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This Bundle Consists of 136 Lecture with more than 12.5 hours of HD Video Content and supplementary material in which we cover more than four different software used to design, simulate and fabricate circuits, I can assure you that after this course you will be a professional in Circuit design and fabrication.

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This Bundle Consists of 136 Lecture with more than 12.5 hours of HD Video Content and supplementary material in which we cover more than four different software used to design, simulate and fabricate circuits, I can assure you that after this course you will be a professional in Circuit design and fabrication.

Why you should take this course?

  • The course includes everything you need to know about the electronics design process

  • Learn how to Design, Simulate Electronic Circuits, Microcontrollers, Arduino and Make a PCB

  • Learn the science of electric circuits

  • Programming knowledge

  • You will learn about Fritzing Software and  Proteus Software

  • Get access to all instructional videos

You will get the chance to learn:

  1. PCB Design and Fabrication using Fritzing Software

  2. PCB Design: Master Designing Printed Circuit Board using Proteus Software

  3. PCB Design: Make Arduino Nano using Altium Designer

  4. 3D Simulation: Microcontrollers, Electronics, Mechanism, PCB using Yenka Software

  5. Soldering Electronic Components Like A Professional

  6. Microcontroller Circuit Design and Simulation

  7. Arduino Circuit Design and Simulation

Let's talk in more details about each Section

PCB Design and Fabrication For Everyone

Learn Printed Circuit Board (PCB) design from Scratch With Zero Experience in Electronics, No Effort and a Free Software

>>> This course is a first of its kind in which you will learn from start to finish on how to design your own Printed Circuit Board (PCB) with Zero Experience in Electronics and Circuit Design, YES, you did hear me, No experience is required at all. <<<

Welcome to this course.

This course will help you to gain PCB design skills which will help you to get started freelancing or to get a job in PCB design with a Free Software being one of the top PCB design tools used around the world, so you won't have to pay anything for the software and it has tons of library for almost every component in electronics industry.

Printed Circuit Board design is very interesting for any electronics geek, microcontroller programmers anyone wishing to build his own PCB by themselves. It is very simple and easy to understand for beginners.

No Previous Experience + Free Software + Time Saving Techniques = Perfect PCB Design

This is available for your in this course + Bonuses and additional Material + PCB Design Software.

PCB Design: Master Designing Printed Circuit Board

A-Z Guide to designing, testing and Manufacturing any electronic circuit, using the most popular electronic software.

>>> A-Z Guide to designing, drawing and testing any electronic circuit that comes in hand, using one of the most popular software in the electronics industry, after this course you will be a master at making your own electric circuit board. <<<

Welcome to this course.

  • You will become professional in making your own electronics circuits, you will even be able to master mass producing any electronics circuit that you find useful.

  • Video and Text lectures are included along with the software package that will be used in this course.

  • The course begins with introducing electronic circuit design then lessons for beginners to allow you become an expert, then at the end we will make a more advanced circuit and prepare it for mass production like professional.

  • All what you need for this course is your laptop and headphones.

  • This course is open for comments and suggestions.

  • Why you should take this course, well, because you will learn by doing not by listening and you will become an expert in making your own circuits.

3D Simulation: Microcontrollers, Electronics, Mechanism, PCB

Enter the world of 3D simulation and have fun learning and teaching Microcontroller Electronics, Mechanical and PCB

>>> 3D simulators nowadays are covering all aspects of the electronic design process, in 3D. In this course you will get the chance to explore the wonders of 3D simulation of a limitless range of circuit boards, a 2D circuit design tools, and also PIC microcontroller simulation, testing and programming. <<<

Welcome to this course.

You will get the chance to learn:

  • 3D Electronic simulation and design

  • PIC microcontroller programming

  • Flowcharting

  • 3D PCB simulation

  • 3D mechanisms

  • Measurement

What You Will learn in This Course

  • What is Crocodile Technology

  • Why it is helpful to simulate and design in 3D

  • Download and Install the Software

  • User Interface Introduction

  • Design and Simulate ON/OFF Switches Circuits

  • Design and Simulate Microcontroller Systems

  • Flowcharting.

  • Design and Simulate Simple Led On/Off Circuits

  • Design and Simulate Simple Led Flasher Circuits

  • Design and Simulate Simple 7 Segment Circuits

  • Design and Simulate Counter using 7 Segment Circuits

  • Design and Simulate Motors

This will be a journey of a life time for everyone looking for a new vision in Engineering Simulation, easy to use and really helpful software will be introduced.

How to Solder Electronic Components Like A Professional

In this Course you will learn how to Master Soldering in no Time

>>> In this Course you will learn how to Master Soldering in no Time <<<

Welcome to this course.

1.5 Hour of HD Content | 1 Hour of Practical Videos | 1500 Students

STOP Wasting Time, Money and Effort on Bad Soldered boards, Start Solder correctly to have a long lasting Fully functional Board.

Ever Wondered Which Soldering Iron is right for you?

Did you ask Yourself why My soldering doesn't look or feel like a professionally soldered board like you see in most online videos and images or even in boards that you purchase?

This Course Have all the answers for you

You will learn how to master soldering, and use the right tools for the job

You can count on these results:

  1. Learn how to choose the right soldering Iron

  2. Learn how to change the soldering Iron tip head

  3. Learn what is the best solder out there, and why it is the best

  4. Learn how to clean your soldering Iron

  5. Learn how to extend soldering Iron life span

  6. Learn what are the right tools you need to have to keep yourself safe while soldering and solder the right way

  7. Learn the difference between good soldering and bad soldering with real life examples

Basic soldering is a skill that's easy to learn and not hard to master.

  It just takes practice.  

There is a huge range of soldered situations out there, from tiny chip resistors on circuit boards to large UHF connectors.   

There is also a large variety of irons, tips and solder to choose from, and it certainly does help to have the right tool for the job. 

Good luck, and remember....   

Good soldering takes practice.   

Warning :You are working with HOT liquid metal, it is a matter of time before you will get burned.    

Be careful.

Contents that will be introduced in this Course

  1. •Soldering Tools

  2. •Soldering Accessories

  3. •Step 1: Preparation

  4. •Step 2: Tinning

  5. •Step 3: Soldering

  6. •Cleaning

  7. •Tips and Tricks

PIC Microcontroller Simulation: Unleash the power of Code

Stop Wasting Time Start working with different PIC Microcontroller and start unleashing the power of code in Simulation

Start your PIC Microcontroller Simulation Journey by working with different PICMicrocontroller without buying them. Unleash the power of code in Simulation

>> PIC Microcontroller is an easy-to-use Microcontroller. Sensing the environment by receiving inputs from many sensors. PIC Microcontroller affects its surroundings by controlling lights, motors, and a number of other accessories. It's intended for anyone making interactive hardware projects and in this course, we will make it easy for you to Code and Simulate PIC Microcontroller and Start Testing Your Codes Freely. <<<

Welcome to PIC Microcontroller Simulation Course.

In this course, you will learn how to real-time Simulation of PIC Microcontroller using different Boards and Schematics in A Professional Simulation Environment. It will help you unleash your full coding potential without buying any of the Training boards, you just need to write your code and upload the hex file to the Simulation Software.

This course will help you test your codes and schematics for PIC Microcontroller without the risk of burning your board. No More bad connections or wrong codes.

Be sure that you will learn a lot from this course and it will help you advance your Microcontroller Career. As a result, you will save Money and Time when simulating Microcontrollers

Contents and Overview This course is designed for anyone interested in learning PIC Microcontroller and Simulate different type of it with different components without buying any of them and for FREE. You don't need to have any previous experience, and all you need is a computer. The Simulation Software is FREE

Why You Should Take This Course?

  • Save Circuit design and Simulation Time, since you will be able to simulate using a real-life board that is designed to meet all your needs

  • You don't need to hock or connect any wire, write the code and uploads it to the free simulation software.

  • Save money, since this software is for FREE, you won’t have to pay anything, you don’t even have to buy any components before testing your code, write the code, upload it to the software, test it then you are good to go.

  • Real-time debugging and tracking of signals and data memory.

  • Proteus Simulation software cost around 450$ and another cost up to 1000$. The software that I will teach you how to use it for free.

  • You won’t have to pay anything, download and install then you are good to go. Start using it in no time.

PIC Microcontrollers that you will be able to Simulate.

 

>>> A-Z Guide to designing,  drawing and testing different training kit circuit that comes in hand, using one of the most popular software in the electronics industry, after this course, you will be a master at making PIC Microcontrollers Training Kit instead of buying it. <<<

Welcome to Make PIC Microcontrollers Training Kit course.

There are many reasons Why You Should Take this course:

  • Commercial Training Kits have many functions that you might never use and add an additional cost which makes the overall cost of a kit very high.

  • There is no chance that you will find a kit that matches your exact needs.

  • Making things with your own hands will give you a very good understanding of how electronic boards are made and will help you be a professional in making permanent Printed circuit boards.

  • You can easily adjust the items of the kit and make many copies at your home at a very low price.

  • You will get to practice playing with electronics.

So Make PIC Microcontrollers Training Kit course will offer you:

  • A-Z Guide to designing,  drawing and testing different training kit circuit that comes in hand, using one of the most popular software in the electronics industry, after this course, you will be a master at making your own training kit instead of buying it.

  • You will become professional in making your own circuits, you will even be able to master mass producing an electronic module for Microcontroller that you find useful.

  • Video and Text lectures are included along with the software package that will be used in this course.

  • All that you need for this course is your laptop and headphones.

  • This course is open for comments and suggestions.

  • Another reason Why you should take this course, well, because you will learn by doing not by listening and you will become an expert in making your own circuits.

 Design and Simulate Arduino Boards and Test Your Code

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 and in this course, we will make it easy for you to Design and Simulate Arduino Boards and Start Testing Your Codes Freely. <<<

Welcome to Design and Simulate Arduino Boards and Test Your Code course.

In this course, you will learn how to Simulate different Arduino Boards in A Professional Simulation Environment. It 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. No More bad connections or wrong codes.

Contents and Overview This course is designed for anyone interested in learning electronic design. You don't need to have any previous experience, and all you need is a computer.

Boards that can be Simulated: Arduino Uno, Mega, Nano, zero and others

PCB Design: Make Arduino Nano using Altium Designer

Learn Printed Circuit Board design by Making Arduino Nano in Altium Designer Software.

>>> Learn Printed Circuit Board design by Making Arduino Nano in Altium Designer Software. <<<

Welcome to this course.

What is this course about:

In This course you will learn from start to finish, from zero to production ready on how to design custom Arduino Nano Printed Circuit Board . It will help you to improve your PCB design skills which will help you to get started freelancing or to get a job in PCB design with Altium Designer since it's the most used PCB design tools

What you should expect after taking this course:

  • Get started PCB design using Altium Designer.

  • Download and install Altium designer.

  • Create your own component library so that you can create your own components that you don't have a library for which will help you freelance online since many jobs ask to create component libraries.

  • Create the Arduino Nano Schematic in Altium designer.

  • Wiring components in Schematic view.

  • Transfer schematic into PCB.

  • Place components on board.

  • Create a multilayer board.

  • Route layers and place components on board.

  • Autoroute to save time.

  • Eliminate design errors.

  • Create Gerber files for your manufacturer.

Make PIC microcontroller based Arduino Development Board

This guild will help you know how to make PIC Microcontroller Based Arduino Like board at home Step by Step

>>> This Course will show you in a step by step manner, how to make your very own PIC Microcontroller USB Enabled Training Board (Just like the Arduino Board) <<<

Welcome to this course.

Have you ever wanted to try a Code on your PIC Microcontroller, but didn't have the programmer?

Do you wish to have your very own Arduino Like PIC Microcontroller Board that you can easily plug via USB and start coding your projects?

Are you tired from the process of removing a Microcontroller from the board to reprogram it for development, testing and improving your projects?

The Solution is here >> Our Brand New Course

This Course will show you in a step by step manner, how to make your very own PIC Microcontroller USB Enabled Training Board (Just like the Arduino Board)

All that you need to do is plug the USB Cable and start writing your code to PIC Microcontroller in no time and see the results without having to remove anything, a healthy helpful testing, and development environment of your own creation.

This is available for your in this course + Bonuses and additional Material + Breadboard and PCB Design if you just want to try things out before mass production 

This guild will help you know how to make PIC Microcontroller Based Arduino Like board at home Step by Step

This tutorial shows you how to build a PIC Microcontroller compatible board, it will take you in a step by step manner to know what each component inside the Arduino board is, and what it does and how to wire it up

You will know what is the actual brain in Pinguino 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 it's 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 details.

Enroll now

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Develops foundational skills for electronics engineers, circuit designers, and electronics enthusiasts
Taught by experts in the field of electronics design and fabrication
Provides hands-on experience with PCB design and fabrication software
Covers industry-standard tools such as Fritzing, Proteus, and Altium Designer
Suitable for beginners with no prior experience in electronics design
Offers a comprehensive overview of the PCB design and fabrication process
Students will gain a solid foundation in electronics design principles
May require prior knowledge of basic programming concepts

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Circuit Design, Simulation and PCB Fabrication Bundle with these activities:
Refresh your soldering skills
Start by reviewing the basics of soldering, and then practice soldering components on a breadboard.
Browse courses on Soldering
Show steps
  • Review the basics of soldering.
  • Practice soldering components on a breadboard.
Practice designing circuits using Fritzing
Designing circuits using Fritzing will help you understand the basics of circuit design.
Browse courses on Circuit Design
Show steps
  • Design a simple circuit using Fritzing.
  • Simulate your circuit to test its functionality.
Watch tutorials on using Proteus for PCB design
Watching tutorials on using Proteus will help you learn the basics of PCB design.
Show steps
  • Watch a tutorial on using Proteus.
  • Download and install Proteus.
  • Use Proteus to design a simple PCB.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Attend a local electronics meetup
Attending a local electronics meetup will allow you to connect with other electronics enthusiasts and learn from their experiences.
Show steps
  • Find a local electronics meetup.
  • Attend the meetup.
  • Talk to other people at the meetup about electronics.
Attend a workshop on PCB design
Attending a workshop on PCB design will allow you to learn from experienced professionals.
Browse courses on PCB Design
Show steps
  • Find a workshop on PCB design.
  • Attend the workshop.
  • Build a PCB during the workshop.
Contribute to an open-source electronics project
Contributing to an open-source electronics project will allow you to apply your skills and learn from others.
Browse courses on Open Source
Show steps
  • Find an open-source electronics project to contribute to.
  • Read the project documentation.
  • Make a contribution to the project.
Build a project using the skills you learned in this course
Building a project will allow you to apply the skills you learned in this course and deepen your understanding of electronics.
Show steps
  • Come up with an idea for a project.
  • Design the project.
  • Build the project.
  • Test the project.

Career center

Learners who complete Circuit Design, Simulation and PCB Fabrication Bundle will develop knowledge and skills that may be useful to these careers:
PCB Designer
PCB Designers are responsible for designing and laying out printed circuit boards (PCBs). This course can help build a foundation for this role by providing a comprehensive overview of PCB design and fabrication. The course covers a wide range of topics, from basic PCB design principles to advanced layout techniques. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios. This course will be particularly helpful for those who aspire to work in the electronics industry.
Electrical Engineer
Electrical Engineers are responsible for designing, developing, testing, and maintaining electrical systems. This course can help build a foundation for this role by providing a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced electrical engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios. This course will be particularly helpful for those who aspire to work in the electrical engineering industry.
Electronics Engineer
Electronics Engineers are responsible for designing, developing, testing, and manufacturing electronic circuits and devices. This course can help build a foundation for this role by providing a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced PCB design techniques. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios. This course will be particularly helpful for those who aspire to work in the electronics industry.
Embedded Systems Engineer
Embedded Systems Engineers are responsible for designing, developing, and testing embedded systems. Embedded systems are small, computerized devices that are often used in consumer products, industrial equipment, and medical devices. This course can help build a foundation for this role by providing a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced embedded systems design techniques. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios. This course will be particularly helpful for those who aspire to work in the embedded systems industry.
Robotics Engineer
Robotics Engineers are responsible for designing, developing, and testing robots. Robots are machines that are capable of carrying out a complex series of actions automatically. This course can help build a foundation for this role by providing a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced robotics design techniques. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios. This course will be particularly helpful for those who aspire to work in the robotics industry.
Computer Engineer
Computer Engineers are responsible for designing, developing, and testing computer hardware and software. This course can help build a foundation for this role by providing a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced computer engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios. This course will be particularly helpful for those who aspire to work in the computer engineering industry.
Aerospace Engineer
Aerospace Engineers are responsible for designing, developing, and testing aircraft and spacecraft. Aircraft and spacecraft are complex machines that require a wide range of electrical and electronic systems. This course can help build a foundation for this role by providing a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced aerospace engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios. This course will be particularly helpful for those who aspire to work in the aerospace industry.
Biomedical Engineer
Biomedical Engineers are responsible for designing, developing, and testing medical devices and equipment. Medical devices and equipment are used to diagnose, treat, and monitor diseases and injuries. This course can help build a foundation for this role by providing a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced biomedical engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios. This course will be particularly helpful for those who aspire to work in the biomedical engineering industry.
Automotive Engineer
Automotive Engineers are responsible for designing, developing, and testing automobiles. Automobiles are complex machines that require a wide range of electrical and electronic systems. This course can help build a foundation for this role by providing a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced automotive engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios. This course will be particularly helpful for those who aspire to work in the automotive industry.
Chemical Engineer
Chemical Engineers are responsible for designing, developing, and operating chemical plants and processes. Chemical plants and processes are used to produce a wide range of products, including chemicals, fuels, and plastics. This course may be useful for those who aspire to work in the chemical engineering industry, as it provides a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced chemical engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios.
Civil Engineer
Civil Engineers are responsible for designing, constructing, and maintaining infrastructure, such as roads, bridges, and buildings. This course may be useful for those who aspire to work in the civil engineering industry, as it provides a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced civil engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios.
Environmental Engineer
Environmental Engineers are responsible for designing, developing, and implementing solutions to environmental problems. This course may be useful for those who aspire to work in the environmental engineering industry, as it provides a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced environmental engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios.
Materials Engineer
Materials Engineers are responsible for designing, developing, and testing materials. Materials are used in a wide range of products, including cars, airplanes, and computers. This course may be useful for those who aspire to work in the materials engineering industry, as it provides a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced materials engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios.
Mechanical Engineer
Mechanical Engineers are responsible for designing, developing, and testing mechanical systems. Mechanical systems are used in a wide range of products, including cars, airplanes, and robots. This course may be useful for those who aspire to work in the mechanical engineering industry, as it provides a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced mechanical engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios.
Industrial Engineer
Industrial Engineers are responsible for designing, improving, and installing integrated systems for managing industrial production. This course may be useful for those who aspire to work in the industrial engineering industry, as it provides a comprehensive overview of circuit design, simulation, and fabrication. The course covers a wide range of topics, from basic electronics principles to advanced industrial engineering concepts. It also includes hands-on projects that allow learners to apply their knowledge to real-world scenarios.

Reading list

We've selected nine books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Circuit Design, Simulation and PCB Fabrication Bundle.
Is an excellent reference for PCB design, fabrication, and assembly. It covers many of the same topics as the course, but it provides more in-depth information that will be useful for anyone wanting to learn more about these topics.
Covers many of the same topics as the course, but presents them in a more practical context. It great resource for gaining the skills to apply electronics to the design of real-world devices.
Is an excellent, well-rounded reference book for basic electronics. It helpful companion for someone taking this course for the background knowledge that will help them to learn the concepts discussed in the course. A few of the chapters cover topics that are not included in this course, which makes it a good resource for further exploration of electronics.
Provides a comprehensive overview of soldering, which is an essential skill for anyone working with PCBs. The course does not cover soldering in detail, so this resource is helpful for anyone wanting to learn more about this important topic.
Provides a comprehensive overview of surface mount technology, which common technique used in PCB fabrication. It useful reference for anyone wanting to learn more about this topic.
Provides a good introduction to designing and programming Arduino boards. The course focuses more on designing your own PCBs, but the basics of Arduino programming are the same. This good companion book for anyone wanting to learn more about coding their own Arduino boards.
Presents a collection of recipes for common problems that people encounter when working with Arduino boards. It useful reference for anyone wanting to learn more about Arduino programming or for anyone who needs help troubleshooting their Arduino projects.
Is an excellent guide to microcontroller programming in C. The course does not cover microcontroller programming, but it skill that is often used in conjunction with PCB design. This book provides a good introduction to this topic for anyone interested in learning more about it.
Is another resource for learning about microcontroller programming. It useful reference for anyone wanting to learn how to customize and program AVR microcontrollers.

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