www.syfer.com
www.syfer.com
Standard range - 10Vdc to 12kVdc
IECQ-CECC & AEC-Q200 ranges
S02A Space grade ranges
Safety Certied capacitors
Open Mode and Tandem capacitors
ProtectiCap™ capacitors
E01 & E07 feedthrough chip capacitors
Non-magnetic capacitors
High Q capacitors - MS range
250Vac Non Safety rated AC capacitors
X2Y Integrated Passive Components
Radial Leaded capacitors
TCC/VCC capacitors
115Vac 400Hz capable capacitors
X8R High Temperature capacitors
Ultra-low ESR capacitors
High Dielectric Withstand Voltage ranges
StackiCap™ capacitors
PSL capacitors
VC1 capacitors
Capacitors
MLC
First in the market with exible polymer terminations
- the revolutionary FlexiCap™ capacitors - our
capacitor range also includes: ProtectiCap™, high
voltage capacitors, X8R high temperature types,
High Q capacitors and other application specic
types. Our renowned high voltage MLCC expertise
has led to the development of an impressive range
with working voltage capability up to 12kV. This
includes surface mount Class ‘X’ and ‘Y’ approved
Safety Certied capacitors, 0603 chips with working
voltages up to 500V and 0805 types up to 2kV.
We are able to offer unrivalled product quality with
short lead-times, backed up by excellent sales and
technical support. With a commitment to product
innovation, new ranges are continually being
developed.
Our experienced applications engineers are also
available to provide custom solutions for specic
applications. This catalogue details the standard
ranges but we can provide items such as tight
tolerance, low prole and non standard sizes on
request. Flexibility is key, not only in design but in
all aspects of customer service and support.
Our quality management systems meet
international requirements, with approval to
IS0 9001, environmental approval to IS0 14001
and Occupational Health and Safety approval to
OHSAS 18001. Product approvals include, IECQ-
CECC, UL, TÜV and qualication to AEC-Q200.
SPC is used extensively, supported by Continuous
Improvement Programmes, 6 Sigma projects and
Lean Manufacturing initiatives.
Products
Syfer’s excellence in ceramic materials technology,
has enabled us to offer an unrivalled range of
multilayer ceramic products including:
l Multilayer ceramic chip capacitors
l High voltage MLCCs
l ProtectiCap™ capacitors
l FlexiCap™ capacitors with exible terminations
l StackiCap™ capacitors
l Class ‘X’ and ‘Y’ SMD Safety Certied capacitors
l Radial leaded capacitors
l AEC-Q200 qualied capacitors
l IECQ CECC approved capacitors
l Capacitors for space applications
l High Q capacitors
l Non-magnetic capacitors
l 3 terminal EMI chips
l X2Y Integrated Passive Components
Benets
l High quality and reliability
l World-leading high voltage expertise
l Suitable for the most demanding applications
including: automotive, aerospace, military,
space and medical
l Approvals to international specications
l Continual product improvement and innovation
l Tight tolerances available
l Large case sizes, up to 8060
l Custom product capability
l Strong technical support
l Short lead-times
l Environmentally responsible
Sufx code controlled items such as Low prole, dened
thickness and custom lead forms available by special request.
Other Syfer products
l Surface mount Pi lters
l Panel mount threaded lters
l Panel mount solder-in lters
l Custom lter assembly capability
l Varistor lters
l Discoidal capacitors
l Planar capacitor and planar varistor arrays
l EMI Power Filters
l Hermetically sealed EMI lters
www.syfer.com
Introduction to Syfer Technology
10V 16V 25V 50/63V 100V 200/
250V 500V 630V 1kV 1.2kV 1.5kV 2kV 2.5kV 3kV 4kV 5kV 6kV 8kV 10kV 12kV
C0G/
NP0 X5R C0G/
NP0 X7R X5R C0G/
NP0 X7R X5R C0G/
NP0 X7R X5R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R C0G/
NP0 X7R
0603 0.47p
-
3.9n
120n
-
150n
0.47p
-
2.7n
100p
-
100n 120n 0.47p
-
2.2n
100p
-
100n —0.47p
-
1.5n
100p
-
47n
56n
-
68n
0.47p
-
470p
100p
-
33n
0.47p
-
220p
100p
-
10n
0.47p
-
150p*
100p
-
1.5n* ——————————————————————————0603
0805 1.0p
-
15n
390n
-
680n
1.0p
-
12n
100p
-
330n
390n
-
470n
1.0p
-
10n
100p
-
220n
270n
-
390n
1.0p
-
5.6n
100p
-
220n
270n
-
330n
1.0p
-
2.2n
100p
-
100n
1.0p
-
1n
100p
-
56n
1.0p
-
680p
100p
-
15n
1.0p
-
560p
100p
-
12n
1.0p
-
180p
100p
-
10n
1.0p
-
120p —1.0p
-
82p —1.0p
-
39p —————————————————0805
1206 1.0p
-
47n
1.2µ
-
1.5µ
1.0p
-
33n
100p
-
1.0µ 1.2µ1.0p
-
27n
100p
-
820n 1.0µ1.0p
-
22n
100p
-
470n
560n
-
680n
1.0p
-
8.2n
100p
-
330n
1.0p
-
3.3n
100p
-
150n
1.0p
-
2.2n
100p
-
68n
1.0p
-
1.5n
100p
-
47n
1.0p
-
1.0n
100p
-
27n
1.0p
-
680p
100p
-
15n
1.0p
-
330p
100p
-
10n
1.0p
-
220p
100p
-
2.2n†
1.0p
-
100p —1.0p
-
68p —————————————1206
1210 3.9p
-
100n
1.8µ
-
3.3µ
3.9p
-
68n
100p
-
1.5µ
1.8µ
-
2.7µ
3.9p
-
56n
100p
-
1.2µ
1.5µ
-
2.2µ
3.9p
-
33n
100p
-
1.0µ
1.2µ
-
1.5µ
3.9p
-
18n
100p
-
680n
3.9p
-
8.2n
100p
-
330n
3.9p
-
6.8n
100p
-
150n
3.9p
-
3.9n
100p
-
100n
3.9p
-
2.2n
100p
-
47n
3.9p
-
1.5n
100p
-
18n
3.9p
-
820p
100p
-
12n
3.9p
-
390p
100p
-
4.7n†
3.9p
-
220p —3.9p
-
150p —————————————1210
1808 4.7p
-
100n
1.8µ
-
2.7µ
4.7p
-
68n
100p
-
1.5µ
1.8µ
-
2.2µ
4.7p
-
47n
100p
-
1.2µ 1.5µ4.7p
-
33n
100p
-
680n
820n
-
1.0µ
4.7p
-
18n
100p
-
560n
4.7p
-
8.2n
100p
-
270n
4.7p
-
5.6n
100p
-
150n
4.7p
-
3.9n
100p
-
100n
4.7p
-
2.2n
100p
-
47n
4.7p
-
1.5n
100p
-
22n
4.7p
-
1.0n
100p
-
15n
4.7p
-
470p
100p
-
4.7n†
4.7p
-
270p
100p
-
1.5n†
4.7p
-
180p
100p
-
1.2n†
4.7p
-
120p*
100p
-
1.0n*†
4.7p
-
68p*
100p
-
680p*†
4.7p
-
47p*
100p
-
390p*†——————1808
1812
T=2.5mm
10p
-
220n
3.9µ
-
10µ
10p
-
180n
150p
-
3.3µ
3.9µ
-
6.8µ
10p
-
150n
150p
-
2.2µ
2.7µ
-
4.7µ
10p
-
100n
150p
-
2.2µ
2.7µ
-
3.3µ
10p
-
47n
150p
-
1.5µ
10p
-
22n
150p
-
680n
10p
-
15n
150p
-
330n
10p
-
10n
150p
-
180n
10p
-
6.8n
150p
-
100n
10p
-
4.7n
150p
-
33n
10p
-
2.7n
150p
-
22n
10p
-
1.5n
150p
-
10n†
10p
-
820p
150p
-
3.3n†
10p
-
560p
150p
-
2.7n†
10p
-
270p*
150p
-
2.2n*†
10p
-
180p*
150p
-
1.2n*†
10p
-
120p*
150p
-
1.0n*†——————1812
T=2.5mm
1812
T=3.2mm ———— — —— — —— — ——27n -
1000n
18n
-
22n -
470n 12n -
330n 8.2n -
180n
5.6n
-
6.8n —3.3n -
56n 1.8n —1.0n —680p —330p
-
390p* —220p
-
270p* —150p
-
180p* ———————1812
T=3.2mm
1825
T=2.5mm
10p
-
470n
5.6µ
-
15µ
10p
-
330n
220p
-
4.7µ
5.6µ
-
12µ
10p
-
220n
220p
-
3.9µ
4.7µ
-
10µ
10p
-
150n
220p
-
1.8µ
2.2µ
-
6.8µ
10p
-
68n
220p
-
1.5µ
10p
-
33n
220p
-
1.0µ
10p
-
27n
220p
-
560n
10p
-
22n
220p
-
180n
10p
-
12n
220p
-
120n
10p
-
6.8n
220p
-
68n
10p
-
4.7n
220p
-
47n
10p
-
3.3n
220p
-
10n
10p
-
1.5n
220p
-
6.8n
10p
-
1.2n
220p
-
3.9n
10p
-
560p*
220p
-
2.2n*
10p
-
390p*
220p
-
1.8n*
10p
-
270p*
220p
-
1.5n* ——————1825
T=2.5mm
1825
T=3.2mm ———— — —— — —— — ——39n
-
47n —33n —27n —15n —8.2n
-
10n —5.6n
-
6.8n —3.9n —1.8n
-
2.2n —1.5n —680p* —470p* —330p* ———————1825
T=3.2mm
2220
T=2.5mm
10p
-
470n
6.8µ
-
18µ
10p
-
330n
220p
-
5.6µ
6.8µ
-
12µ
10p
-
220n
220p
-
4.7µ
5.6µ
-
10µ
10p
-
150n
220p
-
3.3µ
3.9µ
-
6.8µ
10p
-
68n
220p
-
2.2µ
10p
-
33n
220p
-
1.0µ
10p
-
22n
220p
-
560n
10p
-
18n
220p
-
330n
10p
-
15n
220p
-
120n
10p
-
10n
220p
-
82n
10p
-
5.6n
220p
-
47n
10p
-
3.3n
220p
-
27n
10p
-
1.8n
220p
-
8.2n†
10p
-
1.5n
220p
-
6.8n†
10p
-
680p*
220p
-
4.7n*†
10p
-
470p*
220p
-
3.9n*†
10p
-
330p*
220p
-
2.2n*†——————2220
T=2.5mm
2220
T=4.2mm
max. ———— — —— — —— — ——39n
-
56n -
2200n
27n
-
39n -
1000n
22n
-
33n -
1000n
18n
-
22n -
470n
12n
-
15n -
220n
6.8n
-
10n -
150n
3.9n
-
5.6n -
100n
2.2n
-
3.3n —1.8n
-
2.2n —820p
-
1.2n* —560p
-
820p* —390p
-
560p* ———————2220
T=4.2mm
max.
2225
T=2.5mm
10p
-
560n
8.2µ
-
22µ
10p
-
470n
330p
-
6.8µ
8.2µ
-
15µ
10p
-
330n
330p
-
5.6µ
6.8µ
-
12µ
10p
-
220n
330p
-
3.3µ
3.9µ
-
10µ
10p
-
82n
330p
-
2.7µ
10p
-
47n
330p
-
1.5µ
10p
-
33n
330p
-
820n
10p
-
22n
330p
-
390n
10p
-
18n
330p
-
150n
10p
-
12n
330p
-
100n
10p
-
6.8n
330p
-
68n
10p
-
4.7n
330p
-
33n
10p
-
2.2n
330p
-
12n
10p
-
1.8n
330p
-
8.2n
10p
-
820p*
330p
-
5.6n*
10p
-
560p*
330p
-
4.7n*
10p
-
390p*
330p
-
2.7n* ——————2225
T=2.5mm
2225
T=4.0mm ———— — —— — —— — ——56n
-
68n —39n
-
47n —27n
-
39n —22n
-
27n —15n
-
22n —8.2n
-
12n —5.6n
-
6.8n —2.7n
-
3.9n —2.2n
-
2.7n —1.0n
-
1.5n* —680p
-
1.0n* —470p
-
680p* ———————2225
T=4.0mm
3640
T=2.5mm ———— — —— — 10p
-
330n
470p
-
10µ —10p
-
270n
470p
-
5.6µ
10p
-
120n
470p
-
3.3µ
10p
-
82n
470p
-
1.0µ
10p
-
68n
470p
-
680n
10p
-
47n
470p
-
180n
10p
-
33n
470p
-
150n
10p
-
22n
470p
-
100n
10p
-
10n
470p
-
47n
10p
-
6.8n
470p
-
33n
10p
-
4.7n
470p
-
22n
10p
-
1.8n
470p
-
6.8n
10p
-
1.5n
470p
-
5.6n
10p
-
1.0n
470p
-
4.7n
10p
-
150p
470p
-
1.5n*
10p
-
100p
470p
-
1.0n*
10p
-
68p
470p
-
820p* 3640
T=2.5mm
3640
T=4.0mm ———— — —— — —— — ——150n
-
180n —100n
-
120n —82n
-
100n —56n
-
82n —39n
-
56n —27n
-
39n —12n
-
18n —8.2n
-
12n —5.6n
-
8.2n —2.2n
-
3.3n —1.8n
-
2.2n —1.2n
-
1.5n ———————3640
T=4.0mm
5550
T=2.5mm ———— — —— — 390p
-
680n
1.0n
-
15µ —390p
-
470n
1.0n
-
10µ
390p
-
270n
1.0n
-
5.6µ
390p
-
180n
1.0n
-
1.8µ
390p
-
120n
1.0n
-
1.2µ
390p
-
82n
1.0n
-
390n
390p
-
68n
1.0n
-
220n
390p
-
39n
1.0n
-
150n
390p
-
22n
1.0n
-
82n
390p
-
12n
1.0n
-
68n
390p
-
10n
1.0n
-
47n
390p
-
4.7n
1.0n
-
15n
390p
-
2.7n
1.0n
-
10n
390p
-
1.8n
1.0n
-
8.2n
27p
-
330p
1.0n
-
4.7n*
27p
-
180p
1.0n
-
2.2n*
27p
-
120p
1.0n
-
1.2n* 5550
T=2.5mm
5550
T=4.0mm ———— — —— — —— — ——330n —220n
-
270n —150n
-
180n —100n
-
150n —82n
-
100n —47n
-
68n —27n
-
39n —15n
-
22n —12n
-
18n —5.6n
-
6.8n —3.3n
-
4.7n —2.2n
-
3.3n ———————5550
T=4.0mm
8060
T=2.5mm ———— — —— — 680p
-
1.0µ
2.2n
-
22µ —680p
-
680n
2.2n
-
15µ
680p
-
390n
2.2n
-
10µ
680p
-
270n
2.2n
-
3.3µ
680p
-
220n
2.2n
-
2.2µ
680p
-
150n
2.2n
-
1.0µ
680p
-
100n
2.2n
-
470n
680p
-
68n
2.2n
-
330n
680p
-
39n
2.2n
-
150n
680p
-
22n
2.2n
-
100n
680p
-
15n
2.2n
-
82n
680p
-
8.2n
2.2n
-
33n
680p
-
5.6n
2.2n
-
22n
680p
-
3.9n
1.8n
-
15n
47p
-
680p
1.8n
-
6.8n*
47p
-
470p
1.8n
-
4.7n*
47p
-
220p
1.8n
-
2.2n* 8060
T=2.5mm
8060
T=4.0mm ———— — —— — —— — ——470n
-
560n —330n
-
470n —270n
-
390n —180n
-
270n —120n
-
180n —82n
-
120n —47n
-
68n —27n
-
39n —18n
-
27n —10n
-
15n —6.8n
-
10n —4.7n
-
6.8n ———————8060
T=4.0mm
10V 16V 25V 50/63V 100V 200/
250V 500V 630V 1kV 1.2kV 1.5kV 2kV 2.5kV 3kV 4kV 5kV 6kV 8kV 10kV 12kV
Notes: 1) Capacitance in F - min value above max value. 2) *These parts may require conformal coating post soldering. 3) T = Maximum thickness. 4) †Higher capacitance values available from the ProtectiCap™ range - see page 19. 5) StackiCap™ high capacitance versions are now available. Please refer to datasheet.
Note: 0402, 0505, 1111 and
2211 case sizes are available in
our speciality ranges.
Please refer to the relevant
sections of this catalogue for
more details.
MLCC standard range - 10V to 12kVdc
Contents
General introduction
Denitions of Ultra-Stable and Stable .................................................................................2
Dielectric characteristics ....................................................................................................3
Capacitance, Impedance and E.S.R. vs Frequency ..............................................................4
Ageing, capacitance measurements and tight tolerance capacitors .......................................5
Production processes and reliability ...................................................................................6
FlexiCap™ overview ..........................................................................................................7
Testing and termination types ...........................................................................................8
Documentation and compliance .........................................................................................9
IECQ-CECC and AEC-Q200 periodic tests ..........................................................................10
Handling notes ...............................................................................................................11
Soldering information .....................................................................................................12
Chip dimensions .............................................................................................................13
Product Selector ....................................................................................................... 14-15
Ceramic Chip capacitors
Standard MLCC ranges - 10Vdc to 12kVdc - C0G/NP0 & X7R ....................................... 16-18
ProtectiCap™ capacitors .................................................................................................19
TCC/VCC capacitors .................................................................................................. 20-21
VC1 capacitors ......................................................................................................... 22-23
PSL capacitors.......................................................................................................... 24-25
High Q capacitors - MS range .................................................................................... 26-27
Ultra-low ESR capacitors .................................................................................................28
StackiCap™ capacitors ....................................................................................................29
Non-magnetic capacitors ..........................................................................................30-31
Non-magnetic Ribbon Leaded capacitors ..........................................................................32
Open Mode & Tandem capacitors ....................................................................................33
IECQ-CECC range ...........................................................................................................34
AEC-Q200 range .............................................................................................................35
S02A Space grade range .................................................................................................36
Safety Certied capacitors ......................................................................................... 37-39
250Vac Non Safety rated AC capacitors ............................................................................40
115Vac 400Hz capacitors ................................................................................................41
High Dielectric Withstand Voltage range ...........................................................................42
X8R High Temperature capacitors ....................................................................................43
Surface Mount EMI lters
E01 & E07 feedthrough chip capacitors ...................................................................... 44-45
E03 X2Y Integrated Passive Components ................................................................... 46-47
Packaging information - Ceramic chip capacitors ......................................................... 48-49
Radial Leaded capacitors .................................................................................... 50-55
Packaging information - Radial Leaded capacitors ....................................................... 56-57
www.syfer.com | Phone: +44.1603.723300 | 1
C0G/NP0 capacitance vs
temperature
LOWER LIMIT
-50
-25
0
25
50
-55 -25 025 12550 75 100
UPPER LIMIT
TYPICAL LIMIT
∆C ppm/°C
Temperature (°C)
X7R capacitance vs
temperature
-20
-10
-15
0
10
15
5
-5
20
-35-55 -15 525 105 12545 65 85
Typical capacitance change curves
will lie within the shown limits
Temperature (°C)
% Capacitance Change
Power (mW)
Operating Temperature (°C)
C0G/NP0 and X7R
Typical dielectric temperature characteristics Power ratings
Multilayer Ceramic Capacitors are generally divided into classes which are dened by the capacitance temperature characteristics over
specied temperature ranges. These are designated by alpha numeric codes. Code denitions are summarised below and are also available
in the relevant national and international specications.
Capacitors within this class have a dielectric constant range from
10 to 100. They are used in applications which require ultra stable
dielectric characteristics with negligible dependence of capacitance
and dissipation factor with time, voltage and frequency. They
exhibit the following characteristics:-
a) Time does not signicantly affect capacitance and
dissipation factor (Tan δ) – no ageing.
b) Capacitance and dissipation factor are not affected by
voltage.
c) Linear temperature coefcient.
C0G/NP0 - Ultra Stable Class 1 Ceramic (EIA Class 1)
Spec. Classication Temperature
range °C
Maximum
capacitance change @
rated DC volts
Syfer
dielectric code
CECC 1B/CG -55 +125 0 ± 30ppm/°C C
EIA C0G/NP0 -55 +125 0 ± 30ppm/°C C
MIL CG (BP) -55 +125 0 ± 30ppm/°C C
Capacitors of this type have a dielectric constant range of 1000-
4000 and also have a non-linear temperature characteristic which
exhibits a dielectric constant variation of less than ±15% (2R1)
from its room temperature value, over the specied temperature
range. Generally used for by-passing (decoupling), coupling,
ltering, frequency discrimination, DC blocking and voltage transient
suppression with greater volumetric efciency than Class l units,
whilst maintaining stability within dened limits.
Capacitance and dissipation factor are affected by:-
Time (Ageing)
Voltage (AC or DC)
Frequency
X8R, X7R and X5R - Stable Class II Ceramic (EIA Class II)
Spec. Classication Temperature
range °C
Maximum capacitance change %
over temperature range Syfer
dielectric
code
No DC volt
applied Rated DC Volt
CECC 2C1
2R1
2X1
-55 +125
-55 +125
-55 +125
±20
±15
±15
+20 -30
- -
+15 -25
R
X
B
EIA X8R
X7R
X5R
-55 +150
-55 +125
-55 +85
±15
±15
±15
- -
- -
- -
N
X
P
MIL BX
BZ
-55 +125
-55 +125
±15
±20
+15 -25
+20 -30
B
R
Denitions of Ultra-Stable and Stable
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The table above highlights the difference in coding for IECQ-CECC, EIA and MIL standards when dening the temperature coefecient and the voltage coefcient.
Technical Summary
C0G/NP0 X5R X7R X8R
Dielectric
characteristics Ultra stable Stable Stable Stable
IECQ-
CECC
EIA
MIL
1B/CG - - - 2C1 2R1 2X1 -
-C0G/
NP0 - X5R - X7R - X8R
- - CG (BP) - BZ - BX -
Rated temperature
range -55ºC to +125ºC -55ºC to +85ºC -55ºC to +125ºC -55ºC to +150ºC
Maximum capacitance
change over
temperature range
No DC voltage applied 0 ± 30 ppm/ºC ± 15% ± 20% ± 15% ± 15% ± 15%
Rated DC voltage applied -+20
-30% -+15
-25% -
Syfer dielectric
ordering code C P RXB N
Tangent of loss angle
(tan δ) Cr > 50pF ≤ 0.0015
Cr ≤ 50pF = 0.0015 (15 + 0.7)
Cr ≤ 0.025 ≤ 0.025 ≤ 0.025
Insulation
resistance (Ri)
Time constant (Ri x
Cr) (whichever is the least)
100G Ω or
1000s 100G Ω or
1000s
100G Ω or
1000s
100G Ω or
1000s
Capacitance
tolerance
Cr <4.7pF
Cr <10pF
Cr
>
10pF
± 0.05pF (H)
± 0.10pF (B)
± 0.25pF (C)
± 0.50pF (D)
± 0.10pF (B)
± 0.25pF (C)
± 0.50pF (D)
± 1% (F)
± 2% (G)
± 5% (J)
± 10% (K)
± 5% (J)
± 10% (K)
± 20% (M)
± 5% (J)
± 10% (K)
± 20% (M)
± 5% (J)
± 10% (K)
± 20% (M)
Dielectric strength Voltage applied for 5 seconds.
Charging current limited to 50mA maximum.
<200V
>200V to <500V
500V to <1000V
500V to <1000V
>1kV to <1200V
>1200V
>1000V
2.5 times
Rated voltage + 250V
1.5 times
-
1.25 times
1.2 times
-
2.5 times
-
-
-
-
-
-
2.5 times
Rated voltage + 250V
-
1.5 times
-
-
1.2 times
2.5 times
-
-
-
-
-
-
Climatic
category (IEC)
Chip 55/125/56 55/85/56 55/125/56 55/150/56
Dipped 55/125/21 - 55/125/21 -
Discoidal 55/125/56 - 55/125/56 -
Ageing
characteristic
(Typical) Zero <2% per time decade <2% per time decade <2% per time decade
Approvals
Chip QC-32100 - QC-32100 -
Dielectric characteristics
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Impedance vs Frequency - chips
Ultra Stable C0G/NP0 dielectric
Impedance vs Frequency - 10nF chips
Stable X7R dielectric
ESR vs Frequency - chips
Ultra Stable C0G/NP0 dielectric
Stable X7R dielectric Stable X7R dielectric
100000000
10000000
1000000
100000
10000
1000
100
10
1
0.1
0.01
0.001 0.01 0.1 110 100 1000 10000
Impedance (Ohms)
Frequency (MHz)
Ultra Stable C0G/NP0 dielectric
10pF 100pF
1nF 10nF
ESR (Ohms)
Frequency (MHz)
Ultra Stable C0G/NP0 dielectric
0.1
0.01
0.001
1
10
100
1000
100pF
1nF
10nF
0.001 0.01 0.1 110 100 1000 10000
1000000
100000
1000
10000
100
10
1
0.1
0.01
0.001 0.01 0.1 110 100 1000 10000
Impedance (Ohms)
Frequency (MHz)
Stable X7R dielectric
10nF1nF
100nF 1µF
ESR (Ohms)
Frequency (MHz)
Stable X7R dielectric
0.1
0.01
0.001
0.0001
1
10
100
1000
10000
1nF
10nF
100nF
1µF
0.001 0.01 0.1 110 100 1000 10000
100000
1000
10000
100
10
1
0.1
0.01
0.001 0.01 0.1 110 100 1000 10000
Impedance (Ohms)
Frequency (MHz)
Stable X7R dielectric 10nF
1808 0805
1206 1210
Impedance (Ohms)
Frequency (MHz)
Capacitance, Impedance and E.S.R. vs Frequency
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Ageing
Capacitor ageing is a term used to describe the negative,
logarithmic capacitance change which takes place in ceramic
capacitors with time. The crystalline structure for barium titanate
based ceramics changes on passing through its Curie temperature
(known as the Curie Point) at about 125°C. This domain structure
relaxes with time and in doing so, the dielectric constant reduces
logarithmically; this is known as the ageing mechanism of the
dielectric constant. The more stable dielectrics have the lowest
ageing rates.
The ageing process is reversible and repeatable. Whenever the
capacitor is heated to a temperature above the Curie Point the
ageing process starts again from zero.
The ageing constant, or ageing rate, is dened as the percentage
loss of capacitance due to the ageing process of the dielectric
which occurs during a decade of time (a tenfold increase in age)
and is expressed as percent per logarithmic decade of hours. As
the law of decrease of capacitance is logarithmic, this means that
in a capacitor with an ageing rate of 1% per decade of time, the
capacitance will decrease at a rate of:
a) 1% between 1 and 10 hours
b) An additional 1% between the following 10 and 100
hours
c) An additional 1% between the following 100 and 1000
hours
d) An additional 1% between the following 1000 and 10000
hours etc
e) The ageing rate continues in this manner throughout the
capacitor’s life.
Typical values of the ageing constant for our Multilayer Ceramic
Capacitors are:
Capacitance measurements
Because of ageing it is necessary to specify an age for reference
measurements at which the capacitance shall be within the
prescribed tolerance. This is xed at 1000 hours, since for practical
purposes there is not much further loss of capacitance after this
time.
All capacitors shipped are within their specied tolerance at the
standard reference age of 1000 hours after having cooled through
their Curie temperature.
The ageing curve for any ceramic dielectric is a straight line when
plotted on semi-log paper.
Dielectric class Typical values
Ultra Stable C0G/NP0 Negligible capacitance loss
through ageing
Stable X7R <2 % per decade of time
Capacitance vs time
(Ageing X7R @ <2% per decade)
∆c %
Age (Hours)
110 100 100001000
C0G/NP0
Tight tolerance
One of the advantages of Syfer’s unique ‘wet process’ of
manufacture is the ability to offer capacitors with exceptionally tight
capacitance tolerances.
The accuracy of the printing screens used in the fully automated,
computer controlled manufacturing process allows for tolerance as
close as +/-1% on C0G/NP0 parts greater than or equal to 10pF.
For capacitance values below <4.7pF, tolerances can be as tight as
+/-0.05pF.
Ageing of ceramic capacitors
www.syfer.com | Phone: +44.1603.723300 | 5
Production processes and reliability
Production process owchart Syfer reliability grades
DPA inspection
Rumble
Multilayer build
(wet process)
Fire
Ceramic powder
preparation Electrode ink
material
Termination
Electrical test
Test verification
Packaging
Finished goods store
Plating
(if specified)
QC inspection
Additional Hi Rel
activities
(S02A 100% burn-in, QC insp)
Additional sample
Rel tests
(if specified)
Printing
(if specified)
Standard components
MIL Grade(2)
IECQ-CECC(3)
AEC-Q200(4)
Space
Grade
ESCC 3009(1)
Standard
reliability
High reliability
(space quality)
Syfer reliability surface mount product groups
Standard FlexiCap
TM
capacitors(3)
Open Mode
FlexiCap
TM
capacitors(2)
Tandem
FlexiCap
TM
capacitors(1)
Standard
reliability
High reliability
Standard MLC capacitors(4)
Notes:
(1) “Tandem” construction capacitors, ie internally having the
equivalent of 2 series capacitors. If one of these should fail
short-circuit, there is still capacitance end to end and the chip will
still function as a capacitor, although capacitance maybe affected.
Refer to application note AN0021. Also available qualied to
AEC-Q200.
(2) “Open Mode” capacitors with FlexiCapTM termination also reduce
the possibility of a short circuit by utilising inset electrode margins.
Refer to application note AN0022. Also available qualied to
AEC-Q200.
(3) Multilayer capacitors with Syfer FlexiCapTM termination. By using
FlexiCapTM termination, there is a reduced possibility of the
mechanical cracking occurring.
(4) “Standard” capacitors includes MLCCs with tin nish over nickel,
but no FlexiCapTM.
Notes:
(1) Space grade tested in accordance with ESCC 3009. Refer to Syfer
specication S02A 0100.
(2) MIL Grade. Released in accordance with US standards available on
request.
(3) IECQ-CECC. The International Electrotechnical Commission (IEC)
Quality Assessment System for Electronic Components. This is an
internationally recognised product quality certication which
provides customers with assurance that the product supplied
meets high quality standards.
View Syfer’s IECQ-CECC approvals at http://www.iecq.org or at
www.syfer.com
(4) AEC-Q200. Automotive Electronics Council Stress Test Qualication
For Passive Components. Refer to Syfer application note reference
AN0009.
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FlexiCap™overview
FlexiCap™ termination
MLCCs are widely used in electronic circuit design for a multitude of
applications. Their small package size, technical performance and
suitability for automated assembly makes them the component of
choice for the specier.
However, despite the technical benets, ceramic components are
brittle and need careful handling on the production oor. In some
circumstances they may be prone to mechanical stress damage if
not used in an appropriate manner. Board exing, depanelisation,
mounting through hole components, poor storage and automatic
testing may all result in cracking.
Careful process control is important at all stages of circuit board
assembly and transportation - from component placement to
test and packaging. Any signicant board exing may result in
stress fractures in ceramic devices that may not always be evident
during the board assembly process. Sometimes it may be the end
customer who nds out - when equipment fails!
Syfer has the solution - FlexiCap™
FlexiCap™ has been developed as a result of listening to customers’
experiences of stress damage to MLCCs from many manufacturers,
often caused by variations in production processes.
Our answer is a proprietary exible epoxy polymer termination
material, that is applied to the device under the usual nickel barrier
nish. FlexiCap™ will accommodate a greater degree of board
bending than conventional capacitors.
Syfer FlexiCap™ termination
Ranges are available with FlexiCap™ termination material offering
increased reliability and superior mechanical performance (board
ex and temperature cycling) when compared with standard
termination materials. Refer to Syfer application note reference
AN0001. FlexiCap™ capacitors enable the board to be bent
almost twice as much before mechanical cracking occurs. Refer to
application note AN0002.
FlexiCap™ is also suitable for Space applications having passed
thermal vacuum outgassing tests. Refer to Syfer application note
reference AN0026.
Fired ceramic
dielectric
Tin outer
layer
Metal
electrodes
FlexiCap™ MLCC cross section
termination
base
Intermediate nickel
or copper layer
Application notes
FlexiCap™ may be handled, stored and transported in the same
manner as standard terminated capacitors. The requirements for
mounting and soldering FlexiCap™ are the same as for standard
SMD capacitors.
For customers currently using standard terminated capacitors there
should be no requirement to change the assembly process when
converting to FlexiCap™.
Based upon board bend tests in accordance with IEC 60384-1
the amount of board bending required to mechanically crack a
FlexiCap™ terminated capacitor is signicantly increased compared
with standard terminated capacitors.
It must be stressed however, that capacitor users must not
assume that the use of FlexiCap™ terminated capacitors will totally
eliminate mechanical cracking. Good process controls are still
required for this objective to be achieved.
● Picture taken at 1,000x
magnification using a SEM
to demonstrate the fibrous
nature of the FlexiCapTM
termination that absorbs
increased levels of mechanical
stress.
Available on the following ranges:
● All High Reliability ranges
● Standard and High Voltage chips
● Safety Certied capacitor chips
● Non-magnetic capacitors
● 3 terminal EMI chips
● X2Y Integrated Passive Components
● X8R High Temperature capacitors
Summary of PCB bend test results
The bend tests conducted on X7R have proven that the FlexiCap™
termination withstands a greater level of mechanical stress before
mechanical cracking occurs.
The AEC-Q200 test for X7R requires a bend level of 2mm minimum
and a cap change of less than 10%.
Product
X7R Typical bend performance under
AEC-Q200 test conditions
Standard termination 2mm to 3mm
FlexiCap™ Typically 8mm to 10mm
FlexiCap™ benets
With traditional termination materials and assembly, the chain
of materials from bare PCB to soldered termination, provides no
exibility. In circumstances where excessive stress is applied - the
weakest link fails. This means the ceramic itself, which may fail
short circuit.
The benet to the user is to facilitate a wider process window -
giving a greater safety margin and substantially reducing the typical
root causes of mechanical stress cracking.
FlexiCap™ may be soldered using your traditional wave or reow
solder techniques including lead free and needs no adjustment to
equipment or current processes.
Syfer has delivered millions of FlexiCap™ components and during
that time has collected substantial test and reliability data, working
in partnership with customers world wide, to eliminate mechanical
cracking.
An additional benet of FlexiCap™ is that MLCCs can withstand
temperature cycling -55ºC to 125ºC in excess of 1,000 times
without cracking.
FlexiCap™ termination has no adverse effect on any electrical
parameters, nor affects the operation of the MLCC in any way.
www.syfer.com | Phone: +44.1603.723300 | 7
Syfer reliability SM product group
Standard SM
capacitors
IECQ-CECC /
MIL grade AEC-Q200 S (Space grade)
High Rel S02A
Solderability ● ● ● ●
Resistance to soldering heat ● ● ● ●
Plating thickness verication (if plated) ● ● ● ●
DPA (Destructive Physical Analysis) ● ● ● ●
Voltage proof test (DWV / Flash) ● ● ● ●
Insulation resistance ● ● ● ●
Capacitance test ● ● ● ●
Dissipation factor test ● ● ● ●
100% visual inspection ❍ ❍ ● ●
100% burn-in. (2xRV @125ºC for 168 hours) ❍ ❍ ❍ ●
Load sample test @ 125ºC ❍❍❍LAT1 & LAT2 (1000
hours)
Humidity sample test. 85ºC/85%RH ❍❍❍240 hours
Hot IR sample test ❍ ❍ ❍ ❍
Axial pull sample test (MIL-STD-123) ❍ ❍ ❍ ❍
Breakdown voltage sample test ❍ ❍ ❍ ❍
Deection (bend) sample test ❍ ❍ ❍ ❍
SAM (Scanning Acoustic Microscopy) ❍ ❍ ❍ ❍
LAT1 (4 x adhesion, 8 x rapid temp change + LAT2 and LAT3) ---❍
LAT2 (20 x 1000 hour life test + LAT3) ---❍
LAT3 (6 x TC and 4 x solderability) ---❍
● Test conducted as standard.
❍ Optional test. Please discuss with the sales ofce.
Syfer reliability SM product group
Standard SM
capacitors
IECQ-CECC / MIL
grade AEC-Q200 S (space grade)
High Rel S02A
F: Silver palladium ● ● -●
J: Silver base with nickel barrier (100% matte tin plating) ● ● C0G/NP0
dielectric only ❍
A: Silver base with nickel barrier (tin/lead plating with min 10% lead) ● ● -●
Y: FlexiCap™ with nickel barrier (100% matte tin plating) ● ● ● ❍
H: FlexiCap™ with nickel barrier (tin/lead plating with min 10% lead) ● ● -❍
2: Silver base with Non-magnetic Cu Barrier (100% matte tin plating) ●(1) ---
3: FlexiCap™ with Non-magnetic Cu Barrier (100% matte tin plating) ●(2) ---
Notes:
(1) Available on C0G/NP0 and High Q only.
(2) Available on all dielectrics.
● Termination available.
❍ Termination available but generally not requested for space grade components.
Please discuss with the sales ofce.
Termination types available
Tests conducted during batch
manufacture
Testing and termination types
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● Release documentation supplied as standard.
❍ Original documentation.
Syfer reliability SM product group
Standard SM
capacitors IECQ-CECC AEC-Q200
MIL grade
S (Space grade)
High Rel S02A
Certicate of conformance ●-● ●
IECQ-CECC Release certicate of conformity -●- -
Batch electrical test report ❍❍❍Included in data
pack
S (space grade) data documentation package ---●
Release documentation
Standard Surface Mount capacitors
Components are randomly selected on a sample basis and the
following routine tests are conducted:
● Load Test. 1,000 hours @125ºC (150ºC for X8R). Applied
voltage depends on components tested.
● Humidity Test. 168 hours @ 85ºC/85%RH.
● Board Deection (bend test).
Test results are available on request.
Component type: 0805 (C0G/NP0 and X7R).
Testing location: Syfer reliability test department.
Results based on: 16,622,000 component test hours.
From To Operation
FITS MTBF (hours) 109 ÷ FITS
FITS MTBF (years) 109 ÷ (FITS x 8760)
FITS = Failures in 109 hours.
MTBF = Mean time between failures.
Conversion factors
25ºC 50ºC 75ºC 100ºC 125ºC
10000
0.01
10
0.00001
FIT
50% of RVRV
25% of RV 10% of RV
Example of FIT (Failure In Time) data available:
Periodic tests conducted and reliability data availability
Export controls and dual-use regulations
Certain Syfer catalogue components are dened as ‘dual-use’ items
under international export controls - those that can be used for
civil or military purposes which meet certain specied technical
standards.
The dening criteria for a dual-use component with respect to Syfer
products is one with a voltage rating of >750V and a capacitance
value >250nF and a series inductance <10nH.
Components dened as ‘dual-use’ under the above criteria
automatically require a licence for export outside the EU, and may
require a licence for export within the EU.
The application for a licence is routine, but customers for these
products will be asked to supply further information.
Please refer to the sales ofce if you require any further information
on export restrictions.
Other special components may additionally need to comply with
export regulations.
REACH (Registration, Evaluation, Authorisation and
restriction of Chemicals) statement
The main purpose of REACH is to improve the protection of human
health and the environment from the risks arising from the use of
chemicals.
Syfer Technology Ltd maintains both ISO14001, Environmental
Management System and OHSAS 18001 Health and Safety
Management System approvals that require and ensure compliance
with corresponding legislation such as REACH.
For further information, please contact the sales ofce at
sales@syfer.co.uk
RoHS compliance
Syfer routinely monitors world wide material restrictions (e.g. EU
/ China and Korea RoHS mandates) and is actively involved in
shaping future legislation.
All standard C0G/NP0, X7R, X5R and High Q Syfer MLCC products
are compliant with the EU RoHS directive (see below for special
exceptions) and those with plated terminations are suitable for
soldering using common lead free solder alloys (refer to ‘Soldering
Information’ for more details on soldering limitations). Compliance
with the EU RoHS directive automatically signies compliance with
some other legislation (e.g. Korea RoHS). Please refer to the sales
ofce for details of compliance with other materials legislation.
Breakdown of material content, SGS analysis reports and tin
whisker test results are available on request.
Most Syfer MLCC components are available with non RoHS
compliant tin lead (SnPb) solderable termination nish for exempt
applications and where pure tin is not acceptable. Other tin free
termination nishes may also be available – please refer to the
sales ofce for further details.
Radial components have tin plated leads as standard but tin/lead is
available as a special option. Please refer to the radial section of the
catalogue for further details.
X8R ranges <250Vdc are not RoHS 2011/65/EU compliant.
Check the website, www.syfer.com for latest RoHS update.
Documentation and compliance
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IECQ-CECC and AEC-Q200 - Periodic tests
Periodic tests conducted for IECQ-CECC and AEC-Q200
Test
ref Test Termination
type Additional requirements Sample
acceptance Reference
PNC
P1
High
temperature
exposure
(storage)
All types Un-powered. 1,000 hours @ T=150ºC.
Measurement at 24 ± 2 hours after test conclusion 12 77 0 MIL-STD-202
Method 108
P2 Temperature
cycling
C0G/NP0: All
types X7R: Y
and H only
1,000 cycles -55ºC to +125ºC
Measurement at 24 ± 2 hours after test conclusion 12 77 0 JESD22
Method JA-104
P3 Moisture
resistance All types T = 24 hours/cycle. Note: Steps 7a and 7b not required. Un-powered.
Measurement at 24 ± 2 hours after test conclusion 12 77 0 MIL-STD-202
Method 106
P4 Biased
humidity All types
1,000 hours 85ºC/85%RH. Rated voltage or 50V
whichever is the least and 1.5V.
Measurement at 24 ± 2 hours after test conclusion
12 77 0 MIL-STD-202
Method 103
P5 Operational
life All types Condition D steady state TA=125ºC at full rated.
Measurement at 24 ± 2 hours after test conclusion 12 77 0 MIL-STD-202
Method 108
P6 Resistance
to solvents All types Note: Add aqueous wash chemical.
Do not use banned solvents 12 5 0 MIL-STD-202
Method 215
P7 Mechanical
shock
C0G/NP0: All
types X7R: Y
and H only
Figure 1 of Method 213. Condition F 12 30 0 MIL-STD-202
Method 213
P8 Vibration
C0G/NP0: All
types X7R: Y
and H only
5
g’s
for 20 minutes, 12 cycles each of 3 orientations.
Note: Use 8” x 5” PCB 0.031” thick 7 secure points on one long side and
2 secure points at corners of opposite sides. Parts mounted within 2”
from any secure point.
Test from 10-2,000Hz
12 30 0 MIL-STD-202
Method 204
P9 Resistance to
soldering heat All types Condition B, no pre-heat of samples:
Single wave solder - Procedure 2 3 12 0 MIL-STD-202
Method 210
P10 Thermal shock
C0G/NP0: All
types X7R: Y
and H only
-55ºC/+125ºC. Number of cycles 300.
Maximum transfer time - 20 seconds,
dwell time - 15 minutes. Air-Air
12 30 0 MIL-STD-202
Method 107
P11
Adhesion,
rapid temp
change and
climatic
sequence
X7R: A, F and
J only
5N force applied for 10s, -55ºC/ +125ºC for 5 cycles,
damp heat cycles 12 27 0
BS EN132100
Clause 4.8, 4.12
and 4.13
P12
Board ex
C0G/NP0: All
types X7R: Y
and H only
3mm deection Class I
2mm deection Class II 12 30 0 AEC-Q200-005
P13 X7R: A, F and
J only 1mm deection. 12 12 0 BS EN132100
Clause 4.9
P14 Terminal
strength All types Force of 1.8kg for 60 seconds 12 30 0 AEC-Q200-006
P15 Beam load
test All types - 12 30 0 AEC-Q200-003
P16 Damp heat
steady state All types 56 days, 40ºC / 93% RH 15x no volts, 15x 5Vdc,
15x rated voltage or 50V whichever is the least. 12 45 0 BS EN132100
Clause 4.14
Test results are available on request.
P = Period in months.
N = Sample size.
C = Acceptance criteria.
10 | Phone: +44.1603.723300 | www.syfer.com
Detailed application notes intended to guide and assist our
customers in using multilayer ceramic capacitors in surface mount
technology are available on the Syfer website www.syfer.com
The information concentrates on the handling, mounting,
connection, cleaning, test and re-work requirements particular to
MLC’s for SMD technology, to ensure a suitable match between
component capability and user expectation. Some extracts are
given below.
Handling
Ceramics are dense, hard, brittle and abrasive materials. They are
liable to suffer mechanical damage, in the form of chips or cracks, if
improperly handled.
Terminations may be abraded onto chip surfaces if loose chips are
tumbled in bulk. Metallic tracks may be left on the chip surfaces
which might pose a reliability hazard.
Components should never be handled with ngers; perspiration and
skin oils can inhibit solderability and will aggravate cleaning.
Chip capacitors should never be handled with metallic instruments.
Metal tweezers should never be used as these can chip the product
and may leave abraded metal tracks on the product surface.
Plastic or plastic coated metal types are readily available and
recommended - these should be used with an absolute minimum of
applied pressure.
Counting or visual inspection of chip capacitors is best performed
on a clean glass or hard plastic surface.
If chips are dropped or subjected to rough handling, they should
be visually inspected before use. Electrical inspection may also
reveal gross damage via a change in capacitance, an increase in
dissipation factor or a decrease either in insulation resistance or
electrical strength.
Transportation
Where possible, any transportation should be carried out with the
product in its unopened original packaging. If already opened,
any environmental control agents supplied should be returned to
packaging and the packaging re-sealed.
Avoid paper and card as a primary means of handling, packing,
transportation and storage of loose components. Many grades
have a sulphur content which will adversely affect termination
solderability.
Loose chips should always be packed with sulphur-free wadding to
prevent impact or abrasion damage during transportation.
Storage
Incorrect storage of components can lead to problems for the
user. Rapid tarnishing of the terminations, with an associated
degradation of solderability, will occur if the product comes into
contact with industrial gases such as sulphur dioxide and chlorine.
Storage in free air, particularly moist or polluted air, can result in
termination oxidation.
Packaging should not be opened until the MLC’s are required
for use. If opened, the pack should be re-sealed as soon as is
practicable. Alternatively, the contents could be kept in a sealed
container with an environmental control agent.
Long term storage conditions, ideally, should be temperature
controlled between -5 and +40°C and humidity controlled between
40 and 60% R.H.
Taped product should be stored out of direct sunlight, which might
promote deterioration in tape or adhesive performance.
Product, stored under the conditions recommended above, in its “as
received” packaging, has a minimum shelf life of 2 years.
Mechanical considerations for mounted ceramic chip
capacitors
Due to their brittle nature, ceramic chip capacitors are more prone
to excesses of mechanical stress than other components used in
surface mounting.
One of the most common causes of failure is directly attributable
to bending the printed circuit board after solder attachment.
The excessive or sudden movement of the exible circuit board
stresses the inexible ceramic block causing a crack to appear at
the weakest point, usually the ceramic/termination interface. The
crack may initially be quite small and not penetrate into the inner
electrodes; however, subsequent handling and rapid changes in
temperature may cause the crack to enlarge.
This mode of failure is often invisible to normal inspection
techniques as the resultant cracks usually lie under the capacitor
terminations but if left, can lead to catastrophic failure. More
importantly, mechanical cracks, unless they are severe may not be
detected by normal electrical testing of the completed circuit, failure
only occurring at some later stage after moisture ingression.
The degree of mechanical stress generated on the printed circuit
board is dependent upon several factors including the board
material and thickness; the amount of solder and land pattern.
The amount of solder applied is important, as an excessive amount
reduces the chip’s resistance to cracking.
It is Syfer’s experience that more than 90% are due to board
depanelisation, a process where two or more circuit boards are
separated after soldering is complete. Other manufacturing stages
that should be reviewed include:
1) Attaching rigid components such as connectors, relays,
display panels, heat sinks etc.
2) Fitting conventional leaded components. Special care
must be exercised when rigid terminals, as found on large
can electrolytic capacitors, are inserted.
3) Storage of boards in such a manner which allows warping.
4) Automatic test equipment, particularly the type employing
“bed of nails” and support pillars.
5) Positioning the circuit board in its enclosure especially
where this is a “snap-t”.
Syfer were the rst MLCC manufacturer to launch a exible
termination to signicantly reduce the instances of mechanical
cracking. FlexiCap™ termination introduces a certain amount of give
into the termination layer absorbing damaging stress. Unlike similar
systems, FlexiCap™ does not tear under tension, but absorbs the
stress, so maintaining the characteristics of the MLCC.
SM Pad Design
Syfer conventional 2-terminal chip capacitors can generally
be mounted using pad designs in accordance with IPC-7351,
Generic Requirements for Surface Mount Design and Land Pattern
Standards, but there are some other factors that have been shown
to reduce mechanical stress, such as reducing the pad width to
less than the chip width. In addition, the position of the chip on the
board should also be considered.
3-Terminal components are not specically covered by IPC-7351,
but recommended pad dimensions are included in the Syfer
catalogue / website for these components.
Handling notes
www.syfer.com | Phone: +44.1603.723300 | 11
Multilayer ceramic chip - with nickel or copper
barrier termination
Fired ceramic
dielectric
Intermediate
nickel or
copper layer
T
in or tin/lead
outer layer
(as specified by
customer)
Metal
electrodes
Silver
termination
Soldering information
Syfer MLCCs are compatible with all recognised soldering/ mounting
methods for chip capacitors. A detailed application note is available
on-line at www.syfer.com
Reow soldering surface mount chip capacitors
Syfer recommend reow soldering as the preferred method for
mounting MLCCs. Syfer MLCCs can be reow soldered using a
reow prole generally as dened in IPC / JEDEC J-STD-020.
Sn plated termination chip capacitors are compatible with both
conventional and lead free soldering, with peak temperatures of
260ºC to 270ºC acceptable.
The heating ramp rate should be such that components see
a temperature rise of 1.5ºC to 4ºC per seconds to maintain
temperature uniformity through the MLCC.
The time for which the solder is molten should be maintained
at a minimum, so as to prevent solder leaching. Extended times
above 230ºC can cause problems with oxidation of Sn plating.
Use of inert atmosphere can help if this problem is encountered.
PdAg terminations can be particularly susceptible to leaching with
lead free, tin rich solders and trials are recommended for this
combination.
Cooling to ambient temperature should be allowed to occur
naturally, particularly if larger chip sizes are being soldered. Natural
cooling allows a gradual relaxation of thermal mismatch stresses
in the solder joints. Forced cooling should be avoided as this can
induce thermal breakage.
Wave soldering Chip and Radial Leaded capacitors
Wave soldering is generally acceptable, but the thermal stresses
caused by the wave have been shown to lead to potential problems
with larger or thicker chips. Particular care should be taken when
soldering SM chips larger than size 1210 and with a thickness
greater than 1.0mm for this reason.
0402 size components are not suitable for wave soldering. 0402
size components can also be susceptible to termination leaching
and reow soldering is recommended for this size MLCC.
Maximum permissible wave temperature is 270ºC for SM chips and
260ºC for Radial Leaded capacitors.
The total immersion time in the solder should be kept to
a minimum. It is strongly recommended that Sn/Ni plated
terminations are specied for wave soldering applications. PdAg
termination is particularly susceptible to leaching when subjected to
lead free wave soldering and is not generally recommended for this
application.
Total immersion exposure time for Sn/Ni terminations is 30s at
a wave temperature of 260ºC. Note that for multiple soldering
operations, including the rework, the soldering time is cumulative.
The pre-heat ramp should be such that the components see a
temperature rise of 1.5ºC to 4ºC per second as for reow soldering.
This is to maintain temperature uniformity through the MLCC and
prevent the formation of thermal gradients within the ceramic. The
preheat temperature should be within 120ºC maximum (100ºC
preferred) of the maximum solder temperature to minimise thermal
shock.
Cooling to ambient temperature should be allowed to occur
naturally, particularly if larger chip sizes are being soldered. Natural
cooling allows a gradual relaxation of thermal mismatch stresses
in the solder joints. Forced cooling should be avoided as this can
induce thermal breakage.
Rework of Chip capacitors
Syfer recommend hot air/ gas as the preferred method for applying
heat for rework. Apply even heat surrounding the component
to minimise internal thermal gradients. Soldering irons or other
techniques that apply direct heat to the chip or surrounding area,
should not be used as these can result in micro cracks being
generated.
Minimise the rework heat duration and allow components to cool
naturally after soldering.
Hand soldering Radial Leaded capacitors
Radial capacitors can be hand soldered into boards using soldering
irons, provided care is taken not to touch the body of the capacitor
with the iron tip. Soldering should be carried out from the opposite
side of the board to the radial to minimise the risk of damage to
the capacitor body. Where possible, a heat sink should be used
between the solder joint and the body, especially if longer dwell
times are required.
Use of silver loaded epoxy adhesives
Chip capacitors can be mounted to circuit boards using silver loaded
adhesive provided the termination material of the capacitor is
selected to be compatible with the silver loaded adhesive. This is
normally PdAg. Standard tin nishes are often not recommended
for use with silver loaded epoxies as there can be electrical and
mechanical issues with the joint integrity due to material mismatch.
Solder leaching
Leaching is the term for the dissolution of silver into the solder
causing a failure of the termination system which causes increased
ESR, tan δ and open circuit faults, including ultimately the
possibility of the chip becoming detached. Leaching occurs more
readily with higher temperature solders and solders with a high
tin content. Pb free solders can be very prone to leaching certain
termination systems. To prevent leaching, exercise care when
choosing solder alloys and minimize both maximum temperature
and dwell time with the solder molten.
Plated terminations with nickel or copper anti leaching barrier layers
are available in a range of top coat nishes to prevent leaching
occurring. These nishes also include Syfer FlexiCap™ for improved
stress resistance post soldering.
Soldering information
12 | Phone: +44.1603.723300 | www.syfer.com
Dimensions
Size Length
(L1)
mm
inches
Width
(W)
mm
inches
Max. Thickness
(T)
mm
inches
Termination Band
L2
mm
inches
min max
0402 1.0 ± 0.10
0.04 ± 0.006
0.50 ± 0.10
0.02 ± 0.003
0.60
0.024
0.10
0.004
0.40
0.015
0505 1.4 ± 0.38
0.055 ± 0.015
1.4 ± 0.25
0.055 ± 0.010
1.27
0.050
0.13
0.005
0.5
0.020
0603 1.6 ± 0.2
0.063 ± 0.008
0.8 ± 0.2
0.031 ± 0.008
0.8
0.031
0.10
0.004
0.40
0.015
0805 2.0 ± 0.3
0.08 ± 0.012
1.25 ± 0.2
0.05 ± 0.008
1.3
0.051
0.13
0.005
0.75
0.03
1111 2.79 + 0.51 - 0.25
0.110 + 0.020 - 0.010
2.79 ± 0.38
0.110 ± 0.015
1.8
0.071
0.13
0.005
0.63
0.025
1206 3.2 ± 0.3
0.126 ± 0.012
1.6 ± 0.2
0.063 ± 0.008
1.6
0.063
0.25
0.01
0.75
0.03
1210 3.2 ± 0.3
0.126 ± 0.012
2.5 ± 0.3
0.10 ± 0.012
2.0
0.08
0.25
0.01
0.75
0.03
1410 3.6 ± 0.3
0.14 ± 0.012
2.5 ± 0.3
0.10 ± 0.012
2.0
0.08
0.25
0.01
0.75
0.03
1806 4.5 ± 0.35
0.177 ± 0.012
1.6 ± 0.2
0.063 ± 0.008
1.3
0.051
0.25
0.01
0.75
0.03
1808 4.5 ± 0.35
0.18 ± 0.014
2.0 ± 0.3
0.08 ± 0.012
2.0
0.08
0.25
0.01
1.0
0.04
1812 4.5 ± 0.35
0.18 ± 0.014
3.2 ± 0.3
0.126 ± 0.012
3.2
0.126
0.25
0.01
1.0
0.04
1825 4.5 ± 0.35
0.18 ± 0.014
6.30 ± 0.4
0.25 ± 0.016
4.2
0.16
0.25
0.01
1.0
0.04
2211 5.7 ± 0.4
0.225 ± 0.016
2.79 ± 0.3
0.11 ± 0.012
2.5
0.1
0.25
0.01
0.8
0.03
2215 5.7 ± 0.4
0.225 ± 0.016
3.81 ± 0.35
0.35 ± 0.02
2.5
0.1
0.25
0.01
0.8
0.03
2220 5.7 ± 0.4
0.225 ± 0.016
5.0 ± 0.4
0.197 ± 0.016
4.2
0.16
0.25
0.01
1.0
0.04
2225 5.7 ± 0.4
0.225 ± 0.016
6.3 ± 0.4
0.25 ± 0.016
4.2
0.16
0.25
0.01
1.0
0.04
2520 6.30 ± 0.4
0.25 ± 0.016
5.0 ± 0.4
0.197 ± 0.016
4.2
0.16
0.25
0.01
1.0
0.04
3640 9.2 ± 0.5
0.36 ± 0.02
10.16 ± 0.5
0.40 ± 0.02
4.2
0.16
0.5
0.02
1.5
0.06
3820 9.65 ± 0.5
0.37 ± 0.02
5.0 ± 0.4
0.197 ± 0.016
4.2
0.16
0.5
0.02
1.5
0.06
3035 7.62 ± 0.4
0.30 ± 0.016
8.90 ± 0.5
0.35 ± 0.02
4.2
0.16
0.5
0.02
1.5
0.06
4045 10.2 ± 0.5
0.40 ± 0.02
11.5 ± 0.5
0.45 ± 0.02
4.2
0.16
0.5
0.02
1.5
0.06
4545 11.5 ± 0.5
0.45 ± 0.02
11.5 ± 0.5
0.45 ± 0.02
4.2
0.16
0.5
0.02
1.5
0.06
5550 14.0 ± 0.5
0.55 ± 0.02
12.7 ± 0.5
0.50 ± 0.02
4.2
0.16
0.5
0.02
1.5
0.06
5868 14.8 ± 0.5
0.58 ± 0.02
17.3 ± 0.5
0.68 ± 0.02
4.2
0.16
0.5
0.02
1.5
0.06
8040 20.3 ± 0.5
0.80 ± 0.02
10.16 ± 0.5
0.40 ± 0.02
4.2
0.16
0.5
0.02
1.5
0.06
8060 20.3 ± 0.5
0.80 ± 0.02
15.24 ± 0.5
0.60 ± 0.02
4.2
0.16
0.5
0.02
1.5
0.06
Custom chip sizes not included in the table, but larger than 2225, can be considered with minimum tooling charges. Please refer specific requests direct to the sales office.
Max thickness relates to standard components and actual thickness may be considerably less. Thicker parts, or components with reduced maximum thickness, can be considered by request –
please refer requests to the sales office.
T
L2
L1
W
Chip dimensions
www.syfer.com | Phone: +44.1603.723300 | 13
is particularly recommended
for these applications where
possible.
Control/Tuning,
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Control/Tuning, Control/Tuning, Control/Tuning,
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designed for use at mains voltages
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designed for use at mains voltages
X7R, C0G/NP0 RangesX7R, C0G/NP0 RangesX7R, C0G/NP0 Ranges
Non Safety Capacitors Non Safety Capacitors Non Safety Capacitors
designed for use at mains voltages designed for use at mains voltagesdesigned for use at mains voltages
designed for use at mains voltages designed for use at mains voltagesdesigned for use at mains voltages
X7R, C0G/NP0 Y2/X1, X2
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1808/1812/2211/2215/22201808/1812/2211/2215/22201808/1812/2211/2215/2220
1808/1812/2211/2215/22201808/1812/2211/2215/22201808/1812/2211/2215/2220
X7R, C0G/NP0 1206 to 2220
SBSP/SBSG/SBSMSBSP/SBSG/SBSMSBSP/SBSG/SBSM
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22pF to 470nF - 1A to 10A22pF to 470nF - 1A to 10A22pF to 470nF - 1A to 10A
22pF to 470nF - 1A to 10A22pF to 470nF - 1A to 10A22pF to 470nF - 1A to 10A
X7R, E03 X2Y IPCs
0603 to 1812
X7R, E03 X2Y IPCs X7R, E03 X2Y IPCsX7R, E03 X2Y IPCs
0603 to 1812 0603 to 18120603 to 1812
150pF to 1.2µF - 16V to 1kV 150pF to 1.2µF - 16V to 1kV150pF to 1.2µF - 16V to 1kV
X7R, C0G/NP0, Y2/X1, X2
X7R, C0G/NP0, Y2/X1, X2 X7R, C0G/NP0, Y2/X1, X2X7R, C0G/NP0, Y2/X1, X2
Safety Certied Ranges UL/TÜVSafety Certied Ranges UL/TÜVSafety Certied Ranges UL/TÜV
1808/1812/2211/2215/22201808/1812/2211/2215/22201808/1812/2211/2215/2220
C0G/NP0 Range
C0G/NP0 Range C0G/NP0 RangeC0G/NP0 Range
0402 to 8060
0402 to 80600402 to 8060 0402 to 8060
0.47pF to 1µF - 10V to 12kV0.47pF to 1µF - 10V to 12kV0.47pF to 1µF - 10V to 12kV
0.47pF to 1µF - 10V to 12kV0.47pF to 1µF - 10V to 12kV0.47pF to 1µF - 10V to 12kV
X7R and C0G/NP0 AEC-Q200 E01/E07
AEC-Q200 E03 X2Y IPCsAEC-Q200 E03 X2Y IPCsAEC-Q200 E03 X2Y IPCs
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X7R and C0G/NP0 AEC-Q200 E01/E07 X7R and C0G/NP0 AEC-Q200 E01/E07 X7R and C0G/NP0 AEC-Q200 E01/E07
Feedthrough CapacitorsFeedthrough CapacitorsFeedthrough Capacitors
Feedthrough CapacitorsFeedthrough CapacitorsFeedthrough Capacitors
ProtectiCap™ProtectiCap™ProtectiCap™
10pF to 1.2µF
0603 to 2220
10pF to 1.2µF
X7R and C0G/NP0, E03 X2Y IPCsX7R and C0G/NP0, E03 X2Y IPCsX7R and C0G/NP0, E03 X2Y IPCs
0603 to 2220 0603 to 22200603 to 2220
10pF to 1.2µF 10pF to 1.2µF10pF to 1.2µF
10pF to 1.2µF 10pF to 1.2µF10pF to 1.2µF
High ReliabilityHigh ReliabilityHigh Reliability
Special Testing/burn in MLCC and X2Y Special Testing/burn in MLCC and X2YSpecial Testing/burn in MLCC and X2Y
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X7R, C0G/NP0X7R, C0G/NP0X7R, C0G/NP0
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AEC-Q200 Ranges
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X7R, C0G/NP0X7R, C0G/NP0X7R, C0G/NP0
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with extra safe electrode design
Tandem and Open ModeTandem and Open ModeTandem and Open Mode
FlexiCap™ Capacitors FlexiCap™ Capacitors FlexiCap™ Capacitors
with extra safe electrode design with extra safe electrode designwith extra safe electrode design
with extra safe electrode design with extra safe electrode designwith extra safe electrode design
115Vac 400Hz range115Vac 400Hz range115Vac 400Hz range
S02A/IECQ-CECC/MIL-PRF/Burn i nS02A/IECQ-CECC/MIL-PRF/Burn i nS02A/IECQ-CECC/MIL-PRF/Burn i n
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4.7pF to 22µF - 50V to 12kV4.7pF to 22µF - 50V to 12kV4.7pF to 22µF - 50V to 12kV
X7R, C0G/NP0
E01/E07/SBSGC/SBSMCE01/E07/SBSGC/SBSMCE01/E07/SBSGC/SBSMC
X7R, C0G/NP0 X7R, C0G/NP0X7R, C0G/NP0
0805 to 2220 - 1A to 20A0805 to 2220 - 1A to 20A0805 to 2220 - 1A to 20A
X8R Range
X8R Range X8R RangeX8R Range
Operational temperature up to 150°COperational temperature up to 150°COperational temperature up to 150°C
X7RX7RX7R
1812/2220/22251812/2220/22251812/2220/2225
100nF to 1µF - 250Vdc100nF to 1µF - 250Vdc100nF to 1µF - 250Vdc
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0505/1111/1825 Ranges
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0402 to 4040 non-magnetic termination 0402 to 4040 non-magnetic termination0402 to 4040 non-magnetic termination
0402 to 4040 non-magnetic termination 0402 to 4040 non-magnetic termination0402 to 4040 non-magnetic termination
0.1pF to 6.8µF - 16V to 3kV0.1pF to 6.8µF - 16V to 3kV0.1pF to 6.8µF - 16V to 3kV
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X7R/X5R Ranges X7R/X5R RangesX7R/X5R Ranges
0603 to 8060 0603 to 80600603 to 8060
100pF to 22µF - 16V to 12kV 100pF to 22µF - 16V to 12kV100pF to 22µF - 16V to 12kV
100pF to 22µF - 16V to 12kV 100pF to 22µF - 16V to 12kV100pF to 22µF - 16V to 12kV
High CapacitanceHigh CapacitanceHigh Capacitance
StackiCap™StackiCap™StackiCap™
PCB Space SavingPCB Space SavingPCB Space Saving
Product Selector
www.syfer.com | Phone: +44.1603.723300 | 15
A range of dc rated multi-layer chip capacitors from 0.47pF
to 22µF and case sizes 0603 to 8060 in C0G/NP0 and X7R
dielectrics. Suitable for all general purpose and high reliability
applications where package size and reliability are important. All
are manufactured using Syfer’s unique wet process and incorporate
precious metal electrodes.
Standard MLCC ranges - 10Vdc to 12Vdc
Range dimensions - Standard MLCC ranges
Size Length
(L1)
mm/inches
Width
(W)
mm/inches
Max. Thickness
(T)
mm/inches
Termination Band
(L2)
mm/inches
min max
0603 1.6 ± 0.2
0.063 ± 0.008 0.8 ± 0.2
0.031 ± 0.008 0.8
0.031 0.10
0.004 0.40
0.015
0805 2.0 ± 0.3
0.08 ± 0.012 1.25 ± 0.2
0.05 ± 0.008 1.3
0.051 0.13
0.005 0.75
0.03
1206 3.2 ± 0.3
0.126 ± 0.012 1.6 ± 0.2
0.063 ± 0.008 1.6
0.063 0.25
0.01 0.75
0.03
1210 3.2 ± 0.3
0.126 ± 0.012 2.5 ± 0.3
0.1 ± 0.012 2.0
0.08 0.25
0.01 0.75
0.03
1808 4.5 ± 0.35
0.18 ± 0.014 2.0 ± 0.3
0.08 ± 0.012 2.0
0.08 0.25
0.01 1.0
0.04
1812 4.5 ± 0.35
0.18 ± 0.014 3.2 ± 0.3
0.126 ± 0.012 2.5
0.1 0.25
0.01 1.0
0.04
1825 4.5 ± 0.35
0.18 ± 0.014 6.30 ± 0.4
0.25 ± 0.016 2.5
0.1 0.25
0.01 1.0
0.04
2220 5.7 ± 0.4
0.225 ± 0.016 5.0 ± 0.4
0.197 ± 0.016 4.2
0.16 0.25
0.01 1.0
0.04
2225 5.7 ± 0.4
0.225 ± 0.016 6.3 ± 0.4
0.25 ± 0.016 4.2
0.16 0.25
0.01 1.0
0.04
3640 9.2 ± 0.5
0.36 ± 0.02 10.16 ± 0.5
0.4 ± 0.02 2.5
0.1 0.5
0.02 1.5
0.06
5550 14.0 ± 0.5
0.55 ± 0.02 12.7 ± 0.5
0.5 ± 0.02 4.2
0.16 0.5
0.02 1.5
0.06
8060 20.3 ± 0.5
0.8 ± 0.02 15.24 ± 0.5
0.6 ± 0.02 2.5
0.1 0.5
0.02 1.5
0.06
Custom chip sizes not included in the table, but larger than 2225, can be considered with minimum tooling charges. Please refer specic requests direct to the sales ofce.
Max thickness relates to standard components and actual thickness may be considerably less. Thicker parts, or components with reduced maximum thickness, can be considered by
request – please refer requests to the Sales Ofce.
Ordering information - Standard MLCC ranges
1210 Y 100 0103 J X T _ _ _
Chip
size Termination Voltage Capacitance in picofarads
(pF) Capacitance
tolerance Dielectric Packaging Sufx code
0603
0805
1206
1210
1808
1812
1825
2220
2225
3640
5550
8060
Y = FlexiCapTM
termination base with nickel
barrier (100% matte tin
plating).
RoHS compliant.
H = FlexiCapTM
termination base with nickel
barrier (Tin/lead plating with
min. 10% lead).
Not RoHS compliant.
F = Silver Palladium.
RoHS compliant.
J = Silver base with nickel
barrier (100% matte tin
plating).
RoHS compliant.
A = Silver base with nickel
barrier (Tin/lead plating with
min. 10% lead).
Not RoHS compliant.
010 = 10V
016 = 16V
025 = 25V
050 = 50V
063 = 63V
100 = 100V
200 = 200V
250 = 250V
500 = 500V
630 = 630V
1K0 = 1kV
1K2 = 1.2kV
1K5 = 1.5kV
2K0 = 2kV
2K5 = 2.5kV
3K0 = 3kV
4K0 = 4kV
5K0 = 5kV
6K0 = 6kV
8K0 = 8kV
10K = 10kV
12K = 12kV
<1.0pF
Insert a P for the decimal point
as the
rst character.
eg. P300 = 0.3pF
Values in 0.1pF steps
≥1.0pF & <10pF
Insert a P for the decimal point
as the second character.
eg. 8P20 = 8.2pF
Values are E24 series
≥10pF
First digit is 0. Second and
third digits are signicant
gures of capacitance code.
Fourth digit is number of zeros
eg. 0101 = 100pF
Values are E24 series
<10pF
H = ±0.05 pF
B = ±0.10pF
C = ±0.25pF
D = ±0.50pF
> 10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
C = C0G/NP0
(1B)
X = X7R
(2R1)
P = X5R
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack
- tubs or trays
Used for
specic
customer
require-
ments
T
L2
L1
W
16 | Phone: +44.1603.723300 | www.syfer.com
0.47pF p47 0.47pF p47
1.0 1p0 1.0 1p0
1.2 1p2 1.2 1p2
1.5 1p5 1.5 1p5
1.8 1p8 1.8 1p8
2.2 2p2 2.2 2p2
2.7 2p7 2.7 2p7
3.3 3p3 3.3 3p3
3.9 3p9 3.9 3p9
4.7 4p7 4.7 4p7
5.6 5p6 5.6 5p6
6.8 6p8 6.8 6p8
8.2 8p2 8.2 8p2
10pF 100 10pF 100
12 120 12 120
15 150 15 150
18 180 18 180
22 220 22 220
27 270 27 270
33 330 33 330
39 390 39 390
47 470 47 470
56 560 56 560
68 680 68 680
82 820 82 820
100pF 101 100pF 101
120 121 120 121
150 151 150 151
180 181 180 181
220 221 220 221
270 271 270 271
330 331 330 331
390 391 390 391
470 471 470 471
560 561 560 561
680 681 680 681
820 821 820 821
1.0nF 102 1.0nF 102
1.2 122 1.2 122
1.5 152 1.5 152
1.8 182 1.8 182
2.2 222 2.2 222
2.7 272 2.7 272
3.3 332 3.3 332
3.9 392 3.9 392
4.7 472 4.7 472
5.6 562 5.6 562
6.8 682 6.8 682
8.2 822 8.2 822
10nF 103 10nF 103
12 123 12 123
15 153 15 153
18 183 18 183
22 223 22 223
27 273 27 273
33 333 33 333
39 393 39 393
47 473 47 473
56 563 56 563
68 683 68 683
82 823 82 823
100nF 104 100nF 104
120 124 120 124
150 154 150 154
180 184 180 184
220 224 220 224
270 274 270 274
330 334 330 334
390 394 390 394
470 474 470 474
560 564 560 564
680 684 680 684
820 824 820 824
1.0µF 105 1.0µF 105
C0G/NP0
C0G/NP0
0603 0805 1206 1210 1808 1812 1825 2220 2225 3640 5550 8060
Capacitance
Code
Capacitance
Code
Note: X7R ranges on reverse Note: X7R ranges on reverse
Note: The highlighted parts are dened as ‘dual-use’ under export
control legislation and as such are subject to export licence restrictions.
Please refer to page 9 for further details.
Note: X7R ranges on reverse
Note:
1) *These parts may require conformal coating post soldering.
2) Standard chip thickness = 2.5mm maximum unless specied
as 3.2 or 4.0mm.
l = AEC-Q200 approved parts - maximum values.
www.syfer.com | Phone: +44.1603.723300 | 17
Standard MLCC - 10Vdc to 12kVdc - C0G/NP0 ranges Standard MLCC - 10Vdc to 12kVdc - C0G/NP0 ranges
10V
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
10V
16V
25V
50/63V
100V
200/250V
500V
10V
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
10V
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV*
5kV*
4kV*
10V
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV*
5kV*
4kV*
3.2mm
3.2mm
3.2mm
3.2
3.2
3.2
3.2
3.2mm
3.2
3.2
3.2mm
3.2
10V
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV*
5kV*
4kV*
3.2
3.2
3.2
3.2
3.2mm
3.2
3.2mm
3.2mm
3.2
3.2
3.2
3.2mm
10V
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV*
5kV*
4kV*
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
10V
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV*
5kV*
4kV*
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV*
5kV*
4kV*
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
8kV*
10kV*
12kV*
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV*
5kV*
4kV*
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4.0
8kV*
10kV*
12kV*
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV*
5kV*
4kV*
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
4mm
8kV*
10kV*
12kV*
4mm
10V
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
100pF 101 100pF 101
120 121 120 121
150 151 150 151
180 181 180 181
220 221 220 221
270 271 270 271
330 331 330 331
390 391 390 391
470 471 470 471
560 561 560 561
680 681 680 681
820 821 820 821
1.0nF 102 1.0nF 102
1.2 122 1.2 122
1.5 152 1.5 152
1.8 182 1.8 182
2.2 222 2.2 222
2.7 272 2.7 272
3.3 332 3.3 332
3.9 392 3.9 392
4.7 472 4.7 472
5.6 562 5.6 562
6.8 682 6.8 682
8.2 822 8.2 822
10nF 103 10nF 103
12 123 12 123
15 153 15 153
18 183 18 183
22 223 22 223
27 273 27 273
33 333 33 333
39 393 39 393
47 473 47 473
56 563 56 563
68 683 68 683
82 823 82 823
100nF 104 100nF 104
120 124 120 124
150 154 150 154
180 184 180 184
220 224 220 224
270 274 270 274
330 334 330 334
390 394 390 394
470 474 470 474
560 564 560 564
680 684 680 684
820 824 820 824
1.0µF 105 1.0µF 105
1.2 125 1.2 125
1.5 155 1.5 155
1.8 185 1.8 185
2.2 225 2.2 225
2.7 275 2.7 275
3.3 335 3.3 335
3.9 395 3.9 395
4.7 475 4.7 475
5.6 565 5.6 565
6.8 685 6.8 685
8.2 825 8.2 825
10µF 106 10µF 106
12 126 12 126
15 156 15 156
22µF 226 22µF 226
X7R
X7R
X7R
0603 0805 1206 1210 1808 1812 1825 2220 2225 3640 5550 8060
Capacitance
Code
Capacitance
Code
Note: The highlighted parts are dened as ‘dual-use’ under export
control legislation and as such are subject to export licence
restrictions. Please refer to page 9 for further details.
Note: C0G/NP0 ranges on reverse Note: C0G/NP0 ranges on reverse Note: C0G/NP0 ranges on reverse
* StackiCap™ high capacitance versions available from the
StackiCap™ range - see page 29 for details.
† Higher capacitance values available from the ProtectiCap™
capacitors range - see page 19 for details.
l = AEC-Q200 approved parts - maximum values.
| Phone: +44.1603.723300 | www.syfer.com 18
Standard MLCC - 10Vdc to 12kVdc - X7R ranges
16V
25V
50/63V
100V
200/250V
500V
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
4kV
5kV
6kV
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
4kV
5kV
6kV
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
4kV
5kV
6kV
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
4kV
5kV
6kV
16V
25V
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
4kV
5kV
6kV
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
4kV
5kV
6kV
8kV
10kV
12kV
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
4kV
5kV
6kV
8kV
10kV
12kV
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
4kV
5kV
6kV
8kV
10kV
12kV
†
†
†
†
†
†
†
†
†
†
†
†
†
†
*
*
*
*
*
*
**
*
*
*
*
†
†
†
Standard MLCC - 10Vdc to 12kVdc - X7R ranges
Intermediate
nickel layerFlexiCap™
termination
base
Tin outer
layer
ProtectiCap™
anti-flashover
coating
Metal
electrodes Fired ceramic
dielectric
Ordering information - ProtectiCap™ capacitors
1206 P 2K0 0102 K X T
Chip size Termination Voltage Capacitance in picofarads (pF) Capacitance
tolerance Dielectric Packaging
1206
1210
1808
1812
2220
P = ProtectiCap™
(FlexiCap™ termination base
with Ni barrier, 100% matte
tin plating).
2K0 = 2kV
2K5 = 2.5kV
3K0 = 3kV
4K0 = 4kV
5K0 = 5kV
First digit is 0.
Second and third digits are signicant gures
of capacitance code. The fourth digit is
number of 0’s following
Example 0102 = 1000pF
J = ±5%
K = ±10%
M = ±20%
X = X7R
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk
pack - tubs or
trays
ProtectiCap
Minimum/maximum capacitance values - ProtectiCap™ capacitors
Chip Size 1206 1210 1808 1812 2220
Min Cap
220pF 680pF 330pF 470pF 1.0nF
2000V 3.3nF 5.6nF 5.6nF 12nF -
2500V 2.7nF 4.7nF 4.7nF 8.2nF 22nF
3000V 1.5nF 3.3nF 3.3nF 4.7nF 10nF
4000V - - 2.2nF 3.3nF 6.8nF
5000V - - - - 4.7nF
7” Reel 2,500 2,000 1,500 500/1,000* 500/1,000*
13” Reel 10,000 8,000 6,000 2,000/4,000* 2,000/4,000*
NOTE: Other capacitance values may become available, please contact the sales ofce if you need values other than those shown in the above table.
For dimensions and soldering inf ormation, please go to our website (www.syfer.com) or see our MLC Catalogue.
*Reel quantity depends on chip thickness. Please contact the Sales Ofce.
Operating Temperature
-55°C to +125°C
Temperature Coefcient of Capacitance (Typical)
±15%
Insulation resistance
Time constant (Ri xCr) (whichever is the least)
100GΩ or 1000s
MLCCs are particularly suitable for high voltage applications where
small size is required. For standard high voltage capacitors a
coating may be required to be applied post-soldering, to minimise
the risk of ashover from one termination on the chip to the other.
By contrast, the new ProtectiCap™ high voltage range has been
introduced to specically address this issue. The integral coating
minimises the risk of ashover without any requirement for the
customer to apply conformal coating after soldering.
This range is fully compliant with the RoHS and WEEE directives.
Parts are compatible with lead free solders and standard aqueous
and solvent cleaning processes.
ProtectiCap™ capacitors - X7R
www.syfer.com | Phone: +44.1603.723300 | 19
TCC/VCC range
X7R capacitors are available from Syfer with a dened capacitance
variation under applied dc voltage, across the full operating
temperature range. Whilst the capacitance of C0G/NP0 chips does
not vary with applied voltage, standard X7R capacitors exhibit
capacitance uctuation but with no specied limit.
For applications where a limit is required, Syfer is able to offer
either a “B” code dielectric (conforms to MIL “BX” dielectric and
IECQ-CECC “2X1”) or “R” code dielectric (conforms to MIL “BZ”
dielectric and IECQ-CECC “2C1”).
0603
0805
1206
1210
1808
1812
2220
2225
100pF 101 100pF 101
120 121 120 121
150 151 150 151
180 181 180 181
220 221 220 221
270 271 270 271
330 331 330 331
390 391 390 391
470 471 470 471
560 561 560 561
680 681 680 681
820 821 820 821
1.0nF 102 1.0nF 102
1.2 122 1.2 122
1.5 152 1.5 152
1.8 182 1.8 182
2.2 222 2.2 222
2.7 272 2.7 272
3.3 332 3.3 332
3.9 392 3.9 392
4.7 472 4.7 472
5.6 562 5.6 562
6.8 682 6.8 682
8.2 822 8.2 822
10 103 10 103
12 123 12 123
15 153 15 153
18 183 18 183
22 223 22 223
27 273 27 273
33 333 33 333
39 393 39 393
47 473 47 473
56 563 56 563
68 683 68 683
82 823 82 823
100 104 100 104
120 124 120 124
150 154 150 154
180 184 180 184
220 224 220 224
270 274 270 274
330 334 330 334
390 394 390 394
470 474 470 474
560 564 560 564
680 684 680 684
820 824 820 824
1.0µF 105 1.0µF 105
1.2µF 125 1.2µF 125
1.5µF 155 1.5µF 155
= non RoHS compliant and FlexiCap™ termination only. Other values available in J, Y (FlexiCap™) and F terminations.
Capacitance
Code
TCC/VCC capacitors - 2C1 (BZ)
Capacitance
Code
50V
100V
50V
100V
200V
50V
200V
100V
50V
100V
100V
50V
200V
200V
50V
100V
200V
50V
100V
200V
50V
100V
200V
TCC/VCC capacitors - X7R
20 | Phone: +44.1603.723300 | www.syfer.com
X7R
Dielectric characteristics Stable
IECQ-CECC
EIA
MIL
2C1 2R1 2X1
-X7R -
BZ - BX
Rated temperature range -55ºC to +125ºC
Maximum capacitance change over temperature range
No DC voltage applied ±20% ±15% ±15%
Rated DC voltage applied +20-30% -+15-25%
Syfer dielectric ordering code R X B
For part numbering, the “X” denoting the X7R dielectric code needs to be replaced by either “B” or “R”.
Please contact the sales office for full range information.
TCC/VCC capacitors - 2X1 (BX)
0603
0805
1206
1210
1808
1812
2220
2225
100pF 101 100pF 101
120 121 120 121
150 151 150 151
180 181 180 181
220 221 220 221
270 271 270 271
330 331 330 331
390 391 390 391
470 471 470 471
560 561 560 561
680 681 680 681
820 821 820 821
1.0nF 102 1.0nF 102
1.2 122 1.2 122
1.5 152 1.5 152
1.8 182 1.8 182
2.2 222 2.2 222
2.7 272 2.7 272
3.3 332 3.3 332
3.9 392 3.9 392
4.7 472 4.7 472
5.6 562 5.6 562
6.8 682 6.8 682
8.2 822 8.2 822
10 103 10 103
12 123 12 123
15 153 15 153
18 183 18 183
22 223 22 223
27 273 27 273
33 333 33 333
39 393 39 393
47 473 47 473
56 563 56 563
68 683 68 683
82 823 82 823
100 104 100 104
120 124 120 124
150 154 150 154
180 184 180 184
220 224 220 224
270 274 270 274
330 334 330 334
390 394 390 394
470 474 470 474
560 564 560 564
680 684 680 684
820 824 820 824
1.0µF 105 1.0µF 105
1.2µF 125 1.2µF 125
1.5µF 155 1.5µF 155
= non RoHS compliant and FlexiCap™ termination only. Other values available in J, Y (FlexiCap™) and F terminations.
Capacitance
Code
Capacitance
Code
50V
100V
50V
100V
200V
50V
100V
200V
50V
200V
100V
200V
100V
50V
200V
100V
50V
200V
100V
50V
200V
100V
50V
TCC/VCC capacitors - X7R
www.syfer.com | Phone: +44.1603.723300 | 21
VC1 residual range
The VC1 residual capacitance range MLCCs provide a more
stable capacitance value with voltage - not to drop below
50% of the 1Vrms 1kHz value, up to full rated DC voltage,
at room temperature.
They can be operated continuously at full rated voltage, but
if de-rated will maintain a larger percentage of their original
capacitance value, e.g. at 80% RV capacitance value equals
40% approx - see graph.
Dened capacitance value in case sizes from 0805 to 3640,
with voltage rating up to 3kV. Ideal for Power supplies,
capacitance critical circuits, smoothing circuits and EMI
suppression.
Operating Temperature
-55°C to +125°C
Temperature Coefcient (Typical)
± 15%
Minimum/maximum capacitance values - VC1 capacitors
Chip Size 0805 1206 1210 1808 1812 2220 2225 3640
Min Cap 100pF 150pF 220pF 220pF 470pF 1nF 1nF 2.2nF
250V 12nF 39nF 82nF 82nF 220nF 680nF 1µF 1.8µF
500V 2.2nF 6.8nF 15nF 15nF 56nF 150nF 220nF 560nF
630V 1.5nF 4.7nF 8.2nF 8.2nF 39nF 100nF 120nF 470nF
1000V 390pF 1.5nF 2.7nF 2.7nF 15nF 39nF 56nF 180nF
1200V - 1nF 2.2nF 2.2nF 10nF 27nF 39nF 120nF
1500V - 560pF 1.2nF 1.2nF 5.6nF 15nF 22nF 68nF
2000V - 270pF 560pF 560pF 3.3nF 10nF 12nF 39nF
2500V - - - - 1.8nF 5.6nF 8.2nF 22nF
3000V - - - - - 3.9nF 5.6nF 12nF
NOTE: Other capacitance values may become available, please contact our Sales Office if you need values other than those shown in the above table.
For dimensions and soldering information, please go to our website (www.syfer.com).
0%
100%
90%
80%
70%
60%
50%
40%
30%
20%
10%
0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%
Typical Performance Curves
Residual Capacitance
Applied Voltage
Residual Cap Range Typical HV X7R
Insulation Resistance at +25°C
Time constant (Ri xCr) (whichever is the least)
100GΩ or 1000s
Aging Rate
Typically up to 2% per time decade
VC1 capacitors - X7R
22 | Phone: +44.1603.723300 | www.syfer.com
Ordering information - VC1 capacitors
1206 Y 1K0 0152 K X T VC1
Chip size Termination Voltage Capacitance in picofarads (pF) Capacitance
tolerance Dielectric Packaging Suffix
0805
1206
1210
1808
1812
2220
2225
3640
Y = FlexiCap™
termination base with
nickel barrier (100%
matte tin plating).
RoHS compliant.
250 = 250V
500 = 500V
630 = 630V
1K0 = 1.0kV
1K2 = 1.2kV
1K5 = 1.5kV
2K0 = 2.0kV
2K5 = 2.5kV
3K0 = 3.0kV
First digit is 0.
Second and third digits are signicant
gures of capacitance code.
The fourth digit is number
of 0’s following
Example:
0152 = 1500pF
J = ±5%
K = ±10%
M = ±20%
X = X7R T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk
pack - tubs
Reeled quantities - VC1 capacitors
Chip Size 0805 1206 1210 1812 1812 1812 1812 3640
7” Reel 3,000 2,500 2,000 500/1,000* 500/1,000* 500/1,000* 500/1,000* n/a
13” Reel 12,000 10,000 8,000 2,000/4,000* 2,000/4,000* 2,000/4,000* 2,000/4,000* 500
*Reel quantity depends on chip thickness. Please contact Sales Office.
VC1 capacitors - X7R
www.syfer.com | Phone: +44.1603.723300 | 23
PSL range
The PSL range of multilayer ceramic capacitors is suitable
for a variety of applications including power supplies, DC-DC
converters and LED lighting.
This range is manufactured to exacting standards using our
unique screen printing process. This provides a high quality
component suitable for demanding applications.
PSL capacitors - C0G/NP0 & X7R
Operating Temperature
-55°C to +125°C
Temperature Coefcient (Typical)
± 15%
Insulation Resistance at +25°C
Time constant (Ri xCr) (whichever is the least)
100GΩ or 1000s
Aging Rate
Typically less than 2% per time decade
Minimum/maximum capacitance values - PSL capacitors
Rated
Voltage
Chip Size
0805 1206 1210 1808 1812 2220
C0G/NP0 X7R C0G/NP0 X7R C0G/NP0 X7R C0G/NP0 C0G/NP0 X7R C0G/NP0 X7R
50V / 63V
N/A 220pF -
100nF N/A 470pF -
470nF N/A 1nF - 1µF N/A N/A N/A N/A N/A
100V
4.7pF - 1.5nF 220pF - 47nF 10pF - 3.3nF 470pF -
150nF 22pF - 5.6nF 1nF - 330nF 22pF - 5.6nF 47pF - 12nF 1nF - 680nF 68pF - 27nF 1nF - 1.5µF
200V / 250V
4.7pF - 1nF 220pF - 27nF 10pF - 2.2nF 470pF -
100nF 22pF - 4.7nF 1nF - 180nF 22pF - 4.7nF 47pF - 10nF 1nF - 470nF 68pF - 22nF 1nF - 1µF
500V
4.7pF - 470pF 220pF - 10nF 10pF - 1.5nF 470pF - 56nF 22pF - 3.3nF 1nF - 100nF 22pF - 3.3nF 47pF - 6.8nF 1nF - 220nF 68pF - 15nF 1nF - 560nF
630V
4.7pF - 220pF 220pF - 5.6nF 10pF - 1nF 470pF - 47nF 22pF - 2.2nF 1nF - 68nF 22pF - 2.2nF 47pF - 5.6nF 1nF - 150nF 68pF - 12nF 1nF - 330nF
1kV
4.7pF - 100pF 220pF - 3.3nF 10pF - 680pF 470pF - 10nF 22pF - 1.5nF 1nF - 22nF 22pF - 1.5nF 47pF - 4.7nF 1nF - 68nF 68pF - 10nF 1nF - 100nF
1nF - 120nF
1.5kV
4.7pF - 68pF N/A 10pF - 390pF N/A 22pF - 680pF N/A 22pF - 680pF 47pF - 2.2nF N/A 68pF - 4.7nF N/A
2kV
4.7pF - 33pF N/A 10pF - 220pF 470pF - 1nF 22pF - 470pF 1nF - 4.7nF 22pF - 470pF 47pF - 1nF 1nF - 10nF 68pF - 2.2nF N/A
470pF - 2.2nF
2.5kV
N/A N/A 10pF - 100pF N/A 22pF - 150pF N/A 22pF - 270pF 47pF - 680pF N/A 68pF - 1.5nF N/A
3kV
N/A N/A 10pF - 68pF N/A 22pF - 100pF N/A 22pF - 220pF 47pF - 470pF N/A 68pF - 1nF N/A
Note: Other capacitance values may become available, please contact our Sales Ofce if you need values other than those shown in the above table. For
dimensions and soldering information, please go to our website (www.syfer.com).
= AEC-Q200
24 | Phone: +44.1603.723300 | www.syfer.com
Reeled quantities - PSL capacitors
Chip Size 0805 1206 1210 1808 1812 2220
7” Reel 3,000 2,500 2,000 1,500 500/1,000* 500/1,000*
13” Reel 12,000 10,000 8,000 6,000 2,000/4,000* 2,000/4,000*
*Reel quantity depends on chip thickness. Please contact our Sales Ofce.
PSL capacitors - C0G/NP0 & X7R
Ordering information - PSL capacitors
1206 J 1K0 0103 K JT
Chip size Termination Voltage Capacitance in picofarads (pF) Capacitance tolerance Dielectric Packaging
0805
1206
1210
1808
1812
2220
J = Nickel barrier
with 100% matte tin plating.
RoHS compliant.
Y=FlexiCap™ termination base
with nickel barrier (100% matte
tin plating). RoHS compliant.
Lead free. (X7R only).
Note: AEC-Q200 qualied parts
only available with FlexiCap™
termination.
050 = 50V
063 = 63V
100 = 100V
200 = 200V
250 = 250V
500 = 500V
630 = 630V
1K0 = 1kV
1K5 = 1.5kV
2K0 = 2kV
2K5 = 2.5kV
3K0 = 3kV
First digit is 0.
Second and third digits are
signicant gures of
capacitance code.
The fourth digit is number
of 0’s following
Example:
0103 = 10000pF
X7R
K = ±10%
M = ±20%
C0G/NP0
F = ±1%
G = ±2%
J = ±5%
K = ±10%
G = C0G/NP0
J = X7R
S = X7R
AEC-Q200
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk
pack - tubs
www.syfer.com | Phone: +44.1603.723300 | 25
The Syfer High Q MS range offers a very stable, High Q material
system that provides excellent, low loss performance in systems
below 3GHz. Available in 0402 to 3640 case sizes with various
termination options including FlexiCap™, this range of high
frequency capacitors is suitable for many applications where
economical, high performance is required.
CapCad™ capacitor modelling software is now available for the
HiQ range. This software has been developed with an easy to use
and readily accessible comparison tool for choosing the best MLCC
to suit the customer’s needs. Please consult the Syfer website to
launch the software.
Minimum/maximum capacitance values - High Q capacitors - MS range
Chip Size 0402*0603† 0505 0805† 1206 1111 1210 1812 2220 2225 3640
Min Cap
0.1pF 0.1pF 0.2pF 0.2pF 0.5pF 0.3pF 0.3pF 1.0pF 2.0pF 2.0pF 4.0pF
50V 63V
33pF 220pF 330pF 680pF 2.2nF
100V
22pF 150pF 220pF 470pF 1.5nF 3.3nF 3.3nF 6.8nF 15nF 18nF
150V
18pF 120pF 180pF 390pF 1.2nF 2.7nF 2.7nF 4.7nF 12nF 15nF
200V250V
15pF 100pF 150pF 330pF 1.0nF 2.2nF 2.2nF 3.9nF 10nF 10nF
300V
56pF 100pF 220pF 680pF 1.5nF 1.5nF 3.3nF 6.8nF 8.2nF
500V
100pF 330pF 820pF 820pF 2.2nF 4.7nF 5.6nF 15nF
630V
150pF 390pF 390pF 1.0nF 2.2nF 3.3nF 6.8nF
1000V
82pF 220pF 220pF 680pF 1.5nF 2.2nF 4.7nF
2000V
18pF 68pF 68pF 150pF 470pF 560pF 1.5nF
3000V
68pF 150pF 220pF 470pF
Tape
quantities
7” reel
5000 7” reel
4000 7” reel
2500 7” reel
3000 7” reel
2500 7” reel
1000 7” reel
2000 7” reel
500/1000
13” reel
2000/4000
7” reel
500/1000
13” reel
2000/4000
7” reel
500/1000
13” reel
2000/4000
13” reel
only
13” reel quantities available on request
Below 1pF capacitance values are available in 0.1pF steps. Above 1pF capacitance values are available in E24 series values.
Other values and taping quantities may be available on request, consult the Sales Office for details. For values < than 0.3pF please consult the Sales Office for availability.
*0402 size - please consult the Sales Office for availability.
†0603 and 0805 sizes not recommended for new designs. Refer to Ultra-low ESR ranges on page 28.
Operating Temperature
-55°C to +125°C
Temperature Coefcient (Typical)
0 ± 30 ppm/°C
Insulation resistance at +25°C
>100GΩ
Insulation resistance at +125°C
>10GΩ
High Q capacitors - MS range
Ordering information - High Q capacitors - MS range
0505 J 250 4P70 B QT
Chip
size Termination Voltage Capacitance in picofarads
(pF) Capacitance
tolerance Dielectric Packaging
0402*
0603†
0505
0805†
1206
1111
1210
1812
2220
2225
3640
J = Silver base with nickel barrier
(100% matte tin plating).
RoHS compliant. Lead free.
A = Silver base with nickel barrier
(Tin/lead plating with min.
10% lead).
Not RoHS compliant.
050 = 50V
063 = 63V
100 = 100V
150 = 150V
200 = 200V
250 = 250V
300 = 300V
500 = 500V
630 = 630V
1K0 = 1kV
2K0 = 2kV
3K0 = 3kV
<1.0pF
Insert a P for the decimal point as the
rst character.
eg. P300 = 0.3pF
Values in 0.1pF steps
≥1.0pF & <10pF
Insert a P for the decimal point as the
second character.
eg. 8P20 = 8.2pF
Values are E24 series
≥10pF
First digit is 0. Second and third digits
are signicant gures of capacitance
code. Fourth digit is number of zeros
eg. 0101 = 100pF
Values are E24 series
<4.7pF
H = ±0.05pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
<10pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
≥10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
Q = High Q
Ceramic T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack
- tubs or trays
26 | Phone: +44.1603.723300 | www.syfer.com
High Q capacitors - MS range
* Please refer to the Sales Ofce for other chip size electrical data.
0.01
0.1
1
100 1000
ESR (Ohms)
Frequency (MHz)
ESR vs Frequency
1pF 4.7pF 10pF 100pF
Q
Capacitance (pF)
Q vs Capacitance
1
10
100
1000
10000
100000
0.1 110 100 1000
150 MHz 500 MHz 1 GHz
Typical performance data - 0805 chip size*
Frequency (Mhz)
Capacitance (pF)
Resonant Frequency vs Capacitance
0.1 110 100 1000
Series Parallel
100
1000
10000
100000
Typical performance data - 1111 chip size*
0.01
0.1
1
100 1000
ESR (Ohms)
Frequency (MHz)
ESR vs Frequency
1pF 4.7pF 10pF 100pF
Q
Capacitance (pF)
Q vs Capacitance
1
10
100
1000
10000
100000
0.1 110 100 1000
150 MHz 500 MHz 1 GHz
Frequency (Mhz)
Capacitance (pF)
Resonant Frequency vs Capacitance
100
1000
10000
100000
0.1 110 100 1000
Series Parallel
www.syfer.com | Phone: +44.1603.723300 | 27
Ultra-low ESR capacitors - C0G/NP0
Ordering information - Ultra-low ESR capacitors
0805 J 250 0101 J UT
Chip
size Termination Voltage Capacitance in picofarads
(pF) Capacitance
tolerance Dielectric Packaging
0603
0805 J = Silver base with nickel barrier
(100% matte tin plating).
RoHS compliant. Lead free.
A = Silver base with nickel barrier
(Tin/lead plating with min.
10% lead).
Not RoHS compliant.
200 = 200V
250 = 250V
<1.0pF
Insert a P for the decimal point as the
rst character.
eg. P300 = 0.3pF
Values in 0.1pF steps
≥1.0pF & <10pF
Insert a P for the decimal point as the
second character.
eg. 8P20 = 8.2pF
Values are E24 series
≥10pF
First digit is 0. Second and third digits
are signicant gures of capacitance
code. Fourth digit is number of zeros
eg. 0101 = 100pF
Values are E24 series
<4.7pF
H = ±0.05pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
<10pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
≥10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
U = Ultra-low
ESR T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack
- tubs or trays
The Ultra-low ESR range offers a very stable, High Q material
system that provides excellent, low loss performance in systems
below 3GHz. Available with various termination options including
FlexiCap™, this range of high frequency capacitors is suitable for
many applications where economical, high performance is required.
0603 S-parameter downloads are available from:
http://www.knowlescapacitors.com/syfer/en/products/mlc-
capacitors/ultra-low-esr-capacitors and the Syfer MVP page on
the Modelithics website. Please visit the Syfer MVP page for more
information at: http://www.modelithics.com/mvp/syfer
Minimum/maximum capacitance values - Ultra-low ESR capacitors
Chip Size 0603 0805
Min Cap
0.1pF 0.2pF
200V250V 100pF 240pF
Tape quantities 7” reel - 4,000 7” reel - 3,000
13” reel - 16,000 13” reel - 12,000
Note: Below 1pF capaciitance values are available in 0.1pF steps. Above 1pF capacitance values are available in E24 series values. Other values and taping quantities may be available on request,
consult the Sales Ofce for details.
Operating Temperature
-55°C to +125°C
Temperature Coefcient (Typical)
0 ± 30 ppm/°C
Insulation resistance
Time constant (Ri xCr) (whichever is the least)
100GΩ or 1000s
Typical performance
0.5pF 3pF
15pF
10pF
33pF
ESR/Ohms
f/MHz
0603 ‘U’ Series ESR vs. Frequency
0.01
1
0.1
0 500 15001000 2000 2500 3000
1.5pF 5.6pF
27pF
10pF
47pF
ESR/Ohms
f/MHz
0805 ‘U’ Series ESR vs. Frequency
0.01
1
0.1
0 500 15001000 2000 2500 3000
28 | Phone: +44.1603.723300 | www.syfer.com
The StackiCap™ range offers a signicant reduction in ‘PCB real estate’
for an equivalent capacitance value when board space is at a premium.
Syfer’s unique patent pending* construction and FlexiCap™
termination material make the StackiCap™ range suitable for
applications including: power supplies, lighting, aerospace electronics
and high voltage applications where a large amount of capacitance is
required. Further developments are on-going, please contact the Sales
Ofce for details of the full range.
* Patent application No. 1210261-2 applies.
Ordering information - StackiCap™ capacitors
1812 Y 500 0474 J X T WS2
Chip size Termination Voltage Capacitance in
picofarads (pF) Capacitance
tolerance Dielectric Packaging Sufx code
1812
2220
3640
Y = FlexiCap™
termination base with
nickel barrier (100% matte
tin plating).
RoHS compliant.
Lead free.
H = FlexiCap™
Termination base with
nickel barrier (Tin/lead
plating with minimum 10%
lead). Not RoHS compliant.
200/250 = 200/250V
500 = 500V
630 = 630V
1K0 = 1kV
1K2 = 1.2kV
1K5 = 1.5kV
2K0 = 2kV
First digit is 0. Second
and third digits are
signicant gures of
capacitance code in
picofarads (pF). Fourth
digit is number of zeros
eg. 0474 = 470nF
Values are E12 series
J = ±5%
K = ±10%
M = ±20%
X= X7R
E = X7R
(2R1)
AEC-Q200
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack -
tubs or trays
WS2
Comparison chart - StackiCap™ capacitors
Chip Size Voltage StackiCap™ values (nF)* Non- StackiCap™ range (nF) Replaces Case Size
1812
200/250V 1000 680 2220
500V 470 330 2220
630V 330 180 2220
1kV 180 100 2225 / 3640
1.2kV 100 33 2225
1.5kV 56 22 2225
2220
200/250V 2200 1000 3640
500V 1000 560 3640
630V 1000 330 5550
1kV 470 120 8060
1.2kV 220 82 5550
1.5kV 150 47 5550
2kV 100 27 8060
3640
200/250V 5600 3300 5550
500V 2700 1000 8060
630V 2200 680 8060
1kV 1000 180 8060
1.2kV 470 150 8060
1.5kV 330 100 8060
2kV 150 47 8060
= AEC-Q200. *Other capacitance values available. Please consult the Sales Ofce.
StackiCap
Maximum capacitance
Up to 5.6µF
Maximum voltage
Up to 2kV
Reeled quantities - StackiCap™ capacitors
1812 2220 3640
178mm (7”) Reel 500/1,000 500/1,000 -
330mm (13”) Reel 2,000/4,000 2,000/4,000 500
StackiCap™ capacitors - X7R
www.syfer.com | Phone: +44.1603.723300 | 29
Multilayer ceramic capacitors with silver/palladium (Ag/Pd)
terminations have often been used in medical applications where
non-magnetic components are required, for example in MRI
equipment. The use of conventional nickel barrier terminations is
not suitable due to nickel exhibiting magnetic properties.
However, RoHS requirements have dictated the use of lead-free
solders, and the composition of these solders has resulted in
an increase in soldering temperatures. This has caused solder
leaching problems for the Ag/Pd termination, and meant alternative
terminations have had to be found.
As copper is non-magnetic, one solution is to use a copper barrier
instead of a nickel barrier, with a tin nish on top and this is the
solution Syfer has developed.
This Non-magnetic termination is offered with selected non-
magnetic C0G/NP0, High Q and X7R dielectrics, providing a fully
non-magnetic component (
µr = 1.0000).
To meet high temperature 260ºC soldering reow proles as
detailed in J-STD-020, C0G/NP0 dielectrics are supplied with
FlexiCap™ or sintered termination and X7R dielectrics are supplied
with Syfer’s award winning FlexiCap™ termination.
C0G/NP0 & High Q - minimum/maximum capacitance values
Chip Size 0402* 0603 0505 0805 1206 1111
1210 1808 1812 2220 2225
Min Cap 0.1pF 0.1pF 0.2pF 0.2pF 0.5pF 0.3pF 1.0pF 1.0pF 2.0pF 2.0pF
Min Cap Tolerance
±0.05pF (<4.7pF), 0.1pF (>4.7pF & <10pF) and ±1% (>10pF)
50V 63V 22pF 100pF 220pF 470pF 1.5nF - - - - -
100V 15pF 68pF 150pF 330pF 1.0nF 2.2nF 2.2nF 4.7nF 10nF 15nF
150V 10pF 47pF 100pF 220pF 680pF 1.5nF 1.5nF 3.3nF 6.8nF 10nF
200V250V 6.8pF 33pF 56pF 150pF 470pF 1.0nF 1.0nF 2.2nF 4.7nF 6.8nF
300V - 27pF 47pF 120pF 390pF 820pF 820pF 1.8nF 3.9nF 5.6nF
500V - - - 68pF 270pF 680pF 680pF 1.5nF 3.3nF 4.7nF
630V - - - - 150pF 390pF 390pF 1.0nF 2.2nF 3.3nF
1000V - - - - 82pF 220pF 220pF 680pF 1.5nF 2.2nF
2000V - - - - 18pF 68pF 68pF 150pF 470pF 560pF
3000V - - - - - - - 68pF 150pF 220pF
For values < than 0.3pF please consult the Sales Office for availability.
*0402 - please consult the sales office for availability.
X7R - minimum/maximum capacitance values
Chip Size
0402* 0603 0805 1206 1210 1808 1812 2220 2225
Min Cap 47pF 100pF 330pF 680pF 1.5nF 2.2nF 3.3nF 6.8nF 10nF
Min Cap
Tolerance ±5%
16V 10nF 100nF 330nF 1.0µF 1.5µF 1.5µF 3.3µF 5.6µF 6.8µF
25V 6.8nF 68nF 220nF 820nF 1.2µF 1.2µF 2.2µF 4.7µF 5.6µF
50V 63V 4.7nF 47nF 150nF 470nF 1.0µF 680nF 1.5µF 3.3µF 3.3µF
100V 1.5nF 10nF 47nF 150nF 470nF 330nF 1.0µF 1.5µF 1.5µF
200V250V 680pF 5.6nF 27nF 100nF 220nF 180nF 470nF 1.0µF 1.0µF
500V - 1.5nF 8.2nF 33nF 100nF 100nF 270nF 560nF 680nF
630V - - 4.7nF 10nF 27nF 33nF 150nF 330nF 390nF
1000V - - 3.3nF 4.7nF 15nF 18nF 56nF 120nF 150nF
1200V - - - 3.3nF 10nF 10nF 33nF 82nF 100nF
1500V - - - 2.7nF 6.8nF 6.8nF 22nF 47nF 68nF
2000V - - - 2.2nF 4.7nF 4.7nF 10nF 27nF 33nF
*0402 - please consult the factory for availability.
Non-magnetic capacitors - C0G/NP0, High Q, X7R
30 | Phone: +44.1603.723300 | www.syfer.com
Ordering information - Non-magnetic capacitors
1210 3 100 0103 J X T _ _ _
Chip
size Termination Voltage Capacitance in
picofarads (pF) Capacitance
tolerance Dielectric
codes Packaging Sufx code
0402*
0603
0505
0805
1206
1111
1210
1808
1812
2220
2225
2 = Sintered silver base with
copper barrier (100% matte
tin plating). RoHS compliant.
(Available on C0G/NP0 &
High Q only).
3 = FlexiCap™ base with
copper barrier (100% matte
tin plating). RoHS compliant.
4 = Sintered silver base with
copper barrier (tin/lead plating).
Non RoHS compliant.
(Available on C0G/NP0 &
High Q only).
5 = FlexiCap™ base with
copper barrier (tin/lead plating).
Non RoHS compliant.
016 = 16V
025 = 25V
050 = 50V
063 = 63V
100 = 100V
150 = 150V
200 = 200V
250 = 250V
500 = 500V
630 = 630V
1K0 = 1kV
1K2 = 1.2kV
1K5 = 1.5kV
2K0 = 2kV
3K0 = 3kV
<10pF Insert a P for the
decimal point,
eg. P300 = 0.3pF,
8P20 = 8.2pF.
10pF 1st digit is 0.
2nd and 3rd digits are
signicant gures of
capacitance code.
The 4th digit is number
of 0’s following
eg. 0103 = 10000pF
Values <1pF in 0.1pF
steps, above this values
are E24 series
<4.7pF
H = ±0.05pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
4.7pF &
<10pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
C = C0G/NP0
(1B)
Q = High Q
X = X7R (2R1)
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk
pack - tubs or
trays
Used for
specic
customer
requirements
*0402 - please consult the sales office for availability.
Reeled Quantities
Chip Size
0402* 0603 0505 0805 1206
1111
1210
1808 1812 2220 2225
7” Reel 5000 4000 2500 3000 2500 10002000 2000
500/1000 500/1000 500/1000
13” Reel 13” reel quantities available on request 8000
2000/4000 2000/4000 2000/4000
Note: Other capacitance values may become available, please contact our Sales Office if you need values other than those shown in the above tables.
For dimensions and soldering information, please go to our website (www.syfer.com) or see our MLC catalogue.
Typical performance data - 0805 chip size
0.01
0.1
1
100 1000
ESR (Ohms)
Frequency (MHz)
ESR vs Frequency
1pF 4.7pF 10pF 100pF
0.01
0.1
1
100 1000
ESR (Ohms)
Frequency (MHz)
ESR vs Frequency
1pF 4.7pF 10pF 100pF
Typical performance data - 1111 chip size
Frequency (Mhz)
Capacitance (pF)
Resonant Frequency vs Capacitance
100
1000
10000
100000
0.1 110 100 1000
Series Parallel
Frequency (Mhz)
Capacitance (pF)
Resonant Frequency vs Capacitance
0.1 110 100 1000
Series Parallel
100
1000
10000
100000
Q
Capacitance (pF)
Q vs Capacitance
1
10
100
1000
10000
100000
0.1 110 100 1000
150 MHz 500 MHz 1 GHz
Q
Capacitance (pF)
Q vs Capacitance
1
10
100
1000
10000
100000
0.1 110 100 1000
150 MHz 500 MHz 1 GHz
Non-magnetic capacitors - C0G/NP0, High Q, X7R
www.syfer.com | Phone: +44.1603.723300 | 31
Capacitance values
1pF to 27nF (High Q)
Chip sizes
2225 and 4040
Operating temperature
-55ºC to +125ºC
High Q low ESR dielectrics
(other options available)
Insulation Resistance (IR)
100Gohm min @ 100 Vdc or 1000s (whichever is the less)
DWV up to 8400Vdc
Termination material
Silver plated copper ribbon attached with HMP solder
(MP greater than 260ºC)
Ordering information - Non-magnetic Ribbon Leaded capacitors
4040 B 7K0 0470 G QB
Lead
options Variant
code
Chip size Coating Voltage Capacitance in picofarads
(pF) Capacitance
tolerance Dielectric Packing R W001
2225
4040 B = Uncoated 200 = 200V
500 = 500V
1K0 = 1kV
2K0 = 2kV
3K0 = 3kV
5K0 = 5kV
7K0 = 7kV
<10pF Insert a P for the
decimal point,
eg 2P20 = 2.2pF.
>10pF. 1st digit is 0.
2nd and 3rd digits are
signicant gures of capacitance
code. The 4th digit is number of
0’s following
eg. 0470 = 47pF
0512 = 5100pF
<10pF
B = ±0.10pF
C = ±0.25pF
D = ±0.50pF
10pF
G = ±2%
J = ±5%
K = ±10%
M = ±20%
C = C0G/NP0
(1B)
Q = High Q
X = X7R (2R1)
B = Bulk
packed R = Ribbon
Leaded W001 =
Standard
Variant
12.0 max
(0.473 max)
50 typ
(1.97 typ)
11.5 max
(0.45 max)
8.9±0.5
(0.35±0.02)
5.0 max
(0.197 max)
0.25 -0.05
+0.10
0.01 -0.002
+0.004
( )
35 typ
(1.378 typ)
5.5±0.5
(0.22±0.02)
9.3 max
(0.366 max)
7.5 max
(0.30 max)
4.4±0.5
(0.173 max)
0.25 -0.05
+0.10
0.01 -0.002
+0.004
( )
2225 4040
Non-magnetic Ribbon Leaded capacitors - C0G/NP0, High Q, X7R
Min/max capacitance values
Chip Size
Case size 25
2225 Case size 40
4040
Min. Max. Min. Max.
200V 6.2nF 10nF 16nF 27nF
500V 5.1nF 5.6nF 13nF 15nF
630V 3.9nF 4.7nF 12nF 12nF
1kV 1.2nF 3.3nF 5.6nF 10nF
2kV 510pF 1.0nF 1.6nF 5.1nF
3kV 1pF 47pF* / 470pF 910pF 1.5nF
4kV
-
- 620pF 820pF
5kV
-
- 390pF 560pF
6kV
-
- 160pF 330pF
7.2kV
- - 1pF 56pF** / 150pF
*2225 - 47pF max. for dual rated @2.5kVac 30MHz **4040 - 56pF max. for dual rated @5kVac 30MHz.
32 | Phone: +44.1603.723300 | www.syfer.com
Tandem max capacitance (X7R only)
0603 0805 1206 1210 1812 2220 2225
16V 12nF 47nF 150nF 270nF 560nF 1.2µF 1.5µF
25V
10nF 39nF 120nF 220nF 470nF 1.0µF 1.2µF
50/63V
6.8nF 33nF 100nF 180nF 390nF 680nF 1.0µF
100V 2.2nF 10nF 47nF 82nF 220nF 470nF 680nF
200/
250V 1.0nF 4.7nF 22nF 47nF 100nF 220nF 330nF
= AEC-Q200
Tandem Capacitors have been designed as a fail
safe range using a series section internal design, for
use in any application where short circuits would be
unacceptable.
When combined with Syfer’s FlexiCap™ termination, Syfer
Tandem capacitors provide an ultra robust and reliable
component, for use in the most demanding applications.
Non-standard voltages are available. For more information
please consult the sales ofce.
Qualication included cracking the components by severe bend tests. Following
the bend tests cracked components were subjected to endurance / humidity
tests, with no failures evident due to short circuits.
Note: Depending on the severity of the crack, capacitance loss was between
0% and 50%.
Qualication included cracking the components by severe bend tests. Following
the bend tests cracked components were subjected to endurance / humidity
tests, with no failures evident due to short circuits.
Note: Depending on the severity of the crack, capacitance loss was between
0% and 70%.
Open Mode capacitor -
Open Mode max capacitance (X7R only)
0603 0805 1206 1210 1808 1812 2220 2225
16V 39nF 150nF 470nF 680nF 680nF 1.5µF 3.3µF 4.7µF
25V
33nF 120nF 330nF 560nF 560nF 1.2µF 2.2µF 3.9µF
50/63V
22nF 100nF 220nF 470nF 470nF 1.0µF 1.5µF 2.7µF
100V 6.8nF 27nF 100nF 220nF 220nF 680nF 1.0µF 1.8µF
200/
250V 2.7nF 15nF 68nF 100nF 100nF 330nF 680nF 1.0µF
500V - 5.6nF 27nF 68nF 68nF 180nF 330nF 330nF
630V - - 10nF 27nF 27nF 82nF 180nF 180nF
1kV - - 4.7nF 15nF 15nF 33nF 82nF 100nF
= AEC-Q200
Ordering information - Open Mode and Tandem capacitors
1206 Y 050 0224 K X T _ _ _
Chip size Termination Voltage Capacitance in
picofarads (pF) Capacitance
tolerance Dielectric
codes Packaging Sufx code
0603
0805
1206
1210
1808
1812
2220
2225
Y = FlexiCapTM
termination base
with nickel barrier
(100% matte tin
plating).
RoHS compliant.
016 = 16V
025 = 25V
050 = 50V
063 = 63V
100 = 100V
200 = 200V
250 = 250V
500 = 500V
630 = 630V
1K0 = 1kV
First digit is 0. Second
and third digits are
signicant gures of
capacitance code.
The fourth digit is
number of zeros
following.
Example:
0224 = 220000pF
J = ±5%
K = ±10%
M = ±20%
X = X7R
E = X7R
(AEC-Q200
product)
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack -
tubs or trays
M01 =
Syfer
Open Mode
capacitor
T01 =
Syfer
Tandem
capacitor
Open Mode capacitors have been designed specically for use in
applications where mechanical cracking is a severe problem and
short circuits due to cracking are unacceptable.
Open Mode capacitors use inset electrode margins, which prevent
any mechanical cracks which may form during board assembly from
connecting to the internal electrodes.
When combined with Syfer’s FlexiCap™ termination, Syfer Open
Mode capacitors provide a robust component with the assurance
that if a part becomes cracked, the crack will be unlikely to result in
short circuit failure.
Tandem capacitor -
Open Mode and Tandem capacitors - X7R
www.syfer.com | Phone: +44.1603.723300 | 33
IECQ-CECC range - Specialty High Rel. and approved parts
IECQ-CECC - maximum capacitance values
0603 0805 1206 1210 1808 1812 2220 2225
16V
C0G/NP0 1.5nF 6.8nF 22nF 33nF 33nF 100nF 150nF 220nF
X7R 100nF 330nF 1.0µF 1.5µF 1.5µF 3.3µF 5.6µF 6.8µF
25V C0G/NP0 1.0nF 4.7nF 15nF 22nF 27nF 68nF 100nF 150nF
X7R 56nF 220nF 820nF 1.2µF 1.2µF 2.2µF 4.7µF 5.6µF
50/63V
C0G/NP0 470pF 2.7nF 10nF 18nF 18nF 33nF 68nF 100nF
X7R 47nF 220nF 470nF 1.0µF 680nF 1.5µF 2.2µF 3.3µF
100V C0G/NP0 330pF 1.8nF 6.8nF 12nF 12nF 27nF 47nF 68nF
X7R 10nF 47nF 150nF 470nF 330nF 1.0µF 1.5µF 1.5µF
200/
250V C0G/NP0 100pF 680pF 2.2nF 4.7nF 4.7nF 12nF 22nF 27nF
X7R 5.6nF 27nF 100nF 220nF 180nF 470nF 1.0µF 1.0µF
500V C0G/NP0 n/a 330pF 1.5nF 3.3nF 3.3nF 10nF 15nF 22nF
X7R n/a 8.2nF 33nF 100nF 100nF 270nF 560nF 820nF
1kV C0G/NP0 n/a n/a 470pF 1.0nF 1.2nF 3.3nF 8.2nF 10nF
X7R n/a n/a 4.7nF 15nF 18nF 56nF 120nF 150nF
Ordering information - IECQ-CECC and AEC-Q200 range
1210 Y 100 0103 J D T _ _ _
Chip
size Termination Voltage Capacitance in
picofarads (pF) Capacitance
tolerance Dielectric
Release codes Packaging Sufx code
0603
0805
1206
1210
1808
1812
1825
2220
2225
3640
Y = FlexiCapTM
termination base with Ni
barrier (100% matte tin
plating). RoHS compliant.
H = FlexiCapTM
termination base with Ni
barrier (Tin/lead plating with
min. 10% lead).
Not RoHS compliant.
F = Silver Palladium. RoHS
compliant.
J = Silver base with nickel
barrier (100% matte tin
plating). RoHS compliant.
A = Silver base with nickel
barrier (Tin/lead plating with
min. 10% lead).
Not RoHS compliant.
016 = 16V
025 = 25V
050 = 50V
063 = 63V
100 = 100V
200 = 200V
250 = 250V
500 = 500V
630 = 630V
1K0 = 1kV
1K2 = 1.2kV
1K5 = 1.5kV
2K0 = 2kV
2K5 = 2.5kV
3K0 = 3kV
First digit is 0.
Second and third digits
are signicant gures of
capacitance code.
The fourth digit is
number of zeros
following
Example:
0103 = 10nF
<10pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
> 10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
D = X7R
(2R1) with IECQ-CECC
release
F = C0G/NP0
(1B/NP0) with IECQ-
CECC release
B = 2X1/BX released
in accordance with
IECQ-CECC
R = 2C1/BZ released
in accordance with
IECQ-CECC
For B and R codes
please refer to TCC/
VCC range for full
capacitance values
E = X7R
(2R1) AEC-Q200
A = C0G/NP0
(1B/NP0) AEC-Q200
T = X8R with
AEC-Q200 release
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack
- tubs or trays
Used for
specic
customer
require-
ments
IECQ-CECC, AEC-Q200 and Space grade range
A range of specialist, high reliability, multilayer ceramic capacitors
for use in critical or high reliability environments. All fully tested /
approved and available with a range of suitable termination options,
including tin/lead plating and Syfer FlexiCap™.
Ranges include :-
1. Range tested and approved in accordance with
IECQ-CECC QC32100.
2. Range qualied to the requirements of AEC-Q200.
3. Range qualied to the requirements of Syfer detail
specication S02A-0100 (based on ESCC 3009).
34 | Phone: +44.1603.723300 | www.syfer.com
AEC-Q200 range - Specialty High Rel. and approved parts
AEC-Q200 range - maximum capacitance values
0603 0805 1206 1210 1808 1812 1825 2220 2225 3640
50/63V
C0G/NP0 470pF 2.7nF 10nF 18nF n/a 39nF 68nF 68nF 100nF 220nF
X7R 33nF 150nF 330nF 680nF n/a 1.5µF 1.8µF 3.3µF 3.3µF 4.7µF
X8R n/a 33nF 120nF 220nF 270nF 470nF n/a 680nF 1.0µF n/a
100V
C0G/NP0 330pF 1.8nF 6.8nF 12nF n/a 27nF 47nF 47nF 68nF 180nF
X7R 10nF 47nF 150nF 470nF n/a 1µF 1.2µF 1.5µF 1.5µF 3.3µF
X8R n/a 15nF 56nF 120nF 150nF 220nF n/a 470nF 560nF n/a
200/
250V
C0G/NP0 100pF 680pF 2.2nF 4.7nF n/a 12nF 22nF 22nF 27nF 82nF
X7R 5.6nF 27nF 100nF 220nF n/a 470nF 1.0µF 1.0µF 1.0µF 1.5µF
X8R n/a 10nF 33nF 68nF 82nF 120nF n/a 220nF 330nF n/a
500V
C0G/NP0 n/a 330pF 1.5nF 3.9nF n/a 10nF 15nF 15nF 22nF 56nF
X7R n/a 8.2nF 33nF 100nF n/a 270nF 560nF 560nF 680nF 1.0µF
X8R n/a 3.9nF 18nF 39nF 47nF 100nF n/a 180nF 270nF n/a
630V
C0G/NP0 n/a n/a 1.0nF 1.8nF n/a 5.6nF 8.2nF 10nF 15nF 39nF
X7R n/a n/a 10nF 27nF n/a 150nF 180nF 330nF 390nF 680nF
X8R n/a 1.8nF 3.9nF 10nF 12nF 33nF n/a 150nF 180nF n/a
1kV
C0G/NP0 n/a n/a 470pF 1nF n/a 3.3nF 4.7nF 8.2nF 10nF 22nF
X7R n/a n/a 4.7nF 15nF n/a 56nF 120nF 120nF 150nF 180nF
X8R n/a 1nF 2.2nF 4.7nF 5.6nF 18nF n/a 39nF 56nF n/a
1.2kV
C0G/NP0 n/a n/a 220pF 680pF n/a 3.3nF 3.9nF 4.7nF 6.8nF 18nF
X7R n/a n/a 3.3nF 10nF n/a 33nF 68nF 82nF 100nF 150nF
X8R n/a n/a 1.8nF 3.9nF 4.7nF 12nF n/a 33nF 39nF n/a
1.5kV
C0G/NP0 n/a n/a 150pF 470pF n/a 2.2nF 2.7nF 3.3nF 4.7nF 12nF
X7R n/a n/a 2.7nF 6.8nF n/a 22nF 47nF 47nF 68nF 100nF
X8R n/a n/a 1.2nF 2.2nF 2.7nF 8.2nF n/a 22nF 27nF n/a
2kV
C0G/NP0 n/a n/a 100pF 220pF n/a 1.5nF 1.2nF 1.8nF 2.2nF 5.6nF
X7R n/a n/a 2.2nF 4.7n n/a 10nF 10nF 27nF 33nF 47nF
X8R n/a n/a 470pF 1.2nF 1.8nF 4.7nF n/a 12nF 18nF n/a
2.5kV X8R n/a n/a n/a n/a 1.0nF 2.7nF n/a 6.8nF 10nF n/a
3kV X8R n/a n/a n/a n/a 680pF 2.2nF n/a 4.7nF 5.6nF n/a
X2Y Integrated Passive Components (E03) - AEC-Q200 range - capacitance values
0805 1206 1410 1812
50V C0G/NP0 390pF - 470pF 1.2nF - 1.5nF 4.7nF - 5.6nF 8.2nF - 10nF
X7R 18nF - 33nF 56nF - 150nF 180nF - 330nF 390nF- 560nF
100V C0G/NP0 10pF - 330pF 22pF - 1.0nF 100pF - 3.9nF 820pF - 6.8nF
X7R 470pF - 15nF 1.5nF - 47nF 4.7nF - 150nF 8.2nF - 330nF
Note: For some lower capacitance parts, higher voltage rated parts may be supplied. Please refer to page 46.
3 Terminal EMI Components (E01) & (E07) - AEC-Q200 range - maximum capacitance values
E01 E07
0805 1206 1806 0805 1206 1806
50V C0G/NP0 820pF 1.0nF 2.2nF 220pF 1nF 1.5nF
X7R 47nF 100nF 200nF 47nF 100nF 200nF
100V C0G/NP0 560pF 1.0nF 2.2nF 120pF 560pF 680pF
X7R 15nF 15nF 68nF 15nF 15nF 68nF
Note: For some lower capacitance parts, higher voltage rated parts may be supplied. Please refer to page 44.
www.syfer.com | Phone: +44.1603.723300 | 35
S02A Space grade range - minimum/maximum capacitance values
0603 0805 1206 1210 1812 2220 2225
16V C0G/NP0 390pF - 1.5nF 1pF - 6.8nF 1pF - 22nF 10pF - 33nF 220pF - 100nF 470pF - 150nF 560pF - 220nF
X7R 330pF - 100nF 100pF - 330nF 680pF - 1.0µF 1.0nF - 1.5µF 3.9nF - 3.3µF 10nF - 5.6µF 18nF - 6.8µF
25V C0G/NP0 390pF - 1.0nF 1pF - 4.7nF 1pF - 15nF 10pF - 22nF 220pF - 68nF 470pF - 100nF 560pF - 150nF
X7R 330pF - 56nF 100pF - 220nF 680pF - 820nF 1.0nF - 1.2µF 3.9nF - 2.2µF 10nF - 4.7µF 18nF - 5.6µF
50/63V C0G/NP0 0.5pF - 470pF 1pF - 2.7nF 1pF - 10nF 10pF - 18nF 220pF - 39nF 470pF - 68nF 560pF - 100nF
X7R 330pF - 47nF 100pF - 220nF 680pF - 470nF 1.0nF - 1.0µF 3.9nF - 2.2µF 10nF - 3.3µF 18nF - 3.3µF
100V C0G/NP0 1pF - 330pF 1pF - 1.8nF 1pF - 6.8nF 10pF - 12nF 220pF - 27nF 470pF - 47nF 560pF - 68nF
X7R 100pF - 10nF 100pF - 47nF 100pF - 150nF 1.0nF - 470nF 3.9nF - 1.0µF 10nF - 1.5µF 18nF - 1.5µF
200V C0G/NP0 1pF - 100pF 1pF - 680pF 1pF - 2.2nF 10pF - 4.7nF 220pF - 12nF 470pF - 22nF 560pF - 27nF
X7R 100pF - 5.6nF 100pF - 27nF 100pF - 100nF 1.0nF - 220nF 3.9nF - 470nF 10nF - 1.0µF 18nF - 1.0µF
500V C0G/NP0 - 1pF - 270pF 1pF - 1.2nF 10pF - 2.7nF 180pF - 6.8nF 390pF - 15nF 4.7nF - 18nF
X7R - 10pF - 8.2nF 180pF - 33nF 390pF - 100nF 390pF - 270nF 1nF - 560nF 15nF - 820nF
Note: In accordance with ESCC 3009.
Ordering information - S02A Space grade range - product code construction
1210 A 100 0103 J X T _ _ _ _
Chip
size Termination(1) Voltage Capacitance in
picofarads (pF) Capacitance
tolerance Dielectric Rel
Release codes Packaging Sufx code
0603
0805
1206
1210
1812
2220
2225
Y = FlexiCapTM
termination base with nickel
barrier (100% matte tin
plating).
RoHS compliant.
H = FlexiCapTM
termination base with nickel
barrier (Tin/lead plating with
min. 10% lead).
Not RoHS compliant.
F = Silver Palladium.
RoHS compliant.
A = Silver base with nickel
barrier (Tin/lead plating with
min. 10% lead).
Not RoHS compliant.
Available in C0G/NP0 only.
016 = 16V
025 = 25V
050 = 50V
063 = 63V
100 = 100V
200 = 200V
500 = 500V
First digit is 0.
Second and third
digits are signicant
gures of capacitance
code.
The fourth digit is
number of zeros
following
Example:
0103 = 10nF
<10pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
> 10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
C = C0G/NP0
(1B)
X = X7R
(2R1)
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack -
tubs or trays
Q = Wafe
pack
Used for
specic
customer
requirements
S02A =
S (Space
Grade) High Rel
Notes:
(1) Termination A, H & F available for Space applications. If another termination type is required then contact the sales ofce.
(2) Please include Lot Acceptance Test requirement (LAT1, LAT2 or LAT3) on purchase order against each line item.
Tests conducted after 100% Burn-In (2xRV @125ºC for 168 hours).
LAT1: 4 x adhesion, 8 x rapid temp change + LAT2 and LAT3.
LAT2: 20 x 1000 hour life test + LAT3.
LAT3: 6 x TC and 4 x solderability.
(3) S02A Space Grade Options
S02A: with LAT1 (also incorporates LAT2 & LAT3).
S02A: with LAT2 (also incorporates LAT3).
S02A: with LAT3.
S02A: No LAT conducted.
S02A5: S02A design with 100% visual inspection and 100% electrical test verication.
No screening tests (including no burn in).
No LAT tests etc. These are typically ordered for Engineering Models.
S02A Space grade range - Specialty High Rel. and approved parts
36 | Phone: +44.1603.723300 | www.syfer.com
Safety Certified capacitors
Syfer Technology’s Safety Certied capacitors comply with
international UL and TÜV specications to offer designers the option
of using a surface mount ceramic multilayer capacitor to replace
leaded lm types. Offering the benets of simple pick-and-place
assembly, reduced board space required and lower prole, they
are also available in a FlexiCap™ version to reduce the risk of
mechanical cracking.
Syfer’s high voltage capacitor expertise means the range offers
among the highest range available of capacitance values in certain
case sizes. Applications include: modems, AC-DC power supplies
and where lightning strike or other voltage transients represent a
threat to electronic equipment.
● Surface mount multilayer ceramic capacitors
● Meet Class Y2/X1, X1 and X2 requirements
● Approved for mains ac voltages, up to 250Vac
● Approved by UL and TÜV
● Sizes 1808, 1812, 2211, 2215 and 2220
● Smaller sizes suitable for use in equipment certified
to EN60950
● Certification specifications for larger sizes include IEC/EN60384-14,
UL/CSA60950 and UL60384-14
● Surface mount package
Class Rated voltage Impulse voltage Insulation bridging May be used in primary circuit
Y1 250Vac 8000V Double or reinforced Line to protective earth
Y2 250Vac 5000V Basic or supplementary* Line to protective earth
Y4 150Vac 2500V Basic or supplementary* Line to protective earth
X1 250Vac 4000V - Line to line
X2 250Vac 2500V - Line to line
X3 250Vac None - Line to line
* 2 x Y2 or Y4 rated may bridge double or reinforced insulation when used in series.
● Reduces board area and height restrictions
● Reduced assembly costs over conventional through hole
components
● FlexiCap™ option available on all sizes
● Specific parts qualified to AEC-Q200
Safety Certied capacitors
www.syfer.com | Phone: +44.1603.723300 | 37
Classication and approval specication - Safety Certied capacitors
Rheinland
Product Safety
BAUART
GEPRÜFT
TYPE
APPROVED
CHIP
SIZE DIELECTRIC CAP
RANGE
SYFER
FAMILY CODE CLASSIFICATION APPROVAL
SPECIFICATION
APPROVAL
BODY AEC-Q200
1808 C0G/NP0 4.7pF to 1.5nF SP(1) X2 IEC60384-14
EN60384-14 TÜV TÜV & UL
FULL RANGE
NWGQ2, NWGQ8 UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed UL
1808 X7R 150pF to 4.7nF SP(1) X2 IEC60384-14
EN60384-14 TÜV TÜV & UL
FULL RANGE
‘Y’ TERM ONLY
NWGQ2, NWGQ8 UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed UL
1808 C0G/NP0 4.7pF to 390pF PY2(1) X1 IEC60384-14
EN60384-14 TÜV TÜV & UL
FULL RANGE
NWGQ2, NWGQ8 UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed UL
1808 X7R
150pF to 1nF
std. term.*
>1nF to 1.5nF
P term. only
PY2(1,3) X1 IEC60384-14
EN60384-14 TÜV TÜV & UL
1nF max.
‘Y’ TERM ONLY
NWGQ2, NWGQ8 UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed UL
1812 C0G/NP0
4.7pF to 390pF
PY2(1) X1 IEC60384-14
EN60384-14 TÜV TÜV & UL
FULL RANGE
4.7pF to 470pF NWGQ2, NWGQ8 UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed UL
1812 X7R
150pF to 2.2nF
std. term.*
>2.2nF to 4.7nF
P term. only
PY2(1,4) X1 IEC60384-14
EN60384-14 TÜV TÜV & UL
2.2nF max.
‘Y’ TERM ONLY
NWGQ2, NWGQ8 UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed UL
2211 C0G/NP0 4.7pF to 1nF SP(2) Y2/X1 IEC60384-14
EN60384-14 TÜV TÜV & UL
FULL RANGE
NWGQ2, NWGQ8 UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed UL
2211 X7R 100pF to 3.9nF SP(2) Y2/X1 IEC60384-14
EN60384-14 TÜV TÜV & UL
FULL RANGE
‘Y’ & ‘H’ TERM ONLY
NWGQ2, NWGQ8 UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed UL
2215 C0G/NP0 820pF to 1.0nF SP(2) Y2/X1 IEC60384-14
EN60384-14 TÜV TÜV & UL
FULL RANGE
NWGQ2, NWGQ8 UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed UL
2215 X7R 2.7nF to 3.9nF SP(2) Y2/X1 IEC60384-14
EN60384-14 TÜV TÜV & UL
FULL RANGE
‘Y’ & ‘H’ TERM ONLY
NWGQ2, NWGQ8 UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed UL
2220 X7R 150pF to 5.6nF B16 Y2/X1(2) IEC60384-14
EN60384-14 TÜV TÜV & UL
FULL RANGE
‘Y’ & ‘H’ TERM ONLY
Y2/X1,(1)FOWX2,
FOWX8
UL-60384-14:2010
CSA E60384-14:09 UL
2220 X7R
150pF to 22nF
std. term.*
>22nF to 33nF
P term. only
B17(2,5) X2 IEC60384-14
EN60384-14 TÜV
TÜV ONLY
22nF max.
‘Y’ & ‘H’ TERM ONLY
Notes
Termination availability
(1) J & Y terminations only.
(2) J, Y, A & H terminations available.
(3) For cap values >1000pF available in “P” ProtectiCap™ termination only.
(4) For cap values >2200pF available in “P” ProtectiCap™ termination only.
(5) B17 values above 22nF available in “P” ProtectiCap™ termination only.
PY2 Unmarked capacitors also available as released in accordance with approval specifications. Family code SY2 applies.
SP Unmarked capacitors also available as released in accordance with approval specifications. Family code SPU applies.
Capacitance values in red qualified to AEC-Q200.
*std. term. = Standard Termination.
Safety Certied capacitors - Certication Chart
38 | Phone: +44.1603.723300 | www.syfer.com
Ordering information - Safety Certied capacitors - Class SPU/SP ranges
1808 J A25 0102 J C T SP
Chip
size Termination Voltage Capacitance in
picofarads (pF) Capacitance
tolerance Dielectric
codes Packaging Sufx code
1808
2211
2215
J = Ni barrier
Y = FlexiCapTM
termination base with
Ni barrier (100% matte
tin plating). RoHS
compliant.
2211/2215 only
A = Silver base with
Ni barrier (Tin/lead
plating with min. 10%
lead).
Not RoHS compliant.
H = FlexiCapTM
termination base with
Ni barrier (Tin/lead
plating with min. 10%
lead).
Not RoHS compliant.
A25 = 250Vac First digit is 0.
Second and
third digits are
signicant gures of
capacitance code.
The fourth digit is
number of zeros
following.
Example:
0102 = 1.0nF
<10pF
B = ±0.10pF
C = ±0.25pF
D = ±0.50pF
> 10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
C = C0G/NP0
X = X7R
A = C0G/NP0
(1B/NP0) AEC-Q200
E = X7R (2B1)
AEC-Q200
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack -
tubs or trays
SP = Surge Protection
capacitors (marked and
approved)
SPU = Surge Protection
capacitors (un-marked
parts are in accordance
with, but not certied)
Ordering information - Safety Certied capacitors - Class PY2/SY2
1808 J A25 0102 J X T PY2
Chip
size Termination Voltage Capacitance in
picofarads (pF) Capacitance
tolerance Dielectric
codes Packaging Sufx code
1808
1812 J = Ni barrier
Y = FlexiCapTM
termination base with
Ni barrier (100% matte
tin plating). RoHS
compliant.
P = ProtectiCapTM
FlexiCap™ termination
base with Ni barrier,
(100% matte tin plating).
A25 = 250Vac First digit is 0. Second
and third digits are
signicant gures of
capacitance code.
The fourth digit is
number of zeros
following.
Example:
0102 = 1.0nF
<10pF
B = ±0.10pF
C = ±0.25pF
D = ±0.50pF
> 10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
C = C0G/NP0
X = X7R
A = C0G/NP0
(1B/NP0) AEC-Q200
E = X7R (2B1)
AEC-Q200
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack -
tubs or trays
PY2 = Safety tested
Surge Protection
capacitors (marked and
approved)
SY2 = Surge Protection
capacitors (un-marked
parts are in accordance
with, but not certied)
Ordering information - Safety Certied capacitors - Class B16/B17 ranges
2220 J A25 0102 JX T B16
Chip
size Termination Voltage Capacitance in
picofarads (pF) Capacitance
tolerance Dielectric
codes Packaging Sufx code
2220 J = Ni barrier
Y = FlexiCapTM
termination base with Ni
barrier
(100% matte tin plating).
RoHS compliant.
A = Silver base with
Ni barrier
(Tin/lead plating with
min. 10% lead).
Not RoHS compliant.
H = FlexiCapTM
termination base with Ni
barrier
(Tin/lead plating with
min. 10% lead). Not RoHS
compliant.
P = ProtectiCapTM
FlexiCap™ termination base
with Ni barrier, (100% matte
tin plating).
A25 = 250Vac First digit is 0.
Second and third digits
are signicant gures of
capacitance code.
The fourth digit is
number of zeros
following.
Example:
0102 = 1.0nF
J = ±5%
K = ±10%
M = ±20%
X = X7R
E = X7R (2B1)
AEC-Q200
T = 178mm
(7”) reel
1000 pieces
R = 330mm
(13”) reel
4000 pieces
B = Bulk pack -
tubs or trays
B16 = Type A:
X1/Y2
B17 = Type B: X2
Safety Certied capacitors - Ordering information
www.syfer.com | Phone: +44.1603.723300 | 39
Industry wide standard multilayer ceramic capacitors are supplied
with a DC rating only. For AC use Surge and Safety capacitors with an
AC rating of 250Vac have been available but the capacitance range
is limited as a result of the strict impulse and VP requirements in the
international standards.
Knowles offers a solution in both our original and PSL range for
operation up to 250Vac 60Hz continuous use provided for non-safety
critical applications where extended capacitance ranges are required.
Capacitance range
Case sizes 0805 to 2220 are available in both X7R and C0G/NP0
dielectrics with capacitances of up to 120nF. The capacitance
ranges are divided into four groups which are based on the voltage
coefcient of capacitance, C0G/NP0 which has negligible capacitance
shift with applied voltage and three subgroups of X7R. Type A with
typical current ow of 0.093mA per nF @ 240V 50Hz, Type B with
typical current ow of 0.082mA per nF @ 240V 50Hz and Type C with
typical current ow of 0.06mA per nF @ 240V 50Hz.
Ordering information - 250Vac Non Safety Rated AC capacitors
1812 Y A25 0103 K X T
Chip size Termination Voltage Capacitance in picofarads
(pF) Capacitance
tolerance Dielectric
codes Packaging
0805
1206
1210
1808
1812
2220
Y = FlexiCapTM
termination base
with nickel barrier
(100% matte tin
plating).
RoHS compliant.
J = Silver base with
nickel barrier (100%
matte tin plating).
RoHS compliant.
A25 = 250Vac
60Hz
<10pF Insert a P for the decimal point,
eg P300 = 0.3pF, 8P20 = 8.2pF.
10pF 1st digit is 0. 2nd and 3rd digits are
signicant gures of capacitance code. The
4th digit is number of 0’s following
eg. 0103 = 10nF
<10pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
10pF
F = ±1%
G = ±2%
J= ±5%
K = ±10%
M = ±20%
C = C0G/NP0
X = X7R
J = PSL X7R
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack -
tubs
or trays
250Vac Non Safety Rated AC capacitors - minimum/maximum capacitance values
Chip size 0805 1206 1210 1808 1812 2220
C0G/NP0 1.0pF - 470pF 1.0pF - 1.2nF 4.7pF - 2.2nF 4.7pF - 2.2nF 10pF - 5.6nF 10pF - 10nF
X7R - A 560pF - 1.5nF 1.5nF - 10nF 2.7nF - 22nF 2.7nF - 22nF 6.8nF - 56nF 12nF - 120nF
X7R - B 1.8nF - 3.3nF 12nF 27nF 27nF 68nF - 82nF -
X7R - C 3.9nF - 10nF 15nF - 47nF 33nF - 100nF 33nF - 100nF 100nF - 120nF -
PSL X7R - A
-
3.3nF - 10nF 10nF - 22nF - 10nF - 68nF 47nF - 120nF
PSL X7R - C
-
12nF - 22nF 27nF - 68nF - 82nF - 100nF -
Note:
Please see website for further details.
250Vac Non Safety Rated AC Capacitors - C0G/NP0 & X7R
40 | Phone: +44.1603.723300 | www.syfer.com
115Vac 400Hz capacitors - C0G/NP0, X7R
115Vac 400Hz
capacitors - minimum/maximum capacitance values
0805 1206 1210 1808 1812 2220
Dielectric Maximum capacitance values
C0G/NP0 1pF - 330pF 1pF - 1.5nF 3.9pF - 3.9nF 4.7pF - 3.9nF
10pF - 10nF 10pF - 15nF
X7R 100pF - 4.7nF 100pF - 18nF 100pF - 39nF 100pF - 39nF
150pF - 82nF 220pF - 100nF
Ordering information -
115Vac 400Hz
capacitors
1206 Y A12 0103 J X T
Chip
size Termination Voltage Capacitance in
picofarads (pF) Capacitance
tolerance Dielectric
codes Packaging
0805
1206
1210
1808
1812
2220
Y = FlexiCapTM
termination base with nickel barrier
(100% matte tin plating).
RoHS compliant.
H = FlexiCapTM
termination base with nickel barrier (Tin/
lead plating with min. 10% lead).
Not RoHS compliant.
J = Silver base with nickel barrier (100%
matte tin plating).
RoHS compliant.
A = Silver base with nickel barrier (Tin/
lead plating with min. 10% lead).
Not RoHS compliant.
A12
= 115Vac First digit is 0.
Second and third digits are
signicant gures of
capacitance code.
The fourth digit is number
of
zeros following.
Example:
0103
= 10nF
<4.7pF
H = ±0.05pF
B = ±0.10pF
C = ±0.25pF
D = ±0.50pF
4.7pF & <10pF
B = ±0.10pF
C = ±0.25pF
D = ±0.50pF
10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
C = C0G/NP0
X = X7R
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack -
tubs or trays
115Vac 400Hz capacitors for aerospace applications
Syfer Technology has conducted reliability testing on standard
surface mount ceramic capacitors in order to ensure their
performance at 115Vac 400Hz and the associated voltage and
frequency transients required by MIL-STD-704. Self heating will
occur due to losses in the capacitor but has been measured at
less than 25°C rise with neutral mounting conditions at room
temperature.
Please note that the 115V 400Hz ranges are not RoHS 2011/65/EU
compliant.
www.syfer.com | Phone: +44.1603.723300 | 41
High Dielectric Withstand Voltage capacitors (DWV range)
The DWV range is specically designed for use in applications
where a high Dielectric Withstand Voltage (DWV) is required.
These parts have a continuous rated voltage of 500Vdc minimum
and are 100% DWV tested at the specied voltages to ensure
Flashover (arcing) across the surface does not occur.
● High dielectric withstand voltages (DWV) of 1.5kV and 2.5kV
● These ratings are based on an application of the DWV voltage for
a period of up to 60 seconds (where the charging current is limited
to 50mA)
● Case sizes: 1206, 1210, 1808, 1812, 2220 and 2225
● C0G/NP0 and X7R dielectrics
● Capacitance values from 4.7pF to 120nF
● For full range information please see Syfer web site, or contact the
Sales Office.
Ordering information - DWV capacitors
1812 J 1K5 0820 K C T DWV
Chip size Termination Dielectric
Withstand
Voltage
Capacitance in picofarads
(pF) Capacitance
tolerance Dielectric
codes Packaging Sufx code
1206
1210
1808
1812
2220
2225
Y = FlexiCapTM
termination base
with nickel barrier
(100% matte tin
plating).
RoHS compliant.
J = Silver base with
nickel barrier (100%
matte tin plating).
RoHS compliant.
1K5 = 1.5kV
2K5 = 2.5kV
First digit is 0. Second and third
digits are signicant gures of
capacitance code.
The fourth digit is number of
zeros following.
Example: 0820 = 82pF
<10pF
B = ±0.10pF
C = ±0.25pF
D = ±0.50pF
10pF
F = ±1%
G = ±2%
10pF
J = ±5%
K = ±10%
M = ±20%
C = C0G/NP0
X = X7R
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack -
tubs or trays
Dielectric
Withstand
Voltage
DWV capacitors - minimum/maximum capacitance range
1206 1210 1808 1812 2220 2225
1.5kV C0G/NP0 4.7pF - 330pF 4.7pF - 1nF 4.7pF - 1.2nF 10pF - 2.2nF 100pF - 4.7nF 100pF - 5.6nF
X7R 4.7pF - 3.9nF 4.7pF - 10nF 4.7pF - 12nF 10pF - 33nF 100pF - 100nF 100pF - 120nF
2.5kV C0G/NP0 4.7pF - 220pF 4.7pF - 560nF 4.7pF - 1nF 10pF - 1.5nF 100pF - 3.3nF 100pF - 3.9nF
X7R 4.7pF - 1nF 4.7pF - 2.2nF 4.7pF - 2.7nF 10pF - 5.6nF 10pF - 15nF 100pF - 18nF
DWV chip range - C0G/NP0, X7R
42 | Phone: +44.1603.723300 | www.syfer.com
The X8R dielectric will operate from -55°C to +150°C, with a
maximum capacitance change ±15% (without applied voltage).
The devices are available in sizes 0805 to 2225, with voltage ranges
from 25V to 3kV and capacitance values from 270pF to 1.8µF.
The capacitors have been developed by Syfer to meet demand
from various applications in the automotive and industrial markets
and in other electronic equipment exposed to high temperatures.
The increased use of electronics in automotive “under the hood”
applications has created demand for this product range.
The X8R range incorporates a specially formulated termination
with a nickel barrier nish that has been designed to enhance the
mechanical performance of these SMD chip capacitors in harsh
environments typically present in automotive applications.
For information, X8R dielectric contains lead within the ceramic and
parts rated less than 250Vdc are not compliant with the EU 2011/65/
EU RoHS directive.
Capacitance Range
270pF to 1.8µF
Temperature Coefcient of Capacitance (TCC)
±15% from -55°C to +150°C
Dissipation Factor (DF)
< 0.025
Insulation Resistance (IR)
100G Ω or 1000secs (whichever is the less).
Dielectric Withstand Voltage (DWV)
2.5 x rated voltage for 5±1 seconds,
50mA charging current maximum.
Ageing Rate
1% per decade (typical)
Ordering information - X8R High Temperature capacitors
1206 Y 100 0473 K N T
Chip size Termination Voltage d.c. Capacitance in picofarads
(pF) Capacitance
tolerance Dielectric
codes Packaging
0805
1206
1210
1808
1812
2220
2225
Y = FlexiCap™
termination base
with nickel barrier
(100% matte tin
plating).
RoHS compliant.
025 = 25V
050 = 50V
100 = 100V
200 = 200V
250 = 250V
500 = 500V
630 = 630V
1K0 = 1kV
1K2 = 1.2kV
1K5 = 1.5kV
2K0 = 2kV
2K5 = 2.5kV
3K0 = 3kV
First digit is 0.
Second and third digits are signicant
gures of capacitance code.
The fourth digit is number of
zeros following.
Example:
0473 = 47000pF = 47nF
J
= ±5%
K
= ±10%
M
= ±20%
N = X8R
T = X8R
AEC-Q200
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk pack -
tubs or trays
X8R High Temperature capacitors - minimum/maximum cap. values according to the rated d.c. voltage
0805 1206 1210 1808 1812 2220 2225
Minimum capacitance value
680pF270pF680pF390pF 1nF 2.7nF 3.9nF
Maximum
capacitance value
according to the
rated dc voltage
25V 56nF 180nF 330nF 470nF 680nF 1.5µF 1.8µF
50V 33nF 120nF 220nF 270nF 470nF 680nF 1µF
100V
15nF 56nF 120nF 150nF 220nF 470nF 560nF
200/250V
10nF 33nF 68nF 82nF 120nF 220nF 330nF
500V 3.9nF 18nF 39nF 47nF 100nF 180nF 270nF
630V 1.8nF 3.9nF 10nF 12nF 33nF 150nF 180nF
1kV 1nF 2.2nF 4.7nF 5.6nF 18nF 39nF 56nF
1.2kV - 1.8nF 3.9nF 4.7nF 12nF 33nF 39nF
1.5kV - 1.2nF 2.2nF 2.7nF 8.2nF 22nF 27nF
2kV - 470pF 1.2nF 1.8nF 4.7nF 12nF 18nF
2.5kV - - - 1nF 2.7nF 6.8nF 10nF
3kV - - - 680pF 2.2nF 4.7nF 5.6nF
= X8R ranges in yellow available as qualied AEC-Q200.
High Temperature capacitors - X8R
www.syfer.com | Phone: +44.1603.723300 | 43
Surface mount EMI Filters - E01 & E07 feedthrough capacitors
Dimensions
0805 1206 1806 1812
L
2.0 ± 0.3
(0.079 ± 0.012)
3.2 ± 0.3
(0.126 ± 0.012)
4.5 ± 0.35
(0.177 ± 0.014)
4.5 ± 0.35
(0.177 ± 0.014)
W
1.25 ± 0.2
(0.049 ± 0.008)
1.6 ± 0.2
(0.063 ± 0.008)
1.6 ± 0.2
(0.063 ± 0.008)
3.2 ± 0.3
(0.126 ± 0.012)
T
1.0 ± 0.15
(0.039 ± 0.006)
1.1 ± 0.2
(0.043 ± 0.008)
1.1 ± 0.2
(0.043 ± 0.008)
2.0 ± 0.3
(0.079 ± 0.012)
B1
0.60 ± 0.2
(0.024 ± 0.008)
0.95 ± 0.3
(0.037 ± 0.012)
1.4 ± 0.3
(0.055 ± 0.012)
1.45 ± 0.35
(0.055 ± 0.012)
B2
0.3 ± 0.15
(0.012 ± 0.006)
0.5 ± 0.25
(0.02 ± 0.01)
0.5 ± 0.25
(0.02 ± 0.01)
0.75 ± 0.25
(0.02 ± 0.01)
0805 1206 1806 1812
A0.95 (0.037) 1.20 (0.047) 1.2 (0.047) 2.65 (0.104)
B0.90 (0.035) 0.90 (0.035) 1.40 (0.055) 1.40 (0.055)
C0.30 (0.012) 0.60 (0.024) 0.80 (0.031) 0.80 (0.031)
D0.40 (0.016) 0.80 (0.031) 1.40 (0.055) 1.40 (0.055)
E0.75 (0.030) 1.0 (0.039) 1.0 (0.039) 2.05 (0.080)
Notes: 1) All dimensions mm (inches).
2) Pad widths less than chip width gives improved mechanical performance.
3) The solder stencil should place 4 discrete solder pads. The unprinted distance between ground pads is shown as dim E.
4) Insulating the earth track underneath the lters is acceptable and can help avoid displacement of lter during soldering but can result in residue entrapment under the chip.
Recommended
solder lands
C
B
A
D
E
Standard Range - E01 & E07 Feedthrough Capacitors
Type E01 E07
Chip Size 0805 1206 1806 0805 1206 1806 1812
Max Current 300mA 300mA 300mA 1A 2A 2A 3A
Rated Voltage Dielectric Minimum and maximum capacitance values
25Vdc C0G/NP0 180pF-1.5nF 560pF-3.9nF 820pF-4.7nF 180pF-1.5nF 560pF-3.9nF 820pF-4.7nF -
X7R 470pF-100nF 5.6nF-330nF 3.9nF-560nF 820pF-100nF 10nF-330nF 22nF-560nF 560nF-1.8µF
50Vdc C0G/NP0 22pF-820pF 22pF-3.3nF 22pF-3.9nF 10pF-220pF 22pF-1nF 100pF-1.5nF -
X7R 560pF-68nF 4.7nF-220nF 3.3nF-330nF 1nF-68nF 10nF-220nF 22nF-330nF 330nF-1.5µF
100Vdc C0G/NP0 22pF-560pF 22pF-2.2nF 22pF-3.3nF 10pF-120pF 22pF-560pF 100pF-680pF -
X7R 560pF-27nF 1.8nF-100nF 3.3nF-180nF 1nF-27nF 10nF-100nF 22nF-180nF 180nF-820nF
200Vdc C0G/NP0 - 560pF-1.2nF 56pF-1nF - 15pF-180pF 56pF-470pF -
X7R - 2.7nF-56nF 3.9nF-100nF - 12nF-56nF 22nF-100nF 100nF-270nF
Note: E07 25Vdc C0G/NP0 1206 and 1806 ranges in green, have maximum current of 1A.
E01 300mA, E07 1A/2A/3A
W
T
B2
L
B1
C
C
The Syfer E01 and E07 ranges of feedthrough MLCC chip ‘C’ lters
are 3 terminal chip devices designed to offer reduced inductance
compared to conventional MLCCs when used in signal line ltering.
The ltered signal passes through the chip internal electrodes and
the noise is ltered to the grounded side contacts, resulting in
reduced length noise transmission paths.
Available in C0G/NP0 and X7R dielectrics, with current ratings
of 300mA, 1A, 2A, 3A and voltage ratings of 25Vdc to 200Vdc.
Also available with FlexiCap™ termination which is strongly
recommended for new designs.
Commonly used in automotive applications, a range qualied to
AECQ-200 is also available.
Signal track
Earth track
AEC-Q200 Qualied Range - E01 & E07 Feedthrough Capacitors - maximum capacitance values
Type E01 E07
Chip Size 0805 1206 1806 0805 1206 1806
50V C0G/NP0 820pF 1nF 2.2nF 220pF 1nF 1.5nF
X7R 47nF 100nF 200nF 47nF 100nF 200nF
100V C0G/NP0 560pF 1nF 2.2nF 120pF 560pF 680pF
X7R 15nF 15nF 68nF 15nF 15nF 68nF
Note: For some lower capacitance parts, higher voltage rated parts may be supplied. Please refer to the table below.
E01/E07
44 | Phone: +44.1603.723300 | www.syfer.com
Ordering Information - E01 & E07 feedthrough capacitors
1206 Y 100 0103 M X T E07
Chip Size Termination Voltage Capacitance in picofarads (pF) Tolerance Dielectric Packaging Type
0805
1206
1806
J = Nickel Barrier (Tin)
*Y = FlexiCap™
(Tin - X7R only)
A = (Tin/Lead)
Not RoHS compliant.
*H = FlexiCap™
(Tin/Lead)
Not RoHS compliant.
025 = 25V
050 = 50V
100 = 100V
200 = 200V
First digit is 0. Second and third
digits are signicant gures of
capacitance code. The fourth digit
is number of zeros following
Example: 0103 = 10000pF.
M = ±20% A = C0G/NP0
AEC-Q200
C = C0G/NP0
E = X7R
AEC-Q200
X = X7R
T = 178mm
(7”) reel
R = 330mm
(13”) reel
B = Bulk
E01
E07
Note: *FlexiCap™ termination only available in X7R material. Please contact our Sales Office for any special requirements.
178mm
(7”) reel
0805 1206 1806
3000 2500 2500
330mm
(13”) reel
0805 1206 1806
12000 10000 10000
Reeled
quantities
Open board insertion loss performance in 50Ω system
Open Board Performance
Capacitance 0.1MHz 1MHz 10MHz 100MHz 1GHz
Resonance Freq (MHz) approx.
10pF 0 0 0 0 7.5 2200
22pF 0 0 0 0 16 1600
33pF 0 0 0 1 22 1350
47pF 0 0 0 2 28 1150
68pF 0 0 0 341 900
100pF 0 0 0 5 28 800
150pF 0 0 0 8 24 700
220pF 0 0 0 12 20 600
330pF 0 0 1 15 20 500
470pF 0 0 2 18 20 425
560pF 0 0 320 20 350
680pF 0 0 422 20 300
820pF 0 0 5 24 20 260
1nF 0 0 727 20 220
1.5nF 0 0 931 20 200
2.2nF 0 0 12 34 20 170
3.3nF 0 1 14 39 20 135
4.7nF 0 2 18 46 20 110
6.8nF 0 321 50 20 90
10nF 0 5 24 48 20 80
15nF 0 8 27 45 20 65
22nF 0 12 31 43 20 56
33nF 1 14 34 40 20 40
47nF 2 17 38 40 20 34
68nF 420 41 40 20 30
100nF 6 24 45 40 20 28
150nF 8 26 48 40 20 24
220nF 10 30 52 40 20 17
330nF 13 33 55 40 20 15.5
470nF 16 36 60 40 20 14
560nF 18 39 65 40 20 12
-70
-80
-60
-50
-40
-30
-20
0
10
-10
0.00 0.01 0.1 1.0 10.0 1000.0 10000.0100.0 100000.0
Loss (db)
Frequency (MHz)
10pF - C0G
22pF - C0G
47pF - C0G
100pF - C0G
470pF - C0G
2.2nF - C0G
2.2nF - X7R
4.7nF - X7R
10nF - X7R
22nF - X7R
100nF - X7R
200nF - X7R
E01 & E07 Insertion Loss
Surface mount EMI Filters - E01 & E07 feedthrough capacitors
www.syfer.com | Phone: +44.1603.723300 | 45
AEC-Q200 range (E03) - capacitance values
Chip size 0805 1206 1410 1812
50Vdc C0G/NP0 390pF - 470pF 1.2nF - 1.5nF 4.7nF - 5.6nF 8.2nF - 10nF
X7R 18nF - 33nF 56nF - 150nF 180nF - 330nF 390nF- 560nF
100Vdc C0G/NP0 10pF - 330pF 22pF - 1.0nF 100pF - 3.9nF 820pF - 6.8nF
X7R 470pF - 15nF 1.5nF - 47nF 4.7nF - 150nF 8.2nF - 330nF
Surface mount EMI Filters - E03 X2Y Integrated Passive Components
The Syfer X2Y Integrated Passive Component is a 3 terminal EMI chip
device.
When used in balanced line applications, the revolutionary design
provides simultaneous line-to-line and line-to-ground ltering, using
a single ceramic chip. In this way, differential and common mode
ltering are provided in one device.
For unbalanced applications, it provides ultra low ESL (equivalent
series inductance). Capable of replacing 2 or more conventional
devices, it is ideal for balanced and unbalanced lines, twisted pairs
and dc motors, in automotive, audio, sensor and other applications.
Available in sizes from 0805 to 1812, these lters can prove
invaluable in meeting stringent EMC demands.
Manufactured in the UK by Syfer Technology Limited under licence from X2Y Attenuators LLC.
Dielectric
X7R or C0G/NP0
Electrical conguration
Multiple capacitance
Type E03
Chip size 0805 1206 1410 1812
Rated voltage Dielectric
16Vdc C0G/NP0 ----
X7R ----
25Vdc C0G/NP0 560pF - 820pF 1.8nF - 3.3nF 6.8nF - 8.2nF 12nF - 15nF
X7R 56nF - 68nF - 470nF 820nF
50Vdc C0G/NP0 390pF - 470pF 1.2nF - 1.5nF 4.7nF - 5.6nF 8.2nF - 10nF
X7R 18nF - 47nF 56nF - 220nF 180nF - 400nF 390nF - 680nF
100Vdc C0G/NP0 10pF - 330pF 22pF - 1.0nF 100pF - 3.9nF 820pF - 6.8nF
X7R 470pF - 15nF 1.5nF - 47nF 4.7nF - 150nF 8.2nF - 330nF
200Vdc C0G/NP0 - 22pF - 1.0nF 100pF - 3.3nF 820pF - 5.6nF
X7R - 820pF - 33nF 1.2nF - 120nF 2.7nF - 180nF
500Vdc C0G/NP0 - - - 820pF - 3.9nF
X7R - - - 2.7nF - 100nF
Notes: 1) For some lower capacitance parts, higher voltage rated parts may be supplied.
Capacitance measurement
At 1000hr point
Typical capacitance matching
Better than 5%
(down to 1% available on request)
Temperature rating
-55°C to 125°C
Insulation resistance
100Gohms or 1000s (whichever is
the less)
W
T
B2
L
B1
0805 1206 1410 1812
L
2.0±0.3 (0.08±0.012) 3.2±0.3 (0.126±0.012) 3.6±0.3 (0.14±0.012) 4.5±0.35 (0.18±0.014)
W
1.25±0.2 (0.05±0.008) 1.60±0.2 (0.063±0.008) 2.5±0.3 (0.1±0.012) 3.2±0.3 (0.126±0.012)
T
1.0±0.15 (0.04±0.006) 1.1±0.2 (0.043±0.008) 2.0 max.
(0.08 max.)
2.1 max.
(0.08 max.)
B1
0.5±0.25 (0.02±0.01) 0.95±0.3 (0.037±0.012) 1.20±0.3 (0.047±0.012) 1.4±0.35 (0.06±0.014)
B2
0.3±0.15 (0.012±0.006) 0.5±0.25 (0.02±0.01) 0.5±0.25 (0.02±0.01) 0.75±0.25 (0.03±0.01)
Notes: 1) All dimensions mm (inches).
2) Pad widths less than chip width gives improved mechanical performance.
3) The solder stencil should place 4 discrete solder pads. The un-printed distance between ground pads
is shown as dim E.
4) Insulating the earth track underneath the lters is acceptable and can help avoid displacement of
lter during soldering but can result in residue entrapment under the chip.
Dielectric withstand voltage
<200V 2.5 times rated Volts for 5
secs 500V 1.5 times rated Volts for
5 secs Charging current limited to
50mA Max.
46 | Phone: +44.1603.723300 | www.syfer.com
Surface mount EMI Filters - E03 X2Y Integrated Passive Components
Component Advantages Disadvantages Applications
Chip capacitor Industry standard
Requires 1 per line
High inductance
Capacitance matching problems
By-pass
Low frequency
3 terminal
feedthrough Feedthrough
Lower inductance Current limited
Feedthrough
Unbalanced lines
High frequency
Syfer X2Y
Integrated
Passive
Component
Very low inductance
Replaces 2 (or 3) components
Negates the effects of temperature,
voltage and ageing
Provides both common mode and differential
mode attenuation
Can be used on balanced & unbalanced lines
Care must be taken to
optimise circuit design
By-pass
Balanced lines
High frequency
dc electric motors
Unbalanced lines
Audio ampliers
CANBUS
AA
BB
C1
C1
C2
INPUT 1
INPUT 2
GROUND
SIGNAL
RETURN
C1
C1
-10
0
-30
-20
-70
-40
-50
-60
0.1 110 100 1000 5000
680nF
400nF
220nF
100nF
47nF
10nF
1nF
470pF
100pF
27pF
-10
0
-30
-20
-70
-40
-50
-60
110 100 1000 5000
100nF
10nF
47nF
1nF
470pF
Insertion loss (dB)
Insertion loss (dB)
Frequency (MHz) Frequency (MHz)
Filtering application Decoupling application
Ordering Information - X2Y IPC range
1812 Y 100 0334 M X T E03
Chip
Size Termination Voltage Capacitance in picofarads (pF)
C1Tolerance Dielectric Packaging Type
0805
1206
1410
1812
J = Nickel Barrier (Tin)
*Y = FlexiCap™
(Tin - X7R only)
A = (Tin/Lead)
Not RoHS compliant.
*H = FlexiCap™
(Tin/Lead)
Not RoHS compliant.
016 = 16V
025 = 25V
050 = 50V
100 = 100V
200 = 200V
500 = 500V
First digit is 0. Second and third
digits are signicant gures of
capacitance code.
The fourth digit is number of zeros
following
Example: 0334=330nF.
Note: C1 = 2C2
M = ±20%
(Tighter
tolerances
may be
available on
request).
A = C0G/NP0
AEC-Q200
C = C0G/NP0
E = X7R
AEC-Q200
X = X7R
T = 178mm (7”)
reel
R = 330mm
(13”) reel
B = Bulk
Syfer X2Y
Integrated
Passive
Component
Note: *FlexiCap™ termination only available in X7R material. Please contact the sales office for any special requirements.
178mm (7”)
reel
0805 1206 1410 1812
3000 2500 2000 1000
330mm (13”)
reel
0805 1206 1410 1812
12000 10000 8000 4000
Reeled
quantities
Recommended solder lands 0805 1206 1410 1812
A0.95 (0.037) 1.2 (0.047) 2.05 (0.08) 2.65 (0.104)
B0.9 (0.035) 0.9 (0.035) 1.0 (0.040) 1.4 (0.055)
C0.3 (0.012) 0.6 (0.024) 0.7 (0.028) 0.8 (0.031)
D0.4 (0.016) 0.8 (0.031 ) 0.9 (0.035) 1.4 (0.055)
E0.75 (0.030) 1.0 (0.039) 1.85 (0.071) 2.05 (0.080)
C
B
A
D
E
www.syfer.com | Phone: +44.1603.723300 | 47
Plastic carrier tape
Product
identifying label
Embossment
Top tape 8 or 12mm
nominal 178mm (7”) or
330mm (13”)
dia. reel
Tape and reel packing of surface mounting chip capacitors for
automatic placement are in accordance with IEC60286-3.
Peel force
The peel force of the top sealing tape is between 0.2 and 1.0
Newton at 180°. The breaking force of the carrier and sealing tape
in the direction of unreeling is greater than 10 Newtons.
Reel dimensions mm (inches)
TD
0
P
0
P
2
P
1
D
1
A
0
t
1
K
0
B
0
F
E
W
Sealing tape
EmbossmentCavity centre lines
Feed direction
Tape dimensions
1.5(.06) min
60(2.36) min
20.2(0.795) min
13(0.512)
± 0.5(0.02)
T
G
A
Dimensions mm (inches)
Symbol Description 8mm tape 12mm tape
A0
B0
K0
Width of cavity
Length of cavity
Depth of cavity
Dependent on chip size to minimize rotation
W Width of tape 8.0 (0.315) 12.0 (0.472)
FDistance between drive hole centres and cavity centres 3.5 (0.138) 5.5 (0.213)
E Distance between drive hole centres and tape edge 1.75 (0.069)
P1Distance between cavity centres 4.0 (0.156) 8.0 (0.315)
P2Axial distance between drive hole centres and cavity centres 2.0 (0.079)
P0Axial distance between drive hole centres 4.0 (0.156)
D0Drive hole diameter 1.5 (0.059)
D1Diameter of cavity piercing 1.0 (0.039) 1.5 (0.059)
TCarrier tape thickness 0.3 (0.012) ±0.1 (0.004) 0.4 (0.016) ±0.1 (0.004)
t1Top tape thickness 0.1 (0.004) max
Symbol Description 178mm reel 330mm reel
AReel diameter 178 (7) 330 (13)
G Reel inside width 8.4 (0.33) 12.4 (0.49)
TReel outside width 14.4 (0.56)
max
18.4 (0.72)
max
Ceramic chip capacitors - Packaging information
48 | Phone: +44.1603.723300 | www.syfer.com
Leader and TrailerMissing components
The number of missing components in the tape may not exceed
0.25% of the total quantity with not more than three consecutive
components missing. This must be followed by at least six properly
placed components.
Identication
Each reel is labelled with the following information: manufacturer,
chip size, capacitance, tolerance, rated voltage, dielectric type,
batch number, date code and quantity of components.
40 empty sealed
embossments minimum
TRAILER
END START
COMPONENTS LEADER 400mm min.
length is
quantity dependent 20 sealed
embossments minimum
Product
identifyin
g
label
W
L
T
Note: Labelling of box and
reel with bar codes (Code 39)
available by arrangement.
Orientation of 1825 & 2225 components
Component orientation
Tape and reeling is in accordance with IEC 60286 part 3, which
denes the packaging specications of leadless components on
continuous tapes.
Notes: 1) IEC60286-3 states Ao < Bo
(see tape dimensions on page 48).
2) Regarding the orientation of 1825 and 2225
components, the termination bands are
right to left, NOT front to back. Please see diagram.
Outer Packaging
Outer carton dimensions mm (inches) max.
Reel Size No. of reels L W T
178 (7.0) 1 185 (7.28) 185 (7.28) 25 (0.98)
178 (7.0) 4190 (7.48) 195 (7.76) 75 (2.95)
330 (13.0) 1 335 (13.19) 335 (13.19) 25 (0.98)
HCaution label
Product
identifying
label
D
Bulk packing - tubs
Chips are supplied in rigid re-sealable plastic tubs together with
impact cushioning wadding. Tubs are labelled with the details: chip
size, capacitance, tolerance, rated voltage, dielectric type, batch
number, date code and quantity of components.
Dimensions mm (inches)
H 60 (2.36)
D 50 (1.97)
Reel quantities
Chip size 0402 0505 0603 0805 1111 1206 1210 1410 1808 1812 1825 2211 2215 2220 2225
Max. chip
thickness
0.5mm 1.3mm 0.8mm 1.3mm 1.8mm 1.6mm 2.0mm 2.0mm 2.0mm 2.5mm 2.5mm 2.5mm 2.5mm 2.5mm 2.5mm
0.02” 0.05” 0.03” 0.05” 0.07” 0.06” 0.08” 0.08” 0.08” 0.1” 0.1” 0.1” 0.1” 0.1” 0.1”
Reel
quantities
178mm
(7”) 10000 2500 4000 3000 1000 2500 2000 2000 1500 500/
1000 500 750 500 500/
1000
500/
1000
330mm
(13”) - - 16000 12000 - 10000 8000 8000 6000 2000/
4000 2000 - 4000 2000/
4000
2000/
4000
Notes:
1) The above quantities per reel are for the maximum manufactured chip thickness. Thinner chips can be taped in larger quantities per reel.
2) Where two different quantities are shown for the same case size, please contact the Sales Ofce to determine the exact quantity for any specic part number.
Ceramic Chip Capacitors - Packaging Information
www.syfer.com | Phone: +44.1603.723300 | 49
Syfer Technology produces a wide range of dipped radial leaded
capacitors. These are available in rated voltages of 50V up to 6kV.
Although our catalogue range extends to 6kV, we are able to offer
a capability for specials up to 12kV. Our larger case sizes and high
voltage versions are particularly in demand, especially for mil/aero
and medical power supply applications. Please contact our Sales
Ofce to discuss any special requirements.
● High working voltage - up to 12kVdc
● Large case sizes
● RoHS compliant versions
● Tin-lead plated wire option to reduce tin whiskers (quote suffix
A97 for 8111 to 8141 & A31 for 8151, 8161, 8171).
8111M 8111N 8121M 8121N 8121T 8131M 8131M
T =
6.3mm
8131T 8141M 8151M 8151M
T =
6.3mm
8161M 8161M
T =
7.0mm
8171M 8171M
T =
7.0mm
Min. cap
values
C0G/NP0
4.7pF 4.7pF 4.7pF 4.7pF 4.7pF 4.7pF - 10pF 4.7pF 10pF - 27pF - 47pF -
X7R
100pF 100pF 100pF 100pF 330pF 100pF - 150pF 100pF 470pF - 1.0nF - 1.8nF -
50/63V
C0G/NP0
5.6nF 5.6nF 33nF 33nF 33nF 220nF - 100nF 220nF 330nF - 680nF - 1.0
µ
F-
X7R
220nF 220nF 1.0
µ
F1.0
µ
F1.0
µ
F3.3
µ
F- 2.2
µ
F4.7
µ
F10
µ
F- 15
µ
F- 22
µ
F-
100V
C0G/NP0
2.2nF 2.2nF 18nF 18nF 18nF 82nF - 47nF 82nF 270nF - 470nF - 680nF -
X7R
100nF 100nF 680nF 680nF 680nF 2.7
µ
F- 1.5
µ
F2.7
µ
F5.6
µ
F- 10
µ
F- 15
µ
F-
200/
250V
C0G/NP0
1.0nF 1.0nF 8.2nF 8.2nF 8.2nF 47nF 68nF 22nF 47nF 120nF 180nF 270nF
330nF
390nF 560nF
X7R
56nF 56nF 330nF 330nF 330nF 1.5
µ
F- 680nF 1.5
µ
F3.3
µ
F- 5.6
µ
F- 10
µ
F-
500V
C0G/NP0
680pF 680pF 6.8nF 6.8nF 6.8nF 33nF 47nF 15nF 33nF 82nF 120nF 180nF 270nF 270nF 470nF
X7R
15nF 15nF 150nF 150nF 150nF 820nF - 330nF 820nF 1.0
µ
F- 1.8
µ
F- 3.3
µ
F-
630V
C0G/NP0
560pF 560pF 3.9nF 3.9nF 3.9nF 22nF 39nF 10nF 22nF 68nF 100nF 120nF 180nF 220nF 390nF
X7R
12nF 12nF 100nF 100nF 100nF 390nF - 180nF 470nF 680nF - 1.2
µ
F- 2.2
µ
F-
1kV
C0G/NP0
180pF 180pF 2.2nF 2.2nF 2.2nF 18nF 27nF 6.8nF 18nF 47nF 82nF 82nF 150nF 150nF 270nF
X7R
10nF 10nF 47nF 47nF 47nF 150nF - 100nF 150nF 180nF - 390nF - 1.0
µ
F-
1.2kV
C0G/NP0
120pF 120pF 1.5nF 1.5nF 1.5nF 12nF 22nF 4.7nF 12nF 33nF 56nF 68nF 100nF 100nF 180nF
X7R
- - 10nF 10nF 10nF 100nF - 33nF 100nF 150nF - 220nF - 470nF -
1.5kV
C0G/NP0
82pF 82pF 820pF 820pF 820pF 6.8nF 12nF 2.7nF 6.8nF 22nF 39nF 39nF 68nF 68nF 120nF
X7R
- - 6.8nF 6.8nF 6.8nF 68nF - 22nF 68nF 100nF - 150nF - 330nF -
2kV
C0G/NP0
39pF 39pF 390pF 390pF 390pF 4.7nF 6.8nF 1.5nF 4.7nF 10nF 18nF 22nF 39nF 39nF 68nF
X7R
- - 4.7nF 4.7nF 4.7nF 33nF - 10nF 47nF 47nF - 82nF - 150nF -
2.5kV
C0G/NP0
- - 220pF 220pF 220pF 2.2nF 3.9nF 820pF 2.2nF 6.8nF 12nF 12nF 22nF 22nF 39nF
X7R
- - - - - 12nF - 3.3nF 12nF 33nF - 68nF - 100nF -
3kV
C0G/NP0
- - 150pF 150pF 150pF 1.8nF 2.7nF 560pF 1.8nF 4.7nF 8.2nF 10nF 18nF 15nF 27nF
X7R
- - - - - 8.2nF - 2.7nF 10nF 22nF - 47nF - 82nF -
4kV
C0G/NP0
- - - - - 820pF 1.5nF 270pF 820pF 1.8nF 3.3nF 4.7nF 6.8nF 8.2nF 15nF
X7R
- - - - - 5.6nF - 2.2nF 5.6nF 6.8nF - 15nF - 33nF -
5kV
C0G/NP0
- - - - - 560pF 1.0nF 180pF 560pF 1.5nF 2.2nF 2.7nF 4.7nF 5.6nF 10nF
X7R
-----4.7nF
-
1.2nF 4.7nF 5.6nF - 10nF - 22nF -
6kV
C0G/NP0
- - - - - 390pF 680pF 120pF 390pF 1.0nF 1.5nF 1.8nF 3.3nF 3.9nF 6.8nF
X7R
- - - - - 2.7nF - 1.0nF 2.7nF 4.7nF - 8.2nF - 15nF -
8kV
C0G/NP0
- - - - - - - - - 150pF - 330pF - 680pF -
X7R
- - - - - - - - - 1.5nF - 4.7nF - 6.8nF -
10kV
C0G/NP0
- - - - - - - - - 100pF - 180pF - 470pF -
X7R
------
-
- - 1.0nF - 2.2nF - 4.7nF -
12kV
C0G/NP0
- - - - - - - - - 68pF - 120pF - 220pF -
X7R
- - - - - - - - - 820pF - 1.2nF - 2.2nF -
8111M 8111N 8121M 8121N 8121T 8131M 8131M
T =
6.3mm
8131T 8141M 8151M 8151M
T =
6.3mm
8161M 8161M
T =
7.0mm
8171M 8171M
T =
7.0mm
Note: T = Maximum thickness.
- - - - - 5.6nF - 2.2nF 5.6nF 6.8nF - 15nF - 33nF -
- - - - - 5.6nF - 2.2nF 5.6nF 6.8nF - 15nF - 33nF -
- - - - - 560pF 1.0nF 180pF 560pF 1.5nF 2.2nF 2.7nF 4.7nF 5.6nF 10nF
- - - - - 560pF 1.0nF 180pF 560pF 1.5nF 2.2nF 2.7nF 4.7nF 5.6nF 10nF
- - - - - 560pF 1.0nF 180pF 560pF 1.5nF 2.2nF 2.7nF 4.7nF 5.6nF 10nF
-----4.7nF
-----4.7nF
- - - - - 5.6nF - 2.2nF 5.6nF 6.8nF - 15nF - 33nF -
- - - - - 560pF 1.0nF 180pF 560pF 1.5nF 2.2nF 2.7nF 4.7nF 5.6nF 10nF
-----4.7nF
- - - - - 560pF 1.0nF 180pF 560pF 1.5nF 2.2nF 2.7nF 4.7nF 5.6nF 10nF
-----4.7nF
-----4.7nF
- - - - - 390pF 680pF 120pF 390pF 1.0nF 1.5nF 1.8nF 3.3nF 3.9nF 6.8nF
- - - - - 2.7nF - 1.0nF 2.7nF 4.7nF - 8.2nF - 15nF -
-----4.7nF
- - - - - 390pF 680pF 120pF 390pF 1.0nF 1.5nF 1.8nF 3.3nF 3.9nF 6.8nF
- - - - - 2.7nF - 1.0nF 2.7nF 4.7nF - 8.2nF - 15nF -
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - 560pF 1.0nF 180pF 560pF 1.5nF 2.2nF 2.7nF 4.7nF 5.6nF 10nF
- - - - - 560pF 1.0nF 180pF 560pF 1.5nF 2.2nF 2.7nF 4.7nF 5.6nF 10nF
-----4.7nF
- - - - - 390pF 680pF 120pF 390pF 1.0nF 1.5nF 1.8nF 3.3nF 3.9nF 6.8nF
- - - - - 390pF 680pF 120pF 390pF 1.0nF 1.5nF 1.8nF 3.3nF 3.9nF 6.8nF
- - - - - 560pF 1.0nF 180pF 560pF 1.5nF 2.2nF 2.7nF 4.7nF 5.6nF 10nF
- - - - - 560pF 1.0nF 180pF 560pF 1.5nF 2.2nF 2.7nF 4.7nF 5.6nF 10nF
-----4.7nF
- - - - - 390pF 680pF 120pF 390pF 1.0nF 1.5nF 1.8nF 3.3nF 3.9nF 6.8nF
- - - - - 390pF 680pF 120pF 390pF 1.0nF 1.5nF 1.8nF 3.3nF 3.9nF 6.8nF
- - - - - 390pF 680pF 120pF 390pF 1.0nF 1.5nF 1.8nF 3.3nF 3.9nF 6.8nF
- - - - - 2.7nF - 1.0nF 2.7nF 4.7nF - 8.2nF - 15nF -
- - - - - 2.7nF - 1.0nF 2.7nF 4.7nF - 8.2nF - 15nF -
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - 2.7nF - 1.0nF 2.7nF 4.7nF - 8.2nF - 15nF -
- - - - - 2.7nF - 1.0nF 2.7nF 4.7nF - 8.2nF - 15nF -
- - - - - 2.7nF - 1.0nF 2.7nF 4.7nF - 8.2nF - 15nF -
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - - - - - 1.5nF - 4.7nF - 6.8nF -
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - - - - - 1.5nF - 4.7nF - 6.8nF -
- - - - - - - - - 100pF - 180pF - 470pF -
- - - - - - - - - 100pF - 180pF - 470pF -
------
- - - - - - - - - 1.5nF - 4.7nF - 6.8nF -
- - - - - - - - - 100pF - 180pF - 470pF -
- - - - - - - - - 100pF - 180pF - 470pF -
- - - - - - - - - 100pF - 180pF - 470pF -
------
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - - - - - 1.5nF - 4.7nF - 6.8nF -
- - - - - - - - - 1.5nF - 4.7nF - 6.8nF -
- - - - - - - - - 100pF - 180pF - 470pF -
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - - - - - 150pF - 330pF - 680pF -
- - - - - - - - - 1.5nF - 4.7nF - 6.8nF -
- - - - - - - - - 1.5nF - 4.7nF - 6.8nF -
- - - - - - - - - 1.5nF - 4.7nF - 6.8nF -
- - - - - - - - - 1.5nF - 4.7nF - 6.8nF -
- - - - - - - - - 100pF - 180pF - 470pF -
Radial Leaded Capacitors - C0G/NP0, X7R
50 | Phone: +44.1603.723300 | www.syfer.com
Ordering information - Radial Leaded capacitors
8111M 100 0102 J C
Type No./
Size ref Voltage d.c.
(marking code) Capacitance in
picofarads (pF) Capacitance
tolerance
Dielectric
Rel Release
codes Sufx code Sufx code
8111M
8111N
8121M
8121N
8121T
8131M
8131T
8141M
8151M
8161M
8165M
8171M
050 =
063 =
100 =
200 =
250 =
500 =
630 =
1K0 =
1K2 =
1K5 =
2K0 =
2K5 =
3K0 =
4K0 =
5K0 =
6K0 =
8K0 =
10K =
12K =
50V
63V
100V
200V
250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
4kV
5kV
6kV
8kV
10kV
12kV
(C)
(D)
(E)
(F)
(Q)
<10pF
Insert a P for the
decimal point as the
second character.
eg. 8P20 = 8.2pF
≥10pF
First digit is 0. Second and
third digits are signicant
gures of capacitance
code. Fourth digit is
number of zeros
eg. 0101 = 100pF
<10pF
D: ± 0.5pF
F: ± 1.0pF
≥10pF
J: ± 5%
K: ± 10%
M: ± 20%
≥27pF
G: ± 2%
(C0G/NP0 only).
C = C0G/NP0
(1B/CG; CG/BP)
X = X7R
(2R1)
To Special Order
B = 2X1 (BX)
R = 2C1 (BZ)
Used for specic
customer
requirements.
C42 denotes
RoHS compliant.
A31 or A97 denote
non-RoHS tin/lead
wires.
Sufx A97 for 8111 to
8141 & A31 for 8151,
8161, 8171.
Notes: The voltage code may be replaced with the complete voltage (e.g. 1500V = 1K5V) at Syfer’s
discretion. Marking may be over both sides of the component as necessary.
Dimensions - Radial Leaded capacitors
Width Height Thickness Lead Space
Lead Diameter
Pattern (X) max. mm (inches) (Y) max. mm (inches) (Z) max. mm (inches) (S) mm (inches) (d) mm (inches)
8111M A 3.81 (0.15) 5.31 (0.21) 2.54 (0.10) 2.54 ±0.4 (0.1 ±0.016) 0.5 ±0.05 (0.02 ±0.002)
8111N B3.81 (0.15) 5.31 (0.21) 2.54 (0.10) 5.08 ±0.4 (0.2 ±0.016) 0.5 ±0.05 (0.02 ±0.002)
8121M A 5.08 (0.20) 6.58 (0.26) 3.18 (0.125) 2.54 ±0.4 (0.1 ±0.016) 0.5 ±0.05 (0.02 ±0.002)
8121N B5.08 (0.20) 6.58 (0.26) 3.18 (0.125) 5.08 ±0.4 (0.2 ±0.016) 0.5 ±0.05 (0.02 ±0.002)
8121T B10.16 (0.40) 5.80 (0.23) 4.50 (0.18) 7.62 ±0.4 (0.30 ±0.016) 0.5 ±0.05 (0.02 ±0.002)
8131M A 7.62 (0.30) 9.12 (0.36) 3.81/6.30 (0.15/0.25) 5.08 ±0.4 (0.2 ±0.016) 0.5 ±0.05 (0.02 ±0.002)
8131T B10.16 (0.40) 9.12 (0.36) 4.50 (0.18) 7.62 ±0.4 (0.30 ±0.016) 0.5 ±0.05 (0.02 ±0.002)
8141M A 10.16 (0.40) 11.66 (0.46) 3.81 (0.15) 5.08 ±0.4 (0.2 ±0.016) 0.5 ±0.05 (0.02 ±0.002)
8151M A 12.70 (0.50) 14.20 (0.56) 5.08/6.30 (0.20/0.25) 10.1 ±0.4 (0.4 ±0.016) 0.6 ±0.05 (0.025 ±0.002)
8161M A 18.50 (0.73) 16.50 (0.65) 6.00/7.00 (0.24/0.28) 14.5 ±0.5 (0.57 ±0.02) 0.6 ±0.05 (0.025 ±0.002)
8165M A 19.00 (0.75) 19.00 (0.75) 4.25 (0.17) 17.5 ±0.5 (0.67 ±0.02) 0.6 ±0.05 (0.025 ±0.002)
8171M A 25.00 (0.98) 20.00 (0.79) 6.00/7.00 (0.24/0.28) 21.0 ±0.6 (0.83 ±0.024) 0.6 ±0.05 (0.025 ±0.002)
Marking information
All encapsulated capacitors are marked with:- Capacitance value,
tolerance, rated d.c. voltage, dielectric, and where size permits the
Syfer Technology ‘S’ logo.
Example: 1000pF ±10% 50V 2X1 dielectric
Capacitance
Logo
Dielectric code
Voltage code
Capacitance tolerance code
Pattern A
XZ
Sd
Y
5.0 (0.2)
min. 1.5 (0.6)
max.
Seating
Plane
XZ
Sd
Y
Seating
Plane
5.0 (0.2)
min.
Pattern B
Note: Pattern A may be substituted with Pattern B at Syfer’s discretion.
Radial Leaded Capacitors - Packaging information
www.syfer.com | Phone: +44.1603.723300 | 51
4.7pF 4p7 4.7pF 4p7
5.6 5p6 5.6 5p6
6.8 6p8 6.8 6p8
8.2 8p2 8.2 8p2
10pF 100 10pF 100
12 120 12 120
15 150 15 150
18 180 18 180
22 220 22 220
27 270 27 270
33 330 33 330
39 390 39 390
47 470 47 470
56 560 56 560
68 680 68 680
82 820 82 820
100pF 101 100pF 101
120 121 120 121
150 151 150 151
180 181 180 181
220 221 220 221
270 271 270 271
330 331 330 331
390 391 390 391
470 471 470 471
560 561 560 561
680 681 680 681
820 821 820 821
1.0nF 102 1.0nF 102
1.2 122 1.2 122
1.5 152 1.5 152
1.8 182 1.8 182
2.2 222 2.2 222
2.7 272 2.7 272
3.3 332 3.3 332
3.9 392 3.9 392
4.7 472 4.7 472
5.6 562 5.6 562
6.8 682 6.8 682
8.2 822 8.2 822
10nF 103 10nF 103
12 123 12 123
15 153 15 153
18 183 18 183
22 223 22 223
27 273 27 273
33 333 33 333
39 393 39 393
47 473 47 473
56 563 56 563
68 683 68 683
82 823 82 823
100nF 104 100nF 104
120 124 120 124
150 154 150 154
180 184 180 184
220 224 220 224
270 274 270 274
330 334 330 334
390 394 390 394
470 474 470 474
560 564 560 564
680 684 680 684
820 824 820 824
1.0µF 105 1.0µF 105
1.2 125 1.2 125
1.5 155 1.5 155
1.8 185 1.8 185
2.2 225 2.2 225
2.7 275 2.7 275
3.3 335 3.3 335
3.9 395 3.9 395
4.7 475 4.7 475
5.6 565 5.6 565
6.8 685 6.8 685
8.2 825 8.2 825
10µF 106 10µF 106
12 126 12 126
15µF 156 15µF 156
8111M / 8111N 8121M / 8121N
Capacitance
Code
C0G/NP0 X7R C0G/NP0 X7R
8121T
C0G/NP0 X7R
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
50/63V
100V
200/250V
500V
630V
1kV
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
50/63V
100V
200/250V
500V
630V
1kV
1.2kV
1.5kV
2kV
Radial Leaded Capacitors - C0G/NP0 & X7R ranges
52 | Phone: +44.1603.723300 | www.syfer.com
4.7pF 4p7 4.7pF 4p7
5.6 5p6 5.6 5p6
6.8 6p8 6.8 6p8
8.2 8p2 8.2 8p2
10pF 100 10pF 100
12 120 12 120
15 150 15 150
18 180 18 180
22 220 22 220
27 270 27 270
33 330 33 330
39 390 39 390
47 470 47 470
56 560 56 560
68 680 68 680
82 820 82 820
100pF 101 100pF 101
120 121 120 121
150 151 150 151
180 181 180 181
220 221 220 221
270 271 270 271
330 331 330 331
390 391 390 391
470 471 470 471
560 561 560 561
680 681 680 681
820 821 820 821
1.0nF 102 1.0nF 102
1.2 122 1.2 122
1.5 152 1.5 152
1.8 182 1.8 182
2.2 222 2.2 222
2.7 272 2.7 272
3.3 332 3.3 332
3.9 392 3.9 392
4.7 472 4.7 472
5.6 562 5.6 562
6.8 682 6.8 682
8.2 822 8.2 822
10nF 103 10nF 103
12 123 12 123
15 153 15 153
18 183 18 183
22 223 22 223
27 273 27 273
33 333 33 333
39 393 39 393
47 473 47 473
56 563 56 563
68 683 68 683
82 823 82 823
100nF 104 100nF 104
120 124 120 124
150 154 150 154
180 184 180 184
220 224 220 224
270 274 270 274
330 334 330 334
390 394 390 394
470 474 470 474
560 564 560 564
680 684 680 684
820 824 820 824
1.0µF 105 1.0µF 105
1.2 125 1.2 125
1.5 155 1.5 155
1.8 185 1.8 185
2.2 225 2.2 225
2.7 275 2.7 275
3.3 335 3.3 335
3.9 395 3.9 395
4.7 475 4.7 475
5.6 565 5.6 565
6.8 685 6.8 685
8.2 825 8.2 825
10µF 106 10µF 106
12 126 12 126
15µF 156 15µF 156
8131M
C0G/NP0 X7R
8131T
C0G/NP0 X7R
Capacitance
Code
6.3mm
6.3mm
6.3mm
6.3mm
6.3mm
6.3mm
6.3mm
6.3mm
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV
5kV
4kV
6.3mm
200/250V
6.3mm
6.3mm
6.3mm
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV
5kV
4kV
200/250V
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV
5kV
4kV
200/250V
Radial Leaded Capacitors - C0G/NP0 & X7R ranges
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV
5kV
4kV
200/250V
www.syfer.com | Phone: +44.1603.723300 | 53
4.7pF 4p7 4.7pF 4p7
5.6 5p6 5.6 5p6
6.8 6p8 6.8 6p8
8.2 8p2 8.2 8p2
10pF 100 10pF 100
12 120 12 120
15 150 15 150
18 180 18 180
22 220 22 220
27 270 27 270
33 330 33 330
39 390 39 390
47 470 47 470
56 560 56 560
68 680 68 680
82 820 82 820
100pF 101 100pF 101
120 121 120 121
150 151 150 151
180 181 180 181
220 221 220 221
270 271 270 271
330 331 330 331
390 391 390 391
470 471 470 471
560 561 560 561
680 681 680 681
820 821 820 821
1.0nF 102 1.0nF 102
1.2 122 1.2 122
1.5 152 1.5 152
1.8 182 1.8 182
2.2 222 2.2 222
2.7 272 2.7 272
3.3 332 3.3 332
3.9 392 3.9 392
4.7 472 4.7 472
5.6 562 5.6 562
6.8 682 6.8 682
8.2 822 8.2 822
10nF 103 10nF 103
12 123 12 123
15 153 15 153
18 183 18 183
22 223 22 223
27 273 27 273
33 333 33 333
39 393 39 393
47 473 47 473
56 563 56 563
68 683 68 683
82 823 82 823
100nF 104 100nF 104
120 124 120 124
150 154 150 154
180 184 180 184
220 224 220 224
270 274 270 274
330 334 330 334
390 394 390 394
470 474 470 474
560 564 560 564
680 684 680 684
820 824 820 824
1.0µF 105 1.0µF 105
1.2 125 1.2 125
1.5 155 1.5 155
1.8 185 1.8 185
2.2 225 2.2 225
2.7 275 2.7 275
3.3 335 3.3 335
3.9 395 3.9 395
4.7 475 4.7 475
5.6 565 5.6 565
6.8 685 6.8 685
8.2 825 8.2 825
10µF 106 10µF 106
12 126 12 126
15 156 15 156
22µF 226 22µF 226
Capacitance
Code
8141M
C0G/NP0 X7R
8151M
C0G/NP0 X7R
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
5kV
4kV
200/250V
6kV
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
5kV
4kV
200/250V
6kV
6.3mm
6.3mm
6.3mm
6.3mm
6.3mm
6.3mm
6.3mm
6.3mm
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV
5kV
4kV
6.3mm
200/250V
6.3mm
6.3mm
6.3mm
8kV*
10kV*
12kV*
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
5kV
4kV
200/250V
6kV
8kV
10kV
12kV
Radial Leaded Capacitors - C0G/NP0 & X7R ranges
54 | Phone: +44.1603.723300 | www.syfer.com
4.7pF 4p7 4.7pF 4p7
5.6 5p6 5.6 5p6
6.8 6p8 6.8 6p8
8.2 8p2 8.2 8p2
10pF 100 10pF 100
12 120 12 120
15 150 15 150
18 180 18 180
22 220 22 220
27 270 27 270
33 330 33 330
39 390 39 390
47 470 47 470
56 560 56 560
68 680 68 680
82 820 82 820
100pF 101 100pF 101
120 121 120 121
150 151 150 151
180 181 180 181
220 221 220 221
270 271 270 271
330 331 330 331
390 391 390 391
470 471 470 471
560 561 560 561
680 681 680 681
820 821 820 821
1.0nF 102 1.0nF 102
1.2 122 1.2 122
1.5 152 1.5 152
1.8 182 1.8 182
2.2 222 2.2 222
2.7 272 2.7 272
3.3 332 3.3 332
3.9 392 3.9 392
4.7 472 4.7 472
5.6 562 5.6 562
6.8 682 6.8 682
8.2 822 8.2 822
10nF 103 10nF 103
12 123 12 123
15 153 15 153
18 183 18 183
22 223 22 223
27 273 27 273
33 333 33 333
39 393 39 393
47 473 47 473
56 563 56 563
68 683 68 683
82 823 82 823
100nF 104 100nF 104
120 124 120 124
150 154 150 154
180 184 180 184
220 224 220 224
270 274 270 274
330 334 330 334
390 394 390 394
470 474 470 474
560 564 560 564
680 684 680 684
820 824 820 824
1.0µF 105 1.0µF 105
1.2 125 1.2 125
1.5 155 1.5 155
1.8 185 1.8 185
2.2 225 2.2 225
2.7 275 2.7 275
3.3 335 3.3 335
3.9 395 3.9 395
4.7 475 4.7 475
5.6 565 5.6 565
6.8 685 6.8 685
8.2 825 8.2 825
10µF 106 10µF 106
12 126 12 126
15 156 15 156
22µF 226 22µF 226
8161M
C0G/NP0 X7R
8171M
C0G/NP0 X7R
Capacitance
Code
Note: The highlighted
parts may be dened as
‘dual-use’ under export
control legislation and as
such may be subject to
export licence restrictions.
Please refer to page 9 for
further details.
7.0mm
7.0mm
7.0mm
7.0mm
7.0mm
7.0mm
7.0mm
7.0mm
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV
5kV
4kV
7.0
7.0
200/250V
7.0mm
7.0mm
7.0mm
8kV
10kV
12kV
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
5kV
4kV
200/250V
6kV
8kV
10kV
12
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
5kV
4kV
200/250V
6kV
8kV
10kV
12kV
7.0mm
7.0mm
7.0mm
7.0mm
7.0mm
7.0mm
7.0mm
50/63V
100V
500V
630V
1kV
1.2kV
1.5kV
2kV
2.5kV
3kV
6kV
5kV
4kV
7.0mm
200/250V
7.0mm
7.0mm
7.0mm
8kV
10kV
12kV
7.0mm
Radial Leaded Capacitors - C0G/NP0 & X7R ranges
www.syfer.com | Phone: +44.1603.723300 | 55
Cropped leads
Cropped leads between 4.0 (0.157) and 30.0 (1.18) are available
to special order. Some of the preferred codes are listed below,
together with the appropriate sufx code.
Dimensions as for standard product except as specied.
Bandoliered sufx codes
Dipped radial leaded with 2.54 and 5.08mm lead spacing can be
supplied bandoliered on reels or in ammo boxes to special order.
Some of the preferred sufx codes for bandoliered products are
given below.
For bandoliered products the minimum order quantity, pieces, is
specied in the tables below, larger orders must be in multiples of
this quantity.
This style has been
developed to provide
a meniscus-free
seating plane with a
stress relieving form
for auto-insertion.
Dipped – stand-off lead form
H
0
Y
H
0
H
A
B
Sufx code
Reel AMMO pack
Product code Lead style Diagram H H0
2500pcs 1000pcs 2000pcs
8111M Straight 2.54 crs A 19±1 –C01 C02 C11
8111M Straight 2.54 crs A 16±0.5 –C30 C31 C32
8111N Formed 5.08 crs B–16±0.5 C01 C02 C11
8121M Straight 2.54 crs A 19±1 –C01 C02 C11
8121M Straight 2.54 crs A 16±0.5 –C30 C31 C32
8121N Formed 5.08 crs B–16±0.5 C01 C02 C11
8131M Straight 5.08 crs A 19±1 –C01 C02 C11
8131M Straight 5.08 crs A 16±0.5 –C30 C31 C32
8121T and 8131T available in bulk packaging only.
Product code Lead style Y max H0
2500pcs 1000pcs 2000pcs
8111N Formed 5.08 crs 7.5 16±0.5 C12 C23 C22
8111N Formed 5.08 crs 7.5 19±1 C13 C25 C24
8121N Formed 5.08 crs 8.5 16±0.5 C12 C23 C22
8121N Formed 5.08 crs 8.5 19±1 C13 C25 C24
Dimensions mm (inches)
Snap in leads
Various forms of snap in leads (preformed) are available to special
order, some of the preferred sufx codes are listed below.
Dimensions as for standard product except as specied.
Sufx code - AD1
For PCB holes 0.9mm diameter
Types 8121N and 8131M
Dimensions
Y = 8121N 8 (0.315) Max
8131M 10 (0.394) Max
L = Min: 2.75 (0.108)
Max: 3.50 (0.138)
5±0.5
Y
L
4±0.5
6±0.5
6.0 +1.0
Seating plane
Sufx code - AD3
For PCB holes 1.2mm diameter
Types 8121N
Dimensions
Y = 8 (0.315) Max
L = Min: 2.75 (0.108)
Max: 3.50 (0.138)
4.2±0.5
Y
L
5±0.5
6.6±0.5
7.6 Max
Seating plane
4.2±0.5
Y
L
5±0.5
6.6±0.5
8.8 Max
Seating plane
Sufx code - AD2
For PCB holes 1.2mm diameter
Types 8131M
Dimensions
Y = 10 (0.294) Max
L = Min: 2.75 (0.108)
Max: 3.50 (0.138)
Sufx code - AE3
All radial ranges
Sufx code - AE4
All radial ranges
Sufx code - AD7
All radial ranges
Sufx code - AD5
All radial ranges
Lead length (L)
6 ±1 (0.236 ±0.04)
from seating plane
Lead length (L)
4 ± 1 (0.162 ±0.04)
from seating plane
Lead length (L)
5 ± 1 (0.2 ±0.04)
from seating plane
Lead length (L)
10 ± 1 (0.4 ±0.04)
from seating plane
Dipped – straight and formed leads
Radial Leaded Capacitors - Packaging information
56 | Phone: +44.1603.723300 | www.syfer.com
The adhesive tape faces outwards. The dispensing direction is
as shown. For the protection of the components a paper inlay
is inserted between the windings of the bandolier. At the end of
the bandolier this paper inlay continues for at least a further two
rotations.
A maximum of 3 consecutive components may be missing from the
bandolier, followed by at least 6 lled positions.
Components missing from the bandolier are included in the total
quantity, whereby the number of missing components may not
exceed 0.25% of this total per packing module.
At the beginning and end of a reel the bandolier will exhibit at least
10 blank positions.
Minimum pull strength of product from tape = 5N.
Each reel/carton is provided with a label showing the:
Manufacturer, product style, batch identication,
quantity and date code.
Labelling with bar codes (code 39) is available on request.
355±1.0
45±1.0
85±1.0
30±1.0
52 max
335
(13.1)
230
(9.05)
(2000 pcs)
48
(1.88)
24
(0.94)
115
(4.50)
(1000 pcs)
45
(1.77)
20 dia.
(0.79)
Bandoliered ammo packing
2 carton sizes
In accordance with IEC 60286 part 2.
∆h
H
1
H
0
H
L
P
P
2
D
0
W
2
W
0
W
1
t
WL
2
P
1
P
0
F
Bandoliered reels
Dimensions mm (inches)
Description
Symbol
2.5mm
lead space
5mm
lead space
Tolerance
Lead wire diameter d0.5 (0.02)
0.6 (0.025)
0.5 (0.02)
0.6 (0.025)
±0.05 (0.002)
Component pitch P 12.7 (0.5) 12.7 (0.5) 1.00 (0.04)
Feed hole pitch P012.7 (0.5) 12.7 (0.5) ±0.30 (0.01)
Feed hole centre to lead P15.08 (0.2) 3.81 (0.15) ±0.70 (0.03)
Feed hole centre to component P26.35 (0.25) 6.35 (0.25) ±0.70 (0.03)
Lead spacing F2.54 (0.10) 5.08 (0.20) +0.6 (0.02)
-0.1 (0.004)
Component alignment ∆h0 0 ±2.00(0.08)
Tape width W 18.0 (0.70) 18.0 (0.70) +1.00 (0.04)
-0.50 (0.02)
Hold down tape width W06.0 (0.23) 6.0 (0.23) ±0.30 (0.01)
Hole position W19.0 (0.35) 9.0 (0.35) ±0.50 (0.02)
Hold down tape position W20.50 (0.02) 0.50 (0.02) Max
Height to seating plane from tape centre (straight leads) (2) H 16 (0.63) to 20 (0.79) 16 (0.63) to 20 (0.79) As required
Height to seating plane from tape centre (formed leads) (2) H016 (0.63) to 20 (0.79) 16 (0.63) to 20 (0.79) As required
Height to top of component from tape centre H132.2 (1.26) 32.2 (1.26) Max
Feed hole diameter D04.0 (0.16) 4.0 (0.16) ±0.20 (0.008)
Carrier tape plus adhesive tape thickness t0.7 (0.03) 0.7 (0.03) ±0.20 (0.008)
Carrier tape thickness - 0.5 (0.02) 0.5 (0.02) ±0.10 (0.004)
Cut out component snipped lead length from tape centre L 11.0 (0.43) 11.0 (0.43) Max
Lead wire protusion from hold down L22.0 (0.08) 2.0 (0.08) Max
Radial Leaded Capacitors - Packaging information
www.syfer.com | Phone: +44.1603.723300 | 57
www.knowlescapacitors.com
© Copyright Knowles Capacitors, 2015 - design: creations@panpublicity.co.uk
Knowles (Cazenovia)
2777 Route 20 East, Cazenovia, NY 13035 USA
Phone: +1 315 655 8710
Fax: +1 315 655 0445
DLISales@knowles.com
Novacap
25111 Anza Drive, Valencia, CA 91355 USA
Phone: +1 661 295 5920
Fax: +1 661 295 5928
NovacapSales@knowles.com
Knowles (UK) Ltd
Old Stoke Road, Arminghall, Norwich, NR14 8SQ UK
Phone: +44 1603 723300
Fax: +44 1603 723301
SyferSales@knowles.com
Voltronics Corporation
2250 Northwood Drive, Salisbury, MD 21801 USA
Phone: +1 410 749 2424
Fax: +1 443 260 2263
VoltronicsSales@knowles.com
Knowles Capacitors designs, manufactures and
sells special electronic components. Our products
are used in military, space, telecom infrastructure,
medical and industrial applications where function
and reliability are crucial.
9706/MLC/15/
