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General| Brand | Elego |
|---|---|
| Model | 37 SENSOR KIT |
| Category | Microcontrollers |
| Language | English |
Elego Inc. overview: establishment, location, products, and website.
Outlines the tutorial's focus on Arduino basics and recommends a specific book.
Provides contact information for customer questions and suggestions via email.
Explains the goal of the lesson: setting up the computer for Arduino programming.
Step-by-step instructions for installing Arduino IDE on Windows, Mac, and Linux.
Guides on selecting the correct Arduino board and serial port within the IDE.
Explains the role of libraries and covers installation via Library Manager and ZIP files.
Introduces the DHT11 sensor, its components, and wiring diagrams.
Lists DHT11 parameters and shows example serial monitor output.
Introduces the DS18B20 module, its temperature sensing function, and single-bus principle.
Covers the schematic, wiring diagram, and expected results for the DS18B20 sensor.
Explains push switches, their electrical connections, and interaction with Arduino's LED circuit.
Covers the schematic, wiring diagram, and expected behavior of the button switch module.
Introduces shock, mercury, tilt, and knock switch modules and their basic operation.
Covers schematics, wiring diagrams, and expected results for various switch modules.
Explains IR receiver and emitter modules, their components, and working principles.
Covers schematics, wiring diagrams, and expected results for IR receiver and emission modules.
Explains active and passive buzzers, how to distinguish them, and their sound generation.
Covers schematics, wiring diagrams, and expected audible results for buzzer modules.
Introduces the laser sensor, its basic principles, and application.
Covers schematic, wiring diagram, and expected emission results for the laser module.
Explains SMD RGB and RGB modules for creating full-color LED effects by adjusting voltage.
Covers schematics, wiring diagrams, and expected color-changing results for RGB modules.
Explains the Photo-interrupter module, its opto sensor, and working principle.
Covers schematics, wiring diagrams, and expected LED feedback for the photo-interrupter.
Introduces dual-color common-cathode LEDs and their electro-optical characteristics.
Covers schematics, wiring diagrams, and expected color-changing results for dual-color LEDs.
Explains the photo-resistor (LDR) and its function in a voltage divider circuit.
Covers schematics, wiring diagrams, and expected analog readings for the photoresistor.
Introduces high-sensitive voice sensors, their features, and output types.
Covers schematics, wiring diagrams, and expected results for sound sensor modules.
Explains reed switches, magnetic induction activation, and type differences.
Covers schematics, wiring diagrams, and expected magnetic sensing results for reed switches.
Introduces digital/analog temperature modules and thermistor specifications.
Covers wiring diagrams and expected temperature readings for the modules.
Explains Hall sensors, magnetic sensing mechanisms, and design factors.
Covers schematics, wiring diagrams, and expected magnetic field detection results.
Explains the flame sensor's sensitivity to flame and radiation, and its specifications.
Covers schematics, wiring diagrams, and expected flame detection results for the sensor.
Introduces the mental touch module and its digital/analog output capabilities.
Covers schematics, wiring diagrams, and expected touch sensing results.
Introduces the 7 color flash LED module and its technical characteristics.
Covers schematics, wiring diagrams, and expected color-changing results for the 7 color LED.
Explains the magic light cup module, its PWM dimming principle, and interaction with other modules.
Covers schematics, wiring diagrams, and expected visual results for the light cup module.
Introduces the joystick module, its analog/digital inputs, and specifications.
Covers wiring diagrams and expected analog values for the joystick module in its resting position.
Explains the infrared obstacle avoidance sensor, its design, and adjustable distance.
Covers schematics, wiring diagrams, and expected results for the tracking module.
Explains the IR obstacle avoidance module, its specifications, and detection concept.
Covers schematics, wiring diagrams, and expected results for the obstacle avoidance module.
Introduces rotary encoders, their specifications, and the incremental encoder principle.
Covers wiring diagrams and expected rotational data for the rotary encoders module.
Explains relays as electrically operated switches and their role in controlling circuits.
Covers schematics and wiring diagrams for driving a relay with an Arduino board.
Introduces the heartbeat module project using IR LED and phototransistor for pulse detection.
Covers schematics, wiring diagrams, and expected measured values for the heartbeat module.
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