Some electrical issues related to the building of PCBs

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Presentation transcript:

Some electrical issues related to the building of PCBs

High-speed PCB design issues There are a lot of issues to deal with when working with high-speed PCBs. We need to be sure that we keep the power and ground at approximately constant values. We need to watch out for generating radio-frequency noise The FCC is a bit picky about this. We need to make sure our signal wires actually get the data there.

Power and ground In order to get digital electronics to work correctly, they need a minimum voltage differential. If we get below that, the devices might Be slow (and thus not meet setup times) Lose state Just plain not work. Even a very (very) short “power droop” can cause the chip to die. In my experience, this is a really common problem.

Background issue #1: Inductance An inductor “resists the change in the flow of electrons” The light bulb is a resistor. The wire in the coil has much lower resistance (it's just wire) so what you would expect when you turn on the switch is for the bulb to glow very dimly. What happens instead is that when you close the switch, the bulb burns brightly and then gets dimmer. And when you open the switch, the bulb burns very brightly and then quickly goes out. http://electronics.howstuffworks.com/inductor1.htm

Background issue #2: Power draw What does the power draw of a computer system look like? Depends on granularity you look at. The thing to notice is that the instantaneous power draw is pretty noisy.

So? We need the Vcc/Ground differential to be fairly constant. But rapid changes in the amount of current needed will cause the voltage to spike or droop due to inductance. We basically want a “no-pass” filter. That is we don’t want to see any signal on the Vcc/Ground lines. The obvious thing? “Add a capacitor” That should keep the voltage constant, right? The problem is we need to worry about a lot of frequencies AND capacitors aren’t ideal.

Lots of frequencies Even fairly slow devices these days are capable of switching at very high frequencies. Basically we get drivers that have rise and fall times capable of going 1GHz or so. This means we generally have to worry about frequencies from DC all the way to 1GHz. Because our chip may be varying its draw at rates up to that fast.

Non-ideal devices. ESR is Effective Series Resistance ESL is Effective Series Inductance Ceff is the effective capacitance. Obviously impendence will be varying by frequency.

Given the previous table..

Removing the PCB…

What is the PCB part?

Other issues No ground loops Keep your traces wide Keep your traces short Use vias to get to power and ground plane ASAP.

Other issue: FCC Here it gets pretty magical. There are some basic rules of thumb. But can have very (very) complex models.