The capacitance of an object is defined as being equal to the charge required to raise the potential of that object by one Volt.
C = Q/V
where,
C is the capacitance in Farads,The Energy stored in a capacitor is given by:
| E = 0.5 C V 2 |
Where
E = Energy stored in capacitor, Joules
C = Capacitance, Farads
V = Potential Difference, Volts
|
Qt = Q0e-t/RC |
|
It = I0e-t/RC |
|
Vt = V0e-t/RC |
|
XC = 1/2πfC |
where,
XC = capacitor reactance in Ohms
f = frequency in Hertz
C = capacitance in Farads
A conducting sphere which is at an infinite distance from any other conductor has capacitance. It is, however, impossible to place a conducting sphere at an infinite distance from other conductors. In practice, the following equation applies when a spherical conductor is placed far away from other conductors:
It is also intersting to note that the earth itself may be thought of as an isolated sphere. Calculation reveals that it has a capacitance of 700uF.
The reciprocal of the total capacitance CT of several capacitors C1, C2, C3, ..., Cn connected in series is given by the sum of the reciprocal of each capacitance.
 |
|
1/CT = (1/C1) + (1/C2) + (1/C3) + ... + (1/Cn) |
| Capacitors in Series. |
The total capacitance of capacitors in parallel, CT, is simply the sum of the individual capacitances C1, C2, C3, ..., Cn.
 |
|
CT = C1 + C2 + C3 + ... + Cn |
| Capacitors in Parallel. |
Mica is a naturally occuring mineral made up of complex aluminium-potassium silicates that have a monoclinic structure - i.e. the mineral splits easily into plates. Mica capacitors are general purpose capacitors that are highly stable and have low dissipation. They are not produced in high capacitance values, however, as the Mica is rather costly.
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Polycarbonate capacitors are frequently manufactured in a miniature laminate fashion for PCB mounting. They typically have a tolerance of 5% or 10%, and a temperature coefficient of 65ppm deg. C ^-1. They are often self healing i.e. an overvoltage will cause a discharge between the plates that will evaporate the metal so leaving them intact. In fact they can be manufactured so that an overvoltage is deliberately applied during manufacture to guarantee a design voltage. |
Polystyrene capacitors have very low losses (i.e. very high insulation resistance) and are therefore suitable for charge storage and filter applications. They are suitable for high frequencies, and can be manufactured to very close tolerances, typically +\- 1%. A typical temperature coefficient is -160 +\- 80ppm deg C^-1. They are suitable for timing applications or radio frequency circuits. One lead is often marked with a band to indicate that it is connected internally to a shield (for R.F. purposes):
Ceramic capacitors are general purpose capacitors frequently used in decoupling applications. They have tolerances of typically +80% \ -20%. They usually have metallised conducting plates and are encased in a type of cement. Modern PCB mounting ceramics have a coloured band on top which indicates the following:
| Capacitor Value | Temperature Coefficient | Coloured Band |
|---|---|---|
| 1.8pF to 18pF | zero | Black |
| 22pF to 150pF | -150ppm deg. C ^-1 | Orange |
| 180pF to 330pF | -750ppm deg. C ^-1 | Violet |
| 390pF to 4700pF | medium permittivity | Yellow |
| 10nF to 22nF | high permittivity | Green |
Ceramic Capacitors are available in three main types:
These ceramic capacitors have a permittivity of around 1200, and so are compact. Their value , however, is quite sensitive to temperature.
These ceramics have a negative temperature coefficient and so are used with other capacitors to correct sensitivity to temperature.
Low permittivity ceramic capacitors have a good frequency response but a low working voltage.
Paper capacitors were once used routinely but have been largely superseded by capacitors employing plastic dielectrics. The paper capacitor was cheap and had a reasonable capacitance to size ratio. It consisted of a paper dielectric impregnated with wax or oil, and conductors which were either thin aluminium foils or sputtered-on metallised aluminum. The capacitor was enclosed in a plastic case, or in older types a wax coating. Typical tolerances were of the order +/- 20%.