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PDF CWR06DC155M Data sheet ( Hoja de datos )

Número de pieza CWR06DC155M
Descripción Solid Tantalum Chip Capacitors MIDGET Military/ MIL-PRF-55365/4 Qualified
Fabricantes Vishay Siliconix 
Logotipo Vishay Siliconix Logotipo



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CWR06
Solid Tantalum Chip Capacitors
Vishay Sprague
MIDGET® Military, MIL-PRF-55365/4 Qualified
FEATURES
Weibull Failure Rates B, C; Exponential M, P, R, S.
Tape and Reel available per EIA 481-1 and-2.
Termination finishes available; Gold Plate, 50µ inch
minimum (standard), Solder Plated Hot Solder Dipped.
PERFORMANCE CHARACTERISTICS
Operating Temperature: - 55°C to + 85°C. (To + 125°C
with voltage derating.)
Capacitance Range: 0.10µF-100µF
ORDERING INFORMATION
CWR06
D
TYPE VOLTAGE
B
TERMINATION
FINISH
155
CAPACITANCE
Capacitance Tolerance: ± 10%, ± 20% standard. ± 5%
available as special.
Voltage Rating: 4WVDC to 50WVDC.
K
CAPACITANCE
TOLERANCE
B
FAILURE RATE
%/1000 HOURS
OPTIONAL
SURGE CURRENT
OPTIONS
C= 4 V
D= 6 V
F = 10V
H = 15 V
J = 20 V
K = 25 V
M= 35 V
N = 50 V
B = Gold. Standard.
H = Solder Plate.
C = Solder Dipped
This is expressed
in picofarads. The
first two digits are
the significant
figures. The third
is the number of
zeros to follow.
K = ± 10%
M = ± 20%
J = ± 5%
A = Commercial
M = 1.0
P = 0.1
R = 0.01
S = 0.001
B = 0.1
C = 0.01
A = 10 Cycles at
+ 25°C
B = 10 Cycles at
-55°C and
+ 85°C.
C = 10 Cycles at
-55°C and
+ 85°C
(Before Weibull
Grading).
DIMENSIONS in inches [millimeters]
-+
Weld and
W Dimple
Projection
Identifies
L
Anode (+)
Terminal
-+
W
L
T1 H
T1
P P T2 Max.
PP
CASE
CODE
L
W
H P T1
A
0.100 ± 0.015
0.050 ± 0.015
0.050 ± 0.015
0.030 ± 0.005
0.005
[2.54 ± 0.38]
[1.27 ± 0.38]
[1.27 ± 0.38]
[0.76 ± 0.13]
[0.13]
B
0.150 ± 0.015
0.050 ± 0.015
0.050 ± 0.015
0.030 ± 0.005
0.005
[3.81 ± 0.38]
[1.27 ± 0.38]
[1.27 ± 0.38]
[0.76 ± 0.13]
[0.13]
C
0.200 ± 0.015
0.050 ± 0.015
0.050 ± 0.015
0.030 ± 0.005
0.005
[5.08 ± 0.38]
[1.27 ± 0.38]
[1.27 ± 0.38]
[0.76 ± 0.13]
[0.13]
D
0.150 ± 0.015
0.100 ± 0.015
0.050 ± 0.015
0.030 ± 0.005
0.005
[3.81 ± 0.38]
[2.54 ± 0.38]
[1.27 ± 0.38]
[0.76 ± 0.13]
[0.13]
E
0.200 ± 0.015
0.100 ± 0.015
0.050 ± 0.015
0.030 ± 0.005
0.005
[5.08 ± 0.38]
[2.54 ± 0.38]
[1.27 ± 0.38]
[0.76 ± 0.13]
[0.13]
F
0.220 ± 0.015
0.135 ± 0.015
0.070 ± 0.015
0.030 ± 0.005
0.005
[5.59 ± 0.38]
[3.43 ± 0.38]
[1.78 ± 0.38]
[0.76 ± 0.13]
[0.13]
G
0.265 ± 0.015
0.110 ± 0.015
0.110 ± 0.015
0.050 ± 0.005
0.005
[6.73 ± 0.38]
[2.79 ± 0.38]
[2.79 ± 0.38]
[1.27 ± 0.13]
[0.13]
H
0.285 ± 0.015
0.150 ± 0.015
0.110 ± 0.015
0.050 ± 0.005
0.005
[7.24 ± 0.38]
[3.81 ± 0.38]
[2.79 ± 0.38]
[1.27 ± 0.13]
[0.13]
Note: When solder coated terminations are required, add .015" [0.38mm] to termination dimension tolerances.
H
T2 Max.
T2 (Max.)
0.015
[0.38]
0.015
[0.38]
0.015
[0.38]
0.015
[0.38]
0.015
[0.38]
0.015
[0.38]
0.015
[0.38]
0.015
[0.38]
Document Number 40009
Revision 16-Nov-04
For technical questions, contact [email protected]
www.vishay.com
133

1 page




CWR06DC155M pdf
PERFORMANCE CHARACTERISTICS (Continued)
7.1 At + 25°C, when measured at + 25˚C ± 5˚C, the
leakage current for any capaitor shall not exceed
the maximum value listed in the Standard Ratings
Table
7.2 At + 85°C, when measured at + 85˚C ± 5˚C, the
leakage current for any capacitor shall not exceed the
maximum value listed in the Standard Ratings Table.
7.3 At + 125°C, when measured at + 125˚C ± 5˚C, the
leakage current for any capacitor shall not exceed the
maximum value listed in the Standard Ratings Table.
8. Life Test: Capacitors shall be capable of withstanding
a 2000 hour life test at the + 85˚C rated DC working
voltage or a 2000 hour life test at the + 125˚C derated
working voltage.
8.1 Following the life test, the capacitors shall meet the
following requirements: the capacitance at + 25˚C
shall not have changed by more than ± 10% from the
GUIDE TO APPLICATION
1. A-C Ripple Current: The maximum allowable ripple
current shall be determined from the formula:
Irms =
P
RESR
where,
P = Power Dissipation in Watts @ + 25°C as
given in the table in Paragraph Number 5
(Power Dissipation).
RESR = The capacitor Equivalent Series Resistance
at the specified frequency.
2. A-C Ripple Voltage: The maximum allowable ripple
voltage shall be determined from the formula:
Vrms = Z
or, from the formula:
P
RESR
where,
Vrms = Irms x Z
P = Power Dissipation in Watts @ + 25°C
as given in the table in Paragraph Number 5
(Power Dissipation).
RESR = The capacitor Equivalent Series Resistance
at the specified frequency.
Z = The capacitor impedance at the specified
frequency.
CWR06
Vishay Sprague
intital value; the dissipation factor shall meet the initial
requirements; the leakage current shall not be more
than the original requirements.
9. Reflow Soldering: It is recommended that these
capacitors be reflow soldered at a temperature of not
greater than + 250˚C for a period of not more than 30
seconds.
10. Marking: The small body area of these capacitors
does not permit elaborate marking schemes.
Required information will be distinctly marked on the
carton or packages in which the units are shipped.
Capacitors may be ordered with color coding at
additional cost. Color coding shall be as mutually
agreed upon by Vishay Sprague® and the customer.
10.1 Polarity: The anode terminal of each capacitor is
identified by the weld and dimple projection on the
anode cap (see Dimensional Configurations).
2.1 The sum of the peak AC voltage plus the DC voltage
shall not exceed the DC voltage rating of the
capacitor.
2.2 The sum of the negative peak AC voltage plus the
applied DC voltage shall not allow a voltage
reversal exceeding 10% of the DC rating at + 25°C.
3. Reverse Voltage: These capacitors are capable of
withstanding peak voltages in the reverse direction
equal to 10% of the DC rating at + 25°C, 5% of the
DC rating at + 85°C and 1% of the DC rating at
+125°C.
4. Temperature Derating: If these capacitors are to be
operated at temperatures above + 25°C, the
permissible rms ripple current or voltage shall be
calculated using the derating factors as shown:
Temperature
+ 25°C
+ 55˚C
+ 85°C
+ 125°C
Derating Factor
1.0
0.9
0.8
0.4
5. Power Dissipation: Power dissipation will be
affected by the heat sinking capability of the mounting
surface. Non-sinusoidal ripple current may produce
heating effects which differ from those shown. It
is important that the equivalent Irms value be
established when calculating permissible operating
levels. (Power Dissipation calculated using + 25°C
temperature rise.)
Document Number 40009
Revision 16-Nov-04
For technical questions, contact [email protected]
www.vishay.com
137

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