online electronic calculator - Ohm's law and much more

2 series capacitors calculator

Online calculator for formulas used in electronic circuit design and electrical engineering.

Basic electric calculations:

Ohm's Law, Ohm's Law with power, DC power, AC real power, LC resonant frequency, Capacitor charging/discharging, Capacitive reactance, Capacitive current + reactive power, Capacitor energy, Capacitor Δ energy, RC discharging, Inductor square pulse, Inductive reactance, Inductive current + reactive power, Inductor energy, 2 parallel resistors, 3 parallel resistors, 2 parallel inductors, 2 series capacitors, System bandwidth, Bandwidth ↔ rise time, frequency ↔ period

Wire and winding calculations:

Diameter ↔ cross section ↔ AWG, Wire resistance, Wire weight, Current density, Wire R thermal drift

Calculate 2 series capacitors: 100nF, 220mF, nF


This calculates the total capacitance of 2 series capacitors. It can also calculate the capacitance of the last individual capacitor to reach a target total capacitance.

Enter any 2 values, the 3rd one will be calculated:

C1: -0.1 +0.1 -1 +1 -10 +10 -100 +100
C2: -0.1 +0.1 -1 +1 -10 +10 -100 +100
Total C: -0.1 +0.1 -1 +1 -10 +10 -100 +100
Output metric prefix:   Automatic    User-selected
 

C1 - Standard EIA Decade Values of capacitors - decade 100 to 1000 nF

E6E12E24
100 nF
150 nF
220 nF
330 nF
470 nF
680 nF
100 nF, 120 nF
150 nF, 180 nF
220 nF, 270 nF
330 nF, 390 nF
470 nF, 560 nF
680 nF, 820 nF
100 nF, 110 nF, 120 nF, 130 nF
150 nF, 160 nF, 180 nF, 200 nF
220 nF, 240 nF, 270 nF, 300 nF
330 nF, 360 nF, 390 nF, 430 nF
470 nF, 510 nF, 560 nF, 620 nF
680 nF, 750 nF, 820 nF, 910 nF

C1 - Other capacitance decades:

1 - 10 pF, 10 - 100 pF, 100 - 1000 pF, 1 - 10 nF, 10 - 100 nF, 100 - 1000 nF, 1 - 10 uF, 10 - 100 uF, 100 - 1000 uF, 1 - 10 mF, 10 - 100 mF, 100 - 1000 mF, 1 - 10 F, 10 - 100 F, 100 - 1000 F,

C2 - Standard EIA Decade Values of capacitors - decade 100 to 1000 mF

E6E12E24
100 mF
150 mF
220 mF
330 mF
470 mF
680 mF
100 mF, 120 mF
150 mF, 180 mF
220 mF, 270 mF
330 mF, 390 mF
470 mF, 560 mF
680 mF, 820 mF
100 mF, 110 mF, 120 mF, 130 mF
150 mF, 160 mF, 180 mF, 200 mF
220 mF, 240 mF, 270 mF, 300 mF
330 mF, 360 mF, 390 mF, 430 mF
470 mF, 510 mF, 560 mF, 620 mF
680 mF, 750 mF, 820 mF, 910 mF

C2 - Other capacitance decades:

1 - 10 pF, 10 - 100 pF, 100 - 1000 pF, 1 - 10 nF, 10 - 100 nF, 100 - 1000 nF, 1 - 10 uF, 10 - 100 uF, 100 - 1000 uF, 1 - 10 mF, 10 - 100 mF, 100 - 1000 mF, 1 - 10 F, 10 - 100 F, 100 - 1000 F,

Series capacitors rule says:

•Connecting a 100nF (one hundred nanofarads) capacitor and a 220mF (two hundred and twenty millifarads) capacitor in series creates a 99.99995454548nF (ninety-nine point nine nine nine nine five four five four five four eight nanofarads) capacitance.
•A 100nF (one hundred nanofarads) capacitor capacitance can be reduced to 99.99995454548nF (ninety-nine point nine nine nine nine five four five four five four eight nanofarads) by connecting a 220mF (two hundred and twenty millifarads) capacitor in series.



This is a simple online calculator for formulas used in electronic engineering and design.

This online calculator is for reference only. I do not guarantee it to work correctly. You use this at your own risk only.