Suggested YouTube Video for Full Process:
YouTube Video Link: https://youtu.be/KQ1fuBPDJfo
Reference WebSite Link: https://www.raypcb.com/tinkercad-pcb/
Note: This Blog Article is inspired by the above Reference Website Article & there mentioned tool.
Are you looking for a way to design and test PCBs for your electronic gadgets? Tinkercad PCB is an online tool that allows you to create and test PCBs for electrical gadgets and is part of the Tinkercad collection of layout tools, including code blocks and 3D design.
What is Tinkercad PCB?
Tinkercad PCB is an online tool that allows users to create and test PCBs for electrical gadgets. With Tinkercad PCB, users can add and arrange electronic parts such as resistors, transistors, capacitors, and LEDs to build custom PCB designs. The platform's drag-and-drop interface makes it easy to develop ideas and test circuit layout functionality using the built-in simulator. Tinkercad is commonly suggested to new users because it works for free in your browser.
Key Features and Benefits of Tinkercad PCB
User-Friendly Interface: Tinkercad PCB features a drag-and-drop interface, making it easy to develop your ideas.
Simulation Capability: The functionality of circuit layouts can be tested with the built-in simulator.
Versatile Export Options: Design files can be exported in various formats, including Gerber files, for manufacturing real PCBs.
Cost-Effective: Tinkercad PCB is an excellent tool for prototyping and creating electronic applications without needing extensive knowledge of PCB layout software.
3D Printing: Create circuits in any form using 3D printing, offering design flexibility.
How Tinkercad PCB Operates
Hardware Layout: Start with a 3D model, either created from scratch or downloaded from the library.
3D Software: Tinkercad is a free browser-based tool for transferring prototypes into printable file formats like .STL or .OBJ.
Prototyping: Prototype circuits on a breadboard with components like resistors, batteries, and LEDs using Tinkercad Circuits.
PCB Planning: Plan your PCB design, including the pads and tracks that allow components to integrate.
Modeling Tracks & Pads: Design pads and rails using shapes like boxes and cylinders. Common dimensions include a 4mm pad diameter, 1mm through-hole pad, 2mm track width, and 2mm track/pad height.
Material Selection: Use regular filaments like PETG or PLA for insulation and conductive electric filaments like Proto Pasta Conductive PLA for the conductive substance.
Assembly: After printing, insert components into the circuit board, using a soldering iron or conductive glue to hold them in place.
Examples of Tinkercad PCB or 3D Custom Printing
Dental supplies
Consumer goods, including clothing, footwear, furniture, and prostheses for the eyes
Industrial goods like prototypes and production equipment
Fossil reconstruction
The scale of an architecture Model & maquettes
Film props
Forensic pathology evidence reconstruction
Recreating the historical objects
Benefits of Tinkercad PCB or 3D Custom Printing
Complex and organic geometries with no impact on part pricing
Single item production from various component assemblies with no upfront tooling costs
Fast part production in a day or in 24 hours
Internal characteristics with state-of-the-art heat transfer and flow applications
Source: Excerpts from "Tinkercad PCB: A Step-by-Step Guide - RayMing PCB"
Want to avoid costly PCB design mistakes? The "TinkerCAD Circuits Reference Handbook" shows you how to use Tinkercad Circuits to prototype and resolve wiring difficulties before planning your PCB. Purchase the eBook today for expert guidance!
For more details on eBook click this link:
TinkerCAD Circuits Reference Handbook eBook: About Page
Happy Tinkering!
…till next post, bye-bye and take care.
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