Arduino Step By Step: Your Complete Guide
In this Arduino Bootcamp you will learn Arduino in a Step By Step Manner and you will be able to do practical Projects
3.80 (100 reviews)
19,499
students
8.5 hours
content
Nov 2022
last update
$19.99
regular price
What you will learn
Start to programming Arduino
Siscover things that will help you to excel in Arduino programming
Simulate Arduino Boards UNO, Mega, nano and others in Windows Environment
Write codes and test them without having an Arduino Board
Choose the right board that fulfills your needs
What is the main difference between each of the boards and why one is better than the other
Make your own Arduino Board
Bootload Your Arduino
Know what is the actual brain of an Arduino
Link Arduino with Raspberry Pi
Protect Your Raspberry Pi using Arduino as Interface between Raspberry and heavy devices
Make your own Web Controlled System using Arduino
Learn Working Principle of Ethernet Shield and web control
Interface Ethernet Shield with Arduino
Control Arduino from Your own Mobile Phone
Make a Home Automation System using Bluetooth
Build your own Radar Using UltraSonic
Know UltraSonic Sensor, Servo Motor, Arduino C and Java Coding
Know more about Arduino and coding different modules such as Servo, SR04
Make your own Motion Detector Device
Learn Working Principle of Motion Detectors
Interface Motion Detector with Arduino
Build your own Weather Station
Know Temperature and Humidity Sensor
Know more about Arduino and coding different modules such as LCD, DHT11 and RTC
Make your own Automatic Irrigation System with Arduino
Learn Working Principle of Irrigation systems and Soil Moisture Sensors
Interface Soil Moisture Sensors with Arduino
Automate the Irrigation Process using Arduino
Make your own Arduino Alarm Clock
Interface Real Time Clock Module with Arduino
Learn Working Principle of Real Time Clock DS3231
Interface LCD with Arduino
Make your own Arduino Wireless Powered Project
Learn How Wireless Electricity Can be transmitted using Arduino
Learn Working Principle of Wireless Power Transmission
Why take this course?
Based on the description you provided, it seems like you're outlining a comprehensive set of courses on various projects that can be implemented using an Arduino platform. Each course is designed to guide learners through the process of creating a specific project, from understanding the basics of how each component works to programming and assembling the final product.
Here's a structured outline for your proposed series of courses:
**Course 1: Arduino Powered Soil Moisture Sensor with Automatic Irrigation Control**
- Introduction to Arduino and its capabilities.
- Understanding Soil Moisture Sensors.
- Components required for the project.
- Setting up the development environment.
- Basic programming concepts in Arduino context (e.g., variables, loops).
- Wiring and connecting sensors and actuators with an Arduino board.
- Writing the code to read sensor data and control output devices like a water pump.
- Integrating weather forecast data using APIs or similar data interfaces if needed for the project.
- Finalizing the project, testing, and debugging.
**Course 2: Arduino Temperature Sensor with Data Logging**
- Introduction to temperature sensors (e.g., thermistors, thermal sensors).
- Components required for the project.
- Setting up the development environment.
- Basic programming concepts.
- Wiring and connecting temperature sensors and data loggers with an Arduino board.
- Writing the code to read sensor data and log it over time or trigger actions based on the logged data.
- Finalizing the project, testing, and debugging.
**Course 3: Arduino Home Automation System**
- Introduction to home automation systems.
- Overview of smart home technologies.
- Components required for the project.
- Setting up the development environment.
- Basic programming concepts.
- Wiring and connecting various home devices (e.g., lights, fans, door locks) with an Arduino board.
- Writing the code to control home devices based on user input or programmed conditions.
- Finalizing the project, testing, and debugging.
**Course 4: Arduino Multicolor RGB LED Lamp Controlled Using Bluetooth**
- Introduction to RGB LEDs and how they work.
- Components required for the project.
- Setting up the development environment.
- Basic programming concepts.
- Wiring and connecting RGB LEDs with an Arduino board via Bluetooth.
- Writing the code to control RGB LEDs based on user input or programmed conditions.
**Course 5: Arduino Wind Speed Measurement and Data Visualization**
- Introduction to wind speed sensors (e.g., anemometers).
- Components required for the project.
- Setting up the development environment.
- Basic programming concepts.
- Wiring and connecting wind speed sensors with an Arduino board.
- Writing the code to read sensor data and visualize it in a meaningful way.
**Course 6: Arduino Multiband FM Radio Receiver and Controller**
- Introduction to FM radio reception and control technologies.
- Components required for the project.
- Setting up the development environment.
- Basic programming concepts.
- Wiring and connecting FM radio receiver modules with an Arduino board.
- Writing the code to control FM radio devices based on received signal data.
**Course 7: Arduino Water Quality Sensor with Data Monitoring**
- Introduction to water quality sensors (e.g., pH sensors, turbidity sensors).
- Components required for the project.
- Setting up the development environment.
- Basic programming concepts.
- Wiring and connecting water quality sensors with an Arduino board.
- Writing the code to monitor and log data related to water quality.
**Course 8: Arduino Wireless Power Transmission Project**
- Introduction to wireless power transmission technologies (e.g., coil resonance).
- Components required for the project.
- Setting up the development environment.
- Basic programming concepts.
- Wiring and connecting coils or similar wireless power transmission components with an Arduino board.
- Writing the code to facilitate wireless power transmission.
Each course should include:
- Step-by-step instructions for assembling the project.
- Clear explanations of the science behind how each component works.
- Practical examples and case studies where applicable.
- Hands-on practice opportunities.
- Supplementary resources such as datasheets, schematic diagrams, and relevant articles or videos.
By structuring your courses in this manner, you can ensure that learners not only understand the theory behind each project but also gain practical skills in implementing those projects using Arduino. This approach will cater to a wide range of skill levels, from complete beginners to more experienced makers looking for new and innovative ideas to work on.
Screenshots
Reviews
Andres
October 18, 2020
Muy interesante el curso, la parte que más me gustó es la de Web Control y Bluetooth puesto que puedo darle utilidad en mi trabajo actual. Gracias!
Thomas_Trip
February 16, 2020
I understand that first tutorials are made for introduction and providing informations how to download and install files. But this is a little bit chaotic, what is more author just showed how to draw resistors and diodes without any explanation about construction of arduino pins.
Ignacio
January 27, 2018
The english is so bad. I can´t understand the things that she want to say.
And the information is so so so simply. I thought that in this course I can find a more things to learn. But the information that you can see is basic.
Thank You.
Walter
January 23, 2018
La pronuciación en ingles no es muy clara, hay muchos errores en los subtitulos, no muestran los requisitos para empezar (el tipo de hardware, IDE para programar, etc).
Charts
Price
Rating
Enrollment distribution
Related Topics
1511500
udemy ID
1/15/2018
course created date
8/8/2019
course indexed date
Bot
course submited by