Capacitor General Info Datasheet by Vishay Beyschlag/Draloric/BC Components

View All Related Products | Download PDF Datasheet
VISHAY. ® RDHS www.v\shay.com/doc799912 COMPLIANY cdc@wshay.com www.v\shay,com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 1Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Ceramic Disc, RFI and Safety Capacitors
IN ACCORDANCE WITH IEC RECOMMENDATIONS CERAMIC CAPACITORS ARE SUBDIVIDED
INTO TWO CLASSES:
CERAMIC CLASS 1 or low-K capacitors are mainly manufactured of titanium dioxide or magnesium silicate
CERAMIC CLASS 2 or high-K capacitors contain mostly alkaline titanates
Material categorization: for definitions of compliance please see www.vishay.com/doc?99912
MAIN FEATURES
CLASS 1 CLASS 2
APPLICATION
For temperature compensation of frequency
discriminating circuits and filters, coupling and
decoupling in high-frequency circuits where low
losses and narrow capacitance tolerances are
demanded. As RFI and safety capacitors.
As coupling and decoupling capacitors for such
application where higher losses and a reduced
capacitance stability are required.
As RFI and safety capacitors
PROPERTIES
Temperature dependence
capacitance
High stability of capacitance. Low dissipation
factor up to higher frequencies. Defined
temperature coefficient of capacitance, positive
or negative, linear and reversible. High insulation
resistance. No voltage dependence. High
long-term stability of electrical values.
High capacitance values with small dimensions.
Non-linear dependence of capacitance on
temperature.
DC VOLTAGE
Capacitance dependence None Increasing with
DISSIPATION FACTOR TAN Max. 0.15 % (typical) Max. 3.5 % (typical)
INSULATION RESISTANCE 10 G 1 G
CAPACITANCE TOLERANCES < 10 pF: ± 0.25 pF, ± 0.5 pF, ± 1 pF
10 pF: ± 2 %, ± 5 %, ± 10 %, ± 20 % ± 10 %, ± 20 %, (+ 80/- 20) %
RATED VOLTAGE Up to 6 kVDC Up to 6 kVDC
STANDARDS AND SPECIFICATIONS
GENERAL STANDARDS
IEC 60062 Marking codes for resistors and capacitors
IEC 60068 Basic environmental testing procedures
SPECIAL STANDARDS FOR CERAMIC CAPACITORS
EN 130600 and IEC 60384-8 Fixed capacitors of ceramic dielectric, class 1
EN 130700 and IEC 60384-9 Fixed capacitors of ceramic dielectric, class 2
STANDARD FOR SPECIAL APPLICATION PURPOSES
CSA C22.2
RFI - and safety capacitors
EN 132400
IEC 60065
IEC 60384-14.3
UL60384-14
VDE 0560, part 2’5.70 and VDE 0860/8.81
VISHAY. cdc@wshay.com www.v\shay,com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 2Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Notes
Climatic test conditions: temperature 20 °C to 25 °C
Relative humidity 50 % to 70 %
Note
E6 values preferred
MEASURING AND TESTING CONDITIONS
CLASS 1 CLASS 2
CAPACITANCE AND DISSIPATION FACTOR
C 1000 pF C 100 pF
1 kHz, 1 VRMS to 5 VRMS 1 kHz, 1.0 VRMS ± 0.2 VRMS
C < 1000 pF C < 100 pF
1 MHz, 1 VRMS to 5 VRMS 1 MHz, 1.0 VRMS ± 0.2 VRMS
INSULATION RESISTANCE TEMPERATURE
DEPENDENCE CAPACITANCE
Rated voltage < 100 V: measuring voltage = (10 ± 1) V
100 V to < 500 V: measuring voltage = (100 ± 15) V
500 V: measuring voltage = (500 ± 50) V
Measuring time: 60 s ± 5 s
DIELECTRIC STRENGTH
Rated voltage 500 V: Test voltage = 2.5 x UR
> 500 V: measuring voltage = 1.5 x UR
Measuring time: 2 s
NOMINAL VALUE SERIES ACCORDING TO IEC 60063
E6 (± 20 % TOLERANCE) E12 (± 10 % TOLERANCE) E24 (± 5 % TOLERANCE)
100 100 100
- - 110
- 120 120
- - 130
150 150 150
- - 160
- 180 180
- - 200
220 220 220
- - 240
- 270 270
- - 300
330 330 330
- - 360
- 390 390
- - 430
470 470 470
- - 510
- 560 560
- - 620
680 680 680
- - 750
- 820 820
- - 910
VISHAY. cdc@wshay.com www.v\shay,com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 3Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Note
The actual markings are given in detail on the respective datasheet.
PRODUCTION CODE ACCORDING TO IEC 60062
The production code is indicated with a 4 FIGURE CODE (YEAR/WEEK)
•The 1
st two figures indicate the year and the second two figures indicate the week.
Examples:
18th Week 1998 = 9818
50th Week 1999 = 9950
32nd Week 2000 = 0032
41st Week 2001 = 0141
27th Week 2002 = 0227
22nd Week 2003 = 0322
15th Week 2004 = 0415
CAPACITANCE CODING SYSTEM
CAPACITANCE VALUE
CODE CAPACITANCE VALUE
p33 0.33 pF
3p3 3.3 pF
33p 33 pF
330p 330 pF
n33 330 pF (0.33 nF)
3n3 3300 pF (3.3 nF)
33n 33 000 pF (33 nF)
330n 330 000 pF (330 nF)
μ33 0.33 μF
3μ3 3.3 μF
CAPACITANCE TOLERANCE
CODE LETTER C-TOLERANCE
< 10 pF (pF)
C-TOLERANCE
10 pF (%)
C ± 0.25 -
D ± 0.5 ± 0.5
G-± 2
J-± 5
K-± 10
M-± 20
Z - + 80/- 20
RATED VOLTAGE CLEAR TEXT
CERAMIC DIELECTRIC
CLASS 1 CLASS 2
NP0 (C0G) X7R
N750 (U2J) Y5P
SL0 Z5U
S3N Z5V
Y5V
Y5U
VISHAY. cdc@wshay.com www.v\shay,com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 4Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
MARKING OF THE TEMPERATURE CHARACTERISTIC OF CAPACITANCE FOR CLASS 2 CERAMIC
CAPACITORS
According to EN 130700 or IEC 60384-9
According to EIA Standard RS 198
DC VOLTAGE CODE
LETTER
TEMPERATURE
RANGE
CODE
FIGURE
WITHOUT WITH
± 10 % + 10 %/- 15 % B -55 to +125 1
± 20 % + 20 %/- 30 % C -55 to +85 2
+ 20 %/- 30 % + 20 %/- 40 % D -40 to +85 3
+ 22 %/ - 56 % + 22 %/- 70 % E -25 to +85 4
+ 30 %/- 80 % + 30 %/- 90 % F -10 to +85 5
± 15 % + 15 %/- 40 % R
± 15 % + 15 %/- 25 % X
TEMPERATURE CODE LETTER TEMPERATURE CODE FIGURE CHANGE CODE LETTER
-55 °C X +45 °C 2 ± 1 % A
-30 °C Y +65 °C 4 ± 1.5 % B
+10 °C Z +85 °C 5 ± 2.2 % C
+105 °C 6 ± 3.3 % D
+125 °C 7 ± 4.7 % E
± 7.5 % F
± 10 % P
± 15 % R
± 22 % S
+ 22 %/- 33 % T
+ 22 %/- 56 % U
+ 22 %/- 82 % V
Admissible capacitance change
related to 20 °C over the
entire temperature range
Marking for class 2
ceramic capacitor
Temperature range:
upper and lower
temperature limits in °C
2D3
Y5S
Admissible capacitance change
related to 25 °C over the
entire temperature range
Upper category temperatureLower category temperature
VISHAY. 160 Temperatme cc) cdc@wshay.com www \shay com/do 91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 5Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
CLASS 1 CERAMIC TYPE
TEMPERATURE COEFFICIENT OF THE CAPACITANCE FOR CLASS 1 CERAMIC CAPACITORS
C = capacitance change
= temperature coefficient in 10-6/°C
 = temperature change in °C
VOLTAGE DEPENDENCE OF CAPACITANCE
None
FREQUENCY DEPENDENCE OF CAPACITANCE
Max. -2 % at 10 MHz
DISSIPATION FACTOR
For values greater than 50 pF: see datasheet
For lower values the dissipation factor is calculated according to the type of ceramic (rated temperature coefficient) under
consideration of the capacitance acc. to EN 130600.
The dissipation factor as well as the measuring method to be agreed between manufacturer and user for values lower than
5 pF.
C
C
--------% = 100 x x 
NP0 (C0G)NP0 (C0G)
85
-55 -40 -20 020406080100120
5
4
3
2
1
0
-1
-2
-3
-4
-5
C
ΔC [%]
υ u (°C)
N750 (U2J)
N750 (U2J) 10
0
C
ΔC [%]
-50
-40
-30
-20
-10
20
30
40
50
85
υ u (°C)
-55 -40 -20 020406080100120
Temperature (°C)
1000
0
-1000
-2000
-60 -40 -20 0 20 40 60 80 100 120 140 160
350
SL0
Capacitance Change ΔC/C (ppm)
from +25 °C Reading
Temperature (°C)
-60
-40
-20
20
40
60
0
-55 -40 -20 0 10 25 45 65 85 105125 150
Capacitance Change ΔC/C (%)
S3N
VISHAY. Temperature ‘0 cdc@wshay.com www.v\shay.com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 6Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
CLASS 2 CERAMIC TYPE
Ceramic Dielectric: Y5P
Ceramic Dielectric: Z5U/Z5V
Ceramic Dielectric: Y5V
Ceramic Dielectric: X7R
Ceramic Dielectric: X5F
Ceramic Dielectric: Y5U
10
5
0
-5
-10
-15
-20
-35 -15
Y5P
Typical % Capacitance Change at 25 °C
Capacitance Change ΔC/C (%)
5 25456585
Temperature °C
10
0
-10
-20 Z5U
-30
-40
- 50
- 60
- 70
- 80
- 90
Z5V
-35 -15
Typical % Capacitance Change at 25 °C
Capacitance Change ΔC/C (%)
5 25456585
Temperature °C
10
0
-10
-20
-30
-40
-50
-60
-70
-80
-90
Typical % Capacitance Change at 25 °C
Capacitance Change ΔC/C (%)
Temperature °C
Y5V
-40 -20 -10-30 010 30 40 6050 80 907020
Typical % Capacitance Change at 25 °C
Capacitance Change ΔC/C (%)
Temperature °C
20
15
10
5
0
-5
-10
-15
-20
-55 -35 -15
X7R
5 25 45 85 105 12565
Typical % Capacitance Change at 25 °C
Capacitance Change ΔC/C (%)
Temperature °C
6.5
-55 -35 -15 5 25 45 65 85
X5F
4.5
2.5
0.5
-1.5
-3.5
-5.5
Typical % Capacitance Change at 25 °C
Capacitance Change ΔC/C (%)
Temperature °C
10
0
-10
-20
Y5U
-30
-40
-50
-60
-40 -20 -10-30 010 30 40 6050 80 907020
VISHAY. cdc@wshay.com www.v\shay.com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 7Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
CAPACITANCE “AGING” OF CERAMIC CAPACITORS
Following the final heat treatment, all class 2 ceramic capacitors reduce their capacitance value. According to logarithmic law,
this is due to their special crystalline construction. This change is called “aging”. If the capacitors are heat treated (for example
when soldering), the capacitance increases again to a higher value deaging, and the aging process begins again.
Note
The level of this deaging is dependent on the temperature and the duration of the heat; an almost complete deaging is achieved at 150 °C
in one hour. These conditions also form the basis for reference measurements when testing. The capacitance change per time decade
(aging constant) differs for the various types of ceramic, but typical values can be taken from the equations below.
t1, t2 = measuring time point (h)
C11, C12 = capacitance values for the times t1, t2
k = aging constant (%)
REFERENCE MEASUREMENT
Due to aging, it is necessary to quote an age for reference measurements which can be related to the capacitance with fixed
tolerance. According to EN 130700, this time period is 1000 h.
In order to avoid the influence of aging, it is important to deage the capacitors before stress-testing. The following procedure is
adopted (see also EN 130700):
Deaging at 125 °C, 1 h
Storage for 24 h at normal climate temperature
Initial measurement
Stress
Deaging at 125 °C, 1 h
Storage for 24 h at normal climate temperature
Final measurement
k100 x C11 - C12

C11 x log10 t2/t1

-----------------------------------------------
=
C12 = C11 x 1 - k/100 x log10 t2/t1

VISHAY. cdc@wshay.com www.v\shay,com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 8Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
COMPONENT CLIMATIC CATEGORY
The large number of possible combinations of tests and
severities may be reduced by the selection of a few standard
groupings according to IEC 60068-1.
First set: two digits denoting the minimum ambient
temperature of operation (cold test).
Second set: three digits denoting the maximum ambient
temperature (dry heat test).
Third set: two digits denoting the number of days of the
damp heat steady state test (Ca).
40/085/21
3
rd
SET
Number of days
(steady test state)
2
nd
SET
Maximum ambient temperature
of operation (dry heat test)
1
st
SET
Minimum ambient temperature
of operation (test cold)
Category examples according to IEC 60068-1
25/085/04
25/085/21
40/085/21
55/125/21
65 -65 °C
55 -55 °C
40 -40 °C
25 -25 °C
10 -10 °C
00 0 °C
05 +5 °C
155 +155 °C
125 +125 °C
110 +110 °C
090 +90 °C
085 +85 °C
080 +80 °C
075 +75 °C
070 +70 °C
065 +65 °C
060 +60 °C
055 +55 °C
56 56 days
21 21 days
10 10 days
04 4 days
00
The component is not required
to be exposed to damp heat
56 days
VISHAY. cdc@wshay.com www.v\shay.com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 9Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
STORAGE
The capacitors must not be stored in a corrosive atmosphere, where sulphide or chloride gas, acid, alkali or salt are present.
Exposure of the components to moisture, should be avoided. The solderability of the leads is not affected by storage of up to
24 months (temperature +10 °C to +40 °C, relative humidity up to 60 % RH). Class 2 ceramic dielectric capacitors are also
subject to aging see previous page.
SOLDERING
SOLDERING RECOMMENDATIONS
Soldering of the component should be achieved using a Sn96.5/Ag3.0/Cu0.5, a Sn60/40 type or a silver-bearing Sn type solder.
Ceramic capacitors are very sensitive to rapid changes in temperature (Thermal shock) therefore the solder heat resistance
specification (see above table) should not be exceeded. Subjecting the capacitor to excessive heating may result in thermal
shocks that can crack the ceramic body. Similarly, excessive heating can cause the internal solder junction to melt.
CLEANING
The components should be cleaned immediately following the soldering operation with vapor degreasers.
SOLVENT RESISTANCE
The coating and marking of the capacitors are resistant to the following test method:
IEC 60068-2-45 (method XA)
MOUNTING
We do not recommend modifying the lead terminals, e.g. bending or cropping. This action could break the coating or crack the
ceramic insert. If however, the lead must be modified in any way, we recommend support of the lead with a clamping fixture
next to the coating.
SOLDERING SPECIFICATIONS
Soldering test for capacitors with wire leads: (according to IEC 60068-2-20, solder bath method)
SOLDERABILITY RESISTANCE TO SOLDERING HEAT
Soldering temperature (235 ± 5) °C (260 ± 5) °C
Soldering duration (2 ± 0.5) s (10 ± 1) s
Distance from component body 2 mm 5 mm
VISHAY. cdc@wshay.com www.v\shay.com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 10 Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
AQL/FIT VALUES/SUPPLIED QUALITY
AQL 0.1 for the Sum of the Electric Main Faults
C-tolerance > 1.5 x tolerance limit
DF > 1.5 x catalog value
RIS < catalog value
Inadequate dielectric breakdown
• Interruption
AQL 0.25 for the Sum of the Mechanical Main Faults
Marking wrong or missing
Dimensions out of tolerance
Coating failure
Lead space out of tolerance
Poor solderability of leads
Wrong lead length
AQL 0.65 for Secondary Faults
Coating extension out of tolerance
Marking incomplete
Tape dimensions out of tolerance
Testing in accordance to IEC 60410
Notes
The following agreements are possible on request:
•Lower AQL values
Confirmed initial random sampling test with appropriate report
Report on production test findings
Agreement on ppm concept
RELIABILITY
By careful control of the manufacturing process stages, the quality of the product is maintained at the highest possible level.
To obtain data on the reliability of our ceramic capacitors, many long-term tests under increased temperature and voltage
conditions have been carried out in our laboratories.
Based on the results of these tests, the following can be stated:
Reference conditions: ambient temperature: (40 ± 2) °C
relative humidity: 90 % to 95 %
electrical stress: 0 V rated voltage (UR), RFI safety cap 100 % UR
Failure criteria: short circuit (R 1 G) or short circuit (R 3 G RFI safety caps)
Failure tests: class 1 capacitors: l = 500 FIT
class 2 capacitors: l = 500 FIT
By derating the voltage load, greatly increased reliability can be predicted.
Temperature, up to the maximum category temperature, is not believed to significantly affect the reliability.
VISHAY. cdc@wshay.com www.v\shay,com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 11 Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
PRODUCTION FLOWCHART
PC = Production control
QC = Quality control
C-value
Dissipation factor
Voltage test
100 % test
QC1
Pressing discs
Sinter process (firing)
QC2
Screen printing of both electrodes
Firing of electrodes
Sorting in tolerance classes if necessary
QC3
Forming and soldering leads
Aligning for coating process
Epoxy or phenol resin coating
Hardening resin coat
PC 1
PC 2
PC 3
PC 4
PC 5
PC 6
Marking
Visual inspection
QC4
Cutting leads for bulk packaging or taping
Packaging
Delivery
PC 7
PC 8, 9
QC5
— VISHAY. cdc@wshay.com www.v\shay.com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 12 Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
STANDARD LEAD CONFIGURATIONS
NON-STANDARD LEAD STYLES AVAILABLE ON REQUEST
D
F
DR
L = straight leads
SH
L
TD
F
Ø d
V = inline kinked leads
F
D
SH
K = outside crimp kinked leads
SH
F
D
J = inside crimp kinked leads
D = diameter
F = lead spacing
SH = seated height
T = thickness
L = lead length
DR = run down
Tangent
line
Tangent
line
Tangent
line
VISHAY. cdc@wshay.com www.v\shay,com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 13 Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
PACKAGING RADIAL TAPE AND AMMOPACK
DESCRIPTION CODE 5.0 mm LEAD SPACING
12.7 mm FEED HOLE PITCH
7.5 mm LEAD SPACING
15.0 mm FEED HOLE PITCH
Body dimension D 11.0 max. 14.0 max.
Feed hole diameter D04.0 ± 0.2 4.0 ± 0.2
Wire lead diameter d 0.6 ± 0.05 0.6 ± 0.05
Lead end protrusion e 1.0 max. 1.0 max.
Lead spacing F 5.0 + 0.6/- 0.4 7.5 + 0.6/- 0.4
Height to seating plane
(for straight leads) H020.0 ± 0.5 20.0 ± 0.5
Height to seating plane
(for kinked leads) H016.0 ± 0.5 16.0 ± 0.5
Top of component height H132.0 max. 40.0 max.
Body inclination h 0 ± 1.0 0 ± 1.0
Rejected component cut height L 11.0 max. 11.0 max.
Component pitch p 12.7 ± 1.0 15.0 ± 1.0
Feed hole pitch P012.7 ± 0.3 15.0 ± 0.3
Feed hole off alignment P13.85 ± 0.7 3.75 ± 0.7
P26.35 ± 1.3 7.5 ± 1.5
Plane deviation P 1.0 max. 1.0 max.
Overall tape thickness t 0.9 max. 0.9 max.
Overall tape and lead thickness t11.5 max. 1.5 max.
Carrier tape width W 18.0 + 1.0/- 0.5 18.0 + 1.0/- 0.5
Adhesive tape width W05.0 min. 5.0 min.
Feed hole height off alignment W19.0 + 0.75/- 0.5 9.0 + 0.75/- 0.5
Adhesive tape margin W23.0 max. 3.0 max.
Reference drawing Fig. 1 Fig. 1
PACKAGING RADIAL TAPE AND AMMOPACK
DESCRIPTION CODE
7.5 mm LEAD SPACING
12.7 mm FEED HOLE PITCH
25.4 mm COMPONENT PITCH
10.0 mm LEAD SPACING
15.0 mm FEED HOLE PITCH
25.4 mm COMPONENT PITCH
Body dimension D 22.0 max. 22.0 max.
Feed hole diameter D04.0 ± 0.2 4.0 ± 0.2
Wire lead diameter d 0.6 ± 0.05 0.8 ± 0.05
Lead end protrusion e 1.0 max. 1.0 max.
Lead spacing F 7.5 + 0.6/- 0.4 10.0 + 0.6/- 0.4
Height to seating plane
(for straight leads) H020.0 ± 0.5 20.0 ± 0.5
Height to seating plane
(for kinked leads) H016.0 ± 0.5 16.0 ± 0.5
Top of component height H143.0 max. 43.0 max.
Body inclination h 0 ± 1.0 0 ± 1.0
Rejected component cut height L 11.0 max. 11.0 max.
Component pitch p 25.4 ± 1.0 25.4 ± 1.0
Feed hole pitch P012.7 ± 0.3 12.7 ± 0.3
Feed hole off alignment P18.9 ± 0.7 8.9 ± 0.7
P212.7 ± 1.5 12.7 ± 1.5
Plane deviation P 1.0 max. 1.0 max.
Overall tape thickness t 0.9 max. 0.9 max.
Overall tape and lead thickness t11.5 max. 1.7 max.
Carrier tape width W 18.0 + 1.0/- 0.5 18.0 + 1.0/- 0.5
Adhesive tape width W05.0 min. 5.0 min.
Feed hole height off alignment W19.0 + 0.75/- 0.5 9.0 + 0.75/- 0.5
Adhesive tape margin W23.0 max. 3.0 max.
Reference drawing Fig. 2 Fig. 2
— VISHAY. V ”If E T -- T £13 A M! ‘W %f%*é%*$*¢*% h —’ IIH JILIILLJJ“ II‘ .I: cdc@wshay.com .com/d05791000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 14 Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
PACKAGING VERSIONS
Reel Packaging Ammo Packaging
Fig. 1 - Illustration for component pitch 12.7 mm and 15.0 mm
Feed hole pitch 12.7 mm and 15.0 mm
(12.7 mm for F = 5.0 mm and 6.4 mm; 15 mm for F = 7.5 mm)
Fig. 2 - Illustration for component pitch 25.4 mm
Feed hole pitch 12.7 mm
(for F = 7.5 mm, 10.0 mm and 12.5 mm)
60 max. 350 max.
Ø 16 ± 1
55 max.
340 max.
340 max.
direction of unreeling
Ø d P1P0
D0
W0
W1
W2
W
P2P
F
ΔPΔP
ΔhΔh
H1
H0
e
A
t1t
Detail A
Direction of unreeling
L
T
D
F
e
Ø d
P1
P0D0
W0
W1
W2
W
P2
P
F
ΔPΔPΔhΔh
H1
H0
A
t1
t
Detail A
VISHAY. elhe M For VY1 'C M PN:D222K25Y5PH6UJ5R Lol11lL561MU DC1,0601 QTY 2000 PO Q9 Lul2: DCZ: 53(ch 200601CN Region: 9520 SL: 0010 Ser.No: 060 1 HGQAOB M Mm www.v\shay.com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 15 Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Note
•HF = RoHS-compliant and halogen-free.
LABELING
Each reel is provided with a label showing the following details:
Manufacturer, capacitance, tolerance, batch number, quantity of components, rated voltage and dielectric. On special request
other designations can be shown. For example:
CLEAR TEXT ORDERING CODE
D 471 K 20 Y5P L 6 3 J 5 R
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
Product
Type
Capacitance Capacitance
Tolerance
Size
Code
Temperature
Characteristic
Rated
Voltage
Lead
Diameter
Packaging/
Lead Length
Lead
Style
Lead
Spacing
RoHS-
Compliant
D = general
type with
phenolic
resin coat
S = general
type with
epoxy resin
coat
F = low
dissipation
type
VY1 =
safety
recognized
with epoxy
resin coat
VY2 =
safety
recognized
with epoxy
resin coat
H = HV
disc X7R
The first two
digits are the
significant
figures of
capacitance
and the last
digit is a
multiplier as
follows:
0 = x 1
1 = x 10
2 = x 100
3 = x 1000
4 = x 10 000
9 = x 0.1
C = ± 0.25 pF
D = ± 0.5 pF
G = ± 2 %
J = ± 5 %
K = ± 10 %
M = ± 20 %
Z = + 80 %/
- 20 %
Please
see
“size
code”
table
Please see the
temperature
coefficient
curve of
ceramic type
F = 50 V
H = 100 V
L = 500 V
N = 1 kV
P = 2 kV
R = 3 kV
U = 6 kV
S = X1/Y2
300 V (AC)
Q = X1/Y1
500 V (AC)
For VY1:
G = X1/Y1
500 V (AC)
HF
For VY1*C:
C = X1/Y1
500 V (AC)
HF,
compact
size
For VY2:
G = X1/Y2
300 V (AC)
HF
6 =
0.6 mm
± 0.05 mm
8 =
0.8 mm
± 0.05 mm
3 = bulk
30 mm
± 5.0 mm
5 = bulk
5.0 mm
± 0.8 mm
T = tape
and reel
U =
ammopack
Please see
“lead
configurations”
2 =
2.5 mm
5 =
5.0 mm
6 =
6.4 mm
7 =
7.5 mm
0 =
10.0 mm
X =
12.5 mm
VISHAY. cdc@wshay.com www.v\shay,com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 16 Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
SMALLEST PACKAGING QUANTITIES (SPQ)
PACKAGING PRODUCT
FAMILY (D) SIZE CODE LEAD SPACE
(F)
STANDARD PACKAGING SPEC.
WORKING VOLTAGE
(W)
SPQ
(PCS)
BOX
DIMENSIONS
L x W x H (mm)
Bulk
Disc cap;
long lead;
(L 25.4 mm)
20 to 25
All
All (except 6 kV)
1000
245 x 120 x 65
29 to 39 1000
43 to 47 1000
53 to 75 500
84 to 96 250
39 to 49 6 kV 500
53 to 75 250
Disc cap;
short lead;
(L 10 mm)
20 to 25
All All
5000
245 x 120 x 65
29 to 39 3000
43 to 47 2000
53 to 59 1000
63 to 84 500
96 250
Safety disc;
short lead;
(L 10 mm)
20 to 33
All All
3000
245 x 120 x 65
39 to 47 2000
53 to 59 1000
63 to 75 500
84 250
Tape and reel
Disc cap
47 6.4 mm
< 500 VDC 2500
370 x 370 x 60
500 WV 2000 VDC 2000
3000 VDC 1000
7.5 mm
All
1000
53 6.4 mm 500
7.5 mm 500
Safety disc
53
7.5 mm All
1000
59 500
All > 7.5 mm 500
Ammopack
Disc cap
47 6.4 mm
< 500 VDC 2000 335 x 240 x 50
500 WV < 2000 VDC 2000 335 x 290 x 50
2000 VDC and 3000 VDC 1500
7.5 mm
All
1500 360 x 330 x 55
53 6.4 mm 1500 335 x 290 x 50
7.5 mm 1000
Safety disc
53
7.5 mm All
1000
59 750 360 x 330 x 55
All > 7.5 mm 750
VISHAY. cdc@wshay.com www.v\shay,com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 17 Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
MEASUREMENT
On the basis of the center of the product, measure the thickness with vernier caliper along every direction. Calipering position
refers to the figure below. The maximum value is the thickness value.
SIZE CODE
SIZE CODE (CTC) DISC DIAMETER (OUTPUT)
20 5.0 mm max.
25 6.5 mm max.
29 7.5 mm max.
31 8.0 mm max.
33 8.5 mm max.
35 8.9 mm max.
39 10.0 mm max.
41 10.5 mm max.
43 11.0 mm max.
47 12.0 mm max.
49 12.5 mm max.
51 13.0 mm max.
53 13.5 mm max.
59 15.0 mm max.
61 15.5 mm max.
65 16.5 mm max.
69 17.5 mm max.
75 19.0 mm max.
84 21.5 mm max.
93 23.6 mm max.
96 24.5 mm max.
D max.
T
Vernier Caliper position
for the thickness measurement
Vernier Caliper position
for the diameter measurement
VISHAY. cdc@wshay.com www.v\shay.com/doc?91000
General Information
www.vishay.com Vishay BCcomponents
Revision: 31-Jul-15 18 Document Number: 28536
For technical questions, contact: cdc@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
CAUTION
1. OPERATING VOLTAGE AND FREQUENCY CHARACTERISTIC
When sinusiodal or ripple voltage applied to DC ceramic disc capacitors, be sure to maintain the peak-to-peak value or the peak
value of the sum of both AC + DC within the rated voltage.
When start or stop applying the voltage, resonance may generate irregular voltage.
When rectangular or pulse wave voltage is applied to DC ceramic disc capacitors, the self-heating generated by the capacitor
is higher than the sinusoidal application with the same frequency. The allowable voltage rating for the rectangular or pulse wave
corresponds approximately with the allowable voltage of a sinusoidal wave with the double fundamental frequency.
The allowable voltage varies, depending on the voltage and the waveform.
Diagrams of the limiting values are available for each capacitor series on request.
2. OPERATING TEMPERATURE AND SELF-GENERATED HEAT
The surface temperature of the capacitors must not exceed the upper limit of its rated operating temperature.
During operation in a high-frequency circuit or a pulse signal circuit, the capacitor itself generate heat due to dielectric losses.
Applied voltage should be the load such as self-generated heat is within 20 °C on the condition of environmental temperature
25 °C.
Note, that excessive heat may lead to deterioration of the capacitor’s characteristics.
VOLTAGE DC DC + AC AC
Waveform
figure
V
0-p
0
V0-p
0
Vp-p
0

Products related to this Datasheet

CAP CER 4700PF 760VAC Y5U RADIAL
CAP CER 3300PF 440VAC Y5U RADIAL
CAP CER 2200PF 760VAC Y5U RADIAL
CAP CER 6800PF 440VAC Y5U RADIAL
CAP CER 680PF 440VAC Y5U RADIAL
CAP CER 10000PF 440VAC Y5U RDL
CAP CER 470PF 760VAC Y5U RADIAL
CAP CER 100PF 1KV Y5R RADIAL
CAP CER 47PF 760VAC Y5S RADIAL
CAP CER 1000PF 760VAC Y5U RADIAL
CAP CER 820PF 1KV X7R RADIAL
CAP CER 4700PF 440VAC Y5U RADIAL
CAP CER 3300PF 1KV X5F RADIAL
CAP CER 470PF 500V Y5P RADIAL
CAP CER 10000PF 500V Z5U RADIAL
CAP CER 560PF 1KV X5F RADIAL
CAP CER 1000PF 760VAC Y5U RADIAL
CAP CER 1000PF 440VAC Y5U RADIAL
CAP CER 47PF 440VAC U2J RADIAL
CAP CER 470PF 2KV Y5P RADIAL
CAP CER 1500PF 3KV Y5P RADIAL
CAP CER 22PF 1KV SL RADIAL
CAP CER 470PF 440VAC Y5S RADIAL
CAP CER 680PF 760VAC Y5U RADIAL
CAP CER 100PF 500V Y5P RADIAL
CAP CER 1000PF 2KV Y5P RADIAL
CAP CER 4700PF 500VAC Y5V RADIAL
CAP CER 68PF 1KV SL RADIAL
CAP CER 6800PF 440VAC Y5U RADIAL
CAP CER 680PF 760VAC Y5U RADIAL