects presented in this book but also allows for new exercises that in turn provide the opportunity to discover new techniques. Also available is a kit of parts including the PCB and all components. With this kit you can build most of the circuits described in the book and more. Datasheets Active Components Used (.PDF file): ATmega328 (Arduino Uno) ATmega2560 (Arduino Mega 2560) BC547 (bipolar transistor, chapters 7, 8, 9) BD139 (bipolar power transistor, chapter 10) BS170 (N-MOS transistor, chapter 8) DCF77 (receiver module, chapter 9) DS18B20 (temperature sensor, chapter 10) DS18S20 (temperature sensor, chapter 10) HP03S (pressure sensor, chapter 8) IRF630 (N-MOS power transistor, chapter 7) IRF9630 (P-MOS power transistor, chapter 7) LMC6464 (quad op-amp, chapter 7) MLX90614 (infrared sensor, chapter 10) SHT11 (humidity sensor, chapter 8) TS922 (dual op-amp, chapter 9) TSOP34836 (infrared receiver, chapter 9) TSOP1736 (infrared receiver, chapter 9) MPX4115 (analogue pressure sensor, chapter 11) MCCOG21605B6W-SPTLYI (I²C LCD, chapter 12) SST25VF016B (SPI EEPROM, chapter 13) About the author Clemens Valens, born in the Netherlands, lives in France since 1997. Manager at Elektor Labs and Webmaster of ElektorLabs, in love with electronics, he develops microcontroller systems for fun, and sometimes for his employer too. Polyglot—he is fluent in C, C++, PASCAL, BASIC and several assembler dialects—Clemens spends most of his time on his computer while his wife, their two children and two cats try to attract his attention (only the cats succeed). Visit the author’s website: www.polyvalens.com.Authentic testimony of Hervé M., one of the first readers of the book:'I almost cried with joy when this book made me understand things in only three sentences that seemed previously completely impenetrable.'

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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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This book details the use of the ARM Cortex-M family of processors and the Arduino Uno in practical CAN bus based projects. Inside, it gives a detailed introduction to the architecture of the Cortex-M family whilst providing examples of popular hardware and software development kits. Using these kits helps to simplify the embedded design cycle considerably and makes it easier to develop, debug, and test a CAN bus based project. The architecture of the highly popular ARM Cortex-M processor STM32F407VGT6 is described at a high level by considering its various modules. In addition, the use of the mikroC Pro for ARM and Arduino Uno CAN bus library of functions are described in detail. This book is written for students, for practising engineers, for hobbyists, and for everyone else who may need to learn more about the CAN bus and its applications. The book assumes that the reader has some knowledge of basic electronics. Knowledge of the C programming language will be useful in later chapters of the book, and familiarity with at least one microcontroller will be an advantage, especially if the reader intends to develop microcontroller based projects using CAN bus. The book should be useful source of reference to anyone interested in finding an answer to one or more of the following questions: What bus systems are available for the automotive industry? What are the principles of the CAN bus? What types of frames (or data packets) are available in a CAN bus system? How can errors be detected in a CAN bus system and how reliable is a CAN bus system? What types of CAN bus controllers are there? What are the advantages of the ARM Cortex-M microcontrollers? How can one create a CAN bus project using an ARM microcontroller? How can one create a CAN bus project using an Arduino microcontroller? How can one monitor data on the CAN bus?

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