There are many pcb / circuit design tools out there.
Some years ago I used software (commercial) for work, Altium (Protel SE back in the day) which is now quite widely used in industry (industry standard).
Unfortunately it's also expensive, cumbersome, also focuses on multilayer smd pcb inline with modern manufacturing and componentry.
There used to be a free version for windows-based pc users, but since I've moved away from M$ OS'es many years ago, I am unsure if they still support it.
I Moved to KiCAD about 6 years ago when I re-engaged with my early professional skillset (out of necessity) and find it to be a reasonably robust and platform agnostic tool.
The only reason I mention this, is I'm not even 2/3 of my way to retirement, and I feel the world has moved on significantly, despite my familiarity with schematics, layouts, 3D rendering and FEA.
I would therefore suggest that anyone even remotely interested in electronics take a two-pronged attack at their upskilling.
1. The theory (i.e. books and wrote learning) is absolutely necessary and if one is "lazy", one can use the theory as a reference whilst acquiring the skillset to use the PCB design tools.
2. The practical (i.e. use of appropriate tools combined with learned knowledge) is only something that both amateurs and professionals alike develop as a skillset OVER TIME.
Nobody is perfect out of the box, and there are so many subtle nuances regarding component placement, routing, layer separation etc. that it literally takes many professionals decades to become proficient.
So I won't be dismissive of someone who is a "layout" oriented person - HOWEVER - it is not an efficient path to learning circuit fundamentals, but rather a quick and dirty way to learn how to replace individual components for repair (and many times dare I say it, not even an adequate repair).
Layout AND schematic together is a powerful teaching tool, as it assists in visual communication on helping a user identify portions of circuits through visual cues - i.e. components on a board in a specific or familiar arrangement.
Just like AB763 is more or less the de-facto standard in this regard - simply due to the popularity of the product and the fact that Fender published schematics AND layout diagrams.
The reasoning was simple - easy to service. nothing more than that. If a repair could be effected quickly with a minimum of diagnostics, then it made the product far more popular over time. It also reinforced a perception of longevity and reliability - even if "reliable" is an oft misued term.
I do agree that for the purposes here on this forum, two things are absolutely mandatory for those who want to request assistance.
1. Schematic (accurate, and draw it yourself if you don't have access to what you're working on)
2. detailed CLEAR images of the actual board / product's innards that you are working on.
The requests made by those here who are the true champions of this board, make these simple requests in their post signature FOR A REASON.
So don't be disrespectful. If you come seeking help, the bare minimum you can do before asking, is to include the information that is required to help you resolve your problem.
Thanks to the champions - because we all learn from their contributions, regardless of whether members are active participants or casual observers.
Topic: Schematics and layout drawings. (Read 5033 times)