ETC 1210X104XXX

CERAMIC MULTILAYER CAPACITORS
PRODUCT CATALOG
QUALITY
DELIVERY
PERFORMANCE
SERVICE
TABLE OF CONTENTS
INTRODUCTION
–––––––––––––––––––––––––––––––––––––––––––––––––––––4
APPLICATION NOTES
–––––––––––––––––––––––––––––––––––––––––––––––6
DIELECTRIC CHARACTERISTICS –––––––––––––––––––––––––––––––––––––8
SMT-COG DIELECTRIC
––––––––––––––––––––––––––––––––––––––––––––10
SMT-X7R DIELECTRIC –––––––––––––––––––––––––––––––––––––––––––––12
SMT-BX DIELECTRIC
––––––––––––––––––––––––––––––––––––––––––––––14
SMT-Z5U-Y5V DIELECTRICS ––––––––––––––––––––––––––––––––––––––16
HIGH RELIABILITY SMT CHIPS ––––––––––––––––––––––––––––––––––––18
THIN PROFILE CAPACITORS
––––––––––––––––––––––––––––––––––––––20
HIGH TEMPERATURE SMT ––––––––––––––––––––––––––––––––––––––––22
RING DETECT CAPACITORS
––––––––––––––––––––––––––––––––––––––24
CERTIFIED SAFETY CAPACITORS
HIGH VOLTAGE MLC
-
HIGH VOLTAGE MLC
––––––––––––––––––––––––––––––25
COMMERCIAL –––––––––––––––––––––––26
-
HIGH RELIABILITY –––––––––––––––––29
SPECIALTY MLC PRODUCTS ––––––––––––––––––––––––––––32
CAPACITOR ARRAYS
–––––––––––––––––––––––––––––––––––34
HIGH TEMPERATURE CAPACITORS ––––––––––––––––––––36
RADIAL LEAD HV CAPACITORS-COMMERCIAL
––––––––38
RADIAL LEAD HV CAPACITORS-HIGH RELIABILITY–––––40
“ST”
CAPACITOR ASSEMBLIES
“SWITCH’M”
CAPACITOR ASSEMBLIES
CHIP MARKING SYSTEM
TAPE
&
–––––––––––––––––––––––––42
REEL SYSTEM
––––––––––––––––––44
–––––––––––––––––––––––––––––––––––46
–––––––––––––––––––––––––––––––––––––––47
NOVACAP
THE PREMIER SOURCE FOR APPLICATION SPECIFIC MULTILAYER CAPACITORS
NOVACAP-SYFER combines the expertise of two companies, Novacap in the USA and Syfer Technology in the UK, with
twenty and thirty years of history respectively, to provide high
performance surface mount components, and the broadest
range of application specific multilayer capacitors available in the
world. With manufacturing facilities in America and Europe,
Novacap-Syfer is globally situated to provide quick support and
service to the customer. Our goal is to be the premier source
for specialty multilayer capacitor products.
NOVACAP is a Dover company, with over ten sister companies servicing the electronics industry with equipment and
components throughout the world. NOVACAP operates from three modern manufacturing facilities occupying 93,000 square feet,
located in Valencia, California. NOVACAP produces multilayer capacitors, using advanced ceramic and electrode formulations, with
thin, dense and precise dielectric layers to satisfy unique and difficult requirements with unsurpassed quality. Product offerings
include surface mount capacitors from the miniature 0402 size chip to larger high voltage units, rated to 20kV, for both
commercial and high reliability applications, to satisfy EIA and MIL STD specifications. Products include the entire range of
popular chip sizes and dielectrics, and further specializes in Application Specific Products, which include High Temperature
SMT Capacitors, Thin Profile, Ring Detect, Certified Lightning Strike Capacitors, Medical Grade Capacitor Arrays,
Capacitor Assemblies for switch mode power supplies, and leaded capacitors in various styles.
SYFER TECHNOLOGY is a Novacap company, with an 80,000 square foot
plant located in Norwich, England, and is dedicated to the manufacture of multilayer
ceramic components utilizing a state-of-the-art, fully integrated computer controlled
“Wet Process” which provides products to the highest quality standards. Product
offerings include surface mount MLCs, from 16V rating to 500V rating, High Voltage
versions to 10KVdc, Stacked Assemblies for power supply applications, EMI Planar
Arrays
and
Discoidals,
EMI
chips,
EMI
Feedthrough
Filters,
Leaded
Capacitors,Varistor Arrays, and a variety of Application Specific products custom
designed for your needs.
4
NOVACAP QUALITY POLICY
Quality at NOVACAP is conformance to requirements in all our
dealings with: Our Customers - Our Vendors - Our Employees The Environment. The system for quality is prevention of defects,
and to attain continuous improvements in every activity. Every
employee is committed to doing the job right, the first time.
NOVACAP maintains an ongoing education program for all of its
employees, to create quality awareness, develop communication skills, provide
formal capacitor processing education, and to create problem solving teams.
TECHNICAL INFORMATION
NOVACAP provides Applications Notes in this catalog as a user’s guide to chip selection and
attachment methods. For more details on MLC products, please refer to the NOVACAP
Technical Brochure, available on the NOVACAP website. The Technical Brochure describes capacitor
applications, the nature of capacitance, dielectric properties and behavior, classes of dielectrics, ferroelectric behavior, electrical properties, test standards, high reliability testing, visual criteria and detailed user guidelines. Please do not hesitate to
contact the factory for any product or technical assistance.
IMPORTANT NOTICE
NOVACAP reserves the right to make changes in product designs and/or pricing. Sales are subject to the terms and conditions as
defined on NOVACAP invoice and packing slips. NOVACAP has no control on conditions of use; no warranties are made or implied
as to suitability for the customer’s intended use. NOVACAP shall in no event be responsible for incidental or consequential damages including, without limitation, to personal injury or property damage.
WEBSITE
The NOVACAP Website outlines the product offerings in catalog format. These
catalogs are updated on a routine basis, and presented in pdf format for easy
viewing and downloading. All capacitance values are shown as maximum values.
Please refer to the Webpage whenever you need to update your data sheets.
Web Page: www.novacap.com
E-Mail: [email protected]
NOVACAP MAIN OFFICE
25136 Anza Drive,Valencia, CA 91355
Tel: (661) 295-5920 Fax: (661) 295-5928
This catalog outlines the products available from NOVACAP. To access SYFER TECHNOLOGY catalogs or
obtain additional information please use the Syfer website at www.Syfer.com, or contact Syfer Sales directly
by telephone: 44 1603 723310, fax: 44 1603 723301, or Email: [email protected].
5
A P P L I C A T I O N
NOTES
CHIP SELECTION
Multilayer capacitors (MLC) are categorized by dielectric
performance with temperature, or “temperature coefficient”,
as these devices vary in behavior over temperature. The choice
of component is thus largely determined by the temperature
stability required of the device, i.e. type of dielectric, and the size
necessary for a given capacitance and voltage rating. The following
items are pertinent to chip selection:
DIELECTRIC TYPE
ATTACHMENT METHODS
COG: Ultra stable Class I dielectric, with negligible dependence of
electrical properties on temperature, voltage, frequency and time.
Used in circuitry requiring very stable performance.
Bonding of capacitors to substrates can be categorized into two
methods, those involving solder, which are prevalent, and those
using other materials, such as epoxies and thermo-compression or
ultrasonic bonding with wire.
X7R: Stable Class II dielectric, with predictable change in properties
with temperature, voltage, frequency and time. Used as blocking,
de-coupling, bypassing and frequency discriminating elements. This
dielectric is ferroelectric, and provides higher capacitance than Class I
Z5U/Y5V: General purpose Class III dielectrics with higher dielectric
constant and greater variation of properties with temperature and
test conditions. Very high capacitance per unit volume is attainable for
general purpose applications where stability is not important.
CAPACITOR SIZE
Size selection is based primarily on capacitance value and voltage rating. Smaller units are generally less expensive; 0805 is the most economical size. Because mass affects the thermal shock behavior of
chips, size selection must consider the soldering method used to
attach the chip to the board. Sizes 1812 and smaller can be wave,
vapor phase or reflow soldered. Larger units require reflow soldering.
TERMINATION MATERIAL
Nickel barrier termination, with exceptional solder leach resistance is
recommended for all applications involving solder. Silver palladium
termination is required for epoxy attachment, also for solder reflow
below 230°C . Silver termination, which is most ductile, yet leaches
readily in solder, is often preferred for units to be leaded, to minimize
thermal cycle stresses.
PACKAGING
Units are available in bulk, reeled or in waffle pack. Bar coding is
optional.
SOLDERING
Soldering methods commonly used in the industry and recommended are Reflow Soldering, Wave Soldering, and to a lesser
extent, Vapor Phase Soldering. All these methods involve thermal
cycling of the components and therefore the rate of heating and
cooling must be controlled to preclude thermal shocking of the
devices. In general, rates which do not exceed 100°C per minute
and a ∆T spike of 100°C maximum for any soldering process is
advisable. Other precautions include post soldering handling,
primarily avoidance of rapid cooling with contact with heat sinks,
such as conveyors or cleaning solutions.
Large chips are more prone to thermal shock as their greater bulk
will result in sharper thermal gradients within the device during
thermal cycling. Units larger than 1812 experience excessive stress
if processed through the fast cycles typical of solder wave or vapor
phase operations. Solder reflow is most applicable to the larger
chips as the rates of heating and cooling can be slowed within safe
limits.
Attachment using a soldering iron requires extra care, particularly
with large components, as thermal gradients are not easily
controlled and may cause cracking of the chip. Precautions include
preheating of the assembly to within 100°C of the solder flow
temperature, the use of a fine tip iron which does not exceed 30
watts, and limitation of contact of the iron to the circuit pad areas
only.
BONDING
Hybrid assembly using conductive epoxy or wire bonding requires
the use of silver palladium or gold terminations. Nickel barrier
termination is not practical in these applications, as an increase in
ESR results.
CLEANING
Chip capacitors can withstand common agents such as
water, alcohol and degreaser solvents used for cleaning boards. Ascertain that no flux residues are left
on the chip surfaces as these diminish
electrical performance.
6
BOARD DESIGN CONSIDERATIONS
The amount of solder applied to the chip capacitor will influence the reliability of the
device. Excessive solder can create thermal and tensile stresses on the component
which could lead to fracturing of the chip or the solder joint itself. Insufficient or
uneven solder application can result in weak bonds, rotation of the device off line or lifting of one terminal off the pad (tombstoning).
The volume of solder is process and board pad size dependent. WAVE SOLDERING exposes the
devices to a large solder volume, hence the pad size area must be restricted to accept an amount of solder which is not detrimental to
the chip size utilized. Typically the pad width is 66% of the component width, and the length is .030” (.760 mm) longer than the termination band on the chip. An 0805 chip which is .050” wide and has a .020” termination band therefore requires a pad .033” wide by
.050” in length. Opposing pads should be identical in size to preclude uneven solder fillets and mismatched surface tension forces which
can misalign the device. It is preferred that the pad layout results in alignment of the long axis of the chips at right angles to the solder
wave, to promote even wetting of all terminals. Orientation of components in line with the board travel direction may require dual
waves with solder turbulence to preclude cold solder joints on the trailing terminals of the devices, as these are blocked from full exposure to the solder by the body of the capacitor.
Restrictions in chip alignment do not apply to SOLDER REFLOW or VAPOR PHASE processes, where the solder volume is controlled by the solder paste deposition on the circuit pads. Pads are designed to match or slightly exceed the width of the capacitor, with length .030” (.760 mm) greater than the chip terminal band width, to provide a wetting area for a full solder fillet.
NOVACAP
publishes
a
Technical Brochure which pro-
SOLDER ATTACHMENT RECOMMENDED PROFILES
vides detailed information on the
properties
TEMPERATURE °C
250
of
ceramic
chip
capacitors, dielectric behavior,
225
product classifications, test and
200
quality standards, and other
175
150
information relevant to their
125
use. The NOVACAP Technical
100
Brochure is available upon
75
request. For quick reference
50
see the Brochure on the
20
40
60
80
100
120 140
160
180
200
NOVACAP Website at
www.novacap.com.
SECONDS
SOLDER WAVE
VAPOR PHASE
SOLDER REFLOW
RECOMMENDATIONS
Preheat/Cooling rates not to exceed 120°C/minute.
DT spikes to max temperature not to exceed 100°C
7
DIELECTRIC CHARACTERISTICS
NOVACAP produces capacitors with dielectric
characteristics COG (NPO), X7R, BX, Z5U and Y5V, per EIA RS
198, as outlined in the text and graphs following. High temperature versions of COG and X7R dielectrics are described in
separate data sheets for those products.
NOVACAP performs routine testing on production
representative products, for all dielectric materials, as verification of conformance to the
General Specifications. Following the guidelines of MIL-PRF-55681; periodic Group C inspections are performed on capacitor lots manufactured, with qualified materials, according to
documented procedures. The inspection data is generated following Electrical,
Mechanical and Environmental test methods and specifications of MIL-STD-202 and
EIA-198. The data records are maintained and utilized as assurance of our capability to meet the stated performance requirements.
G E N E R A L S P E C I F I C AT I O N S - E N V I RO N M E N TA L
Thermal Shock:
MIL-STD-202, Method 107,
Condition A (125°C)
Immersion:
MIL-STD-202, Method 104,
Condition B
Humidity Steady State
(Low Voltage):
Life:
MIL-STD-202, Method 103,
Condition A 85°C, 85% RH,
DC bias 1.3 +/- 0.25 Vdc.
MIL-STD-202, Method 108
Condition F (2,000 Hrs).
G E N E R A L S P E C I F I C AT I O N S - M E C H A N I C A L
Terminal Strength:
MIL-STD-202, Method 211
Condition A. Force 4 lbs Min. Adhesion
Solderability:
MIL-STD-202, Method 208.
Resistance to
MIL-STD-202, Method 210,
Soldering Heat:
Test Condition B.
DIELECTRIC CHARACTERISTICS - COG
OPERATING TEMPERATURE RANGE:
-55˚C to 125˚C
∆C ppm
TEMPERATURE COEFFICIENT:
0 +/- 30 ppm/°C
50
DISSIPATION FACTOR:
.001 (0.1%) max @ 25°C
25
INSULATION RESISTANCE, 25°C
125°C
> 100GΩ or >1000ΩF
> 10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
< 200V, 250%
201-500V,150% or 500V*
> 500V, 120%, or 750V*
-25
AGING RATE:
0% per decade
-50
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
1MHZ for Capacitance <100pF
* WHICHEVER IS GREATER
8
TEMPERATURE COEFFICIENT
UPPER LIMIT
0
TYPICAL
LOWER LIMIT
-55
-25
0
25°C
50
75
100
125
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
+/-15% ∆C Max.
TEMP-VOLTAGE COEFFICIENT (BX):
+15% -25% ∆C Max.
DISSIPATION FACTOR:
2.5% max @ >25V rating
3.5% max @ <25V rating
INSULATION RESISTANCE, 25°C
125°C
> 100GΩ or >1000ΩF
> 10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
< 200V, 250%
201-500V,150% or 500V*
> 500V, 120%, or 750V*
* WHICHEVER IS GREATER
AGING RATE:
TEST PARAMETERS:
% CAPACITANCE CHANGE
DIELECTRIC CHARACTERISTICS - X7R/BX
TEMPERATURE COEFFICIENT
%∆C
20
UPPER LIMIT
15
10
5
0
-5
-10
-15
TYPICAL
LOWER LIMIT
-20
< 2.0% per decade
-55
-35
-15
5
25
45
65
85
105
125
TEMPERATURE (˚C)
1KHz, 1.0 +/- 0.2 VRMS, 25°C
DIELECTRIC CHARACTERISTICS - Z5U
+ 10°C to 85°C
TEMPERATURE COEFFICIENT:
+ 22%-56% ∆C Max.
DISSIPATION FACTOR:
4.0% max @ 25°C
INSULATION RESISTANCE, 25°C
> 10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
< 200V, 250%
250V, 150%
AGING RATE:
~ 2.0% per decade
TEST PARAMETERS:
1KHz, 0.5 +/- 0.2 VRMS, 25°C
TEMPERATURE COEFFICIENT
%∆C
% CAPACITANCE CHANGE
OPERATING TEMPERATURE RANGE:
80
40
UPPER LIMIT
0
TYPICAL
-40
LOWER LIMIT
-80
-55
-25
0
25°C
50
75
100
125
TEMPERATURE (˚C)
DIELECTRIC CHARACTERISTICS - Y5V
-30°C to 85°C
%∆C
TEMPERATURE COEFFICIENT:
+ 22%-82% ∆C Max.
100
DISSIPATION FACTOR:
5.0% max @ >25V rating
7.0% max @ <25V rating
INSULATION RESISTANCE, 25°C
> 10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
< 200V, 250%
250V, 150%
AGING RATE:
~ 2.0% per decade
TEST PARAMETERS:
1KHz, 0.5 +/- 0.2 VRMS, 25°C
% CAPACITANCE CHANGE
OPERATING TEMPERATURE RANGE:
TEMPERATURE COEFFICIENT
50
UPPER LIMIT
0
TYPICAL
-50
LOWER LIMIT
-100
-55
-25
0
25°C
50
75
100
125
TEMPERATURE (˚C)
9
SMT-COG DIELECTRIC
Ultra stable Class I dielectric (EIA COG) or NPO:
linear temperature coefficient, low loss, stable electrical
properties with time, voltage and frequency. Designed for
surface mount application with nickel barrier termination
suitable for solder wave, vapor phase or reflow solder board attachment. Also available with silver-palladium terminations for hybrid use with conductive epoxy.
COG chips are used in precision circuitry requiring Class I stability.
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
Min Cap
0R1
0R1
0R1
0R1
0R1
0R5
3R0
100
150
390
390
390
16V
271
182
102
472
682
153
273
333
393
823
823
104
25V
221
122
821
392
562
123
223
273
393
823
823
104
V O LTA G E
50V
181
102
681
332
472
103
223
223
333
823
823
104
100V
101
561
331
182
222
562
103
123
183
563
563
683
200V
680
391
271
122
182
392
822
103
123
393
393
473
250V
470
271
181
821
122
272
562
682
822
273
273
333
300V
•
•
•
561
821
182
392
472
682
183
183
223
&
400V
•
•
•
561
821
152
272
332
472
123
123
153
500V
•
•
•
471
681
102
222
272
392
123
103
153
600V
•
•
•
471
681
102
222
222
332
103
822
123
800V*
•
•
•
471
681
102
222
182
272
822
822
103
1000V*
•
•
•
331
471
821
182
152
222
822
822
103
1500V*
•
•
•
•
•
561
122
122
222
682
682
822
2000V*
•
•
•
•
•
271
681
821
122
392
392
472
3000V*
•
•
•
•
•
•
•
331
561
182
182
222
4000V*
•
•
•
•
•
•
•
181
331
102
102
122
•
•
•
MAX
SIZE
CAP
CAPACITANCE & VOLTAGE SELECTION FOR POPULAR CHIP SIZES
3 digit code: two significant digits, followed by number of zeros eg: 183 = 18,000 pF. R denotes decimal, eg. 2R7 = 2.7 pF
*Units rated above 800V may require conformal coating in use to preclude arcing over the chip surface.
10
PRODUCT OFFERING
See chart for standard EIA case sizes and available capacitance and
voltage ratings. Special sizes, thickness and other voltage ratings are available,
see other NOVACAP product offerings. High reliability testing is available
per MIL-PRF-55681, MIL-PRF-123, or to customer SCD. Please consult the
factory with your requirements. NOVACAP has complete testing facilities at your disposal.
T
L
MB
W
DIMENSIONS +/- INCHES (MM)
SIZE
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
LENGTH L .040 (1.02) .050 (1.27) .060 (1.52) .080 (2.03) .100 (2.54) .125 (3.18) .125 (3.18) .180 (4.57) .180 (4.57) .180 (4.57) .220 (5.59) .220 (5.59)
WIDTH W .020 (.508) .040 (1.02) .030 (.760) .050 (1.27) .050 (1.27) .060 (1.52) .100 (2.54) .080 (2.03) .125 (3.18) .250 (6.35) .210 (5.33) .250 (6.35)
T MAX.
.024 (.610) .044 (1.12) .035 (.889) .054 (1.37) .054 (1.37) .064 (1.63) .065 (1.65) .065 (1.65) .065 (1.65) .080 (2.03) .080 (2.03) .080 (2.03)
MB
.010 (.254)
.014 (.355) .014 (.355) .020 (.508) .020 (.508) .020 (.508)
.020 (.508) .024 (.610) .024 (.610) .024 (.610) .030 (.760) .030 (.760)
TOLERANCES +/- INCHES (MM)
LENGTH
WIDTH
MB
.004 (.102)
.006 (.152) .006 (.152)
.008 (.203) .008 (.203) .008 (.203) .008 (.203) .012 (.305) .012 (.305) .012 (.305) .015 (.380) .015 (.380)
.004 (.102)
.006 (.152) .006 (.152)
.008 (.203) .008 (.203) .008 (.203) .008 (.203) .008 (.203) .008 (.203) .015 (.380) .015 (.380) .015 (.380)
.006 (.152)
.006 (.152) .006 (.152)
.010 (.254) .010 (.254) .010 (.254) .010 (.254) .014 (.355) .014 (.355) .014 (.355) .015 (.380) .015 (.380)
HOW TO ORDER
N
272
J
101
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE-VDCW
TERMINATION
See Chart
N =COG
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
272 = 2700 pF
B = 0.10 pF
Two significant
figures, followed
by number of
zeros:
N = Nickel Barrier
P = Ag-Pd
1206
(0.1 to 10 pF)
C = 0.25 pF
(0.1 to 10 pF)
D = 0.50 pF
(0.1 to 20 pF)
F = +/- 1.0 %
G = +/- 2.0 %
H = +/- 3.0 %
J = +/- 5.0 %
K = +/- 10 %
M = +/- 20 %
Z = +80% -20%
P = +100% -0%
101 = 100V
N
X
T
M
THICKNESS
OPTION
PACKING
OPTION
MARKING
OPTION
X=Non standard
thickness. Specify
in Mils if Non EIA
thickness is
required.
T=Reeled
M=Marked
(See Marking
Specifications)
11
SMT-X7R DIELECTRIC
Stable EIA Class II dielectric, with +/-15% temperature
coefficient and predictable variation of electrical properties with
time, temperature and voltage.These chips are designed for surface
mount application with nickel barrier terminations suitable for solder wave, vapor phase or reflow solder board attachment. Also available in silver-palladium
terminations for hybrid use with conductive epoxy. Class II X7R chips are used as
decoupling, by-pass, filtering and transient voltage suppression elements.
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
Min Cap
121
121
121
121
121
121
121
121
391
821
821
821
16V
682
393
273
124
184
334
684
824
125
185
185
225
25V
562
273
183
104
124
274
564
684
105
185
155
185
V O LTA G E
50V
562
273
183
104
124
224
474
564
824
155
155
185
100V
272
153
103
563
683
124
274
334
564
155
125
155
200V
182
103
682
333
473
823
184
224
334
105
824
105
250V
182
103
682
273
393
563
124
154
334
564
684
105
300V
•
•
•
223
333
563
124
124
224
564
564
684
&
400V
•
•
•
153
223
473
104
124
184
474
394
564
500V
•
•
•
103
153
273
563
563
104
274
274
334
600V
•
•
•
822
123
223
473
563
823
224
224
274
800V*
•
•
•
472
682
123
273
333
473
154
154
184
1000V*
•
•
•
272
472
682
153
183
273
823
104
124
1500V*
•
•
•
•
•
222
472
562
822
273
273
333
2000V*
•
•
•
•
•
102
222
272
392
153
153
183
3000V*
•
•
•
•
•
•
•
821
122
472
472
562
4000V*
•
•
•
•
•
•
•
391
561
222
222
272
•
•
•
MAX
SIZE
CAP
CAPACITANCE & VOLTAGE SELECTION FOR POPULAR CHIP SIZES
3 digit code: two significant digits, followed by number of zeros eg: 473 = 47,000 pF
*Units rated above 800V may require conformal coating in use to preclude arcing over the chip surface.
12
PRODUCT OFFERING
See chart for standard EIA case sizes and available capacitance and
voltage ratings. Special sizes, thickness and other voltage ratings are available,
see other NOVACAP product offerings. High reliability testing is available
per MIL-PRF-55681, MIL-PRF-123, or to customer SCD. Please consult the
factory with your requirements. NOVACAP has complete testing facilities at your disposal.
T
L
MB
W
DIMENSIONS +/- INCHES (MM)
SIZE
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
.050 (1.27) .060 (1.52) .080 (2.03) .100 (2.54) .125 (3.18) .125 (3.18) .180 (4.57) .180 (4.57) .180 (4.57) .220 (5.59) .220 (5.59)
LENGTH L .040 (1.02)
WIDTH W .020 (.508) .040 (1.02) .030 (.760) .050 (1.27) .050 (1.27) .060 (1.52) .100 (2.54) .080 (2.03) .125 (3.18) .250 (6.35) .210 (5.33) .250 (6.35)
T MAX.
.024 (.610) .044 (1.12) .035 (.889) .054 (1.37) .054 (1.37) .064 (1.63) .065 (1.65) .065 (1.65) .065 (1.65) .080 (2.03) .080 (2.03) .080 (2.03)
MB
.010 (.254)
.014 (.355) .014 (.355) .020 (.508) .020 (.508) .020 (.508)
.020 (.508) .024 (.610) .024 (.610) .024 (.610) .030 (.760) .030 (.760)
TOLERANCES +/- INCHES (MM)
LENGTH
WIDTH
MB
.004 (.102)
.006 (.152) .006 (.152) .008 (.203)
.008 (.203) .008 (.203)
.008 (.203) .012 (.305) .012 (.305) .012 (.305) .015 (.380) .015 (.380)
.004 (.102)
.006 (.152) .006 (.152) .008 (.203)
.008 (.203) .008 (.203)
.008 (.203) .008 (.203) .008 (.203) .015 (.380) .015 (.380) .015 (.380)
.006 (.152)
.006 (.152) .006 (.152) .010 (.254)
.010 (.254) .010 (.254)
.010 (.254) .014 (.355) .014 (.355) .014 (.355) .015 (.380) .015 (.380)
HOW TO ORDER
B
104
J
250
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE-VDCW
TERMINATION
See Chart
B = X7R
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
J = +/- 5.0%
Two significant
figures, followed
by number of
zeros:
N=Nickel Barrier
P=Ag-Pd
1206
K = +/- 10 %
M = +/- 20 %
Z = +80%-20%
P = +100%-0%
250=25V
N
X
T
M
THICKNESS
OPTION
PACKING
OPTION
MARKING
OPTION
X=Non standard
thickness. Specify
in Mils if Non EIA
thickness is
required.
T=Reeled
M=Marked
(See Marking
Specifications)
104=100,000pF
13
SMT
-
BX DIELECTRIC
BX characteristics are identical to X7R dielectric,
with the added restriction that the Temperature-Voltage
Coefficient (TVC) is not to exceed -25% ∆C at rated
voltage, over the operating temperature range (-55°C to
125°C). NOVACAP manufactures chips using dielectrics with minimal voltage coefficient and layer thickness design to meet BX requirements.
BX dielectric code is X.
M A X C A P & V O LT A G E
CAPACITANCE & VOLTAGE SELECTION FOR POPULAR CHIP SIZES
3 digit code: two significant digits, followed by number of zeros eg: 473 = 47,000 pF
14
SIZE
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
Min Cap
121
121
121
121
121
121
121
221
471
821
821
821
16V
682
393
273
124
184
334
684
824
125
185
185
225
25V
562
273
183
104
124
274
564
684
105
185
185
185
50V
222
123
822
393
563
124
224
274
474
125
125
155
100V
471
472
272
123
183
393
683
823
124
334
334
394
200V
151
122
681
272
392
681
183
183
333
823
823
104
250V
121
681
331
222
332
682
123
153
273
683
683
823
300V
•
•
•
152
222
392
103
103
183
473
473
563
400V
•
•
•
681
102
182
472
562
103
273
273
273
500V
•
•
•
561
102
182
392
392
682
183
183
223
PRODUCT OFFERING
See chart for standard EIA case sizes and available capacitance
and voltage ratings. Special sizes, thickness and other voltage ratings are
available, see other NOVACAP product offerings. High reliability testing is
available per MIL-PRF-55681, MIL-PRF-123, or to customer SCD. Please
consult the factory with your requirements. NOVACAP has complete
testing facilities at your disposal.
T
L
MB
W
DIMENSIONS +/- INCHES (MM)
SIZE
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
.050 (1.27) .060 (1.52) .080 (2.03) .100 (2.54) .125 (3.18) .125 (3.18) 180 (4.57) .180 (4.57) .180 (4.57) .220 (5.59) .220 (5.59)
LENGTH L .040 (1.02)
WIDTH W .020 (.508) .040 (1.02) .030 (.760) .050 (1.27) .050 (1.27) .060 (1.52) .100 (2.54) .080 (2.03) .250 (6.35) .250 (6.35) .210 (5.33) .250 (6.35)
T MAX.
.024 (.610) .044 (1.12) .035 (.889) .054 (1.37) .054 (1.37) .064 (1.63) .065 (1.65) .065 (1.65) .080 (2.03) .080 (2.03) .080 (2.03) .080 (2.03)
MB
.010 (.254)
.014 (.355) .014 (.355) .020 (.508) .020 (.508) .020 (.508)
.020 (.508) .024 (.610) .024 (.610) .024 (.610) .030 (.760) .030 (.760)
TOLERANCES +/- INCHES (MM)
LENGTH
WIDTH
MB
.004 (.102)
.006 (.152) .006 (.152) .008 (.203)
.008 (.203) .008 (.203)
.008 (.203) .012 (.305) .012 (.305) .012 (.305) .015 (.380) .015 (.380)
.004 (.102)
.006 (.152) .006 (.152) .008 (.203)
.008 (.203) .008 (.203)
.008 (.203) .008 (.203) .008 (.203) .015 (.380) .015 (.380) .015 (.380)
.006 (.152)
.006 (.152) .006 (.152) .010 (.254)
.010 (.254) .010 (.254)
.010 (.254) .014 (.355) .014 (.355) .014 (.355) .015 (.380) .015 (.380)
HOW TO ORDER
X
104
J
250
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE-VDCW
TERMINATION
See Chart
X = BX
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
J = +/- 5.0%
Two significant
figures, followed
by number of
zeros:
N=Nickel Barrier
P=Ag-Pd
1206
K = +/- 10%
M = +/- 20%
250=25V
N
X
T
M
THICKNESS
OPTION
PACKING
OPTION
MARKING
OPTION
X=Non standard
thickness. Specify
in Mils if Non EIA
thickness is
required.
T=Reeled
M=Marked
(See Marking
Specifications)
104=100,000pF
15
SMT-Z5U-Y5V DIELECTRICS
General purpose EIA Class III dielectrics with +22% to
-56% (Z5U) and +22% -82% (Y5V) temperature coefficients and
very high capacitance density. The NOVACAP Z5U and Y5V
formulations are very stable with time, typically aging less than
2% per decade. General purpose chips are used in by-pass and decoupling functions
and other applications where capacitance change over the operating temperature
range is not critical.
CAPACITANCE & VOLTAGE SELECTION FOR POPULAR CHIP SIZES
3 digit code: two significant digits, followed by number of zeros eg: 473 = 47,000 pF
MAX CAP & VOLTAGE
Z5U DIELECTRIC
SIZE
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
Min Cap
121
121
121
391
561
561
561
182
272
822
822
822
16V
333
184
154
684
824
155
335
395
565
106
156
106
25V
273
154
104
474
684
125
225
335
475
106
126
106
50V
183
104
683
334
474
105
185
225
395
825
106
825
100V
472
393
273
124
184
274
564
684
125
225
335
225
200V
152
103
562
333
393
823
184
224
394
824
125
105
250V
102
682
472
223
333
563
124
154
224
684
824
684
MAX CAP & VOLTAGE
Y5V DIELECTRIC
16
SIZE
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
Min Cap
121
121
121
471
681
681
681
222
332
103
103
103
16V
393
224
184
824
105
185
395
475
685
126
126
186
25V
333
184
124
564
824
155
275
395
565
126
126
156
50V
223
124
823
394
564
125
225
275
475
106
106
126
100V
562
473
333
154
224
334
684
824
155
275
275
395
200V
182
123
682
393
473
104
224
274
474
105
125
155
250V
122
822
562
273
393
683
154
184
274
824
824
105
PRODUCT OFFERING
See chart for standard EIA case sizes and available capacitance and
voltage ratings.The low aging rate of the Novacap dielectrics permits the manufacture of Z5U and Y5V chips with K (+/-10%) capacitance tolerance, as well
as the M, Z and P tolerance offerings. Special sizes, thickness and other
voltage ratings are available, see other NOVACAP product offerings.
Please consult the factory with your requirements.
T
L
MB
W
DIMENSIONS +/- INCHES (MM)
SIZE
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
.050 (1.27) .060 (1.52) .080 (2.03) .100 (2.54) .125 (3.18) .125 (3.18) .180 (4.57) .180 (4.57) .180 (4.57) .220 (5.59) .220 (5.59)
LENGTH L .040 (1.02)
WIDTH W .020 (.508) .040 (1.02) .030 (.760) .050 (1.27) .050 (1.27) .060 (1.52) .100 (2.54) .080 (2.03) .125 (3.18) .250 (6.35) .210 (5.33) .250 (6.35)
T MAX.
.024 (.610) .044 (1.12) .035 (.889) .054 (1.37) .054 (1.37) .064 (1.63) .065 (1.65) .065 (1.65) .065 (1.65) .080 (2.03) .080 (2.03) .080 (2.03)
MB
.010 (.254)
.014 (.355) .014 (.355) .020 (.508) .020 (.508) .020 (.508)
.020 (.508) .024 (.610) .024 (.610) .024 (.610) .030 (.760) .030 (.760)
TOLERANCES +/- INCHES (MM)
LENGTH
WIDTH
MB
.004 (.102)
.006 (.152) .006 (.152) .008 (.203)
.008 (.203) .008 (.203)
.008 (.203) .012 (.305) .012 (.305) .012 (.305) .015 (.380) .015 (.380)
.004 (.102)
.006 (.152) .006 (.152) .008 (.203)
.008 (.203) .008 (.203)
.008 (.203) .008 (.203) .008 (.203) .015 (.380) .015 (.380) .015 (.380)
.006 (.152)
.006 (.152) .006 (.152) .010 (.254)
.010 (.254) .010 (.254)
.010 (.254) .014 (.355) .014 (.355) .014 (.355) .015 (.380) .015 (.380)
HOW TO ORDER
1206
SIZE
See Chart
Y
104
M
250
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE-VDCW
TERMINATION
Z = Z5U
Y = Y5V
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
K = +/- 10%
N = Nickel Barrier
90/10 Sn/Pb
Z = +80%-20%
Two significant
figures, followed
by number of
zeros:
P = +100%-0%
250=25V
M = +/- 20%
N
X
THICKNESS
OPTION
X=Non standard
thickness. Specify
V = Non solderable
in Mils if Non EIA
Silver
thickness is
required.
T
M
PACKING
OPTION
MARKING
OPTION
T = Reeled
M=Marked
(See Marking
Specifications)
104=100,000pF
17
HIGH RELIABILITY SMT CHIPS
NOVACAP manufactures and tests COG, BX and X7R chips
in accordance with MIL-PRF-55681, MIL-PRF-123, MIL-PRF-49467,
HALT, or customer SCD. Product is designed for optimum reliability,
burned in at elevated voltage and temperature, and 100% physically
and electrically inspected to ascertain conformance to strict
performance criteria. Voltage ratings from 25 VDC to 500 VDC are available on standard EIA case sizes.
Applications for High Reliability products include medical implanted devices, aerospace, airborne and
various military applications, and consumer uses requiring safety margins not attainable with
conventional product. High voltage conditioning up to 20 KV for specialty devices is also
available, please refer to other NOVACAP product offerings.
CAPACITANCE SELECTION FOR FR-P
PARTS MEETING FR-R AND FR-S ARE ALSO AVAILABLE
3 digit code: two significant digits, followed by number of zeros eg: 183 = 18,000 pF
MAX CAP & VOLTAGE
COG DIELECTRIC
SIZE
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
Min Cap
0R1
0R1
0R1
0R1
1R0
1R0
5R0
100
100
270
270
270
25V
121
681
331
222
472
822
183
223
333
823
823
104
50V
121
681
331
222
472
822
153
223
333
823
823
104
100V
680
391
181
122
222
472
103
123
183
563
563
683
250V
330
151
101
821
122
182
392
472
682
223
223
273
500V
•
•
•
471
681
102
222
222
392
123
123
153
MAX CAP & VOLTAGE
X7R/BX DIELECTRIC
18
SIZE
0402
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
Min Cap
121
121
121
121
121
121
121
151
271
471
561
681
X7R BX
X7R BX
X7R BX
X7R
BX
X7R BX
X7R
25V
332 332
50V
X7R BX
X7R
183 183
822 822
563 563
104 104 184 184
394 394
474 474 824 824 185
272 122
153 562
682 272
473 273
823 393 154 683
334 154
100V
222 471
123 472
562 272
393 123
683 183 104 393
250V
471
•
272 681
182 331
123 182
500V
•
•
392 561
•
BX
•
•
•
BX
X7R BX
X7R
BX
X7R BX
X7R
BX
185
155 155 185
185
394 224 684 334 185
824
155 824 185
105
224 683
274 823 564 124 125
334
105 334 125
394
183 332 273 682
563 123
563 153 104 273 274
683
224 683 274
823
562 102 103 182
223 332
223 392 393 682 124
183
124 183 154
223
T
L
MB
W
DIMENSIONS +/- INCHES (MM)
SIZE
0402
LENGTH L .040 (1.02)
WIDTH W .020 (.508)
T MAX.
.024 (.610)
MB
.010 (.254)
0504
0603
0805
1005
1206
1210
1808
1812
1825
2221
2225
.050 (1.27) .060 (1.52) .080 (2.03) .100 (2.54) .125 (3.18)
.125 (3.18) .180 (4.57) .180 (4.57) .180 (4.57) .220 (5.59) .220 (5.59)
.040 (1.02) .030 (.760) .050 (1.27) .050 (1.27) .060 (1.52)
.100 (2.54) .080 (2.03) .125 (3.18) .250 (6.35) .210 (5.33) .250 (6.35)
.044 (1.12) .035 (.889) .054 (1.37) .054 (1.37) .064 (1.63)
.065 (1.65) .065 (1.65) .065 (1.65) .080 (2.03) .080 (2.03) .080 (2.03)
.014 (.355) .014 (.355) .020 (.508) .020 (.508) .020 (.508)
.020 (.508) .024 (.610) .024 (.610
.024 (.610) .030 (.760) .030 (.760)
TOLERANCES +/- INCHES (MM)
LENGTH
WIDTH
MB
.004 (.102)
.006 (.152) .006 (.152) .008 (.203)
.008 (.203) .008 (.203)
.008 (.203) .012 (.305) .012 (.305) .012 (.305) .015 (.380) .015 (.380)
.004 (.102)
.006 (.152) .006 (.152) .008 (.203)
.008 (.203) .008 (.203)
.008 (.203) .008 (.203) .008 (.203) .015 (.380) .015 (.380) .015 (.380)
.006 (.152)
.006 (.152) .006 (.152) .010 (.254)
.010 (.254) .010 (.254)
.010 (.254) .014 (.355) .014 (.355) .014 (.355) .015 (.380) .015 (.380)
MIL-PRF SCREENING FLOWCHARTS
MIL-PRF-55681
MIL-PRF-123
MIL-PRF-49467
(GROUP A)
(GROUP A)
(GROUP A)
100% ELECTRICALS
THERMAL SHOCK
DPA
THERMAL SHOCK
DWV
VOLTAGE CONDITIONING
168 HRS, 2X VDCW, 125°C
VISUAL INSPECTION
VOLTAGE CONDITIONING
100 HRS, 2X VDCW, 125°C
VISUAL & MECH. INSPECTION
DWV, IR, HOT IR, CAP, DF TEST
DPA
VISUAL & MECH. INSPECTION
VOLTAGE CONDITIONING
96 HRS, VDCW, 125°C
PARTIAL DISCHARGE
CAP, DF, DWV. IR TESTING
VISUAL & MECH. INSPECTION
DWV, IR, CAP, DF TEST
SOLDERABILITY
SOLDERABILITY
B&C
ENVIRONMENTAL & LIFE TEST
B&C
ENVIRONMENTAL & LIFE TEST
B&C
ENVIRONMENTAL & LIFE TEST
HOW TO ORDER
1210
SIZE
X
104
DIELECTRIC CAPACITANCE
See Chart N = NPO
X = BX
B = X7R
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
104=100,000pF
M
250
N
X
H
T
TOLERANCE
VOLTAGE-VDCW
TERMINATION
F = +/- 1%
N = Nickel
Barrier
90/10 Sn/Pb
THICKNESS
OPTION
HI REL
TESTING
PACKING
OPTION
MARKING
OPTION
T=Reeled
M=Marked
(See Marking
Specifications)
J = +/- 5%
250=25V
X=Non
standard
thickness.
Specify in
Mils if Non
EIA thickness
is required.
Specify Test
Criteria
COG only
Two significant
figures, followed
by number of
zeros:
G = +/- 2%
K = +/- 10%
M = +/- 20%
P = Silver
Palladium
M
19
THIN PROFILE CAPACITORS
Popular EIA size chips are offered in very thin profile
configuration with COG, X7R, Z5U and Y5V dielectric
characteristics rated at 5 Vdc to 50 Vdc, for use as
decoupling capacitors under other circuit elements, or
for low profile RFID and “Smart Card” circuitry.
MAX CAPACITANCE AT DISCRETE THICKNESS
3 digit code: two significant digits, followed by number of zeros
eg: 472= 4700 pF. R denotes decimal, eg. 2R7 = 2.7 pF
SIZE
0805
1206
1210
LENGTH L
.080 (2.03)
.125 (3.18)
.125 (3.18)
WIDTH W
.050 (1.27)
.060 (1.52)
.100 (2.54)
MB
.020 (.508)
.020 (.508)
.020 (.508)
MAXIMUM THICKNESS
INCHES
.012
.015
.018
.015
.018
.020
.015
.018
.020
MM
.305
.381
.457
.381
.457
.508
.381
.457
.508
COG DIELECTRIC
T
L
MB
0R1
0R1
0R1
0R5
0R5
0R5
3R0
3R0 3R0
5V
122
182
222
472
562
682
822
103
123
16V
821
122
152
332
392
472
392
682
822
25V
681
102
122
272
332
392
472
562
682
50V
471
821
102
182
272
272
332
472
562
MAX
CAP
@
W
V O LTA G E
Min Cap
X7R DIELECTRIC
Min Cap
121
121
121
121
121
121
121
121
121
5V
223
273
473
683
823
104
124
184
184
16V
223
273
393
683
823
104
124
154
184
25V
153
223
273
563
683
823
104
124
154
50V
123
183
223
333
563
683
823
104
124
DIMENSIONAL TOLERANCES
20
+/-
INCHES (MM)
LENGTH L
.008 (.203)
.008 (.203)
.008 (.203)
WIDTH W
.008 (.203)
.008 (.203)
.008 (.203)
MB
.010 (.254)
.010 (.254)
.010 (.254)
MAX CAPACITANCE AT DISCRETE THICKNESS
(continued)
SIZE
0805
1206
1210
LENGTH L
.080 (2.03)
.125 (3.18)
.125 (3.18)
WIDTH W
.050 (1.27)
.060 (1.52)
.100 (2.54)
MB
.020 (.508)
.020 (.508)
.020 (.508)
MAXIMUM THICKNESS
INCHES
.012
.015
.018
.015
.018
.020
.015
.018
.020
MM
.305
.381
.457
.381
.457
.508
.381
.457
.508
Z5U DIELECTRIC
391
391
391
561
561
561
561
561
561
5V
124
154
254
274
394
394
564
684
824
16V
124
154
254
274
394
394
564
684
824
25V
683
104
124
224
274
334
474
564
684
50V
473
683
823
154
184
224
334
394
474
MAX
CAP
@
V O LTA G E
Min Cap
Y5V DIELECTRIC
Min Cap
121
121
121
121
121
121
121
121
121
5V
154
184
274
334
474
474
684
824
105
16V
154
184
274
334
474
474
684
824
105
25V
823
124
154
274
334
394
564
684
824
50V
563
823
104
184
224
274
394
474
564
HOW TO ORDER
0805
Z
104
M
160
N
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE-VDCW
TERMINATION
See Chart
N = COG
B = X7R
Z = Z5U
Y = Y5V
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
J = +/- 5%
Two significant
figures, followed
by number of
zeros:
N = Nickel Barrier
V = Non solderable
Silver
P = Ag-Pd COG,
X7R Only
104=100,000pF
P = +100% - 0%
K = +/- 10%
COG, X7R Only
M = +/- 20%
Z = + 80% - 20%
160 =16V
X
T
THICKNESS
OPTION
PACKING
OPTION
X=Non standard
thickness. Specify
in Mils if Non EIA
thickness is
required.
T=Reeled
21
HIGH TEMPERATURE SMT
NOVACAP manufactures chip capacitors designed to
operate to 200°C in both COG and X7R dielectrics, for use in
harsh environments, such as oil exploration and engine
compartment circuitry. Product is available as surface mount
chips in sizes 0805 to 7565, or as leaded encapsulated
devices in sizes 1515 to 7565, rated to 500 volts (see additional data sheet). Consult
NOVACAP for your specific requirements.
CAPACITANCE SELECTION
3 digit code: two significant digits, followed by number of zeros eg: 183 = 18,000 pF
SIZE
0805
1206
1210
1812
1825
2225
4540
7565
LENGTH L
.080 (2.03)
.125 (3.18)
.125 (3.18)
.180 (4.57)
.180 (4.57)
.220 (5.59)
.450 (11.4)
.750 (19.0)
WIDTH W
.050 (1.27)
.060 (1.52)
.100 (2.54)
.125 (3.18)
.250 (6.35)
.250 (6.35)
.400 (10.2)
.650 (16.5)
T MAX.
.054 (1.37)
.064 (1.63)
.065 (1.65)
.065 (1.65)
.080 (2.03)
.080 (2.03)
.300 (7.62)
.400 (10.2)
MB
.020 (.508)
.020 (.508)
.020 (.508)
.024 (.610)
.024 (.610)
.030 (.760)
.060 (1.52)
.060 (1.52)
COG DIELECTRIC
0R5
1R0
5R0
220
560
680
221
102
25V
222
682
123
223
473
563
224
474
50V
152
562
123
183
393
473
154
474
100V
821
272
472
822
223
273
124
474
250V
561
182
392
562
183
223
124
274
500V
331
821
182
272
822
103
563
184
200˚C
-
X7R DIELECTRIC
Min Cap
121
221
331
331
471
471
102
103
25V
563
184
334
684
125
155
565
186
50V
473
124
274
474
684
684
395
126
100V
333
823
184
394
394
394
275
106
250V
153
393
823
154
184
224
225
685
500V
332
822
183
393
563
563
824
335
M A X
C A P
-
Min Cap
@
V O L T A G E
200˚C
DIMENSIONAL TOLERANCES
22
+/-
INCHES (MM)
LENGTH L
.008 (.203)
.008 (.203)
.008 (.203)
.012 (.305)
.012 (.305)
.015 (.380)
.015 (.380)
.015 (.380)
WIDTH W
.008 (.203)
.008 (.203)
.008 (.203)
.008 (.203)
.015 (.380)
.015 (.380)
.015 (.380)
.015 (.380)
MB
.010 (.254)
.010 (.254)
.010 (.254)
.014 (.355)
.014 (.355)
.015 (.380)
.015 (.380)
.015 (.380)
COG “D” CHARACTERISTICS
X7R “E” DIELECTRIC CHARACTERISTICS
OPERATING TEMPERATURE RANGE:
-55°C to 200°C
OPERATING TEMPERATURE RANGE:
-55°C to 200°C
TEMPERATURE COEFFICIENT UP TO 125˚C:
0 +/- 30 ppm/°C
TEMPERATURE COEFFICIENT UP TO 125˚C:
See TC Graph below.
DISSIPATION FACTOR @ 25°C:
.001 (0.1%) max
DISSIPATION FACTOR @ 25° C:
2.5% max @ >25V, 3.5% max ≤25V
INSULATION RESISTANCE, 25°C
125°C
> 100GΩ or >1000ΩF
> 10GΩ or >100ΩF
INSULATION RESISTANCE, 25°C
125°C
> 100GΩ or >1000ΩF
> 10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
< 200V, 250%
201-500V,150% or 500V*
> 500V, 120%, or 750V*
DIELECTRIC WITHSTANDING VOLTAGE:
* WHICHEVER IS GREATER
* WHICHEVER IS GREATER
< 200V, 250%
201-500V,150% or 500V*
> 500V, 120%, or 750V*
AGING RATE:
0% per decade
AGING RATE:
< 2.0% per decade
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
1MHZ for Capacitance <100pF
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
%∆C
MINIMUM IR VS.TEMPERATURE
TEMPERATURE COEFFICIENT
ΩF
40
MΩ
20
1000
100K
100
10K
10
1K
0
-20
-40
-60
-80
0
0
-55
-25
COG
0
25
50
75
100 125
25
150 175 200°C
ΩF
X7R
50
75
100 125
150
175 200˚C
MΩ WHICHEVER IS LESS FOR ANY GIVEN CAPACITANCE
T
L
W
MB
HOW TO ORDER
1210
SIZE
E
104
DIELECTRIC CAPACITANCE
See Chart D = 200°C
COG
E = 200°C
X7R
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
104=100,000pF
M
250
P
X
TOLERANCE
VOLTAGE-VDCW
TERMINATION
F = +/- 1%
P= Silver
Palladium
THICKNESS
OPTION
HI REL
TESTING
PACKING
OPTION
MARKING
OPTION
T=Reeled
M=Marked
(See Marking
Specifications)
J = +/- 5%
250=25V
X=Non
standard
thickness.
Specify in
Mils if Non
EIA thickness
is required.
Ref:
COG only
Two significant
figures, followed
by number of
zeros:
G = +/- 2%
K = +/- 10 %
M = +/- 20 %
N=Nickel
Barrier,
for less
than 160°C
operation
H
MIL-PRF-55681
T
M
23
RING DETECT CAPACITORS
NOVACAP offers a line of low ESR surface mount
capacitors ideally suited for “Tip & Ring” applications. These units
are designed with 250 VDC rating to withstand the 52 VDC bias
and 150 VRMS signal during ring cadence. Chips are offered
in X7R dielectric from 0.39µF to 1.00µF in sizes 1812,
1825 and 2225. Product is also available in Z5U and Y5V dielectric from
0.47µF to 1.30µF for other ring detection circuits.
MAX CAPACITANCE @ 250 VDC
3 digit code: two significant digits, followed by number of zeros
eg: 394 = 390,000 pF (0.39µF)
SIZE
1812
1825
2225
LENGTH L
.180 (4.57)
.180 (4.57)
.220 (5.59)
WIDTH W
.125 (3.18)
.250 (6.35)
.250 (6.35)
T MAX
.095 (2.41)
.095 (2.41)
.095 (2.41)
MB
.024 (.610)
.024 (.610)
.030 (.760)
X7R DIELECTRIC
MAXCAP@250V
474
824
105
Z5U / Y5V DIELECTRIC
T
L
MAXCAP@250V
MB
W
564
105
DIMENSIONAL TOLERANCES
+/-
135
INCHES (MM)
LENGTH L
.012 (.305)
.012 (.305)
.015 (.380)
WIDTH W
.008 (.203)
.016 (.406)
.015 (.380)
MB
.014 (.355)
.014 (.355)
.015 (.380)
HOW TO ORDER
RD1812
Y
474
SIZE
DIELECTRIC
CAPACITANCE
See Chart
B = X7R
Z = Z5U
Y = Y5V
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
474 = 470,000pF
24
M
251
N
TOLERANCE
VOLTAGE-VDCW
TERMINATION
J = +/- 5%
X7R Only
K = +/- 10%
M = +/- 20%
Z = +80% - 20%
P = +100% - 0%
251 = 250VDC
N = Nickel Barrier
90/10 Sn/Pb
X
T
M
THICKNESS
OPTION
PACKING
OPTION
MARKING
OPTION
X=Non standard
thickness. Specify
in Mils if Non EIA
thickness is
required.
T=Reeled
M=Marked
(See Marking
Specifications)
CERTIFIED SAFETY CAPACITORS
NOVACAP offers a line of MLC chip capacitors, sizes LS 1808, LS 1812,
ES 2211 and ES 2215, X2, Y3 / Y2 Class Compliant * specifically designed for use in
modem, facsimile, telephone and other electronic equipment where lightning or
overvoltage surges can occur. These parts are rated at 3,000 Vdc (Y3) or 5000 Vdc
(Y2) and 250 Vac safety approved and certified to EN 60950. The product is
compliant to Standards EN 132400: 1994/A2: 1998/IEC60384-14, Second
Edition: 1993/A1:1995, and meet the requirements of EN61000-4-5,
IEC1000-4-5, and IEC801-4-5. Capacitors are available in COG
(NP0) dielectric.
SIZE
T
L
W
MB
LS 1808
LS 1812
ES 2211
ES 2215
(Y3)
(Y3)
(Y2)
(Y2)
LENGTH L
.180 (4.57)
.180 (4.57)
.220 (5.58)
.220 (5.58)
WIDTH W
.080 (2.03)
.125 (3.18)
.110 (2.79)
.150 (3.81)
T MAX
.080 (2.03)
.120 (3.05)
.110 (2.79)
.150 (3.81)
MB
.024 (.609) Typical
.024 (.609) Typical .030 (.762) Typical .030 (.762) Typical
CREEPAGE
.102 (2.60) Min
.102 (2.60) Min
.102 (3.00) Min
.102 (3.00) Min
1000-2200pF
5-680pF
1000pF
CAP RANGE 5-1000pF
CERTIFICATION NUMBERS
TUV
R9972698.01,.02,.03 (LS 1808), R9972698.05 (LS 1812) & R2072738.01 (ES 2211, ES 2215)
STANDARDS
EN 132400, EN 60950, IEC 60384-14 Second Edition, Class X2 Y3
Part Identification Marking will be placed on the reel.
HOW TO ORDER
LS1808
N
SIZE
DIELECTRIC
LS 1808
N = COG
LS 1812
ES 2211
ES 2225
301
K
302
N
CAPACITANCE
MAX VALUE
IS 1000pF
TOLERANCE
VOLTAGE-VDCW
TERMINATION
J = +/- 5 %
LS 302 = 3000 VDC
Two significant
figures,
followed by
number of zeros:
331 = 330pF
K = +/- 10 %
ES 502 = 5000 VDC
N = Nickel Barrier
90/10 Sn/Pbr
M = +/- 20 %
X
T
M
THICKNESS
OPTION
PACKING
OPTION
MARKING
OPTION
X=Non standard
thickness. Specify
in Mils if required.
T=Reeled
Part marking
available upon
request
*Compliant with Robustness of Termination (cl 4.3) test according to IEC 60384-1 amendment 3 cl 4.34 and 4.35 Resistance to
Soldering Heat (cl 4.4) tested according to IEC 60384-1 amendment 3 cl. 4.14.2, Impulse Test made with 2.5 KV or 5.0KV as required
according to 6.4.2.1 in EN 60950. The creepage distance between live parts of different polarity meets the requirements of IEC 60950.
25
-
HIGH VOLTAGE MLC
COMMERCIAL
COMMERCIAL RANGES
NOVACAP high voltage products are designed, manufactured and tested 100%
for optimum performance. These capacitors offer the highest capacitance available per kilovolt rating, in COG and X7R characteristics and are appropriate for commercial/industrial
applications to 10 KV. The non- polar inner electrode design permits capacitors to be
arrayed in stacks with no voltage gradient between units. Chips have rounded surfaces to
improve structural integrity and encapsulation in use. Applications include power supT
L
ply and voltage multiplier circuits. Other sizes and voltage ratings are available,
please consult the factory. High reliability versions are offered and have restrict-
W
MB
ed capacitance ranges, please refer to other NOVACAP data sheets.
COMMERCIAL RANGES, RATED TO 6 KV
SIZE
1515
1808
1812
1825
2020
2225
2520
3333
Min Cap
100
100
150
390
390
390
390
390
LENGTH L
.150 (3.81)
.180 (4.57)
.180 (4.57)
.180 (4.57)
.200 (5.08)
.220 (5.59)
.250 (6.35)
.330 (8.38)
WIDTH W
.150 (3.81)
.080 (2.03)
.125 (3.18)
.250 (6.35)
.200 (5.08)
.250 (6.35)
.200 (5.08)
.330 (8.38)
T MAX
.130 (3.30)
.080 (2.03)
.100 (2.54)
.140 (3.56)
.180 (4.57)
.150 (3.81)
.180 (4.57)
.250 (6.35)
MB
.040 (1.02)
.038 (.965)
.038 (.965)
.038 (.965)
.045 (1.14)
.045 (1.14)
.050 (1.27)
.050 (1.27)
MAXIMUM CAPACITANCE
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
500V
682
184
332
823
562
154
183
474
183
474
223
564
273
684
563
105
600V
392
104
272
683
472
124
123
274
103
224
153
394
123
334
333
564
800V
392
823
222
393
472
823
123
224
682
154
123
274
103
224
183
474
1000V
392
563
182
223
392
473
103
184
682
124
123
224
103
184
183
394
2000V
222
822
102
392
222
822
682
273
472
223
103
333
682
333
123
683
3000V
102
332
471
122
102
272
332
103
272
822
472
123
392
123
103
333
4000V
331
152
121
561
271
122
102
472
821
392
681
682
152
562
392
153
5000V
•
•
•
•
•
•
471
102
391
102
681
152
561
222
222
822
6000V
•
•
•
•
•
•
•
•
•
•
•
•
•
•
102
562
V
O
L
T
A
G
E
3 Digit Code: See How to Order
Dimensions are in inches, bracketed dimensions in millimeters. Tolerances are +/- 5% L & W, or .015” (0.38 mm), whichever is greater.
MB dimensions are maximum. T Max. for chip sizes 1808, 1812, 1825 and 2225 are greater than standard EIA max. thickness for those sizes.
26
-
HIGH VOLTAGE MLC
COMMERCIAL
T
L
MB
W
COMMERCIAL RANGES, RATED TO 10 KV
SIZE
3530
4040
4540
5440
5550
6560
7565
Min Cap
390
390
390
390
390
560
101
LENGTH L
.350 (8.89)
.400 (10.2)
.450 (11.4)
.540 (13.7)
.550 (11.4)
.650 (16.5)
.750 (19.0)
WIDTH W
.300 (7.62)
.400 (10.2)
.400 (10.2)
.400 (10.2)
.500 (12.7)
.600 (15.2)
.650 (16.5)
T MAX
.250 (6.35)
.300 (7.62)
.300 (7.62)
.300 (7.62)
.300 (7.62)
.300 (7.62)
.400 (10.2)
MB
.050 (1.27)
.060 (1.52)
.060 (1.52)
.060 (1.52)
.060 (1.52)
.060 (1.52)
.060 (1.52)
MAXIMUM CAPACITANCE
V
O
L
T
A
G
E
3 Digit Code: See How to Order
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
500V
563
105
393
105
823
185
104
225
124
275
154
395
224
565
1000V
183
394
333
684
393
824
473
824
563
125
104
185
124
225
2000V
123
683
223
154
273
154
333
184
393
274
683
394
823
684
3000V
103
333
183
683
223
823
223
823
333
124
563
184
683
334
4000V
472
183
822
273
103
333
123
393
153
563
223
104
393
154
5000V
272
822
392
183
472
223
562
223
682
393
123
473
183
823
6000V
122
562
152
123
222
123
332
153
392
223
682
333
103
563
7000V
821
332
152
822
182
822
222
103
332
153
562
223
822
393
8000V
821
272
152
562
152
682
182
822
272
123
392
153
562
333
9000V
681
222
122
472
152
562
182
562
222
103
332
123
472
273
10000V
561
182
102
392
122
392
152
472
222
822
332
103
392
223
Dimensions are in inches, bracketed dimensions in millimeters. Tolerances are +/- 5% L & W, or .015” (0.38 mm), whichever is greater. MB dimensions are maximum.
27
HIGH VOLTAGE MLC
-
COMMERCIAL
COG DIELECTRIC CHARACTERISTICS
X7R DIELECTRIC CHARACTERISTICS
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
0 +/- 30 ppm/°C
TEMPERATURE COEFFICIENT:
+/-15% ∆C Max.
DISSIPATION FACTOR:
.001 (0.1%) max @ 25°C
DISSIPATION FACTOR @ 25° C:
.025 (2.5%) max @ 25°C
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
120% VDCW, or 750V*
DIELECTRIC WITHSTANDING VOLTAGE:
120% VDCW, or 750V*
* WHICHEVER IS GREATER
* WHICHEVER IS GREATER
AGING RATE:
0% per decade
AGING RATE:
< 2.0% per decade
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
1MHZ for Capacitance <100pF
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
%∆C
TYPICAL VOLTAGE COEFFICIENT
0
Dielectric withstanding voltage testing requires
COG
immersion of the device in a dielectric fluid to
-10
-20
-30
X7R
X7R
X7R
X7R
preclude arcing over the chip surface, notably at
-40
-50
10KV
2KV
8KV
6KV
-60
voltages exceeding 1000 VDC. Conformal coating
2KV
4KV
6KV
8KV
10KV
of chips is recommended in use to eliminate arcing.
HOW TO ORDER
4540
B
103
M
302
N
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE-VDCW
TERMINATION
See Chart
N = COG
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
103 = 10,000 pF
J = +/- 5 %
Two significant
figures, followed
by number of
zeros:
N= Nickel Barrier
sizes 1515
to 4540 only
P = Silver
Palladium
S = Silver
B = X7R
28
K = +/- 10 %
M = +/- 20 %
Z = +80%-20%
P = +100%-0%
302=3000V
X
T
M
THICKNESS
OPTION
PACKING
OPTION
MARKING
OPTION
X=Non standard
thickness. Specify
in Mils if Non EIA
thickness is
required.
T=Reeled
M=Marked
(See Marking
Specifications)
HIGH VOLTAGE MLC
-
HIGH RELIABILITY
HIGH RELIABILITY RANGES
NOVACAP high voltage capacitors are available specially tested for
long term reliability. The non-polar inner electrode design permits capacitors
to be arrayed in stacks with no voltage gradient between units. Chips have
rounded surfaces to improve structural integrity and encapsulation in use.
Units may be tested to MIL-PRF-49467 and MIL-PRF-55681. Applications
include aerospace, airborne and military use for radar, power supplies and
voltage multiplier circuits. Other sizes and voltage ratings are available,
please consult NOVACAP. Commercial versions with higher
capacitance efficiency per kilovolt are also available, please
refer to other NOVACAP data sheets.
T
L
MB
W
HIGH RELIABILITY RANGES, RATED TO 6 KV
SIZE
1515
1808
1812
1825
2020
2225
2520
3333
Min Cap
100
100
150
390
390
390
390
390
LENGTH L
.150 (3.81)
.180 (4.57)
.180 (4.57)
.180 (4.57)
.200 (5.08)
.220 (5.59)
.250 (6.35)
.330 (8.38)
WIDTH W
.150 (3.81)
.080 (2.03)
.125 (3.18)
.250 (6.35)
.200 (5.08)
.250 (6.35)
.200 (5.08)
.330 (8.38)
T MAX
.130 (3.30)
.080 (2.03)
.100 (2.54)
.140 (3.56)
.180 (4.57)
.150 (3.81)
.180 (4.57)
.250 (6.35)
MB
.040 (1.02)
.038 (.965)
.038 (.965)
.038 (.965)
.045 (1.14)
.045 (1.14)
.050 (1.27)
.050 (1.27)
MAXIMUM CAPACITANCE
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
500V
472
683
272
333
562
563
123
224
123
124
153
274
183
184
473
474
600V
392
563
222
273
472
473
123
184
822
124
153
224
123
154
273
394
800V
392
473
222
183
472
393
103
124
682
104
123
184
103
154
183
394
1000V
332
333
182
123
392
273
103
823
682
683
123
124
103
104
183
274
2000V
222
392
102
152
222
332
682
123
472
103
103
183
682
153
123
563
3000V
561
122
221
471
471
102
152
392
122
332
102
562
222
822
562
273
4000V
•
•
•
•
•
•
102
222
821
182
681
272
152
392
392
153
5000V
•
•
•
•
•
•
471
102
391
102
561
152
561
222
182
822
6000V
•
•
•
•
•
•
•
•
•
•
•
•
•
•
102
562
V
O
L
T
A
G
E
3 Digit Code: See How to Order
Dimensions are in inches, bracketed dimensions in millimeters. Tolerances are +/- 5% L & W, or .015” (0.38 mm), whichever is greater.
MB dimensions are maximum. T Max. for chip sizes 1808, 1812, 1825 and 2225 are greater than standard EIA max. thickness for those sizes.
29
HIGH VOLTAGE MLC
- HIGH
RELIABILITY
T
L
MB
W
HIGH RELIABILITY RANGES, RATED TO 10KV
SIZE
3530
4040
4540
5440
5550
6560
7565
Min Cap
390
390
390
390
390
560
101
LENGTH L
.350 (8.89)
.400 (10.2)
.450 (11.4)
.540 (13.7)
.550 (11.4)
.650 (16.5)
.750 (19.0)
WIDTH W
.300 (7.62)
.400 (10.2)
.400 (10.2)
.400 (10.2)
.500 (12.7)
.600 (15.2)
.650 (16.5)
T MAX
.250 (6.35)
.300 (7.62)
.300 (7.62)
.300 (7.62)
.300 (7.62)
.300 (7.62)
.400 (10.2)
MB
.050 (1.27)
.060 (1.52)
.060 (1.52)
.060 (1.52)
.060 (1.52)
.060 (1.52)
.060 (1.52)
MAXIMUM CAPACITANCE
V
O
L
T
A
G
E
3 Digit Code: See How to Order
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
500V
473
394
393
684
683
824
823
105
124
125
154
185
224
275
1000V
183
274
333
474
393
564
473
684
563
824
104
125
124
185
2000V
123
683
223
104
273
124
333
124
393
184
683
334
823
474
3000V
682
333
123
393
153
563
183
823
223
104
393
184
473
224
4000V
472
183
822
273
103
333
123
393
153
563
223
104
393
154
5000V
222
822
332
183
392
223
472
223
562
393
123
473
153
823
6000V
122
472
182
123
222
123
332
153
392
223
682
333
103
563
7000V
821
332
152
822
182
822
222
103
272
153
562
223
822
393
8000V
•
•
152
562
152
682
182
822
272
123
392
153
562
333
9000V
•
•
•
•
152
562
182
682
222
103
332
123
472
273
10000V
•
•
•
•
122
392
152
472
222
822
272
103
392
223
Dimensions are in inches, bracketed dimensions in millimeters. Tolerances are +/- 5% L & W, or .015” (0.38 mm), whichever is greater. MB dimensions are maximum.
30
HIGH VOLTAGE MLC
COG DIELECTRIC CHARACTERISTICS
- HIGH
RELIABILITY
X7R DIELECTRIC CHARACTERISTICS
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
0 +/- 30 ppm/°C
TEMPERATURE COEFFICIENT:
+/-15% ∆C Max.
DISSIPATION FACTOR:
.001 (0.1%) max @ 25°C
DISSIPATION FACTOR @ 25° C:
.025 (2.5%) max @ 25°C
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
120% VDCW, or 750V*
DIELECTRIC WITHSTANDING VOLTAGE:
120% VDCW, or 750V*
* WHICHEVER IS GREATER
* WHICHEVER IS GREATER
AGING RATE:
0% per decade
AGING RATE:
< 2.0% per decade
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
1MHZ for Capacitance <100pF
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
%∆C
Dielectric withstanding voltage testing requires
TYPICAL VOLTAGE COEFFICIENT
0
COG
immersion of the device in a dielectric fluid to
-10
-20
-30
X7R
X7R
X7R
X7R
preclude arcing over the chip surface, notably at
-40
-50
10KV
2KV
8KV
6KV
-60
voltages exceeding 1000 VDC. Conformal coating
2KV
4KV
6KV
8KV
10KV
of chips is recommended in use to eliminate arcing.
HOW TO ORDER
4540
SIZE
B
103
DIELECTRIC CAPACITANCE
See Chart N = COG
B = X7R
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
103 = 10,000 pF
M
302
N
TOLERANCE
VOLTAGE-VDCW TERMINATION
J = +/- 5 %
Two significant
figures, followed
by number of
zeros:
302 = 3000V
K = +/- 10 %
M = +/- 20 %
Z = +80% - 20%
P = +100% - 0%
X
THICKNESS
N= Nickel Barrier OPTION
sizes 1515
X=Non
to 4540 only
standard
P = Silver
thickness.
Palladium
Specify in
S = Silver
Mils if Non
EIA thickness
is required.
H
T
HIGH
RELIABILITY
TEST
PACKING
OPTION
MARKING
OPTION
T=Reeled
M=Marked
(See Marking
Specifications)
Specify Test
M
31
SPECIALTY MLC PRODUCTS
NOVACAP produces a variety of specialty surface mount
MLC sizes, as well as feed thru capacitors, available in COG, X7R,
Z5U or Y5V dielectrics. The data sheet shows some of the
other chip sizes and specialty product currently fabricated.
NOVACAP will manufacture custom product to
customer SCD. Please consult the factory with your particular requirements.
SPECIAL MLC SIZES 25 TO 250 VOLT RATINGS
(Shown in ascending length dimension-inches)
CHIP SIZE
32
L
W
T MAX
CHIP SIZE
L
W
T MAX
0 4 03
0 6 12
.040
.060
.030
.125
.033
.060
2868
2959
.280
.290
.680
.590
.150
.150
0 7 05
0 8 10
.070
.080
.050
.100
.054
.060
3018
3025
.300
.300
.180
.250
.150
.180
0 9 05
0 9 07
.090
.090
.050
.070
.054
.060
3058
3438
.300
.340
.580
.380
.180
.180
1 1 06
1 2 04
.110
.120
.060
.040
.050
.044
3520
3625
.350
.360
.200
.250
.180
.180
1 2 05
1 2 14
.120
.120
.050
.140
.054
.065
3640
3680
.360
.360
.400
.800
.250
.200
1 4 05
1 5 05
.140
.150
.050
.050
.054
.054
3840
3915
.380
.390
.400
.150
.200
.250
1 7 06
1 8 05
.170
.180
.060
.050
.050
.054
4036
43100
.400
.430
.360
1.00
.250
.250
2 0 18
2 2 18
.200
.220
.180
.180
.120
.120
43200
4848
.430
.480
2.00
.480
.250
.300
2 2 20
2 2 24
.220
.220
.200
.240
.120
.120
4896
4920
.480
.490
.960
.200
.300
.200
2 3 26
2 4 21
.230
.240
.260
.210
.120
.150
4940
55100
.490
.550
.400
1.00
.300
.300
2 4 26
2 5 18
.240
.250
.260
.180
.150
.150
5830
5868
.580
.580
.300
.680
.300
.300
2 5 25
2 6 28
.250
.260
.250
.280
.150
.200
5880
5929
.580
.590
.800
.290
.300
.300
2 8 15
2 8 38
.280
.280
.150
.380
.150
.150
78150
100100
.780
1.00
1.50
1.00
.300
.300
100200
1.00
2.00
.400
HIGH VOLTAGE SPECIAL SIZES TO 10 KV
(Shown in ascending length dimension-inches)
SPECIALTY MLC APPLICATIONS
SPECIALTY MLC APPLICATIONS
LOW ESR - ESL CHIP CAPACITORS
CHIP SIZE
L
W
T MAX
electrode axis (sizes 0612, 0810 and 1214) to reduce
2211
2319
.220
.230
.110
.190
.180
.180
current paths and resistance to charging current flow
2321
3010
.230
.300
.210
.100
.180
.200
between electrodes, qualities which lower ESR and ESL
3015
3030
.300
.300
.150
.300
.200
.200
for improved performance in high speed de-coupling.
3327
3424
.330
.340
.270
.240
.250
.250
3545
3560
.350
.350
.450
.600
.250
.250
4020
5040
.400
.500
.200
.400
.300
.300
HIGH VOLTAGE
5128
5248
.510
.520
.280
.480
.300
.300
NOVACAP specializes in High Voltage applications. The
5440
6040
.540
.600
.400
.400
.300
.300
sizes listed are designed with multiple cascading internal
6060
6666
.600
.660
.600
.660
.300
.300
electrodes, to better distribute charge
7030
7060
.700
.700
.300
.600
.300
.300
Contact
7065
8040
.700
.800
.650
.400
.300
.400
NOVACAP for solutions to your high voltage needs.
8080
9040
.800
.900
.800
.400
.400
.400
11050
13060
1.10
1.30
.500
.600
.400
.400
NOVACAP produces chips terminated along the long
and minimize
dielectric stress for enhanced reliability.
FEED-THRU COMPONENTS
“FEED-THRU” COMPONENTS
NOVACAP manufactures feed thru units used to provide signal conduits through openings while suppressing EMI and RFI interference.
Capacitors are constructed with ground plane electrodes completely surrounding the signal feed thru contact, to provide very low ESR and
ESL for most effective filtering. Units are supplied as single or multiple devices, with Ag/Pd terminations for easy surface mount attachment
to chassis openings. Available in COG, X7R Z5U or Y5V dielectrics, 25 VDC to 1000 VDC rating. Consult NOVACAP for design styles,
capacitance ranges, or to specify your requirements.
33
CAPACITOR ARRAYS
The Cap-Rack (US Patent 6,058,004) is an assembly of
individual chip capacitors, bonded with high temperature epoxy. This
construction permits the assembly of dissimilar capacitance values or
dielectrics into one single component, providing extended freedom for
board space utilization. The design reduces harmful thermal stress
during assembly, behaving as individual components, not as a single large ceramic mass. The Cap-Rack
also reduces “cross talk” to insignificant levels by elimination of capacitance coupling between adjacent
capacitors. Cap-Racks are available as groupings of chip sizes 0603, 0805, 1005, 1206, 1210, 1808 and
1812, from pairs to as many as eight chips. See separate data sheets for capacitance ranges of the
various sizes. Custom sizes, particularly for high voltage applications, are also available. Footprint
dimensions can vary to optimize board space usage. The tables provide typical dimensions and
footprints for highest capacitance designs. Consult NOVACAP for your specific requirements.
TYPICAL 4 UNIT ARRAYS
CR0612
CR1218
L (+/- .015)
.060 (1.52)
.120 (3.05)
T MAX.
.036 (.914)
.060 (1.52)
W MAX.
.126 (3.20)
.265 (6.73)
p (+/- .010)
.035 (.890)
.067 (1.70)
MB MAX.
.014 (.356)
.030 (.760)
ARRAY SIZE
MAXIMUM CAPACITANCE PER CHIP
V O L T A G E
(3 Digit Code)
34
COG
X7R
Y5V
COG
X7R
Y5V
16V
102
273
184
153
334
185
25V
821
183
124
123
274
155
50V
681
183
823
103
224
125
100V
331
103
333
562
124
334
250V
181
682
562
272
563
683
500V
•
•
•
102
273
•
Cap Arrays
require
drawings to specify
.010 typ
length and width of
L
T
array, and chip used.
Contact Novacap to
specify your Cap- Rack
MB
P
requirement.
W
TYPICAL CONSTRUCTION
Dimensions “P” and “W” may be less than
shown when thinner chips are utilized.
HOW TO ORDER
CR
XXYY
N
272
K
101
N
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE-VDCW TERMINATION
Cap-Rack
XX= Length of
Array
N = COG
B = X7R
Y = Y5V
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
B = 0.10 pF
C = 0.25 pF
D = 0.50 pF
F = +/- 1.0 %
G = +/- 2.0 %
H = +/- 3.0 %
Two significant
figures, followed
by number of
zeros:
101 = 100V
272 = 2700 pF
J = +/- 5.0 %
K = +/- 10 %
M= +/- 20 %
Z = +80% -20%
P = +100% -0%
YY = Width
0818 =
.080 x .180
COG
STYLE
N = NickelBarrier
P = Ag-Pd
4
NUMBER
OF CHIPS
H
W
HI REL
OPTION
PACKING
OPTION
Ref:
MIL-PRF-55681
T=Reeled
35
HIGH-TEMP CAPACITORS
NOVACAP manufactures encapsulated capacitors designed
to operate to 200 °C in both COG and X7R dielectrics for use in
very harsh environments, where isolation and protection of the
device is required for optimum reliability. Product is available as
encapsulated devices with 22 AWG tinned copper leads, in sizes 1515 to 7565, rated
to 500 volts, marked with capacitance and voltage ratings. Consult NOVACAP
for your specific requirements.
CAPACITANCE SELECTION
3 digit code: two significant digits, followed by number of zeros eg: 183 = 18,000 pF
V O L T A G E
156K
50V
5550
6560
7565
1515
2520
3530
W MAX.
.300 (7.62)
.400 (10.2)
.500 (12.7)
.725 (18.4)
.795 (20.2)
.925 (23.5)
1.125 (28.6)
H MAX.
.300 (7.62)
.400 (10.2)
.500 (12.7)
.500 (12.7)
.745 (18.9)
.750 (19.0)
.750 (19.0)
T MAX.
.150 (3.81)
.200 (5.08)
.265 (6.73)
.325 (8.26)
.350 (8.89)
.350 (8.89)
.375 (9.52)
S +/- .030
.170 (4.32)
.280 (7.10)
.380 (9.65)
.480 (12.2)
.580 (14.7)
.680 (17.3)
.780 (19.8)
-
4540
COG DIELECTRIC
Min Cap
100
390
390
390
390
560
101
25V
333
104
184
274
334
564
684
50V
333
104
184
274
334
474
684
100V
273
823
154
224
224
394
474
250V
153
473
104
154
224
334
474
500V
562
183
473
823
124
184
224
&
C A P
106K
100V
103K
100V
200˚C
M A X
275K
250V
103K
100V
SIZE
36
102K
500V
103K
100V
200˚C
-
X7R DIELECTRIC
Min Cap
102
102
102
102
122
182
272
25V
824
225
395
685
106
156
186
50V
684
225
395
685
825
126
156
100V
564
185
335
565
685
106
126
250V
154
684
155
275
395
565
825
500V
683
184
394
82
155
225
275
COG “D” CHARACTERISTICS
X7R “E” DIELECTRIC CHARACTERISTICS
OPERATING TEMPERATURE RANGE:
-55°C to 200°C
OPERATING TEMPERATURE RANGE:
-55°C to 200°C
TEMPERATURE COEFFICIENT UP TO 125˚C:
0 +/- 30 ppm/°C
TEMPERATURE COEFFICIENT UP TO 125˚C:
+/- 15% ∆C max
DISSIPATION FACTOR @ 25°C:
.001 (0.1%) max
DISSIPATION FACTOR @ 25° C:
2.5% max @ >25V, 3.5% max ≤25V
INSULATION RESISTANCE, 25°C
125°C
> 100GΩ or >1000ΩF
> 10GΩ or >100ΩF
INSULATION RESISTANCE, 25°C
125°C
> 100GΩ or >1000ΩF
> 10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
< 200V, 250%
201-500V,150% or 500V*
> 500V, 120%, or 750V*
DIELECTRIC WITHSTANDING VOLTAGE:
* WHICHEVER IS GREATER
* WHICHEVER IS GREATER
< 200V, 250%
201-500V,150% or 500V*
> 500V, 120%, or 750V*
AGING RATE:
0% per decade
AGING RATE:
< 2.0% per decade
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
1MHZ for Capacitance <100pF
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
%∆C
MINIMUM IR VS.TEMPERATURE
TEMPERATURE COEFFICIENT
ΩF
40
MΩ
20
1000
100K
100
10K
10
1K
0
-20
-40
-60
-80
0
0
-55
-25
COG
0
25
50
75
100 125
25
150 175 200°C
ΩF
X7R
50
75
100 125
150
175 200˚C
MΩ WHICHEVER IS LESS FOR ANY GIVEN CAPACITANCE
HOW TO ORDER
4540
E
104
M
250
LC T
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE-VDCW
TERMINALS
See Chart
D = 200°C COG
E = 200°C X7R
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
F = +/- 1 %
G = +/- 2 %
COG only
Two significant
figures, followed
by number of
zeros:
LC = Encapsulated
HM
W
J = +/- 5 %
K = +/- 10 %
M= +/- 20 %
250=25V
T
HI REL TEST
OPTION
H
S
1.25" min
104=100,000pF
22AWG (.025” Diam)
37
RADIAL LEAD HV CAPACITORS
-
COMMERCIAL RANGES
COMMERCIAL RANGES
NOVACAP High Voltage Leaded Capacitors are available in COG and X7R
characteristics. Conformal coating and lead mounting provide a rugged configuration for
optimum performance, with high capacitance efficiency per KV rating.
Units are
designed for commercial/industrial use to 10 KV, with application in power supply and
voltage multiplier circuits. Minimum voltage is 500 Vdc. Higher voltage ratings are
available, as well as high reliability versions, with restricted capacitance ranges.
Please refer to other NOVACAP literature, or consult the factory.
102K
2000V
102K
2000V
SIZE
274M
3000V
103K
1000V
103K
5000V
102K
2000V
123M
7000V
3530
4540
5550
6560
7565
1515
2520
W MAX.
.250 (6.35)
.400 (10.2)
.500 (12.7)
.600 (15.2)
.700 (17.8)
.800 (20.3)
.900 (22.8)
H MAX.
.250 (6.35)
.350 (8.89)
.450 (11.4)
.550 (11.4)
.650 (16.5)
.750 (19.0)
.850 (21.6)
T MAX.
.200 (5.08)
.250 (6.35)
.350 (8.89)
.400 (10.2)
.400 (10.2)
.400 (10.2)
.500 (12.7)
S +/- .030
.170 (4.32)
.280 (7.10)
.380 (9.65)
.480 (12.2)
.580 (14.7)
.680 (17.3)
.780 (19.8)
MAXIMUM CAPACITANCE
V
O
L
T
A
G
E
3 Digit Code: See How to Order
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
500V
682
184
223
564
393
824
563
125
104
185
154
275
224
475
600V
392
104
123
274
273
564
473
824
563
155
104
225
154
335
800V
392
823
103
224
183
334
333
684
563
125
823
185
104
225
1000V
392
563
103
184
153
274
223
564
563
105
823
155
104
185
2000V
222
822
682
333
123
473
183
823
393
154
563
224
683
394
3000V
102
332
392
123
822
223
822
393
273
683
393
104
563
184
4000V
331
152
152
562
392
123
272
183
123
273
183
393
333
823
5000V
•
•
561
222
182
562
182
103
472
183
562
273
153
563
6000V
•
•
•
•
102
332
122
682
332
123
472
183
562
333
7000V
•
•
•
•
681
222
122
472
222
822
332
123
472
223
8000V
•
•
•
•
471
152
821
332
182
682
272
822
472
183
9000V
•
•
•
•
391
102
681
272
152
562
222
682
392
153
10000V
•
•
•
•
•
•
•
222
122
392
182
562
392
123
Dimensions in inches; bracketed dimensions in millimeters.
38
COG DIELECTRIC CHARACTERISTICS
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
0 +/- 30 ppm/°C
DISSIPATION FACTOR:
.001 (0.1%) max @ 25°C
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
120% VDCW, or 750V*
* WHICHEVER IS GREATER
%∆C
TYPICAL VOLTAGE COEFFICIENT
0
COG
-20
X7R
X7R
X7R
10KV
2KV
6KV
8KV
4KV
1KHz, 1.0 +/- 0.2 VRMS, 25°C
1MHZ for Capacitance <100pF
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
+/-15% ∆C Max.
DISSIPATION FACTOR @ 25° C:
.025 (2.5%) max @ 25°C
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
120% VDCW, or 750V*
* WHICHEVER IS GREATER
-60
2KV
TEST PARAMETERS:
X7R
-40
-50
0% per decade
X7R DIELECTRIC CHARACTERISTICS
-10
-30
AGING RATE:
6KV
8KV
AGING RATE:
< 2.0% per decade
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
10KV
HOW TO ORDER
4540
B
103
K
302
LE T
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE-VDCW
TERMINALS
See Chart
N = COG
B = X7R
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
103 = 10,000pF
J = +/- 5 %
K = +/- 10 %
M = +/- 20 %
Two significant
figures, followed
by number of
zeros:
302 = 3000V
LE = Radial Lead
Conformal
Coat
M
W
T
H
LO = Radial Lead
Uncoated
.150
S
(CL)
1.25" min
22AWG (.025” Diam)
39
-
RADIAL LEAD HV CAPACITORS
HIGH RELIABILITY RANGES
HIGH RELIABILITY RANGES
NOVACAP High Voltage Leaded Capacitors with optimum
design and special testing for long term reliability are available in
COG and X7R characteristics. Conformal coating and lead mounting provide a rugged configuration for optimum performance.
Units may be tested to MIL-PRF-49467 and/or MIL-PRF-39014.
Applications include aerospace, airborne and military use for
radar, power supplies and voltage multiplier circuits. Higher than cataloged voltage ratings
are available. Commercial versions with higher capacitance efficiency per KV are
offered, please refer to other NOVACAP literature, or consult the factory.
103K
5000V
102K
2000V
123M
7000V
274M
3000V
102K
2000V
102K
2000V
103K
1000V
1515
2520
3530
4540
5550
6560
7565
W MAX.
.250 (6.35)
.400 (10.2)
.500 (12.7)
.600 (15.2)
.700 (17.8)
.800 (20.3)
.900 (22.8)
H MAX.
.250 (6.35)
.350 (8.89)
.450 (11.4)
.550 (11.4)
.650 (16.5)
.750 (19.0)
.850 (21.6)
T MAX.
.200 (5.08)
.250 (6.35)
.350 (8.89)
.400 (10.2)
.400 (10.2)
.400 (10.2)
.500 (12.7)
S +/- .030
.170 (4.32)
.280 (7.10)
.380 (9.65)
.480 (12.2)
.580 (14.7)
.680 (17.3)
.780 (19.8)
SIZE
MAXIMUM CAPACITANCE
V
O
L
T
A
G
E
3 Digit Code: See How to Order
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
COG
X7R
500V
472
683
153
154
333
334
393
564
563
105
104
155
184
185
600V
392
563
123
124
223
274
393
564
563
105
823
155
124
185
800V
392
473
123
124
153
274
333
564
563
824
823
125
104
185
1000V
332
333
103
104
153
224
333
394
563
684
823
105
104
125
2000V
222
392
682
153
123
473
223
683
393
104
563
154
683
274
3000V
561
122
222
822
562
223
123
333
183
473
333
683
393
124
4000V
•
•
152
392
392
123
822
183
123
273
183
393
333
823
5000V
•
•
561
222
182
562
272
103
392
183
562
273
103
563
6000V
•
•
•
•
821
332
182
682
332
103
472
183
562
333
7000V
•
•
•
•
681
222
122
472
222
822
332
123
472
223
8000V
•
•
•
•
471
152
122
332
182
682
272
822
472
183
9000V
•
•
•
•
391
102
821
272
152
562
222
682
392
153
10000V
•
•
•
•
•
•
681
222
122
392
182
562
332
123
Dimensions in inches; bracketed dimensions in millimeters.
40
COG DIELECTRIC CHARACTERISTICS
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
0 +/- 30 ppm/°C
DISSIPATION FACTOR:
.001 (0.1%) max @ 25°C
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
120% VDCW, or 750V*
* WHICHEVER IS GREATER
%∆C
0% per decade
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
1MHZ for Capacitance <100pF
X7R DIELECTRIC CHARACTERISTICS
TYPICAL VOLTAGE COEFFICIENT
0
AGING RATE:
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
+/-15% ∆C Max.
DISSIPATION FACTOR @ 25° C:
.025 (2.5%) max @ 25°C
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
120% VDCW, or 750V*
COG
-10
-20
-30
X7R
X7R
X7R
X7R
-40
-50
* WHICHEVER IS GREATER
10KV
2KV
6KV
8KV
-60
2KV
4KV
6KV
8KV
10KV
AGING RATE:
< 2.0% per decade
TEST PARAMETERS:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
HOW TO ORDER
4540
B
103
K
302
LE T
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE-VDCW
TERMINALS
See Chart
N = COG
B = X7R
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
J = +/- 5 %
K = +/- 10 %
M = +/- 20 %
Two significant
figures, followed
by number of
zeros:
LE = Radial Lead
Conformal
Coat
HM
W
302 = 3000V
LO = Radial Lead
Uncoated
T
HIGH
RELIABILITY
H
Specify
Testing
.150
S
(CL)
1.25" min
103 = 10,000pF
22AWG (.025” Diam)
41
“ST’
CAPACITOR ASSEMBLIES
NOVACAP capacitor assemblies with low equivalent series resistance (ESR)
and low equivalent series inductance (ESL) are available in dielectric characteristics COG,
X7R and Y5V. These assemblies provide the highest capacitance available, based on chip
designs for general purpose use. The leaded configurations safeguard the device against
thermal and mechanical stresses, and include thru-hole and surface mount J and L
style leads, bonded with high temperature solder.
High reliability versions for
Switch Mode use are described separately, (refer to the “Switch’M” Capacitor
Assemblies data sheet). Other sizes and voltage ratings than indicated
in the tables are available, consult NOVACAP.
LEAD CONFIGURATION AND ASSEMBLY OPTIONS
D
E
X
X
"LL" LEADS
.055 +/- .010
"LJ" LEADS
.250 min
.010
X
.025 min
.100 max
.020 =/- .002
"TL" LEADS
.100
C
"NN" OR "NP"
GENERAL PURPOSE “ST” SERIES CAPACITANCE & VOLTAGE SELECTION
MAXIMUM CAPACITANCE (FULL STACK OF 6 CHIPS)
DIMENSIONS - INCH (MM)
SIZE
C
D
+/- .025 +/- .025
E
Max
X
Max
3 Digit Code: See How to Order
Leads
/Side
X7R
Y5V
100v
200v
500v
50v
100v
200v
500v
50v
100v
ST 1812
.600
.125
.210
.260
(5.33) (3.18) (6.60) (15.2)
2
184
154
124
393 475
395
225
684
226
106
ST 1825
.600
.250
.210
.260
(5.33) (6.35) (6.60) (15.2)
3
474
334
274
823 106
825
565
155
476
186
ST 2225
.715
.250
.250
.300
(6.35) (6.35) (7.62) (18.2)
3
564
474
334
104 106
106
685
225
566
226
ST 3640
.715
.400
.400
.430
(10.2) (10.2) (10.9) (18.2)
4
125
125
564
224 276
226
186
335
•
•
ST 4540
.715
.400
.480
.530
(12.2) (10.2) (13.5) (18.2)
4
155
125
684
224 336
276
226
335
•
•
ST 5550
.500
.580
.630
.715
(14.7) (12.7) (16.0) (18.2)
5
155
125
824
274 396
336
226
565
•
•
ST 7565
.830
.715
.650
.780
(19.8) (16.5) (21.1) (18.2)
6
335
225
155
564 826
566
476
106
•
•
Dimensions in inches; bracketed dimensions in millimeters.
42
COG
50v
COG DIELECTRIC CHARACTERISTICS
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
0 +/- 30 ppm/°C
1.00
DISSIPATION FACTOR @ 25°C:
.001(0.1%) max
0.10
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
< 200V or >100ΩF
ESR VS. FREQUENCY
Ohms
201-500V, 150% or 500V*
* WHICHEVER IS GREATER
0.01
0.001
AGING RATE:
0% per decade
TEST PARAMETERS 25°C:
1KHz, 1.0 +/- 0.2 VRMS
1MHZ for Capacitance <100pF
0.0001
1.0
10
100
Frequency - KHz
1000
X7R DIELECTRIC CHARACTERISTICS
Typical Tantalum
Typical 30µF X7R MLC
Ohms
IMPEDANCE VS. FREQUENCY
10
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
+/-15% ∆C Max.
DISSIPATION FACTOR @ 25° C:
2.5% max @ >25V
3.5% max @ ≤25V
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
* WHICHEVER IS GREATER
<200V,250%
201-500V,150% or 500V*
AGING RATE:
< 2.0% per decade
TEST PARAMETERS 25°C:
1KHz, 1.0 +/- 0.2 VRMS
1.0
.10
Y5V DIELECTRIC CHARACTERISTICS
OPERATING TEMPERATURE RANGE:
-30°C to 85°C
TEMPERATURE COEFFICIENT:
+22% -82% ∆C Max.
DISSIPATION FACTOR @ 25° C:
5.0% max @ >25V
7.0% max @ ≤25V
INSULATION RESISTANCE, 25°C
125°C
>10GΩ or >100ΩF
N/A
DIELECTRIC WITHSTANDING VOLTAGE:
* WHICHEVER IS GREATER
< 200V, 250%
201-500V,150% or 500V*
AGING RATE:
< 2.0% per decade
TEST PARAMETERS 25°C:
1KHz, 0.5 +/- 0.2 VRMS
.01
.001
.001
.01
0.1
1.0
Frequency - MHz
10
Typical 30µF MLC
Typical 150µF MLC
HOW TO ORDER
ST
3640
B
825
STYLE
SIZE
DIELECTRIC
CAPACITANCE
ST = General
Purpose
See Chart
N = COG
B = X7R
Y = Y5V
Value in
Picofarads
Two significant
figures,
followed by
number of zeros:
K
101
TOLERANCE
COG
B = 0.10 pF
C = 0.25 pF
D = 0.50 pF
F = +/- 1.0 %
G = +/- 2.0 %
H = +/- 3.0 %
J = +/- 5.0 %
825= 8,200,000 pF K = +/- 10 %
M= +/- 20 %
(8.2m F)
Z = +80% -20%
P = +100% -0%
LJ
VOLTAGE-VDCW LEAD STYLE
Two significant
figures, followed
by number of
zeros:
101 = 100V
LN =
LL =
LJ =
TL =
TJ =
NN =
NP =
Straight
L Lead
J Lead
L Tab
J Tab
Nickel
Pd/Ag
X
OPTION
Specify
Standoff
dimension (X)
if less than
max.
W
PACKING
OPTION
M
OPTION
M=Marked
W=Waffle
T=Reeled
43
“SWITCH’M”
CAPACITOR ASSEMBLIES
High capacitance assemblies with low equivalent series resistance
(ESR) and low equivalent series inductance (ESL) are available for use in high
power or high frequency applications, as replacement for tantalums and
aluminum electrolytics. Uses include input and output filters in switch
mode power supplies, high capacitance discharge circuits, and high
temperature filtering/decoupling. The leaded configurations safeguard
the device against thermal and mechanical stresses, and include thru-hole and surface mount J and
L style leads, bonded with high temperature solder. Dielectric characteristics offered are COG,
X7R and Y5V. The “SM” series are tested per DESC drawing 87106. Other sizes and
voltage ratings than indicated in the tables are available, consult NOVACAP.
LEAD CONFIGURATION AND ASSEMBLY OPTIONS
D
E
X
X
"LL" LEADS
.055 +/- .010
"LJ" LEADS
.250 min
.010
X
.025 min
.100 max
.020 =/- .002
"TL" LEADS
.100
C
"NN" OR "NP"
‘SWITCH’M SERIES (HI REL TESTED) CAPACITANCE & VOLTAGE SELECTION
MAXIMUM CAPACITANCE (FULL STACK OF 6 CHIPS)
DIMENSIONS - INCH (MM)
SIZE
C
D
+/- .025 +/- .025
E
Max
X
Max
3 Digit Code: See How to Order
Leads
/Side
X7R
Y5V
100v
200v
500v
50v
100v
200v
500v
50v
100v
ST 1812
.600
.125
.210
.260
(5.33) (3.18) (6.60) (15.2)
2
184
124
104
273 395
335
185
394
226
106
ST 1825
.600
.250
.210
.260
(5.33) (6.35) (6.60) (15.2)
3
474
334
224
563 106
685
395
824
396
156
ST 2225
.715
.250
.250
.300
(6.35) (6.35) (7.62) (18.2)
3
564
394
334
683 106
825
475
105
566
226
ST 3640
.715
.400
.400
.430
(10.2) (10.2) (10.9) (18.2)
4
125
105
564
154 276
226
126
684
•
•
ST 4540
.715
.400
.480
.530
(12.2) (10.2) (13.5) (18.2)
4
155
125
684
184 336
276
126
824
•
•
ST 5550
.500
.580
.630
.715
(14.7) (12.7) (16.0) (18.2)
5
155
125
684
224 396
276
156
475
•
•
ST 7565
.830
.715
.650
.780
(19.8) (16.5) (21.1) (18.2)
6
335
225
125
474 826
476
276
106
•
•
Dimensions in inches; bracketed dimensions in millimeters.
44
COG
50v
COG DIELECTRIC CHARACTERISTICS
ESR VS. FREQUENCY
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
0 +/- 30 ppm/°C
1.00
DISSIPATION FACTOR @ 25°C:
.001(0.1%) max
0.10
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
* WHICHEVER IS GREATER
< 200V, 250%
201-500V, 150% or 500V*
AGING RATE:
0% per decade
TEST PARAMETERS 25°C:
1KHz, 1.0 +/- 0.2 VRMS, 25°C
1MHZ for Capacitance <100pF
Ohms
0.01
0.001
0.0001
1.0
10
100
Frequency - KHz
1000
X7R DIELECTRIC CHARACTERISTICS
Typical Tantalum
Typical 30µF X7R MLC
Ohms
IMPEDANCE VS. FREQUENCY
10
OPERATING TEMPERATURE RANGE:
-55°C to 125°C
TEMPERATURE COEFFICIENT:
+/-15% ∆C Max.
DISSIPATION FACTOR @ 25° C:
2.5% max @ >25V
3.5% max @ ≤25V
INSULATION RESISTANCE, 25°C
125°C
>100GΩ or >1000ΩF
>10GΩ or >100ΩF
DIELECTRIC WITHSTANDING VOLTAGE:
* WHICHEVER IS GREATER
<200V, 250%
201-500V,150% or 500V*
AGING RATE:
< 2.0% per decade
TEST PARAMETERS 25°C:
1KHz, 1.0 +/- 0.2 VRMS
1.0
.10
Y5V DIELECTRIC CHARACTERISTICS
OPERATING TEMPERATURE RANGE:
-30°C to 85°C
TEMPERATURE COEFFICIENT:
+22% -82% ∆C Max.
DISSIPATION FACTOR @ 25° C:
5.0% max @ >25V
7.0% max @ ≤25V
INSULATION RESISTANCE, 25°C
125°C
>10GΩ or >100ΩF
N/A
DIELECTRIC WITHSTANDING VOLTAGE:
* WHICHEVER IS GREATER
< 200V, 250%
201-500V,150% or 500V*
AGING RATE:
< 2.0% per decade
TEST PARAMETERS 25°C:
1KHz, 0.5 +/- 0.2 VRMS
.01
.001
.001
.01
0.1
1.0
Frequency - MHz
10
Typical 30µF MLC
Typical 150µF MLC
HOW TO ORDER
SM
4540
B
106
M
201
LJ
X
SIZE
DIELECTRIC CAPACITANCE
TOLERANCE
VOLTAGE-VDCW
LEAD STYLE
OPTION
SM= Switch
Mode
See Chart
N = COG
B = X7R
Y = Y5V
B = 0.10 pF
C = 0.25 pF
D = 0.50 pF
F = +/- 1.0 %
G = +/- 2.0 %
H = +/- 3.0 %
J = +/- 5.0 %
K = +/- 10 %
M= +/- 20 %
Z = +80%-20%
P = +100%-0%
Two significant
figures, followed
by number of
zeros:
201 = 200V
LN =
LL =
LJ =
TL =
TJ =
NN =
NP =
Specify
Standoff
dimension (X)
if less than
max.
Value in Picofarads
Two significant
figures,
followed by
number of zeros:
106 = 10,000,000 pF
(10.0 mF)
COG
STYLE
Straight
L Lead
J Lead
L Tab
J Tab
Nickel
Pd/Ag
W
PACKING
OPTION
M
OPTION
M=Marked
W=Waffle
T=Reeled
45
CHIP MARKING SYSTEM
NOVACAP chip identification marking is accomplished
using an excimer laser which does not degrade the ceramic
surface or induce microcracks. The marking code is based on EIA
198 two digit code which determines capacitance value. Laser
marking is available for chip sizes 0805 through 2628. Other
sizes require special request to determine if applicable. Ink marking is available for
chips larger than 2628, or for leaded encapsulated devices. Marking is an option,
specify using the letter M in the part number code, as shown below.
MARKING CODE
Value in picofarads for alpha-numeric code
Two position alpha numeric marking
is available on chip sizes 0805 through
L E T T E R
0
A5
2628. The marking denotes retma
value and significant figures of capacitance (see table) eg: A5 = 100,000 pF
NA5
Three position alpha numeric marking
is available on chip sizes 1206 and
larger, denoting NOVACAP as vendor
(N), followed by the standard two
digit alpha numeric identification.
A
B
C
D
E
F
G
H
J
K
L
M
N
P
Q
R
S
T
U
V
W
X
Y
Z
a
b
d
e
f
m
n
t
y
1
2
3
4
5
6
7
1.0
1.1
1.2
1.3
1.5
1.6
1.8
2.0
2.2
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
9.1
10
11
12
13
15
16
18
20
22
24
27
30
33
36
39
43
47
51
56
62
68
75
82
91
100
110
120
130
150
160
180
200
220
240
270
300
330
360
390
430
470
510
560
620
680
750
820
910
1,000
1,100
1,200
1,300
1,500
1,600
1,800
2,000
2,200
2,400
2,700
3,000
3,300
3,600
3,900
4,300
4,700
5,100
5,600
6,200
6,800
7,500
8,200
9,100
10,000
11,000
12,000
13,000
15,000
16,000
18,000
20,000
22,000
24,000
27,000
30,000
33,000
36,000
39,000
43,000
47,000
51,000
56,000
62,000
68,000
75,000
82,000
91,000
100,000
110,000
120,000
130,000
150,000
160,000
180,000
200,000
220,000
240,000
270,000
300,000
330,000
360,000
390,000
430,000
470,000
510,000
560,000
620,000
680,000
750,000
820,000
910,000
1,000,000
1,100,000
1,200,000
1,300,000
1,500,000
1,600,000
1,800,000
2,000,000
2,200,000
2,400,000
2,700,000
3,000,000
3,300,000
3,600,000
3,900,000
4,300,000
4,700,000
5,100,000
5,600,000
6,200,000
6,800,000
7,500,000
8,200,000
9,100,000
10,000,000
11,000,000
12,000,000
13,000,000
15,000,000
16,000,000
18,000,000
20,000,000
22,000,000
24,000,000
27,000,000
30,000,000
33,000,000
36,000,000
39,000,000
43,000,000
47,000,000
51,000,000
56,000,000
62,000,000
68,000,000
75,000,000
82,000,000
91,000,000
2.5
3.5
4.0
4.5
5.0
6.0
7.0
8.0
9.0
25
35
40
45
50
60
70
80
90
250
350
400
450
500
600
700
800
900
2,500
3,500
4,000
4,500
5,000
6,000
7,000
8,000
9,000
25,000
35,000
40,000
45,000
50,000
60,000
70,000
80,000
90,000
250,000
350,000
400,000
450,000
500,000
600,000
700,000
800,000
900,000
2,500,000
3,500,000
4,000,000
4,500,000
5,000,000
6,000,000
7,000,000
8,000,000
9,000,000
25,000,000
35,000,000
40,000,000
45,000,000
50,000,000
60,000,000
70,000,000
80,000,000
90,000,000
“9” in the marking code denotes 0.1 multiplier for values under 1.0 pF. eg: “f9”=0.5pF
HOW TO ORDER
1210
B
104
M
250
N
X
T
M
“9” in the marking code denotes 0.1 multiplier for values under 1.0 pF. eg: “f9” = 0.5 pF
SIZE
46
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE
TERMINATION
THICKNESS
OPTION
PACKING
OPTION
MARKING
OPTION
TAPE & REEL SYSTEM
NOVACAP chip capacitors are available packaged in
8mm to 24mm embossed carrier, per EIA RS 481. Specify the
reeled option (T) in the NOVACAP part number code.
Chips are also supplied in bulk or waffle pack.
UNITS PER REEL (TYPICAL)
Feed
Direction
CHIP
SIZE
1.75
+/-.05
3.5
+/-.05
TAPE
WIDTH
UNITS PER REEL*
7” Diam.
13” Diam.
0402
8 mm
3000-4000
15000
0504
8 mm
3000-4000
15000
0603
8 mm
3000-4000
15000
0805
8 mm
3000-4000
15000
1005
8 mm
2000-4000
15000
1206
8 mm
2000-4000
15000
1210
8 mm
2000-3000
10000
1505
12 mm
2000-3000
10000
1808
12 mm
2000-3000
10000
1812
12 mm
1000
10000
1825
12 mm
1000
5000
2221
12 mm
1000
5000
2225
12 mm
1000
5000
2628
16 mm
•
1000
3333
16 mm
•
1000
3530
16 mm
•
1000
4040
16 mm
•
1000
4.00 +/-.10
4.00 +/-.10
1.5 +0.1
-0.0
Embossment
3.8 x 3.2mm
maximum
Cover Tape
.05 Thick
8.0
+/- 0.2
0.3 Max.
2.0 Max.
Dimensions for 8mm tape. Dimensions
with max. tolorance are dependent on
component size.
Quantity per reel varies with chip thickness. Thicker chips (typically higher capacitance values)
will result in lesser quantities.
HOW TO ORDER
1210
B
104
M
250
N
X
T
M
“9” in the marking code denotes 0.1 multiplier for values under 1.0 pF. eg: “f9” = 0.5 pF
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
VOLTAGE
TERMINATION
THICKNESS
OPTION
PACKING
OPTION
MARKING
OPTION
47
NOVACAP FACILITIES
CORPORATE HEADQUARTERS
25136 ANZA DRIVE
VALENCIA, CALIFORNIA
25018 AVENUE KEARNY
VALENCIA, CALIFORNIA
25111 ANZA DRIVE
VALENCIA, CALIFORNIA
25136 ANZA DRIVE
VALENCIA,
OFFICE
661•295•5920
FAX
661•295•5928
WEBSITE
www.novacap.com
E•MAIL
[email protected]
CA
91355
CATALOG 11-00-PC