Master Arduino in this 30 Days Challenge with a Step by Step Practical Approach from scratch and start making projects
A course that will challenge you to finish the learning journey in 30 Days and become a professional Arduino Programmer.
What you’ll learn
- Start to programming Arduino.
- Discover 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.
- Build your own Weather Station.
- Know Temperature and Humidity Sensor.
- Make your own Automatic Irrigation System with Arduino.
- Learn Working Principle of Irrigation systems and Soil Moisture Sensors.
- Interface Soil Moisture Sensors with Arduino.
- Interface Real Time Clock Module with Arduino.
- Learn Working Principle of Wireless Power Transmission.
Course Content
- Arduino in this 30 Days Challenge –> 3 lectures • 11min.
- Day 0: C Programming! –> 22 lectures • 3hr 11min.
- Day 1 and 2 : Simulate Arduino Boards and Test Your Code –> 4 lectures • 13min.
- Day 1 and 2 Start Testing –> 3 lectures • 13min.
- Day 1 and 2 Things you need to know –> 8 lectures • 27min.
- Day 1 and 2 Practical Work –> 4 lectures • 17min.
- Day 3 and 4 Arduino vs PIC microcontrollers vs Raspberry Pi –> 7 lectures • 32min.
- Day 5 and 6 Make Your Own Arduino Board at Home –> 7 lectures • 34min.
- Day 7 and 8 Connect and Interface Raspberry Pi with Arduino –> 10 lectures • 22min.
- Day 9 and 10 Arduino Web Control: Step By Step Guide –> 8 lectures • 35min.
- Day 11 and 12 Arduino Bluetooth –> 8 lectures • 37min.
- Day 13 and 14 Arduino Radar –> 13 lectures • 43min.
- Day 15 and 16 : Arduino + Processing Code Version 2 –> 3 lectures • 3min.
- Day 17 and 18 : Practical Assembly –> 2 lectures • 7min.
- Day 19 and 20 : Arduino Motion Detector: Step By Step Guide –> 6 lectures • 30min.
- Day 21 and 22 : Arduino Weather Station –> 7 lectures • 28min.
- Day 23 and 24 Automatic Irrigation System with Arduino –> 8 lectures • 31min.
- Day 25 and 26 : Arduino Alarm Clock Using a Real Time Clock and LCD Screen –> 7 lectures • 25min.
- Day 27 and 28 : Arduino Wireless Power Transmission –> 9 lectures • 32min.
- Day 29 and 30 : Arduino Multicolor RGB LED Lamp Controlled Using Bluetooth –> 4 lectures • 26min.
Requirements
- You must be familiar with Internet browsing.
- You must have the Will to apply not just watch.
A course that will challenge you to finish the learning journey in 30 Days and become a professional Arduino Programmer.
For some, making things is second nature. However, for the more introverted among us, this motivation to make can be difficult to come by. Arduino makes it easy to get started with simple tools like an Arduino starter kit. As the computer revolutionized the world of electronics, robotics, and cyber security, it is no surprise that Arduino boards are quickly becoming an integral part of the maker world. This single-board micro-controller has made it possible for any person to take their ideas from concept to prototype without knowing anything about electronics or coding. The possibilities only seem to be limited by your imagination.
So, ARE YOU READY? To learn the basics of Arduino programming quickly with this Challenge! Teach you how to create Arduino sketches for real-world projects. Outlines the hardware that’s needed, and shows you how to use it. Provides lessons for wiring your circuits, coding your sketches, and more. Shows you how to write your own library.
Arduino Programming Courses online contains lots of unnecessary information that will surely distract beginners and make them feel odd when they first come to the Arduino World. but this is not the case with this challenge.
Why you should take this course?
- You will learn Arduino in a Step By Step Manner
- It will challenge you to finish the learning journey in 30 Days and become a professional Arduino Programmer
- You will be able to do practical Projects
- Learn skills like basic engineering, programming, electronics, and IoT
- It is an online course with videos and downloadable information
- You will develop an understanding of the fundamental principles behind Arduino
What you will learn by day!
- Day 1 +2 Simulate Arduino Boards and Test Your Code +Start Testing
- Day 3+4 Arduino vs PIC microcontrollers vs Raspberry Pi
- Day 5+6 Make Your Own Arduino Board at Home
- Day 7+8 Connect and Interface Raspberry Pi with Arduino
- Day 9+10 Arduino Web Control: Step By Step Guide
- Day 11+12 Arduino Bluetooth
- Day 13+14 Arduino Radar
- Day 15+16 Arduino + Processing Code Version
- Day 17+18 Practical Assembly
- Day 19+20 Arduino Motion Detector: Step By Step Guide
- Day 21 +22 Arduino Weather Station
- Day 23 +24 Automatic Irrigation System with Arduino
- Day 25 +26 Arduino Alarm Clock Using a Real-Time Clock and LCD Screen
- Day 27 +28 Arduino Wireless Power Transmission
- Day 29 +30 Arduino Multicolor RGB LED Lamp Controlled Using Bluetooth
Introduction:
The instructor is a very high experienced hardware developer who has a strong background in Arduino development and made this course to help newcomers to the Arduino world.
He has also been teaching programming since 2010 and has mastered art delivery.
This course is designed to introduce the Arduino hardware and programming environment to get you started on building projects as soon as possible.
The Arduino is an open-source electronics platform based on easy-to-use hardware and software. Sensing the environment by receiving inputs from many sensors the Arduino affects its surroundings by controlling lights, motors, and a number of other accessories. It’s intended for anyone making interactive hardware projects.
A Platform for Creating any project that comes to your mind.
No experience is required, and all you need is an Arduino
This course is designed for anyone interested in Arduino with zero background knowledge to become Pro.
Start working with different Arduino boards without buying them and start unleashing the power of code in Simulation
The Arduino is an open-source electronics platform based on easy-to-use hardware and software. Sensing the environment by receiving inputs from many sensors, Arduino affects its surroundings by controlling lights, motors, and a number of other accessories. It’s intended for anyone making interactive hardware projects.
In this course, you will learn how to Simulate different Arduino Boards in A Professional Simulation Environment which will help you unleash your full coding potential without buying any of the Arduino boards.
This course will help you test your codes and schematics for Arduino without the risk of burning your board because of bad connections or wrong codes.
Contents and Overview This course is designed for anyone interested in learning electronic design. No experience is required, and all you need is a computer.
Boards that can be Simulated: Arduino Uno, Mega, Nano, zero, and others
You will no longer wonder what board should you start with, or what board should you learn or use, this is your way in
When it comes to choosing a single-board computer or Controller, PIC Microcontroller, Arduino, and Raspberry Pi are the big names that you’ll be considering. But which one should you choose? What is the Arduino best used for? What are the drawbacks of using a Raspberry Pi? Why use PIC Microcontroller? And how do you decide between the three options? It can be a tough decision, so we’ll break it down here for you.
For the purposes of this course, I’ll be discussing PIC Microcontroller PIC164550, Arduino Uno R3, and the Raspberry Pi 2 Model B. There are many versions of THESE boards, and there are plenty of alternatives to the PIC Microcontroller, The Pi, and the Arduino that provide different specs and capabilities, but these Three are the mainstays of each line at the moment.
While both the Arduino and the Raspberry Pi are very versatile little machines, they both have specific things that they’re good at.
This guild will help you know Arduino internal components and how to make your own board at home step by step
This Challenge shows you how to build an Arduino compatible breadboard with an Atmel AVR microcontroller, it will take you in a step by step manner to know what each component inside the Arduino board is, what it does and how to wire it up
You will know what is the actual brain in the Arduino board and what you can do with it and how to interface it with your own PC and send codes freely, you will no longer burn a code to a board that you know nothing about its hardware.
After this course, you will be able to make your own board on a breadboard or PCB the choice is yours to make since all connections are explained in detail.
In this course, you will learn how to connect Raspberry Pi and Arduino the software and hardware part and why it’s useful
This Challenge shows you how to connect Arduino Board with Raspberry Pi, it will take you in a step-by-step manner to know why this is helpful and how it can make your life away much easier and save you lots of money.
You will know what is the actual hardware and software configurations needs to be done to make this interfacing work smoothly, you will no longer see your raspberry Pi damaged or burned by excessive voltage or power source failure, your raspberry Pi will work like a mini-computer away from the hardware connection that could damage it.
After this course, you will be able to make your own interfacing and the choice is yours to use in any application that comes in mind since all connections and configurations are explained in detail.
Make your own Arduino Web Control and start Controlling any device that you imagine using A Simple Webpage and Arduino
This course will teach you how to use a Web Page to Control anything using Arduino, This Guide will take you in a step by step manner to know what each component inside this circuit is, what it does and how to wire it up, starting with the Ethernet shield and ending with resistors.
You will know what is the actual working principle of the Ethernet shield and how to interface and configure it correctly so that you can access your Arduino Powered device from anywhere with an internet connection, and control any device with simple clicks on a webpage.
After this course, you will be able to make your own web-controlled device and the choice is yours to use it in any application that comes in your mind and can make your life easier since all connections are explained in detail.
We are going to control LEDs from a web page using an Arduino Ethernet module. The Ethernet module will create a server using the router and we will set a web page for this server.
We will use the HTML commands to print the data and to make the buttons on the web page.
When the button on the web page is pressed, we will get some data on the serial monitor. We will save this data in the string and will use this data to turn the LEDs ON or OFF.
Goal From This Course:
– Connect Arduino Ethernet Shield to Arduino Board with all necessary Components and make it Internet Based.
What you will learn in this Course
– How to Connect Ethernet Module to Arduino.
– How to Detect Online Actions Using Arduino.
– How Internet Control Actually Works.
– How to interface different types of electronic elements with Arduino.
– How Arduino Can make your life easier.
– How Program, burn a code, and wire Arduino and Ethernet Module.
– What are the right tools that you need to start making amazing projects.
– Why using Online control with Arduino is better than traditional Control Methods.
Control Your World and Surrounding using Your Own smartphone in this Step by Step Guide that Will Make Your Life Easier
This course will help you Control Your World using Tools that you already have which is Your Own smartphone to Make Your Life Easier, You can make any electronics device easily controlled by bringing it alive using Bluetooth Technology that you have in your phone.
You will get step-by-step lessons on what needs to be done to get full control over any home appliance, project, car or any device that comes to mind using Bluetooth.
This is a course on interfacing Bluetooth modules with Arduino. It will give you the ability to make higher-level Projects like Home automation using smartphones, Smartphone controlled robots,s and much more.
You will know how to use the technology embedded in your phone to make your everyday life away much easier.
Create your Own Radar using Arduino and get a Green Map Showing Objects on your own Screen in no time
This course will take you in a step-by-step guide on how to make your own Radar using Arduino Board.
You will get to know how to wire each of these elements, how it works, and why we are using it inside this Project, in no time you will find yourself making your own Radar that shows the different objects and the distance between you and each object.
A Radar station is a device that collects data related to objects in the surrounding environment using Ultrasonic sensors and a Servo motor to cover a wider area.
The aim is to make a portable Radar Device
Features it should have
- Distance
- Angle
- A map that shows different objects
You will wire sensors and motor to Arduino UNO board and start testing the code yourself, every piece of code is well explained so that you can easily know what each segment does.
A lot of information is waiting for you inside this course, join now and start making your own.
Make your own Arduino Motion Detector and start Catching Intruders, Control devices, and lots more Cool Application
This course will show you how to build an Arduino Motion Detector Device that will Fire an Alarm once an Intruder is detected in a range of 6 to 7 meters, it will take you in a step by step manner to know what each component inside the device circuit is, and what it does and how to wire it up
You will know what is the actual working principle of Motion detectors that you see in banks and indoor opening and closing mechanisms and what you can do with it and how to interface it with your own Arduino and make it execute and action using simple codes freely, you will no longer need to buy a motion detector or customize it since you can make the device yourself.
After this course, you will be able to make your own Motion detector and the choice is yours to use it in any application that comes to your mind and can make your life easier since all connections are explained in detail.
Goal From This Course:
– Connect a Motion Detector Sensor to Arduino Board with all necessary Components and make it work.
Required Materials
Hardware:
- Arduino or an Arduino clone board (freeduino), or you can make your own custom Arduino board.
- PIR Motion Sensor.
- A piezo buzzer or an 8-ohm speaker.
- 9V Battery and connector.
- Connecting wires.
Software:
- Arduino IDE
Create your own weather station using Arduino and get Temperature, Humidity, and Time at your own home in no time
This course will take you in a step-by-step guide on how to make your own weather station that can get Temperature, Humidity, Time, and Date using an LCD Crystal display and Arduino Board.
You will get to know how to wire each of these elements, how it works, and why we are using it inside this weather station, in no time you will find yourself making your own station.
A weather station is a device that collects data related to the weather and environment using many different sensors
Sensors like
- Wind
- Humidity
- Rain
- Temperature
- Pressure
- Altitude
The aim is to make a portable weather station
Features it should have
- Temperature
- Humidity
- Time and Date
You will wire sensors and LCD display to Arduino UNO board and start testing the code yourself, every piece of code is well explained so that you can easily know what each does.
A lot of information is waiting for you inside this course, join now and start making your own.
Make your own Automatic Irrigation System and stop wasting time on checking your Soil manually and Start Automating Life
This course will teach you how to Make an Automatic Irrigation System with Arduino, This Guide will take you in a step by step manner to know what each component inside the system is, what it does and how to wire it up, starting with the Soil Moisture Sensor, Nokia 5110 LCD Screen and ending with resistors.
You will know what is the actual working principle of the Soil Moisture Sensor and how to interface and configure it correctly so that you can get accurate data with this Arduino Powered device and automate the Irrigation system.
After this course you will be able to make your own Automatic Irrigation System device and the choice is yours to use it or sell it or start a business, or do anything that comes to your mind, this will make your life easier since all connections are explained in details.
Goal From This Course:
- Connect Arduino Ethernet Shield to Arduino Board with all necessary Components and make it Internet Based.
What you will learn in this Course
- How to connect Nokia 5110 LCD to Arduino.
- How to connect FC-28 Soil Moisture Sensor to Arduino.
- How to Detect Land condition Using Arduino.
- How Irrigation Process Actually Works.
- How to interface different type of electronic elements with Arduino.
- How Arduino Can make your life Is Is easier.
- How Program, burn a code, and wire Arduino and Soil Moisture Sensor.
- What are the right tools that you need to start making amazing projects?
- Why control with Arduino is better than traditional Control Methods.
Make your own Arduino Alarm Clock and set the Alarming time and interact with Time and Date efficiently and effectively
This course will teach you how to Make your own Arduino Alarm Clock and set the Alarming time and interact with Time and Date Variables efficiently and effectively, This Guide will take you in a step by step manner to know what each component inside this circuit is, and what it does and how to wire it up, starting with the RTC DS3231 Time and Date Module and ending with resistors.
You will know what is the actual working principle of the RTC Module and how to interface and configure it correctly so that you can make your Arduino Powered alarm system, and view time and date in addition to initiating alarm action.
After this course, you will be able to make your own Arduino Alarm Clock Using a Real-Time Clock and LCD Screen and the choice is yours to use it and apply it with any application that comes to your mind and can make your life easier since all connections are explained in details.
We are going to set the desired alarm time inside the code using an Arduino. The RTC Module will take care of the time and date values.
Goal From This Course:
– Make your own Arduino Alarm Clock and set the Alarming time and interact with Time and Date efficiently and effectively.
What you will learn in this Course
– How to Real-Time Clock and LCD Screen to Arduino.
– How to Deal with Time and Date variables Using Arduino.
– How to set an AlAarm Action depending on the data that you take from RTC.
– How to interface different type of electronic elements with Arduino.
– How Arduino Can make your life easier.
– How Program, burn a code, and wire Arduino and RTC Module.
– What are the right tools that you need to start making amazing projects.
Make your own Arduino Wireless Power Transmission Project and Learn the Principles behind Wireless Power
This course will teach you how to make your own Arduino Wireless Power Transmission Project and light electronic components and devices with wireless power efficiently and effectively, This Guide will take you in a step by step manner to know what each component inside the wireless power transmission circuit is, and what it does and how to wire it up, starting with the winding coils and ending with things as simple as a resistor.
You will know what is the actual working principle of Wireless Power Transmission and how to use, interface and configure Arduino correctly so that you can make your own Arduino Wireless Power Transmission device.
After this course, you will be able to make your own wireless power transmission device and the choice is yours to use it and apply it with any application that comes to your mind and I assure you that this can make your life easier since all connections are explained in details.
Goal From This Course:
– Make your own Arduino Wireless Power Transmission Project and Learn the Principles behind Wireless Power
What you will learn in this Course
– How to Connect Arduino with other electronic components in to turn it into a wireless power transmitter.
– How to interface different type of electronic elements with Arduino.
– How Arduino Can make your life easier.
– How to Program, burn a code, and wire Arduino and Coils.
– What are the right tools that you need to start making amazing projects.
Arduino Multicolor RGB LED Lamp Controlled Using Bluetooth
In this Course, You will learn How to Interface Arduino With a Mobile App via Bluetooth and Control RGB Multicolor LEDs
In this Course you will be introduced to Mobile Apps, Bluetooth Control, RGB LEDs, and how to interface all of these Items to get an amazing output that you can show to your friends and brag about it, this will really help you add something cool to your collection of projects that you already made, or even to your office.
In this Course, You will learn How to Interface Arduino With a Mobile App via Bluetooth and Control RGB Multicolor Leds
Arduino Programming Courses online contains lots of unnecessary information that will surely distract beginners and make them feel odd when they first come to the Arduino World.
The instructor is a very high experienced hardware developer who has a strong background in Arduino development, and made this course to help newcomers to the Arduino world.
At first glance, RGB (Red, Green, Blue) LEDs look just like regular LEDs, however, inside the usual LED package, there are actually three LEDs, one red, one green, and yes, one blue. By controlling the brightness of each of the individual LEDs you can mix pretty much any color you want.
We mix colors just like you would mix audio with a ‘mixing board’ or paint on a palette – by adjusting the brightness of each of the three LEDs.
Get ready to see Colors that you have never seen below.
No experience is required, and all you need is an Arduino and a few simple electronic components
This course is designed for anyone interested in Arduino with zero background knowledge.