1997 Nov 04 217
Philips Components Product specification
Miniature ceramic plate capacitors Class 2, 500 V (DC)
(flanged types)
FEATURES
Professional circuits
Coupling and decoupling
Space saving
High reliability
High temperature circuits.
APPLICATIONS
In electronic circuits where non-linear
change of capacitance with
temperature is permissible and low
losses are not essential, e.g. coupling
and decoupling. Because of their
small size, the capacitors are ideal for
circuitry with high component density.
DESCRIPTION
The capacitors consist of a thin
rectangular ceramic plate, both sides
of which are metallized. The tinned
connecting leads are secured using a
high melting point solder. The
capacitors are encapsulated in epoxy
lacquer, which is resistant to all
commonly used cleaning solvents.
They have small dimensions and
narrow tolerances on the lead
spacing. The leads are provided with
a flange. The flange guarantees that
the leads are free of lacquer, and its
shape allows soldering gasses to
escape freely, ensuring excellent
solderability. This makes the
capacitors suitable for both
hand-mounting and automatic
insertion.
QUICK REFERENCE DATA
DESCRIPTION VALUE
Capacitance range (E12 series) 100 to 4700 pF
Dielectric material K2000
Rated DC voltage 500 V
Tolerance on capacitance ±10%
Sectional specification IEC 384-9 (2C2 and 2D1)
EIA (X5S/X8U)
Climatic category (IEC 68) 55/150/56
Fig.1 Outlines.
MAM035
1997 Nov 04 218
Philips Components Product specification
Miniature ceramic plate capacitors Class 2, 500 V (DC)
(flanged types)
MECHANICAL DATA
Fig.2 Component outline.
MSA531
W0.6 5.08
H
L
O 0.6 0.06
0.05
5.08 0.5
0.1
Dimensions in mm.
For dimensions H, L and W see Tables 1 and 2.
Fig.3 Detail of flange.
Dimensions in mm.
handbook, halfpage
MSA534 - 1
0.2
0
1.4
0.2
0.4
0.1
1.0
0.25
0.03
0.03
0
0.05
Marking
The body of the capacitors is tan coloured. The
temperature dependence is indicated by a yellow coloured
cap. Capacitance value and voltage are indicated by a
marking code in a contrasting colour on the body. Refer to
Table 3 for marking codes.
Mounting
When bending, cutting or flattening, the leads should be
relieved of the applied load by supporting them at the
capacitor body.
Soldering conditions:
max. 265 °C, max. 10 s.
The capacitors are suitable for mounting on printed-circuit
boards (hand-mounting or automatic insertion).
Physical dimensions
Table 1 Capacitor dimensions and mass
Notes
1. Unless indicated in Table 3 the thickness of the
capacitors does not exceed 2.3 mm.
2. Tolerances are given between parentheses.
SIZE(1) W(2)
(mm) H(2)
(mm) MASS
(g)
I 3.6 (1.1) 6.3 (1.8) 0.14
IIA 3.9 (1.4) 6.7 (2.0) 0.15
IIB 4.5 (1.8) 7.3 (2.4) 0.15
III 5.3 (1.8) 8.1 (2.6) 0.17
IV 6.2 (2.0) 9.0 (2.7) 0.20
V 6.2 (2.0) 11.2 (3.1) 0.23
1997 Nov 04 219
Philips Components Product specification
Miniature ceramic plate capacitors Class 2, 500 V (DC)
(flanged types)
PACKAGING
For details refer to this handbook, Chapter
“Miniature ceramic plate capacitors”
, Section
“General data”
.
ORDERING INFORMATION
Table 2 Catalogue numbers
Notes
1. Catalogue numbers to be completed by adding the last 3-digit suffix for required capacitance value, see Table 3.
2. H0= 18.25 mm.
PITCH
P
LEAD
DIAMETER
d
CATALOGUE NUMBERS(1)
BULK PACKED ON TAPE
(REEL) ON TAPE(2)
(AMMOPACK)
L13 mm L = 4 ±0.5 mm
5.08 mm
(0.2 inch) 0.6 mm
(0.024 inch) 2222 655 09... 2222 655 19... 2222 655 53... 2222 655 63...
1997 Nov 04 220
Philips Components Product specification
Miniature ceramic plate capacitors Class 2, 500 V (DC)
(flanged types)
Table 3 Preferred range of values
Notes
1. Maximum thickness 2.7 mm.
2. Maximum thickness 2.5 mm.
3. The voltage code may be marked on the front or rear side of the capacitor.
CAPACITANCE
VALUE
(pF)
SIZE
(see Table 1)
MARKING CODE SUFFIX OF
CATALOGUE
NUMBERS
(see Table 2)
VALUE VOLTAGE(3)
(V)
100 I(1) n10 500 101
120 I(2) n12 500 121
150 I n15 500 151
180 I n18 500 181
220 I n22 500 221
270 I n27 500 271
330 I n33 500 331
390 IIA n39 500 391
470 IIA n47 500 471
560 IIA n56 500 561
680 IIB n68 500 681
820 IIB n82 500 821
1000 IIB 1n0 500 102
1200 III 1n2 500 122
1500 III 1n5 500 152
1800 III 1n8 500 182
2200 IV 2n2 500 222
2700 IV 2n7 500 272
3300 V 3n3 500 332
3900 V 3n9 500 392
4700 V 4n7 500 472
1997 Nov 04 221
Philips Components Product specification
Miniature ceramic plate capacitors Class 2, 500 V (DC)
(flanged types)
ELECTRICAL CHARACTERISTICS
The capacitors meet the essential requirements of
“IEC 384-9”
. Unless stated otherwise all electrical values apply at an
ambient temperature of 20 ±1°C, an atmospheric pressure of 86 to 106 kPa and a relative humidity of 63 to 67%.
DESCRIPTION VALUE
Capacitance values measured at 1 kHz, 1 V 100 to 4700 pF (E12 series)
Tolerance on the capacitance, after 1000 hours ±10%
Dielectric material K2000
Rated DC voltage 500 V
DC test voltage; duration 1 minute 1250 V
DC test voltage of coating; duration 1 minute 1250 V
Insulation resistance at 500 V (DC) after 1 minute >4000 M
Tan δ measured at 1 kHz, 1 V <3.5%
Category temperature range 55 to +85 °C (2C2) and 55 to +150 °C (2D1)
Storage temperature range 55 to +85 °C
Capacitance change as a function of temperature see Fig.4
Capacitance change as a function of frequency see Fig.5
Climatic category (IEC 68) 55/150/56
Ageing typical 1.5% per time decade
Fig.4 Typical capacitance change with respect to the capacitance at 20 °C as a function of temperature.
handbook, full pagewidth
100 150
60
60
100 50
CCA943
0
0
50 T (°C)
Guaranteed limits 2C2
Typical spread
Guaranteed limits 2D1
C
C
(%)
1997 Nov 04 222
Philips Components Product specification
Miniature ceramic plate capacitors Class 2, 500 V (DC)
(flanged types)
Fig.5 Typical capacitance change with respect to the capacitance at 1 kHz as a function of frequency.
U = 1 V (DC).
handbook, full pagewidth
60
60
40
20
0
10 102103104105106107
CCA048
20
40
C
C
(%)
f (Hz)
Fig.6 Typical impedance Z as a function of frequency.
MLB033
103
102
101
103
10 1
10
1
102
f (MHz)
IZI
()100 pF
1000 pF