Elektor Kits

13 products

  •  -19% MakePython ESP32 Development Kit

    Elektor Labs MakePython ESP32 Development Kit

    Learn how to use the ESP32 Microcontroller and MicroPython programming in your future projects! The project book, written by well-known Elektor author Dogan Ibrahim, holds many software- and hardware-based projects especially developed for the MakePython ESP32 Development Kit. The kit comes with several LEDs, sensors, and actuators. The kit will help you acquire the basic knowledge to create IoT projects. The book’s fully evaluated projects feature all the supplied components. Each project includes a block diagram, a circuit diagram, a full program listing, and a complete program description. Included in the kit 1x MakePython ESP32 development board with color LCD 1x Ultrasonic ranging module 1x Temperature and humidity sensor 1x Buzzer module 1x DS18B20 module 1x Infrared module 1x Potentiometer 1x WS2812 module 1x Sound sensor 1x Vibration sensor 1x Photosensitive resistance module 1x Pulse sensor 1x Servo motor 1x USB cable 2x Button 2x Breadboard 45x Jumper wire 10x Resistor 330R 10x LED (Red) 10x LED (Green) 1x Project book (206 pages) 46 Projects in the Book LED Projects Blinking LED Flashing SOS Blinking LED – using a timer Alternately flashing LEDs Button control Changing the LED flashing rate using pushbutton interrupts Chasing-LEDs Binary-counting LEDs Christmas lights (random-flashing 8 LEDs) Electronic dice Lucky day of the week Pulsewidth Modulation (PWM) Projects Generate a 1000-Hz PWM waveform with 50% duty cycle LED brightness control Measuring the frequency and duty cycle of a PWM waveform Melody maker Simple electronic organ Servo motor control Servo motor DS18B20 thermometer Analog To Digital Converter (ADC) Projects Voltmeter Plotting the analog input voltage ESP32 internal temperature sensor Ohmmeter Photosensitive resistance module Digital To Analog Converter (DAC) Projects Generating fixed voltages Generating a sawtooth-wave signal Generating a triangular-wave signal Arbitrary periodic waveform Generating a sinewave signal Generating accurate sinewave signal using timer interrupts Using The OLED Display Seconds counter Event counter DS18B20 OLED based digital thermometer ON-OFF temperature controller Measuring the temperature and humidity Ultrasonic distance measurement Height of a person (stadiometer) Heart rate (pulse) measurement Other Sensors Supplied with the Kit Theft alarm Sound-activated light Infrared obstacle avoidance with buzzer WS2812 RGB LED ring Timestamping temperature and humidity readings Network Programming Wi-Fi scanner Remote control from the Internet browser (using a smartphone or PC) – Web Server Storing temperature and humidity data in the Cloud Low-Power Operation Using a timer to wake up the processor

    € 79,95€ 64,95

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  •  -18% Elektor Dual DC LISN (150 kHz – 200 MHz)

    Eurocircuits Elektor Dual DC LISN (150 kHz - 200 MHz)

    Measuring conducted emission is the simplest and most affordable method of getting some indication of whether a design can meet EMI/EMC requirements. A Line Impedance Stabilization Network (LISN) is an indispensable part of an EMC pre-compliance test setup. In cooperation with Würth Elektronik, Elektor has developed a 5 µH, 50 Ω Dual DC LISN that supports voltages up to 60 V and currents up to 10 A. The instrument measures RF interferences on both channels (the power supply) by means of 5-μH blocking inductances. The internal 10-dB attenuation network – one in each channel – contains a 3rd-order high-pass filter with a cutoff frequency of 9 kHz to protect the input of instruments like a spectrum analyzer from potentially harmful DC voltages or low frequencies coming from the EUT (Equipment Under Test). Specifications RF path Channels 2 (with clamping diodes) Bandwidth 150 kHz – 200 MHz Inductance 5 μH || 50 Ω Internal attenuation 10 dB Connectors SMA DC path Max. current DC Max. voltage DC DC resistance PCB size 94.2 x 57.4 mm Connectors 4-mm banana Hammond enclosure Type 1590N Dimensions 121 x 66 x 40 mm Included 1x 4-layer PCB with all SMT parts fitted 1x pre-drilled enclosure with ready-printed front panel layout 5x gold-plated, insulated, 4-mm banana sockets, rated for 24 A, 1 kV 1x Hammond enclosure 1590N1, Aluminum (Die-Cast Alloy) More Info Project on Elektor Labs: Dual DC LISN for EMC pre-compliance testing Elektor 9-10/2021: EMC Pre-Compliance Test for Your DC-Powered Project (Part 1) Elektor 11-12/2021: EMC Pre-Compliance Test for Your DC-Powered Project (Part 2)

    € 139,95€ 114,95

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  •  -17% DIY LiPo Supercharger Kit V2 (by GreatScott!)

    Elektor Labs DIY LiPo Supercharger Kit V2 (by GreatScott!)

    This DIY LiPo Supercharger/Booster (developed the electronics engineer/YouTuber GreatScott! and produced by Elektor) can charge a single-cell LiPo battery and protect it against the effects of overvoltage, overload, and short-circuits. Additionally, it can boost the battery voltage to 5 V or 12 V. The boosted output voltage is protected by an ‘eFuse’ IC outputting 1.52 A at 5 V or 0.76 A at 12 V maximum.The charger part of the circuit needs a +5 V power supply which can be connected through USB-C, or simply two wires soldered to pads on the PCB.In addition, other connections can be soldered to pads on the PCB or by using single pinheaders.Included 1x Mainboard pre-assembled with the 4 ICs 15x Resistors 3x LEDs 13x Capacitors 2x Switches 1x USB-C on a breakout board 2x Diodes Please note: Battery is not included.The board uses a DC/DC Converter, an IC charger, and an e Fuse from Texas Instruments. The battery protection IC is from Xysemi and provides under-voltage lockout, over current protection, and reverse battery protection.The board is connected to the power and recharges the batteries via a USB-C connection.Specifications Battery Single-cell lithium-ion or lithium-polymer battery Input Voltage +5 V / 2 A max. Output Voltage 5 V / 1.52 A12 V / 0.76 A LiPo Protection XB8089D Overcharge Detection 4.250 V Overcharge Release 4.10 V Overdischarge Detection 2.50 V Overdischarge Release 3 V Overcurrent Detection 10.0 A Thermal Shutdown Auto-retry Enable/Undervoltage Lockout Rising: 1.2 V (typ.)Falling: 1.1 V (typ.)

    € 29,95€ 24,95

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  •  -17% Elektor Circular Christmas Tree Kit

    Elektor Labs Elektor Circular Christmas Tree Kit

    Out of stock

    DIY 3D Programmable Light Effects This Arduino-based Christmas Tree Kit contains 36 digitally programmable 8 mm RGB LEDs (WS2812D-F8) that are individually addressable for creating impressive light effects. The LEDs can be controlled externally or by an Arduino Nano ESP32. Features 36 digital RGB LEDs (NeoPixel-addressable) Suitable for any microcontroller system Perfect match with Arduino Nano ESP32 (not included) High-quality PCBs: 5x circular, 1x square Easy, fun assembly with popular tools Detailed construction manual Dimensions: 136 x 136 x 175 mm Included PCB (136 x 136 mm) Resistors R1…R36 = 75 #, 0W125, 5%, SMD 0805 P1 = 10 k#, 0W1, 20%, trimmer, top adjust, 6 mm round (Piher PT6KV-103A2020) Capacitors C1…C36 = 100 n, 50 V, 5%, X7R, SMD 0805 C37, C38 = 47u, 6V3, 10%, tantalum, case size A (1206) Semiconductors D1, D2 = S5J-E3/57T, SMD case size SMC LED1-LED36 = WS2812D-F8, 8 mm, THT Others K1, JP1 = Pin header, 3x1, vertical, 2.54 mm pitch Shunt jumper for JP1, 2.54 mm spacing K2 = MJ-179PH (Multicomp Pro), DC power connector, 4 A, pin diam. 1.95 mm S1 = DIP switch, 4-way PA1…PE6 = 2 m wire, 0.81 mm solid, 0.52 mm² / 20AWG, insulated green (Alpha Wire 3053/1 GR005) H1…H5 = Nylon standoff, female-female, M3, 5 mm H1…H5 = Nylon screw, M3, 5 mm Optional Arduino Nano ESP32 with Headers Links Elektor Labs

    Out of stock

    € 29,95€ 24,95

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  • Sand Clock Kit (based on Raspberry Pi Pico)

    Elektor Labs Sand Clock Kit (based on Raspberry Pi Pico)

    Raspberry Pi-based Eye Catcher A standard sand clock just shows how time passes. In contrast, this Raspberry Pi Pico-controlled sand clock shows the exact time by “engraving” the four digits for hour and minute into the layer of sand. After an adjustable time the sand is flattened out by two vibration motors and everything begins all over again. At the heart of the sand clock are two servo motors driving a writing pen through a pantograph mechanism. A third servo motor lifts the pen up and down. The sand container is equipped with two vibration motors to flatten the sand. The electronic part of the sand clock consists of a Raspberry Pi Pico and an RTC/driver board with a real-time clock, plus driver circuits for the servo motors. A detailed construction manual is available for downloading. Features Dimensions: 135 x 110 x 80 mm Build time: 1.5 to 2 hours approx. Included 3x Precut acrylic sheets with all mechanical parts 3x Mini servo motors 2x Vibration motors 1x Raspberry Pi Pico 1x RTC/driver board with assembled parts Nuts, bolts, spacers, and wires for the assembly Fine-grained white sand

    € 62,95

    Members € 56,66

  • Elektor Fortissimo-100 Power Amplifier Kit

    Eurocircuits Elektor Fortissimo-100 Power Amplifier Kit

    Out of stock

    Celebrated Elektor audio design specialist Ton Giesberts has once again released a phenomenal design for a high-end audio power amplifier, the Elektor Fortissimo-100. Once again, the results of the amplifier on the test bench challenged Elektor’s high-spec Audio Precision test gear close to its noise floor. The specifications, ease of construction, and the overall stability of the Fortissimo-100 are deemed so good that Elektor are offering the project as a kit of parts for assembly at home, using plain tools. The kit contains each and every part to build one Fortissimo-100 mono block, including a set of high-quality PCBs, the heatsink, and other mechanical parts like standoffs and ceramic isolation washers for the power transistors. Again, all parts are through-hole. A detailed, step-by-step assembly guide (downloadable PDF) should enable every audio lover with the ability to work accurately and sensibly, to assemble the mono block and ravish at the sound quality. Two mono blocks are required to build a Fortissimo-100 stereo amplifier, plus a symmetrical 40-V, stabilized power supply per amplifier. Don’t use a single power supply for two amplifiers! The supply is not included in the kit, but a suggested source is given in the description for the project, so readers can opt for their personal desires. Specifications Input Sensitivity 1.076 V (94 W/8 Ω, THD = 0.1%, B = 22 kHz) Input Impedance 10 kΩ Sine-wave Power 94 W (8 Ω, THD = 0.1%) 181 W (4 Ω, THD = 0.1%) Bandwidth 3.3 Hz – 237 kHz (–3 dB, 1 W/8 Ω) Open-loop Bandwidth ≈ 20 kHz Open-loop Gain ≈ 140000 (8 Ω load) Slew Rate 45 V/μs Signal-to-Noise Ratio 103 dB (B = 22 Hz – 22 kHz linear) Harmonic Distortion Plus Noise 0.0008% (1 kHz, 50 W, 8 Ω, B = 80 kHz)0.002% (20 kHz, 50 W, 8 Ω, B = 80 kHz)0.0042% (20 kHz, 100 W, 4 Ω, B = 80 kHz) Intermodulation Distortion(50 Hz : 7 kHz = 4 : 1) 0.0015% (50 W, 8 Ω)0.0041% (100 W, 4 Ω) Included Two PCBs: amplifier PCB and protection PCB All parts, including heatsinks Construction Manual – Downloadable PDF Elektor Jumpstarter This product is the result of a successful campaign on our electronics project support platform Elektor Jumpstarter. Readers and interested parties can submit their product ideas and, together with the Elektor development team, a finished product can be brought to market after extensive consideration and many tests. Note that these are always small series production runs, so the products are considered 'Elektor Collector Items'.

    Out of stock

    € 249,00

    Members € 224,10

  •  -17% Arduino Uno R4 Experimenting Bundle

    Elektor Bundles Arduino Uno R4 Experimenting Bundle

    Out of stock

    The project book, written by well-known Elektor author Dogan Ibrahim, holds many software- and hardware-based projects especially developed for the Arduino Uno Experimenting Kit. The kit comes with the Arduino Uno R4 Minima, several LEDs, sensors, actuators, and other components. The purpose of the kit is to make a flying start with hardware and software aspects of projects designed around the Arduino Uno microcontroller system. The projects given in this guide are fully evaluated and working and fully employ all the supplied components. A block diagram, a circuit diagram, an extensive program listing, and a complete program description is given for every project in the guide. Included 1x Arduino Uno R4 Minima 1x RFID reader module 1x DS1302 clock module 1x 5 V stepper motor 1x "2003" stepper motor drive board 5x Green LED 5x Yellow LED 5x Red LED 2x Rocker switch 1x Flame sensor 1x LM35 sensor module 1x Infrared receiver 3x Light-dependent resistors (LDRs) 1x IR remote controller 1x Breadboard 4x Pushbutton (with four caps) 1x Buzzer 1x Piezo sounder 1x Adjustable resistor (potentiometer) 1x 74HC595 shift register 1x 7-segment display 1x 4-digit 7-segment display 1x 8x8 Dot-matrix display 1x 1602 / I²C LCD module 1x DHT11 Temperature and humidity module 1x Relay module 1x Sound module Set of Dupont cables Set of Breadboard cables 1x Water sensor 1x PS2 Joystick 5x 1 k-ohm resistor 5x 10 k-ohm resistor 5x 220-ohm resistor 1x 4x4 keypad module 1x 9g Servo (25 cm) 1x RFID card 1x RGB module 1x 9 V battery DC jack Project book (326 pages) Over 80 Projects in the Book Hardware Projects with LEDs Blinking LED – using the on-board LED Blinking LED – using an external LED LED flashing SOS Alternately blinking LEDs Chaser-LEDs Chasing LEDs 2 Binary counting LEDs Random flashing LEDs – Christmas lights Button controlled LED Controlling the LED flashing rate – external interrupts Reaction timer LED color wand RGB fixed colors Traffic lights Traffic lights with pedestrian crossings Using the 74HC595 shift register – binary up counter Using the 74HC595 shift register – random flashing 8 LEDs Using the 74HC595 shift register – chasing LEDs Using the 74HC595 shift register – turn ON a specified LED Using the 74HC595 shift register – turn ON specified LEDs 7-Segment LED Displays 7-Segment 1-digit LED counter 7-Segment 4-digit multiplexed LED display 7-Segment 4-digit multiplexed LED display counter – timer interrupts 7-Segment 4-digit multiplexed LED display counter – blanking leading zeroes 7-Segment 4-digit multiplexed LED display – reaction timer Timer interrupt blinking onboard LED Liquid Crystal Displays (LCDs) Display text on the LCD Scrolling text on the LCD Display custom characters on the LCD LCD based conveyor belt goods counter LCD based accurate clock using timer interrupts LCD dice Sensors Analog temperature sensor Voltmeter On/Off temperature controller Darkness reminder – using a light-dependent resistor (LDR) Tilt detection Displaying water level Water level controller Water flooding detector with buzzer Sound detection sensor – control the relay by clapping hands Flame sensor – fire detection with relay output Temperature and humidity display Generating musical tones – melody maker The RFID Reader Finding the Tag ID RFID door lock access with relay The 4x4 Keypad Display the pressed key code on the Serial Monitor Integer calculator with LCD Keypad door security lock with relay The Real-Time Clock (RTC) Module RTC with Serial Monitor RTC with LCD Temperature and humidity display with time stamping Setting and displaying the current time Periodic interrupt every 2 seconds The Joystick Reading analog values from the joystick 8x8 LED Matrix Displaying shapes Motors: Servo and Stepper Test-rotate the servo Servo sweep Joystick-controlled servo Rotate the motor clockwise and then anticlockwise The Digital to Analog Converter (DAC) Generating a square wave with 2 V amplitude Generate a sine wave Sine wave sweep frequency generator Generate sine wave whose frequency changes with potentiometer Generate a square wave with frequency of 1 kHz and amplitude of 1 V Using the EEPROM, the Human Interface Device, and PWM Keyboard control to launch Windows programs LED dimming using PWM The Arduino Uno R4 WiFi Using LED matrix 1 – creating a large + shape Creating images by setting bits Using LED matrix 2 – creating a large + shape Animation – displaying a word Controlling the Arduino Uno R4 WiFi on-board LED from a smartphone using UDP Serial Communications Receiving ambient temperature from an Arduino Uno R3 Using an Arduino Uno Simulator A simple project simulation – flashing LED Displaying text on LCD LCD seconds counter The CAN bus Arduino Uno R4 WiFi to Arduino Uno R4 Minima CAN bus communication Sending the temperature readings over the CAN bus Infrared Receiver and Remote Controller Decoding the IR remote control codes Remote relay activation/deactivation Infrared remote stepper motor control

    Out of stock

    € 89,95€ 74,95

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  • Elektor Tapir E-Smog Detector Kit

    Elektor Labs Elektor Tapir E-Smog Detector Kit

    Ultrasensitive wideband magnetic/electromagnetic field detector This ultra sensitive wideband “E-smog” detector adds two senses to help you track down noise that’s normally inaudible. TAPIR also makes a great project to build since the enclosure is the PCB proper. TAPIR detects electric as well as magnetic fields at high frequencies. The PCB is ingenuously designed to double as a shielded case. Each of the two antennas that can be connected to TAPIR is optimized for one type of field. Magnetic fields are detected with a ferrite-cored coil, and electric fields with a rod antenna, which is easily constructed from a length of stiff wire. Using TAPIR is dead easy. Connect the headphones, the selected antenna and switch on. Move the antenna around any suspect area and you’ll hear different types of noise and noise levels with each electrical device, depending on the type and frequency of the emitted field. Features Ultrasensitive Wideband "E-smog" Detector PCB Doubles as Project Housing Tried & Tested by Elektor Labs Educational & Geeky Project Easy to solder SMD Parts Online Illustrated Construction Manual Included Printed Circuit Board All Components Antenna and Headphones

    € 34,95

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  • Elektor 2 MHz LCR-meter Kit

    Eurocircuits Elektor 2 MHz LCR Meter Kit

    Out of stock

    Would you like to add an LCR Meter to your electronics workbench? Build your own! The Elektor 2 MHz LCR Meter Kit is an automatic impedance measuring bridge with extended functionality. Features Measures the resistance, capacitance and inductance of components with an impedance of 10 mΩ to 100 MΩ Test frequency from 50 Hz to 2 MHz  Four possible test voltages (0.1, 0.2, 0.5 and 1 Vrms) Additional DC polarization up to 5 V for capacitors and 50 mA for inductors Two configurations possible: Standalone mode with main board + display extension Main board (without display) connected via USB to a computer running the user program (Windows, Linux, MacOS) Specifications Display Parameter valuesEquivalent circuitFrequencyImpedance ∣Z∣Phase ΦQ or DVoltage and current of DUTTest voltage (AC) and polarisation (DC)Range hold statusLabels for multi-function buttons Display size 4.1" (10.5 cm) | 240 x 128 dots Measurement range Parameter Value   Inductance L 10 nH - 100 H   Capacity C 1 pF - 100 mF   Resistance R 10 mΩ - 100 MΩ   Q 0 - 5000 for display   Phase Φ -90° / +90° Test frequency 50 Hz to 2 MHz in 54 predefined stepsor any frequency within the range Accuracy Up to ± 0.1% ±1 of last digit Total current (MCU board + backlit display board) without polarization420 mA when polarizing DUTup to 650 mA Power supply 5 VDC/1 A USB A (not included)e.g. mobile phone mains charger PC software Windows, Linux, MacOS Dimensions (Hammond case) 6.5 x 4.2 x 2.1" (166 x 106 x 53 mm) Weight 1 kg All the necessary components are included for assembly and calibration: 2 populated PCBs (pushbuttons, rotary switch, and LCD)Note: Before shipping the operation of both assembled boards is carefully checked according to a protocol developed by the original designer Jean-Jacques Aubry. 4 BNC sockets (not assembled) 4 jumpers Hammond case drilled, machined, with printed front and side panels Kelvin cables with clips and 4 plugs Mini-USB / USB-A cable 24-way flat cable (15 cm) Aluminium button for rotary switch Full-color printed assembly manual (32 pages) Adjustment tool for trimmers Required tools Screwdriver, multimeter, and soldering iron. Time Total assembly and calibration time (depending on your skill): 60 to 90 minutes Downloads More downloads are available on the Elektor Labs platform.  Elektor Jumpstarter This product is the result of a successful campaign on our electronics project support platform Elektor Jumpstarter. Readers and interested parties can submit their product ideas and, together with the Elektor development team, a finished product can be brought to market after extensive consideration and many tests. Note that these are always small series production runs, so the products are considered 'Elektor Collector Items'.

    Out of stock

    € 799,00

    Members € 719,10

  • Elektor ±40 V Linear Voltage Regulator Kit

    Elektor Labs Elektor ±40 V Linear Voltage Regulator Kit

    1 review

    Out of stock

    An alternative power supply for the Elektor Fortissimo-100 Power Amplifier For those who object to a switch-mode power supply for the Fortissimo-100 Power Amplifier, this kit yields a linear, symmetrical, voltage regulator marked by low dropout voltage, high output current, and excellent stability – all obtained from discrete components. Bearing in mind that nearly all high-performance audio power amplifiers benefit from a stabilized power supply, this linear power supply is specifically designed for a symmetrical output voltage of ±40 V and peak currents of 13 A (15 A peak achievable). As an example, the average current drawn by a Fortissmo-100 amp driving a 3 Ω load is 4 A per regulator. Specifications Input voltage range 52 V DC (low power usage) to 43 V DC Output voltage range approx. 38.9 V DC to 41.4 V DC (theoretically)38.6 V DC to 41.1 V DC (measured) Dropout voltage at 6 A 42 V Dropout voltage at 9.5 A 43 V Dropout voltage at 13.5 A 44 V Max. current 15 A peak (half sinewave), 4.8 A (average) SOAR protection  15 A at 45 V DC in Ripple rejection  >60 dB (@ 5 A DC load) No-load input current 27 mA (@ 52 V DC input) Included PCB All parts including heatsinks

    Out of stock

    € 84,95

    Members € 76,46

  • Elektor Super Servo Tester kit

    Elektor Labs Elektor Super Servo Tester kit

    The Elektor Super Servo Tester can control servos and measure servo signals. It can test up to four servo channels at the same time. The Super Servo Tester comes as a kit. All the parts required to assemble the Super Servo Tester are included in the kit. Assembling the kit requires basic soldering skills. The microcontroller is already programmed. The Super Servo Tester features two operating modes: Control/Manual and Measure/Inputs. In Control/Manual mode the Super Servo Tester generates control signals on its outputs for up to four servos or for the flight controller or ESC. The signals are controlled by the four potentiometers. In Measure/Inputs the Super Servo Tester measures the servo signals connected to its inputs. These signals may come from for instance an ESC, a flight controller, or the receiver or another device. The signals are also routed to the outputs to control the servos or the flight controller or ESC. The results are shown on the display. Specifications Operating modes Control/Manual & Measure/Inputs Channels 3 Servo signal inputs 4 Servo signal outputs 4 Alarm Buzzer & LED Display 0.96" OLED (128 x 32 pixels) Input voltage on K5 7-12 VDC Input voltage on K1 5-7.5 VDC Input current 30 mA (9 VDC on K5, nothing connected to K1 and K2) Dimensions 113 x 66 x 25 mm Weight 60 g Included Resistors (0.25 W) R1, R3 1 kΩ, 5% R2, R4, R5, R6, R7, R9, R10 10 kΩ, 5% R8 22 Ω, 5% P1, P2, P3, P4 10 kΩ, lin/B, vertical potentiometer Capacitors C1 100 µF 16 V C2 10 µF 25 V C3, C4, C7 100 nF C5, C6 22 pF Semiconductors D1 1N5817 D2 LM385Z-2.5 D3 BZX79-C5V1 IC1 7805 IC2 ATmega328P-PU, programmed LED1 LED, 3 mm, red T1 2N7000 Miscellaneous BUZ1 Piezo buzzer with oscillator K1, K2 2-row, 12-way pinheader, 90° K5 Barrel jack K4 1-row, 4-way pin socket K3 2-row, 6-way boxed pinheader S1 Slide switch DPDT S2 Slide switch SPDT X1 Crystal, 16 MHz 28-way DIP socket for IC2 Elektor PCB OLED display, 0.96", 128 x 32 pixels, 4-pin I²C interface Links Elektor Magazine Elektor Labs

    € 49,95

    Members € 44,96

  •  -50% BBC micro:bit experimenteer kit

    Elektor Labs BBC micro:bit Experimenter's Kit

    Kit of parts for the experiments with the BBC micro:bit (not included in this kit) published in the book BBC micro:bit – 35 Touch Develop & microPython Projects. Kit contents 4x LED 4x 270 ohm resistor 5x wire (male-female) 2x wire (male-male) 3x Button 3x 10 kilo-ohm resistor 1x TMP36 temperature sensor 1x Buzzer 1x Light dependent resistor 1x RGB LED 1x BC337 transistor 1x 680 ohm resistor 1x 3 V DC motor 1x ML8511 UV sensor module 1x Mini servo 1x Small breadboard 1x BBC micro:bit edge connector 1x BBC micro:bit adapter board 1x Mounting plate

    € 39,95€ 19,95

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  • Last stock! Elektor ESP32 Smart Kit

    Elektor Labs Elektor ESP32 Smart Kit

    This hardware kit is especially prepared for "The Official ESP32 Book". The kit contains all the components used in the projects in this book. With the help of this hardware kit it should be easy and fun to build the projects in the book. Included 1x ESP32 DevKitC 8x LEDs (RED) 1x LED (GREEN) 2x push-button 8x 330 ohm resistors 1x Buzzer 1x RGB LED 1x TMP36 temperature sensor chip 1x DHT11 temperature and humidity chip 1x MCP23017 (DIL 28 package) 1x LDR 1x BC108 (or any other PNP) transistor 1x 7 segment LED 1x Small Microphone Module 1x I²C LCD 1x SG90 servo 1x 4x4 Keypad 8x Female-Male jumpers 4x Male-Male jumpers 1x Small breadboard

    € 59,95

    Members € 53,96


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