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[DesireCourse.Net] Udemy - Tech Explorations - Arduino Step by Step Getting Started

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种子名称: [DesireCourse.Net] Udemy - Tech Explorations - Arduino Step by Step Getting Started
文件类型: 视频
文件数目: 121个文件
文件大小: 12.01 GB
收录时间: 2021-4-2 16:02
已经下载: 3
资源热度: 336
最近下载: 2024-11-13 09:20

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[DesireCourse.Net] Udemy - Tech Explorations - Arduino Step by Step Getting Started.torrent
  • 1. Introduction to the course/1. What is this course about.mp426.31MB
  • 1. Introduction to the course/2. Tools you will need.mp4162.91MB
  • 1. Introduction to the course/3. Parts you will need.mp4239.66MB
  • 1. Introduction to the course/4. How to get the most out of this course.mp448.01MB
  • 10. Detecting acceleration/1. Introduction.mp46.16MB
  • 10. Detecting acceleration/2. Introduction to detecting acceleration with the ADXL335..mp466.67MB
  • 10. Detecting acceleration/3. Wiring the ADXL335.mp4153.51MB
  • 10. Detecting acceleration/4. Plugging the ADXL335 directly in the Arduino, and detect its orientation.mp494.75MB
  • 10. Detecting acceleration/5. Write the sketch for detecting orientation with the ADXL335.mp4110.53MB
  • 11. Detecting objects with the infrared motion sensor/1. Introduction.mp45.99MB
  • 11. Detecting objects with the infrared motion sensor/2. Introduction to the Passive infra-Red (PIR) motion sensor.mp466.65MB
  • 11. Detecting objects with the infrared motion sensor/3. A simple PIR experiment with an LED.mp4219.29MB
  • 11. Detecting objects with the infrared motion sensor/4. A demonstration of using the PIR sensor with the Arduino.mp489.4MB
  • 11. Detecting objects with the infrared motion sensor/5. PIR sensor first demonstration sketch walkthrough.mp417.62MB
  • 11. Detecting objects with the infrared motion sensor/6. PIR sensor second demonstration sketch walkthrough.mp434.53MB
  • 12. Sensing distance/1. Introduction.mp410.77MB
  • 12. Sensing distance/2. Introduction to the ultrasonic distance sensor.mp489.43MB
  • 12. Sensing distance/3. Wiring and understanding Trigger and Echo.mp4281.78MB
  • 12. Sensing distance/4. How to calculate distance.mp4150.91MB
  • 13. Sensing sound/1. Introduction.mp44.51MB
  • 13. Sensing sound/2. Introduction to the analog sound sensor.mp4190.98MB
  • 13. Sensing sound/3. A demonstration and sketch of the analog sound sensor.mp473.72MB
  • 13. Sensing sound/4. A demonstration and sketch of the digital sound sensor.mp4153.46MB
  • 14. Making noise with a buzzer/1. Introduction.mp45.1MB
  • 14. Making noise with a buzzer/2. Introduction to the buzzer.mp4197.57MB
  • 14. Making noise with a buzzer/3. Playing music.mp443.51MB
  • 14. Making noise with a buzzer/4. Control the sound volume.mp4109.6MB
  • 15. The Liquid Crystal Display/1. Introduction.mp48.56MB
  • 15. The Liquid Crystal Display/2. Introduction to the LCD.mp469.36MB
  • 15. The Liquid Crystal Display/3. LCD wiring in 4-bit parallel mode.mp4294.11MB
  • 15. The Liquid Crystal Display/4. LCD demonstration sketch.mp4223.57MB
  • 15. The Liquid Crystal Display/5. Display sensor data in the LCD.mp4150.93MB
  • 15. The Liquid Crystal Display/6. Connect LCD using the I2C adaptor.mp4254.71MB
  • 15. The Liquid Crystal Display/7. Using the RGB LCD and buttons shield.mp4229.88MB
  • 16. Video Responses/1. Why use 3 resistors for the RGB LED, vs. just one resistor on the cathode.mp428.72MB
  • 2. Know your Arduino/1. Introduction.mp48.33MB
  • 2. Know your Arduino/2. Getting to know the Arduino Uno Atmega328P, USB, Shields.mp4266.97MB
  • 2. Know your Arduino/3. Getting to know the Arduino Uno Pins, power, clock.mp4224.08MB
  • 2. Know your Arduino/4. Using the digital output pins.mp4168.67MB
  • 2. Know your Arduino/5. Using the digital input pins.mp4117.87MB
  • 2. Know your Arduino/6. Using the analog output pins.mp499.4MB
  • 2. Know your Arduino/7. Using the analog input pins.mp491.78MB
  • 3. Introduction to communications/1. Introduction.mp410.43MB
  • 3. Introduction to communications/2. Serial (UART) communications.mp4188.84MB
  • 3. Introduction to communications/3. I²C (TWI) communications.mp4139.42MB
  • 3. Introduction to communications/4. SPI communications.mp4139.73MB
  • 4. Arduino boards/1. Introduction.mp48.62MB
  • 4. Arduino boards/2. Meet some members of the Arduino family.mp474.51MB
  • 4. Arduino boards/3. Introducing the Arduino Mega 2560.mp460.39MB
  • 4. Arduino boards/4. Introducing the Arduino Due.mp472.94MB
  • 4. Arduino boards/5. Introducing the Arduino Zero.mp465.11MB
  • 4. Arduino boards/6. Introducing the Arduino 101.mp443.61MB
  • 4. Arduino boards/7. Introducing the Arduino Pro Mini.mp485.28MB
  • 4. Arduino boards/8. Introducing Arduino-compatible boards.mp4256.52MB
  • 5. Prototyping basics/1. Introduction.mp45.85MB
  • 5. Prototyping basics/10. Soldering - preparation and using holders.mp4126.05MB
  • 5. Prototyping basics/11. Soldering - using wire cutters and fume extractor.mp454.94MB
  • 5. Prototyping basics/12. Soldering - Simple maintenance tips for your solder iron.mp470.15MB
  • 5. Prototyping basics/13. A demonstration of soldering a header onto a breakout board.mp4328.44MB
  • 5. Prototyping basics/14. An introduction to protoboards.mp4443.65MB
  • 5. Prototyping basics/2. Using the breadboard.mp4349.63MB
  • 5. Prototyping basics/3. Using jumper wires.mp4184.46MB
  • 5. Prototyping basics/4. The absolutely essential tools.mp4157.75MB
  • 5. Prototyping basics/5. Powering your Arduino with power supplies.mp491.92MB
  • 5. Prototyping basics/6. Using the multimeter to measure voltage.mp4105.93MB
  • 5. Prototyping basics/7. Using the multimeter to measure current.mp469.18MB
  • 5. Prototyping basics/8. The multimeter - Resistance and continuity.mp489.61MB
  • 5. Prototyping basics/9. Introduction to soldering - the soldering iron.mp4229.44MB
  • 6. The Arduino IDE/1. Introduction.mp411.62MB
  • 6. The Arduino IDE/2. An introduction to the Arduino IDE.mp466.03MB
  • 6. The Arduino IDE/3. Getting and installing the Arduino IDE.mp412.85MB
  • 6. The Arduino IDE/4. The Arduino IDE - Understanding the Preferences pane.mp470.69MB
  • 6. The Arduino IDE/5. The Arduino IDE - Understanding the Menu items.mp463.26MB
  • 6. The Arduino IDE/6. How to upload a sketch to your Arduino.mp458.76MB
  • 6. The Arduino IDE/7. How to upload a sketch to your Arduino - For Windows users.mp438.69MB
  • 7. Introduction to Arduino programming/1. Introduction.mp411.53MB
  • 7. Introduction to Arduino programming/10. Introduction to control structures The while statement.mp421.31MB
  • 7. Introduction to Arduino programming/11. Introduction to control structures The For statement.mp430.68MB
  • 7. Introduction to Arduino programming/12. Introduction to control structures The Switch statement.mp425.23MB
  • 7. Introduction to Arduino programming/13. Digital output - how to control an LED.mp4156.79MB
  • 7. Introduction to Arduino programming/14. Digital input - how to read the state of a button.mp4128.82MB
  • 7. Introduction to Arduino programming/15. Analog input - how to read the state of a potentiometer.mp4107.36MB
  • 7. Introduction to Arduino programming/16. Analog output - how to create a fading LED.mp4144.51MB
  • 7. Introduction to Arduino programming/17. Introduction to the RGB (color) LED.mp4130.94MB
  • 7. Introduction to Arduino programming/18. Wiring the RGB LED.mp4148.69MB
  • 7. Introduction to Arduino programming/19. RGB LED creating colors.mp418.85MB
  • 7. Introduction to Arduino programming/2. An introduction to Arduino programming.mp413.96MB
  • 7. Introduction to Arduino programming/20. Using a library to control an RGB LED with PWM.mp491.67MB
  • 7. Introduction to Arduino programming/21. Learning more with the Arduino language documentation.mp437.41MB
  • 7. Introduction to Arduino programming/3. Understand the basic parts of an Arduino sketch.mp442.14MB
  • 7. Introduction to Arduino programming/4. Getting started with custom functions.mp428.16MB
  • 7. Introduction to Arduino programming/5. Creating custom functions and the return keyword.mp414.37MB
  • 7. Introduction to Arduino programming/6. Using variables.mp460.4MB
  • 7. Introduction to Arduino programming/7. Understanding variable scope.mp444.19MB
  • 7. Introduction to Arduino programming/8. Understanding constants.mp424.91MB
  • 7. Introduction to Arduino programming/9. Introduction to control structures The if statement.mp434.75MB
  • 8. Measuring light and color/1. Introduction.mp410.08MB
  • 8. Measuring light and color/2. What is a photoresistor and how to wire it.mp4258.32MB
  • 8. Measuring light and color/3. How to select the appropriate fixed resistor for a photoresistor.mp4143.01MB
  • 8. Measuring light and color/4. Using the Ultra-Violet light sensor.mp4160.55MB
  • 8. Measuring light and color/5. An introduction to the RGB Color sensor.mp449.02MB
  • 8. Measuring light and color/6. Wiring the RGB Color sensor.mp4173.86MB
  • 8. Measuring light and color/7. Mini project copy a color to an RGB LED using an RGB Color sensor.mp4187.12MB
  • 9. Measuring temperature, humidity and pressure/1. Introduction.mp410.91MB
  • 9. Measuring temperature, humidity and pressure/10. An alternate wiring of the TMP36.mp4111.46MB
  • 9. Measuring temperature, humidity and pressure/11. An introduction to the MCP9808 for very accurate temperature readings.mp482.77MB
  • 9. Measuring temperature, humidity and pressure/12. MCP9808 Wiring.mp441.17MB
  • 9. Measuring temperature, humidity and pressure/13. Using the MCP9808, demo and sketch walkthrough.mp423.41MB
  • 9. Measuring temperature, humidity and pressure/14. MCP9808 A closer look at I2C addressing.mp441.15MB
  • 9. Measuring temperature, humidity and pressure/15. An introduction to measuring barometric pressure with the BMP180.mp436.86MB
  • 9. Measuring temperature, humidity and pressure/16. Wiring the BMP180 and first sketch walkthrough.mp4108.34MB
  • 9. Measuring temperature, humidity and pressure/17. A first demo sketch for the BMP180.mp443.69MB
  • 9. Measuring temperature, humidity and pressure/18. A second demo sketch for the BMP180.mp448.06MB
  • 9. Measuring temperature, humidity and pressure/2. Using a DHT22 sensor to measure temperature and humidity.mp4191.81MB
  • 9. Measuring temperature, humidity and pressure/3. An introduction to the Thermistor.mp498.49MB
  • 9. Measuring temperature, humidity and pressure/4. Wiring the Thermistor.mp483.85MB
  • 9. Measuring temperature, humidity and pressure/5. How to calculate the temperature from the thermistor resistance.mp478.09MB
  • 9. Measuring temperature, humidity and pressure/6. Thermistor getting a temperature using a library.mp437.15MB
  • 9. Measuring temperature, humidity and pressure/7. Thermistor improving the accuracy of analog readings with AREF.mp493.07MB
  • 9. Measuring temperature, humidity and pressure/8. An introduction to measuring temperature with the TMP36.mp471.2MB
  • 9. Measuring temperature, humidity and pressure/9. Wiring the TMP36 and a demonstration sketch.mp4129.64MB