basic characteristics into more easily specified classes. The
1 capacitors. These are specified by the military under
specification MIL-C-20. General purpose capacitors with
MIL-C-11015 and MIL-C-39014. The new high reliability
Class 2 dielectrics.
Class 1 鈥?/div>
Class 1 capacitors or temperature compensating
capacitors are usually made from mixtures of titanates
where barium titanate is normally not a major part of the
mix. They have predictable temperature coefficients and
in general, do not have an aging characteristic. Thus they
are the most stable capacitor available. Normally the
T.C.s of Class 1 temperature compensating capacitors are
C0G (NP0) (negative-positive 0 ppm/掳C). Class 1 extended
temperature compensating capacitors are also manufac-
tured in T.C.s from P100 through N2200.
Class 2 鈥?/div>
General purpose ceramic capacitors are called
Class 2 capacitors and have become extremely popular
because of the high capacitance values available in very
small size. Class 2 capacitors are 鈥渇erro electric鈥?and vary in
capacitance value under the influence of the environmental
and electrical operating conditions. Class 2 capacitors
are affected by temperature, voltage (both AC and DC),
frequency and time. Temperature effects for Class 2
ceramic capacitors are exhibited as non-linear capacitance
changes with temperature.
TERMINATE
EDGE
END
TERMINATIONS
ELECTRODES
MARGIN
Figure 1
Table 1: EIA Temperature Compensating Ceramic Capacitor Codes
TC TOLERANCES
(1)
Capacitance
in pF
NP0
+30
-75
卤30
CG
C0G
N030
+30
-80
卤30
HG
S1G
N080
N150
N220
N330
N470
+60
-210
卤60
TH
T2H
N750
+120
-340
卤120
UJ
U2J
N1500
+250
-670
卤250
NONE
P3K
N2200
+500
-1100
卤500
NONE
R3L
10 and Over
-55掳C to +25掳C in PPM/掳C
+30
+30
+30
+60
-90
-105
-120
-180
+25掳C to +85掳C in PPM/掳C
卤30
卤30
卤30
卤60
LG
U1G
PG
P2G
RG
R2G
SH
S2H
10 and Over
Closest
MIL-C-20D
Equivalent
EIA Desig.
(1)
Table 1 indicates the tolerance available on specific temperature characteristics. It may be noted that limits are established on the basis of measurements at
+25掳C and +85掳C and that T.C. becomes more negative at low temperature. Wider tolerances are required on low capacitance values because of the effects of
stray capacitance.
4
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