Not sure why that would be confusing and the pins are clearly labeled. Also this was the standard symbol for this part and I didn't draw it from scratch. Thanks for watching!
You would need to use a different calculator that includes a top layer ground plane. Same is true for an antenna feed line. Without top ground plane it's called a microstrip, but with top ground it's called a coplanar waveguide.
can i route other traces under the usb data lines on layer 3 or 4? not data just some 5v power and 3.3v pwm signal. The usb in my case is only needed during programming.
Honestly, I recharged my motivation again by your video. thanks alot
Happy to hear that!
Could you make a tutorial on USB Power Delivery and ic's to use to configure it?
If I understood correctly from the video, the calculation was made for 4 layers. How and what values change if I only design a 2-layer PCB?
Please make a video on can bus.
It is very confusing to see the NC pins of the diodes assembly going out of the corners of the component.
I'd avoid put pins in this way.
Not sure why that would be confusing and the pins are clearly labeled. Also this was the standard symbol for this part and I didn't draw it from scratch. Thanks for watching!
@@PredictableDesigns it makes the schematic less readable for my opinion
How the calculation will change if you fill the top layer with ground?
You would need to use a different calculator that includes a top layer ground plane. Same is true for an antenna feed line. Without top ground plane it's called a microstrip, but with top ground it's called a coplanar waveguide.
thanks!
can i route other traces under the usb data lines on layer 3 or 4? not data just some 5v power and 3.3v pwm signal. The usb in my case is only needed during programming.
Yes that should be fine.
I’m routing usb signals today for the first time what luck this video came out this weeks 🥹