Finds the total capacitance of several capacitors. In parallel they simply add; in series you add the reciprocals — the opposite of resistors.
Explanation
This is the total capacitance of several capacitors wired together. The rules are the reverse of the ones for resistors.
Parallel:C=C1+C2+⋯ Series:C1=C11+C21+⋯ Resistors add in series and combine reciprocally in parallel. Capacitors do the opposite.
Example
Take capacitors of 10 μF, 20 μF and 30 μF.
In series:
C1=101+201+301=6011C=1160=5.45 μF Smaller than the smallest capacitor in the chain.
In parallel the total is simply 10+20+30=60 μF.
Why the rules invert
Go back to the parallel plate formula, C=εdS, and it becomes obvious.
- Wiring in parallel is like widening the plates. S grows, so the capacitance grows
- Wiring in series is like pushing the plates apart. d grows, so the capacitance falls
Losing capacitance in series sounds like a bad bargain, but it buys something: the voltage rating goes up, because the applied voltage divides itself between the capacitors.
In practice
- Parallel — when you need more capacitance, as in a power supply smoothing bank
- Series — when you need to withstand a higher voltage