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Arduino (Programmable controller) --- Programming. --- Arduino (Microcontroller) --- Programmable controllers
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This book provides a platform to get started with Internet of Things (IoT) with 8051 including programming basics and interfacing of the devices in designed systems. It presents a unique combination of 8051 with ESP8266 and I/O devices for IoT applications supported by case studies to provide the solutions to real time problems.
Internet of things. --- Intel 8051 (Microcontroller) --- Wireless LANs.
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Long description: Biographical note: Ralf Jesse ist Diplom-Ingenieur der Elektrotechnik mit mehr als 30 Jahren beruflicher Praxis im Einsatz von Mikroprozessoren und -controllern. Nach ersten Erfahrungen als Entwicklungsingenieur in einem Maschinenbau-Unternehmen folgten mehr als 20 Jahre als Software-Ingenieur in einem großen japanischen Konzern.
Softwareentwicklung --- Mikrocontroller --- Programmierung --- embedded systeme --- SPI --- Embedded Systems --- buch --- Microcontroller --- schnittstelle --- I2C --- GPIO --- adc --- dac --- stm32 --- uart
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It’s a simple question, but do you know how to take basic measurements with your Arduino, Raspberry Pi or PC? A lot of the times, you know how to use microcontrollers, sensors, and programming skills to collect data. This book takes it one step further to teach you how to transform your PC, Raspberry Pi, and Arduino to a device that can measure, collect, and analyze data. You'll begin from a simple starting point reviewing the basics of electronics and digital and analog concepts. As you advance through this book, you’ll work through 10 exercises to develop a working knowledge of microcontroller properties and graphical data presentation concepts, basic electronic technology, and the fundamentals of controlling and acquiring data. Arduino in Science is your guide to monitoring and measuring physical – chemical parameters with integrated circuitry and physical computational systems. You will: Review fundamental human machine interfacing with supervisory control and data acquisition software Examine timing, counting, and serial communication concepts Adapt microcontrollers to perform sophisticated functions Understand collection and presentation of data.
Arduino (Programmable controller) --- Science --- Computer programs. --- Arduino (Microcontroller) --- Programmable controllers --- Makerspaces. --- Maker. --- Hacker spaces --- Hackerspaces --- Hacklabs --- Maker spaces --- Cooperative societies --- Engineering laboratories
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Long description: Biographical note: Thomas Brühlmann arbeitet als Consultant und hat langjährige Erfahrung in der Hardware- und Softwareentwicklung. Nebenbei realisiert er Projekte mit Open-Source-Hardware, hält Vorträge und führt Workshops durch. In seinem Blog unter arduino-praxis.ch publiziert er Projekte, Anwendungen, Tipps und Tricks.
buch --- smart home --- Maker --- Internet der Dinge --- internet of things --- Arduino --- Microcontroller --- Raspberry Pi --- esp8266 --- Smarthome --- homeautomation --- node red --- sarduino ide --- smart home systeme --- tasmota
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Get started with the extremely versatile and powerful Arduino Nano 33 BLE Sense, a smart device based on the nRF52840 from Nordic semiconductors. This book introduces you to developing with the device. You'll learn how to access Arduino I/O such as analog and digital I/O, serial communication, SPI and I2C. The book also covers how to access sensor devices on Arduino Nano 33 BLE Sense, how to interact with other external devices over BLE, and build embedded Artificial Intelligence applications. Arduino Nano 33 BLE Sense consists of multiple built-in sensors such as 9-axis inertial, humidity, temperature, barometric, microphone, gesture, proximity, light color and light intensity sensors. With this book, you'll see how this board supports the Bluetooth Low Energy (BLE) network, enabling interactions with other devices over the network. You will: Prepare and set up Arduino Nano 33 BLE Sense board Operate Arduino Nano 33 BLE Sense board hardware and software Develop programs to access Arduino Nano 33 BLE Sense board I/O Build IoT programs with Arduino Nano 33 BLE Sense board.
Computer input-output equipment. --- Electrical engineering. --- Hardware and Maker. --- Communications Engineering, Networks. --- Electric engineering --- Engineering --- Computer hardware --- Computer I/O equipment --- Computers --- Electronic analog computers --- Electronic digital computers --- Hardware, Computer --- I/O equipment (Computers) --- Input equipment (Computers) --- Input-output equipment (Computers) --- Output equipment (Computers) --- Computer systems --- Input-output equipment --- Arduino (Programmable controller) --- Internet of things. --- IoT (Computer networks) --- Things, Internet of --- Computer networks --- Embedded Internet devices --- Machine-to-machine communications --- Arduino (Microcontroller) --- Programmable controllers
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Learn how to use a Raspberry Pi in conjunction with an Arduino to build a basic robot with advanced capabilities. Getting started in robotics does not have to be difficult. This book is an insightful and rewarding introduction to robotics and a catalyst for further directed study. You'll be led step by step through the process of building a robot that uses the power of a Linux based computer paired with the simplicity of Arduino. You’ll learn why the Raspberry Pi is a great choice for a robotics platform; its strengths as well as its shortcomings; how to overcome these limitations by implementing an Arduino; and the basics of the Python programming language as well as some of the more powerful features. With the Raspberry Pi you can give your project the power of a Linux computer, while Arduino makes interacting with sensors and motors very easy. These two boards are complimentary in their functions; where one falters the other performs admirably. The book also includes references to other great works to help further your growth in the exciting, and now accessible, field of smart robotics. As a bonus, the final chapter of the book demonstrates the real power of the Raspberry Pi by implementing a basic vision system. Using OpenCV and a standard USB web cam, you will build a robot that can chase a ball.
Computer input-output equipment. --- Artificial intelligence. --- Hardware and Maker. --- Artificial Intelligence. --- Computer hardware --- Computer I/O equipment --- Computers --- Electronic analog computers --- Electronic digital computers --- Hardware, Computer --- I/O equipment (Computers) --- Input equipment (Computers) --- Input-output equipment (Computers) --- Output equipment (Computers) --- Computer systems --- AI (Artificial intelligence) --- Artificial thinking --- Electronic brains --- Intellectronics --- Intelligence, Artificial --- Intelligent machines --- Machine intelligence --- Thinking, Artificial --- Bionics --- Cognitive science --- Digital computer simulation --- Electronic data processing --- Logic machines --- Machine theory --- Self-organizing systems --- Simulation methods --- Fifth generation computers --- Neural computers --- Input-output equipment --- Arduino (Programmable controller) --- Raspberry Pi (Computer). --- Robotics --- Automation --- Microcomputers --- Arduino (Microcontroller) --- Programmable controllers
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The aim of this Special Issue is to explore new advanced solutions in electronic systems and interfaces to be employed in sensors, describing best practices, implementations, and applications. The selected papers in particular concern photomultiplier tubes (PMTs) and silicon photomultipliers (SiPMs) interfaces and applications, techniques for monitoring radiation levels, electronics for biomedical applications, design and applications of time-to-digital converters, interfaces for image sensors, and general-purpose theory and topologies for electronic interfaces.
Technology: general issues --- CMOS image sensor --- linearity --- adaptive nonlinear ramp --- fully differential pipeline --- double auto-zeroing --- high framerate --- fixed pattern noise --- floating diffusion --- readout scheme --- ramp generator circuit --- ultrasound --- PMUT --- high-voltage (HV) transmitter --- low-voltage receiver (RX) amplifier --- ultrasound application-specific integrated circuit (ASIC) --- monolithical integration --- CMOS --- MEMS --- electrical impedance spectroscopy (EIS) --- time-to-digital converter (TDC) --- time interpolator --- phase --- polar demodulator --- quantization --- reconfigurability --- current mode --- sensor interface --- silicon photomultiplier --- transimpedance amplifier --- voltage current conveyor --- field-programmable gate arrays (FPGA) --- non-uniform multiphase (NUMP) method --- temperature correction --- radiation sensor interface --- silicon photomultiplier (SiPM) --- mobile dosimeter --- analog-to-digital converter (ADC) --- magnetic bioreactor --- magnetoactive scaffolds --- tissue engineering --- magnetic actuator --- magnetoelectric stimulation --- selectable gain amplifier --- resistive-sensor --- current divider --- current reference --- front-end electronics --- single-photon response --- timing accuracy --- ultrasonic gas flowmeter --- the principle of time-difference method --- data filtering --- low-power measurement --- auto-balancing bridge method --- FIR filter --- FPGA --- impedance --- inductive-loop sensor --- multifrequency --- vehicle magnetic profile --- vector voltmeter --- signal processing --- background radiation monitoring system --- Atmel AVR ATmega328 microcontroller (MC) --- Geiger-Mueller counter --- Petri net model --- fifth-order low-pass filter --- operational transconductance amplifier --- multiple-input bulk-driven technique --- subthreshold region --- nanopower --- temperature compensation --- hysteresis --- quartz flexible accelerometer --- aerial inertial navigation system --- thermal effect --- creep effect --- electronic nose --- convolutional neural network --- component analysis --- xenon TPC --- trigger concepts --- data acquisition circuits --- n/a
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The aim of this Special Issue is to explore new advanced solutions in electronic systems and interfaces to be employed in sensors, describing best practices, implementations, and applications. The selected papers in particular concern photomultiplier tubes (PMTs) and silicon photomultipliers (SiPMs) interfaces and applications, techniques for monitoring radiation levels, electronics for biomedical applications, design and applications of time-to-digital converters, interfaces for image sensors, and general-purpose theory and topologies for electronic interfaces.
CMOS image sensor --- linearity --- adaptive nonlinear ramp --- fully differential pipeline --- double auto-zeroing --- high framerate --- fixed pattern noise --- floating diffusion --- readout scheme --- ramp generator circuit --- ultrasound --- PMUT --- high-voltage (HV) transmitter --- low-voltage receiver (RX) amplifier --- ultrasound application-specific integrated circuit (ASIC) --- monolithical integration --- CMOS --- MEMS --- electrical impedance spectroscopy (EIS) --- time-to-digital converter (TDC) --- time interpolator --- phase --- polar demodulator --- quantization --- reconfigurability --- current mode --- sensor interface --- silicon photomultiplier --- transimpedance amplifier --- voltage current conveyor --- field-programmable gate arrays (FPGA) --- non-uniform multiphase (NUMP) method --- temperature correction --- radiation sensor interface --- silicon photomultiplier (SiPM) --- mobile dosimeter --- analog-to-digital converter (ADC) --- magnetic bioreactor --- magnetoactive scaffolds --- tissue engineering --- magnetic actuator --- magnetoelectric stimulation --- selectable gain amplifier --- resistive-sensor --- current divider --- current reference --- front-end electronics --- single-photon response --- timing accuracy --- ultrasonic gas flowmeter --- the principle of time-difference method --- data filtering --- low-power measurement --- auto-balancing bridge method --- FIR filter --- FPGA --- impedance --- inductive-loop sensor --- multifrequency --- vehicle magnetic profile --- vector voltmeter --- signal processing --- background radiation monitoring system --- Atmel AVR ATmega328 microcontroller (MC) --- Geiger-Mueller counter --- Petri net model --- fifth-order low-pass filter --- operational transconductance amplifier --- multiple-input bulk-driven technique --- subthreshold region --- nanopower --- temperature compensation --- hysteresis --- quartz flexible accelerometer --- aerial inertial navigation system --- thermal effect --- creep effect --- electronic nose --- convolutional neural network --- component analysis --- xenon TPC --- trigger concepts --- data acquisition circuits --- n/a
Listing 1 - 10 of 11 | << page >> |
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