Capacitor numeric marking codes
Capacitor marking or code systems are often used to indicate the value and
other parameters on a capacitor. Large capacitors are able to have their values
marked on the case, but on smaller ones there is insufficient space to give the
data and capacitor code systems are required. Some use a colour code, but
increasingly capacitors used a figure code is used on the smaller capacitors.
On a large electrolytic capacitor there is sufficient space to mark the
value, the tolerance, working voltage, and often other data such as the ripple
voltage. Smaller capacitors may only have room for a few figures printed as a
code for the value.
On one scheme there may just be two figures. These refer to the capacitance
in picofarads, i.e. 10 is 10 pF.
Another scheme uses three or four characters. It bears many similarities to
the colour code system adopted for resistors, but without the colour part of the
coding scheme. The first two figures refer to the significant figures, whereas
the third one acts as a multiplier. The value of the capacitor being denoted in
picofarads.
Multiplier used on Capacitor Marking Code |
Third Figure |
Multiplier |
0 |
1 |
1 |
10 |
2 |
100 |
3 |
1000 |
4 |
10 000 |
5 |
100 000 |
6 |
-- |
7 |
-- |
8 |
|
9 |
|
The fourth character provides the tolerance figure for the
component. A variety of codes are available to describe the tolerances. The
tolerances denoted by the characters P and Z are normally used by electrolytic
or tantalum capacitors.
Tolerance Code |
C |
0.25pF |
D |
0.5pF |
F |
1% |
G |
2% |
J |
5% |
K |
10% |
M |
20% |
P |
-0 +100% |
Z |
-20 +80% |
It can be seen from the tables below that a capacitor with
the marking 104J has a value of 10 000 pF and has a tolerance of +/- 5%.
In some instances there may also be a voltage rating. This is
printed as a figure suffixed with the letter V after it. This is unlikely to be
included on smaller components where there is insufficient space to include it.
|