12065E104ZAT2A AVX Corporation, 12065E104ZAT2A Datasheet - Page 41
12065E104ZAT2A
Manufacturer Part Number
12065E104ZAT2A
Description
Cap Ceramic 0.1uF 50VDC Z5U -20% to 80% SMD 1206 Paper T/R
Manufacturer
AVX Corporation
Type
Flatr
Series
1206r
Specifications of 12065E104ZAT2A
Package/case
1206
Mounting
Surface Mount
Capacitance Value
0.1 uF
Dielectric
Z5U
Voltage
50 Vdc
Product Length
3.2 mm
Product Height
1.5(Max) mm
Product Depth
1.6 mm
Tolerance
-20 to 80 %
Dielectric Characteristic
Z5U
Capacitance
0.1µF
Capacitance Tolerance
+80, -20%
Voltage Rating
50VDC
Capacitor Case Style
1206
No. Of Pins
2
Capacitor Mounting
SMD
Rohs Compliant
Yes
Case Code
1206
Case Size
1206
Material, Element
Ceramic
Termination
SMT
Operating Temperature Range
+ 10 C to + 85 C
Temperature Coefficient / Code
Z5U
Package / Case
1206 (3216 metric)
Product
General Type MLCCs
Dimensions
1.6 mm (0.063 in) W x 3.2 mm (0.126 in) L
Dissipation Factor Df
4
Termination Style
SMD/SMT
Lead Free Status / Rohs Status
RoHS Compliant part
40
General Description
Effects of Voltage – Variations in voltage have little effect
on Class 1 dielectric but does affect the capacitance and
dissipation factor of Class 2 dielectrics. The application of
DC voltage reduces both the capacitance and dissipation
factor while the application of an AC voltage within a
reasonable range tends to increase both capacitance and
dissipation factor readings. If a high enough AC voltage is
applied, eventually it will reduce capacitance just as a DC
voltage will. Figure 2 shows the effects of AC voltage.
Capacitor specifications specify the AC voltage at which to
measure (normally 0.5 or 1 VAC) and application of the
wrong voltage can cause spurious readings. Figure 3 gives
the voltage coefficient of dissipation factor for various AC
voltages at 1 kilohertz. Applications of different frequencies
will affect the percentage changes versus voltages.
The effect of the application of DC voltage is shown in
Figure 4. The voltage coefficient is more pronounced for
higher K dielectrics. These figures are shown for room tem-
perature conditions. The combination characteristic known
as voltage temperature limits which shows the effects of
rated voltage over the operating temperature range is
shown in Figure 5 for the military BX characteristic.
10.0
50
40
30
20
10
8.0
6.0
4.0
2.0
0
0
Curve 1 - 100 VDC Rated Capacitor
Curve 2 - 50 VDC Rated Capacitor
Curve 3 - 25 VDC Rated Capacitor
D.F. vs. A.C. Measurement Volts
Cap. Change vs. A.C. Volts
.5
AC Measurement Volts at 1.0 KHz
12.5
Volts AC at 1.0 KHz
AVX X7R T.C.
1.0
AVX X7R T.C.
Figure 2
Figure 3
25
1.5
2.0
37.5
2.5
Curve 3
Curve 2
Curve 1
50
Effects of Time – Class 2 ceramic capacitors change
capacitance and dissipation factor with time as well as tem-
perature, voltage and frequency. This change with time is
known as aging. Aging is caused by a gradual re-alignment
of the crystalline structure of the ceramic and produces an
exponential loss in capacitance and decrease in dissipation
factor versus time. A typical curve of aging rate for semi-
stable ceramics is shown in Figure 6.
If a Class 2 ceramic capacitor that has been sitting on the
shelf for a period of time, is heated above its curie point,
(125°C for 4 hours or 150°C for
will de-age and return to its initial capacitance and dissi-
pation factor readings. Because the capacitance changes
rapidly, immediately after de-aging, the basic capacitance
measurements are normally referred to a time period some-
time after the de-aging process. Various manufacturers use
different time bases but the most popular one is one day
or twenty-four hours after “last heat.” Change in the aging
curve can be caused by the application of voltage and
other stresses. The possible changes in capacitance due to
de-aging by heating the unit explain why capacitance
changes are allowed after test, such as temperature cycling,
moisture resistance, etc., in MIL specs. The application of
high voltages such as dielectric withstanding voltages also
+10
+20
-2.5
-7.5
-10
-20
-30
-10
2.5
-5
0
0
-55 -35
Typical Cap. Change vs. Temperature
Cap. Change vs. D.C. Volts
Temperature Degrees Centigrade
-15
25%
AVX X7R T.C.
AVX X7R T.C.
Percent Rated Volts
+5
Figure 4
Figure 5
+25 +45 +65 +85 +105 +125
50%
0VDC
RVDC
1
⁄
2
hour will suffice) the part
75%
100%
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