Some background:
I have a PCB with a bunch of relays on it. The purpose of the circuit, is to allow signals to pass through from one connector to another (db37), or to stop it – that's where the relays come in – to break the connection.
I have a 6 layer board with the following layer stack(signal, ground, signal, signal, power, signal).
I have +12V supply, +3.3V supply and +5V supply. The +12V is for a bunch of relays, and the +3.3V and +5V are for some microcontroller + other lower voltage ICs and components.
Some of these signals from the db37 connector MAY be higher current signals (3A) but with a frequency no more than 50khz. For the most part, we are looking at 10s of mA and 10Khz signals.
I'm using my power plane for the +12V.
My question is – can I just ground all my components to the ground plane directly or through a close proximity via or should be considering a star topology ?
Are star topologies only useful for situations where there is no dedicated ground plane ?
I suspect that because I have a dedicated ground, I should be able to simply just connect everything to ground. But PCB grounding is fairly new to me.
Best Answer
One of the advantages of star grounding is that you define the current paths for some signals. With a ground plane the current paths are up to the electrons and the voltage potential. You may end up causing a voltage dip or surge for one component on the board at a location where a higher surge current passes near the ground pin during, for instance, a relay activation.
It may not matter for your board, you haven't provided enough information to determine that, but the answer to your general question is:
No, a ground plane does not replace a star grounding system in all cases, and the problems a star grounding system can solve are not all resolved with a ground plane. In fact a ground plane may exacerbate certain types of problems that a star grounding system can solve.