Search results for "and Transmitter"
Seeed Studio Seeed Studio Grove Ultrasonic Distance Sensor
This module has an ultrasonic transmitter and an ultrasonic receiver so you can consider it as an ultrasonic transceiver. Familiar with sonar, when the 40 kHz ultrasonic wave generated by the transmitter encounters the object, the sound wave will be emitted back, and the receiver can receive the reflected ultrasonic wave. It is only necessary to calculate the time from the transmission to the reception, and then multiply the speed of the sound in the air (340 m/s) to calculate the distance from the sensor to the object. Features 3.3V / 5V compatible, wide voltage level: 3.2V~5.2V Only 3 pins are needed, save I/O resources Wide measurement range: 3cm ~ 350cm Plug and play with Grove connector Applications Distance measurement Ultrasonic detector Proximity alarm Smart car Technical Specifications Dimensions 50 mm x 25 mm x 16 mm Weight 17 g Battery Exclude Measuring range 3 cm - 350 cm Operating voltage DC 3.2 V ~ 5.2 V Operating current 8 mA Ultrasonic frequency 40 kHz Connector 1 x Grove Output PWM
€ 7,95
Members € 7,16
Elecrow Raspberry Pi Pico Advanced Kit with 32 Modules and 32 Projects
This Raspberry Pi Pico advanced kit is designed for people who already have some electronics knowledge and programming skills and are interested in the Raspberry Pi. If you want to continue to strengthen your thinking, hands-on ability, and innovation ability, the Raspberry Pi Pico Advanced Kit will take you to create different scenarios and explore more applications. The Raspberry Pi Pico Advanced Kit includes a Raspberry Pi Pico H based on the official RP2040 chip, 32 sensor modules, 1 smart car kit, and 32 Raspberry Pi Pico projects. With this kit, you can complete several interesting and practical projects. In the process, the learners' thinking ability and creativity are continuously stimulated. Features Suitable for all users, from beginners to advanced programmers. 32 detailed lessons to lead your experiment 32 kinds of sensor modules and the smart cart can also be customized for interesting functions. Raspberry Pi Pico is a lightweight, compact, high-performance microcontroller multifunction board using a dual-core ARM Cortex-M0+ processor More powerful functions Projects RGB Colorful Light: Through PWM pulse width modulation, the LED light is controlled to light up gradually, and then gradually turn off, so as to form a breathing light effect in a cycle. Electronic Clock: The hour and minute data of the clock are displayed through the TM1637 4-Bits digital tube, and the clock point is controlled to flash circularly to make an electronic clock. Colorful Flowing Light: Through the GP port of the Pico, the 5 LED lights are controlled to light up in turn, and then turn off in turn to form a colorful flowing light. Billboard: The first line of LCD1602 scrolls from right to left to display the string of 'Hello Pico', simulating the effect of billboard scrolling. Plant Doctor: Real-time detection of soil humidity. Under normal soil humidity, the green light lights up and the buzzer does not sound; when the soil humidity is too low, the red light lights up and the buzzer sounds. Alarm of Fire: Simulate a fire alarm system, judge whether a fire occurs by judging whether the induction probe of the flame sensor detects the fire source, control the RGB lights to flash red and blue, and display the alarm information on the LCD1602 liquid crystal screen. Obstacle Avoidance Car: Real-time detection of the distance measurement value of the ultrasonic ranging sensor, when the distance value is less than the preset value, the car will be controlled to turn left to avoid obstacles, so as to achieve the effect of the obstacle avoidance car. Traffic Light: Control the red light to turn on, the red light goes off after the 4-Bits digital tube counts down for 30 seconds; then the yellow light flashes 5 times with a time interval of 0.3 seconds. Finally the green light turns on for 10 seconds and then turns off, reciprocating, simulating the effect of traffic lights. Included 1x Raspberry Pi Pico H 2x 400 holes solderless breadboard 10x Colorful 5 mm LEDs: 1pcs each in green, red, blue, yellow and white 1x RGB module 1x Button 1x Sound sensor 1x Mini PIR motion sensor 1x Photoresistor module 1x Laser transmitter 1x Passive buzzer 1x Vibration sensor 1x Mini magnetic spring module 1x Soil moisture sensor 1x Rotary potentiometer 1x DC motor with male Dupont Wire + 1x fan blade 1x 9G servo 1x Dual-axis XY Joystick module 1x RC522 RFID module 1x 4 Bits digital LED display module 1x Traffic light display module 1x Rotary encoder module 1x 1602 LCD display module (blue) 1x Temperature & humidity sensor 1x Raindrops module 1x Flame mensor 1x OLED module 1x Membrane switch keyboard 1x Smart car kit 2x Crash sensor 2x Tracking sensor 1x Ultrasonic sensor 1x Infrared remote control 1x Infrared receiver module 1x Micro USB cable (30 cm) 1x 170 holes solderless breadboard 1x 65 Jumper wire 1x 20 cm Dupont wire (male to female) 1x Clear Case 2x M2.5x30 mm copper pillar 10x Phillips pan head screw 10x M2.5 Nickel hex nuts 1x 2-inch dual-purpose screwdriver 1x Magnet (Diameter: 8 mm, Thickness: 5 mm) 1x DC stepper motor driver board Downloads Tutorial Sample Code Map and Assembly Manual
€ 59,95
Members € 53,96
Elektor Labs Elektor SDR Shield 2.0
This board is a newer version of the Elektor SDR Reloaded, the difference is that on this new version with two PLL outputs and two LF-outputs, which are accessible via additional connectors on the board (not included in the kit). This allows the user to use this Arduino shield as a signal generator, SW transmitter or even transceiver. Specifications Operating Voltage 5 V and 3.3 V from Arduino Frequency Range 150 kHz to 30 MHz Sensitivity 1 µV Overall Gain 40 dB Maximum signal level at antenna 10 mV Dynamic Range 80 dB Please note: The module doesn't come pre-soldered. Links Elektor SDR Shield 2.0 (1) Elektor SDR Shield 2.0 (2) Elektor SDR Shield 2.0 (3)
€ 39,95€ 29,95
Members € 26,96
Elektor Classics Elektor Audio Collection (USB Stick)
Some Highlights from the contents Surround-sound decoder Compact amp Sampling rate converter Battery powered preamplifier Titan 2000 amplifier Crescendo Millennium amplifier Audio-DAC/ADC IR-S/PDFI receiver and transmitter High-End Power Amp Hi-fi Wireless Headset Paraphase Tone Control and more… Using Adobe Reader you are able to browse and search the articles on your computer, as well as print texts, circuit diagrams and PCB layouts.
€ 69,95€ 39,95
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SB Components USB-C to LoRa Dongle (EU868)
USB-C to LoRa Dongle is a powerful and versatile LoRa device that lets you connect beyond boundaries. With its exceptional range and easy connectivity, it allows you to seamlessly communicate with devices up to 5 km away. LoRa Dongle is the perfect solution for anyone looking to establish long-range wireless communication in a variety of applications. This dongle provides direct USB interface control, eliminating the need for a deep understanding of LoRa transmission concepts. They seamlessly connect with devices like Raspberry Pi, SBCs, PCs, and laptops, simplifying the creation of IoT LoRa gateways. The USB LoRa Dongles function as transmitters and receivers, accommodating various message formats, including text, hexadecimal, and decimal. Features Device with the most recent LoRa module, offering up to a 5-kilometer data transmission range and higher speeds. Use new generation LoRa spread spectrum to ensure stable communication Type C interface for LoRa configuration/Power Status LED for power and data transmission Serial TX/RX pin breakout in Header and Screw terminal form Onboard jumper for operating mode selection Specifications Carrier Frequency (License Free ISM): 868 MHz Chip: Based on SX1262 RF chip Range: 5Km Transmitting Power: 22 dBm Receiving Sensitivity: -147 dbm Data Rate: Up to 62.5 kbps Interface: Type C Communication Port: UART serial Supply Voltage: 5 V Operating Voltage: 3.3 V Operating Temperature: -20 to 70°C Included 1x USB-C to LoRa Dongle 1x Antenna (868 MHz)
€ 24,95
Members € 22,46
JOY-iT JOY-iT Sensor Kit X40
This high-quality sensor kit has been specially developed for the most common open-source platforms. It is compatible with single-board computers (Raspberry Pi, Banana Pi, CubieBoard, CubieTruck, Beaglebone, pcDuino) and microcontrollers (Arduino, ATmega, AVR, PIC, STM32, etc.). It contains a total of 40 different sensors. You can either solder the sensors or stick them on a board to work on different circuits or experiments. Comprehensive sensor set with 40 sensors including analogue- and voltage-converter High-quality, reliable sensors Universally applicable Kit contents KY-001 Temperature sensor module KY-002 Vibration switch module KY-003 Hall magnetic field sensor module KY-004 Button module KY-005 Infrared transmitter module KY-006 Passive Piezo buzzer module KY-009 RGB LED SMD module KY-010 Light barrier module KY-011 2-color (Red+Green) 5 mm LED module KY-012 Active Piezo buzzer module KY-013 Temperature sensor module KY-015 combi sensor temperature+humidity KY-016 RGB 5 mm LED module KY-017 Tilt switch module KY-018 Photoresistor module KY-019 5 V relais module KY-020 Tilt switch module KY-021 Mini magnetic reed module KY-022 Infrared receiver module KY-023 Joystick module (XY-axis) KY-024 Linear magnetic hall sensor KY-025 Reed module KY-026 Flame sensor module KY-027 Magic light cup module KY-028 Temperature sensor module (Thermistor) KY-029 2-color (Red+Green) 3 mm LED module KY-031 Knock sensor module KY-032 Obstacle detect module KY-033 Tracking sensor module KY-034 7 clour LED flash module KY-035 Bihor magnetic sensor module KY-036 Metal-touch sensor module KY-037 Microphone sensor module (high sensitivity) KY-038 Microphone sound sensor module KY-039 Heartbeat sensor module KY-040 Rotary Encoder KY-050 Ultrasonic distance sensor KY-051 Voltage Translator / Level Shifter KY-052 Pressure sensor / Temperatur sensor (BMP180) KY-053 Analog-digital converter A detailed list with a short description of the functions, programming examples and software, can be found at http://sensorkit.en.joy-it.net.
€ 59,95
Members € 53,96
KrakenSDR - Five-channel Software Defined Radio (based on RTL-SDR)
KrakenSDR is a phase-coherent software-defined radio with five RTL-SDRs KrakenSDR is a five-channel, RX-only, software-defined radio (SDR) based on the RTL-SDR and designed for phase-coherent applications and experiments. Phase-coherent SDR opens the door to some very interesting applications, including radio direction finding, passive radar, and beam forming. You can also use KrakenSDR as five separate radios. KrakenSDR is an upgraded version of the previous product, KerberosSDR. It provides a fifth receive channel, automatic phase-coherence synchronization capabilities, bias tees, a new RF design with cleaner spectrum, USB Type-C connectors, a heavy-duty enclosure, upgraded open source DAQ and DSP software, and an upgraded Android app for direction finding. RTL-SDR KrakenSDR makes use of five custom RTL-SDR circuits consisting of R820T2 and RTL2832U chips. The RTL-SDR is a well-known, low-cost software-defined radio (SDR), but throw five units together and using them on the same PC will not make them 'phase coherent;' each one will receive signals at a slightly different phase offset from the others. This makes it difficult or impossible to achieve a high degree of precision when measuring relationships between signals that arrive at different antennas. To achieve phase coherence, KrakenSDR drives all five RTL-SDR radios with a single clock source, and contains internal calibration hardware to allow the phase relationship between channels to be measured precisely and corrected for. Additionally, the overall design of KrakenSDR works to ensure phase stability, with care taken in the areas of heat management, driver configuration, power supply, and external-interference mitigation. Features Five-channel, coherent-capable RTL-SDR, all clocked to a single local oscillator Built-in automatic coherence synchronization hardware Automatic coherence synchronization and management via provided Linux software 24 MHz to 1766 MHz tuning Range (standard R820T2 RTL-SDR range, and possibly higher with hacked drivers) 4.5 V bias tee on each port Core DAQ and DSP software is open source and designed to run on a Raspberry Pi 4 Direction-finding software for Android (free for non-commercial use) Applications Physically locating an unknown transmitter of interest (e.g. illegal or interfering broadcasts, noise transmissions, or just as a curiosity) HAM radio experiments such as radio fox hunts or monitoring repeater abuse Tracking assets, wildlife, or domestic animals outside of network coverage through the use of low power beacons Locating emergency beacons for search-and-rescue teams Locating lost ships via VHF radio Passive radar detection of aircraft, boats, and drones Traffic-density monitoring via passive radar Beamforming Interferometry for radio astronomy Specifications Bandwidth 2.56 MHz RX Channels 5 Frequency Range 24-1766 MHz Radio Tuner 5x R820T2 Radio ADC 5x RTL2832U ADC Bit Depth 8-bits Oscillator Stability 1 PPM Typical Power Consumption 5 V/2.2 A (11 W) Enclosure Type Heavy-duty CNC Aluminum Dimensions 177 x 112.3 x 25.9 mm Weight 560 g Included 1x KrakenSDR (fully assembled and installed) with Aluminum enclosure 1x Manual Required USB Type-C cable 5 V/2.4 A USB Type-C power supply Antennas Raspberry Pi 4 (for computing) Android phone/tablet with mobile-hotspot capabilities (with direction finding) Downloads Wiki Android App
€ 549,00
Members € 494,10
Elektor Digital Mastering Microcontrollers Helped by Arduino (3rd Edition) | E-book
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.'
€ 32,95
Members € 26,36
Mastering Microcontrollers Helped by Arduino (3rd Edition)
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.'
€ 42,95
Members € 38,66
Elektor Bundles Microcontrollers Hands-on Course for Arduino Starters (Bundle)
Realize your own projects with the Elektor Arduino Nano MCCAB Training Board The microcontroller is probably the most fascinating subfield of electronics. Due to the multitude of functions, it combines on its chip, it is a universal multi-tool for developers to realize their projects. Practically every device of daily use today is controlled by a microcontroller. However, for an electronic layman, realizing his own ideas with a microcontroller has so far remained a pipe dream due to its complexity. The Arduino concept has largely simplified the use of microcontrollers, so that now even laymen can realize their own electronics ideas with a microcontroller. Book & Hardware in the Bundle: 'Learning by Doing' This book, which is included in the bundle, shows how you can realize your own projects with a microcontroller even without much experience in electronics and programming languages. It is a microcontrollers hands-on course for starters, because after an overview of the internals of the microcontroller and an introduction to the programming language C, the focus of the course is on the practical exercises. The reader acquires the necessary knowledge by 'learning by doing': in the extensive practical section with 12 projects and 46 exercises, what is learned in the front part of the book is underpinned with many examples. The exercises are structured in such a way that the user is given a task to solve using the knowledge built up in the theoretical part of the book. Each exercise is followed by a sample solution that is explained and commented on in detail, which helps the user to solve problems and compare it with his own solution. Arduino IDE The Arduino IDE is a software development environment that can be downloaded for free to your own PC and that contains the entire software package needed for your own microcontroller projects. You write your programs ('apps') with the IDE’s editor in the C programming language. You translate them into the bits and bytes that the microcontroller understands using the Arduino IDE's built-in compiler, and then load them into the microcontroller's memory on the Elektor Arduino MCCAB Nano Training Board via a USB cable. Query or control external sensors, motors or assemblies In addition to an Arduino Nano microcontroller module, the Elektor Arduino Nano MCCAB Training Board contains all the components required for the exercises, such as light-emitting diodes, switches, pushbuttons, acoustic signal transmitters, etc. External sensors, motors or assemblies can also be queried or controlled with this microcontroller training system. Specifications (Arduino Nano Training Board MCCAB) Power Supply Via the USB connection of the connected PC or an external power supply unit (not included) Operating Voltage +5 Vcc Input Voltage All inputs 0 V to +5 V VX1 and VX2 +8 V to +12 V (only when using an external power supply) Hardware periphery LCD 2x16 characters Potentiometer P1 & P2 JP3: selection of operating voltage of P1 & P2 Distributor SV4: Distributor for the operating voltagesSV5, SV6: Distributor for the inputs/outputs of the microcontroller Switches and buttons RESET button on the Arduino Nano module 6x pushbutton switches K1 ... K6 6x slide switches S1 ... S6 JP2: Connection of the switches with the inputs of the microcontroller Buzzer Piezo buzzer Buzzer1 with jumper on JP6 Indicator lights 11 x LED: Status indicator for the inputs/outputs LED L on the Arduino Nano module, connected to GPIO D13 JP6: Connection of LEDs LD10 ... LD20 with GPIOs D2 ... D12 Serial interfacesSPI & I²C JP4: Selection of the signal at pin X of the SPI connector SV12 SV9 to SV12: SPI interface (3.3 V/5 V) or I²C interface Switching output for external devices SV1, SV7: Switching output (maximum +24 V/160 mA, externally supplied) SV2: 2x13 pins for connection of external modules 3x3 LED matrix(9 red LEDs) SV3: Columns of the 3x3 LED matrix (outputs D6 ... D8) JP1: Connection of the rows with the GPIOs D3 ... D5 Software Library MCCABLib Control of hardware components (switches, buttons, LEDs, 3x3 LED matrix, buzzer) on the MCCAB Training Board Operating Temperature Up to +40 °C Dimensions 100 x 100 x 20 mm Specifications (Arduino Nano) Microcontroller ATmega328P Architecture AVR Operating Voltage 5 V Flash Memory 32 KB, of which 2 KB used by bootloader SRAM 2 KB Clock Speed 16 MHz Analog IN Pins 8 EEPROM 1 KB DC Current per I/O Pins 40 mA on one I/O pin, total maximum 200 mA on all pins together Input Voltage 7-12 V Digital I/O Pins 22 (6 of which are PWM) PWM Output 6 Power Consumption 19 mA Dimensions 18 x 45 mm Weight 7 g Included 1x Elektor Arduino Nano Training Board MCCAB 1x Book 'Microcontrollers Hands-on Course for Arduino Starters' 1x Arduino Nano
€ 109,95€ 94,95
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Würth Trilogy of Wireless Power Transfer
Like our other Trilogy design guides, the Trilogy of Wireless Power is divided into three main sections to help you better understand each main aspect of wireless power: Basic Principles of Wireless Power The Wireless Power Transfer System Applications of Wireless Power In the first part of the book, the basic principles of wireless power transfer are described, including the different transmissions paths, the leading standards, and the basic physics. While these principles have not changed in the last 120 years, we still wanted to give a short overview to make sure we had the basics covered. The second part of the book covers the wireless power transfer system, including the different topologies of the wireless power transfer, the transmitter and receiver coils needed, FET selection, and all other required parts. The third part of the book describes and illustrates practical application examples in the field of the Qi standard, examples for proprietary solutions, an overview of EMI-related topics for closely and loosely coupled systems, and an example for a multi-mode wireless power transfer system.
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, by Burkhard Kainka First Experiences With HackRF One – a Review
When I first held the HackRF One in my hand, I knew almost nothing about it, except that it is an SDR receiver and transmitter...