
Learn to design and fabricate your own printed circuit boards from scratch, using multiple software tools, manual and automatic routing, and error checking to produce a professional PCB.
Discover how to use Fritzing, the free open source PCB design software, to create your first professional circuit across Windows, Mac, and Linux, including designing the schematic and board layout.
Download and install Fritzing for the course by selecting your operating system and following the setup steps; use libraries and components like wires, buttons, resistors, Arduino boards, and sensors.
Learn to start a pcb project by placing a resistor on the breadboard to create a simple LED circuit, and observe green highlights indicating electrical connections.
Customize parts by adjusting resistor value, tolerance, and spacing with the toolbar, then build and wire a breadboard circuit, rotate components, and export your schematic.
Design clear PCB schematics by arranging components, rotating for straight connections, shaping a rectangular layout, and exporting high-resolution schematics to share for documentation.
Export your PCB design in multiple extensions at high definition, then save the image for documentation and reference, ensuring clear, zoomable, high-resolution lines.
Design your first pcb using a simple software, arrange the battery, resistor, and a light-emitting diode on a single-layer board, and route traces with copper wires guided by the schematic.
Design a one-sided PCB in part 2 by using the bottom center button to alter connections between components, letting traces replace wires and producing a ready-to-etch board.
Learn how to clean a PCB for production by removing unnecessary bends and endpoints, adjusting trace width for etching, and ensuring robust connections, while customizing the board style.
Customize your PCB by loading logos and text into silk screen layers. Export the final design for manufacturing after arranging layers and orientation.
Build a more advanced circuit by adding an LCD module, Arduino components, resistor, LED, microphone, buzzer, and buttons; connect power, ground, and pins, and export the schematic.
Print pcb designs on heat paper. Utilize this complete bundle to apply pcb designs to heat paper.
Learn essential techniques for cleaning and etching PCB boards to prepare reliable printed circuit boards for testing and assembly.
Develop proficiency in drilling for printed circuit boards as part of the complete pcb bundle course, focusing on practical applications and essential techniques.
Develop practical pcb skills by turning sheet images into usable electronic items, designing components and circuits, and creating a brand-ready circuit design for your cv, guided by educational engineering team.
Download and install Altium Designer to begin PCB design with the learn pcb printed circuit board bundle.
Explore the Altium Designer interface, create a new project, add schematic files, and use the project explorer and document menus to manage schematic and related documents.
Create a symbol for the atmega328, add a new integrated library, build a schematic, and configure bends and pin spacing to support accurate component design.
Rename and organize schematic components by editing bin names, designators, and comments, then save the schematic and prepare metadata such as description, parameters, and links.
Create a component symbol and its footprint for pcb layout, using the IBC compliant footprint tool to apply 32A package values and build 2d/3d views in the ECB library.
Link the footprint with the schematic library by adding the created footprint to the schematic and verify the integrated library compiles with no errors.
Copy your integrated library containing the schematic and footprint into any project, then add it to the design libraries and place the item in your schematic.
Copy an integrated library anywhere in your project to place components on the schematic, combining schematic and footprint for easy reuse, then install, place, and connect items.
Learn to add components libraries to your pcb schematic by searching for arduino nano items, installing the library, and dragging components into your design.
Create an atmega schematic by placing a reset switch, capacitors, crystal, and ground connections, then wire and label nets for an Arduino Nano style circuit.
Learn how to wire a USB connector to an Arduino Nano using a FTDI USB interface, establish 5V and 3.3V rails, ground connections, and TX/RX labels per the datasheet.
Learn how to place nano board header pins in a PCB layout, using rotate, mirror, and smart base to align, label nets like ground, 3.3V, 5V, and USB.
Learn to wire a voltage regulator circuit on a pcb, including capacitors, ground, and 5v supply, and integrate a programming header with led indicators and a resistor array.
Annotate schematics to assign sequential part numbers, then compile to verify an error-free design before advancing to the ABC design; review connections and use the PDA file for accuracy.
Navigate the pcb design project window to address error messages, remove unused nets, and correct net names. Combine the project and apply changes until the design shows a green status.
Define and draw the pcb board shape by setting precise outline dimensions in mils or millimeters, drawing lines to form the outline, and placing components to begin routing.
drag Atmega and headers near the board, align headers by centering their origins in the front view. switch to 3D or ECB views, move and rotate to center, then save.
Learn how to place the ICSP switch, resistor array, crystal, and microusb header in a PCB design, update the schematic, and prepare for auto routing by resolving design errors.
Place FTDI regulator capacitors and other PCB components on top and bottom layers, moving and rotating items for a compact, accurate layout.
Compare manual and auto routing for a multilayer pcb, noting manual routing is slow, auto routing speeds design, and vias connect top and bottom layers.
Learn how to use auto routing to connect multiple layer transitions on a PCB, adjust components, review routing progress, and understand when manual corrections are needed.
This Bundle Consists of More than 80 Lectures with over 6 hours of HD Video Content and supplementary material covering more than four different software used to design and fabricate PCBs (Printed Circuit Boards). I can assure you that after this course, you will be a professional in PCB design and fabrication.
Why You Should Take This Course:
Learn how to design, layout, and produce a Printed Circuit Board.
Save money on outsourcing PCB design work for prototyping.
Learn from a professional engineer with over a decade of experience in designing PCBs.
Learn from the comfort of your home, at your own pace.
You Will Get the Chance to Learn:
PCB Design and Fabrication using Fritzing Software
PCB Design: Master Designing Printed Circuit Boards using Proteus Software
PCB Design: Make Arduino Nano using Altium Designer
3D Simulation: Microcontrollers, Electronics, Mechanism, PCB using Yenka Software
Let's Talk in More Detail About Each Section:
PCB Design and Fabrication For Everyone
Learn Printed Circuit Board (PCB) design from Scratch With Zero Experience in Electronics, using Free Software.
This course will help you gain PCB design skills, which will be valuable for freelancing or securing a job in PCB design. Using one of the top PCB design tools in the industry, you won't have to pay anything for the software, and it includes libraries for almost every electronic component.
PCB Design: Master Designing Printed Circuit Boards
An A-Z Guide to designing, testing, and manufacturing any electronic circuit using the most popular electronic software. This comprehensive course will make you a master at creating your own electric circuit boards.
3D Simulation: Microcontrollers, Electronics, Mechanism, PCB
Enter the world of 3D simulation and enjoy learning and teaching Microcontroller Electronics, Mechanical and PCB design. This course covers all aspects of the electronic design process in 3D.
PCB Design: Make Arduino Nano using Altium Designer
Learn PCB design by making an Arduino Nano in Altium Designer Software. This course will take you from start to finish, from zero to production-ready, helping you to improve your PCB design skills.
What You Should Expect After Taking This Course:
Get started with PCB design using Altium Designer.
Download and install Altium Designer.
Create your own component library to facilitate freelancing opportunities.
Design the Arduino Nano schematic in Altium Designer.
Wire components in schematic view.
Transfer schematics into PCB layouts.
Place components on the board.
Create multilayer boards.
Route layers and place components efficiently.
Use autorouting to save time.
Eliminate design errors.
Create Gerber files for your manufacturer.
User Testimonials: "This course gave me a thorough understanding of PCB design and fabrication. Highly recommended for anyone looking to get into PCB design." - Chris T.
"An excellent course bundle that covers all aspects of PCB design with practical examples and projects." - Maria S.
Author Bio: Ashraf is an educator, Mechatronics engineer, electronics and programming hobbyist, and Maker. As a Chief Educational Engineer since 2007 at Educational Engineering Team, the company he founded, Ashraf’s mission is to explore new trends and technology and help educate the world. With over 250,000 students from around the world, Ashraf’s online courses have helped many to kick-start their careers in the industry.
Call to Action: Enroll now to master PCB design and fabrication and take your electronics projects to the next level!
FAQ: Q: Do I need prior experience in electronics or programming to take this course? A: No, this course is designed for all levels.
Q: Will I need to buy additional equipment? A: The course provides a list of necessary hardware, all of which are affordable and easily accessible.
What You Will Learn
Design custom PCBs from scratch
Use various PCB design software tools
Create schematics and PCB layouts
Transfer designs to production-ready formats
Optimize PCB designs for functionality and manufacturability
Who Is This Course For
Electronics enthusiasts
Hobbyists interested in PCB design
Beginners in PCB design
Anyone looking to create custom PCBs
Requirements
A computer with internet access
Basic understanding of using a computer
No prior programming or electronics experience needed
About the Instructor
Educational Engineering Team
Team of skilled Engineers Sharing Knowledge with the World
Educational Engineering Team is a leading team in the Microcontroller Industry, with over 13 Years of Experience in teaching and doing practical projects. They strive to provide deep, hands-on experience in their courses, offering step-by-step blueprints on various topics.
Ashraf is an educator, Mechatronics engineer, electronics and programming hobbyist, and maker. He has been the Chief Educational Engineer at Educational Engineering Team since 2007, and his mission is to explore new trends and technology to help educate the world. His online courses have helped over 250,000 people worldwide to build successful careers.
Educational Engineering Team offers courses on:
Circuit Design, Simulation, and PCB Fabrication
Arduino, PIC Microcontroller, and Raspberry Pi
Programming in C, Python, and other programming languages
PLC Industrial Programming and Automation
3D Design and Simulation
ESP and IoT World