EMI Filters

A KYOCERA GROUP COMPANY
AVX
EMI Filters
Introduction
HIGH-REL EMI FILTERS
Noise is the enemy of good engineering design. Properly
installed EMI filters suppress such electromagnetic interference on power and signal lines, while allowing desired signals to pass. For critical EMI filter applications, high reliability
is of the utmost importance.
High reliability applications have diverse requirements, ranging from a need for a long operating life in medical or military
systems to avoiding the prohibitive cost of replacing a faulty
component in a satellite, undersea cable, or other inaccessible system. High-rel filters satisfy application-critical requirements in many environments:
• Space/Satellite Systems
• Military Aircraft
• Guidance Systems
• Command, Control & Communications (C3)
• Missile Systems
• Weapon Systems
• Radar Systems
• Electro Optical Systems
• Electronic Countermeasures
• Electronic Warfare
• Pacemakers
• Medication Monitors
HIGH-REL STANDARDS
Reliability must be designed into an EMI filter. Every step in
its manufacture from material selection through testing and
characterization must be considered. To assure conformance to clearly-defined product and performance parameters, specifications have evolved for electrical performance,
mechanical configurations, test methods, screening and
qualification procedures.
AVX Filters delivers high quality EMI filters which meet applicable portions of these high-reliability standards:
• MIL-F-15733
• MIL-STD-220
• MIL-F-28861
• MIL-Q-9858
• MIL-STD-202 • MIL-I-45208A
• MIL-STD-790 • ISO 9000
• MIL-C-123
• EIA-RS-469
AVX FILTERS AT THE LEADING EDGE
AVX Filters Corporation continues to provide innovative
solutions to the high performance needs of its customers. It
has pioneered many breakthroughs which have advanced
the state-of-the-art in this demanding discipline, including:
• The first to qualify to the new High-Reliability Filter Spec,
MIL-F-28861.
• Facility qualified to MIL-STD-790 during first round of
audits for filter manufacturers.
• The first solder-in filter line to offer 400°C installation
temperature.
• The first filter line designed to meet the new MIL-Spec
requirements for heat rise/reactive current in 125 VAC
and 230 VAC 400 Hz applications.
• The first to offer a filter line of hermetically sealed bolt
style filters.
CUSTOM AND SEMI-CUSTOM
In addition to standard catalog and QPL EMI filters, AVX
Filters produces two classes of these special products:
Semi-custom and Custom. Semi-custom involves variations
in electrical parameters, testing, and limited mechanical
changes from standard product designs. Delivery is slightly
longer and price is slightly higher than standard products
Custom products require longer lead time for design and
manufacturing, but give designers freedom to specify nonstandard mechanical and electrical filter designs.
AVX Filters dedicates a unique internal part number to every
semi-custom and custom component. This insures continued configuration control for each part, allows future
changes to be easily implemented, and provides assurance
that the design always matches the customer requirements.
ENGINEER TO ENGINEER
Our application engineering staff will assist in defining
your filter requirements, while recommending advantages,
reliability, quality assurance levels, and filter performance at
the lowest practical cost. They will help in filter selection and
specification, including meeting DESC requirements. SCD
models are available to assist you in the design process.
A custom filter part number will be assigned exclusively to
your SCD. To obtain prompt, professional assistance, call
(818) 767-6770.
QUALITY ASSURANCE
Quality assurance is built into every stage of manufacturing
and testing. AVX Filters controls the entire process, from
the capacitor's dielectric formulation through final filter
test. This results in absolute traceability by lot number to a
specific dielectric batch, as well as the subsequent materials,
equipment and employees involved in the tightly-controlled
manufacturing and testing process. In addition, critical
processes are monitored using SQC, SPC techniques.
AVX Filters Corporation
Contents
Filter Product Selector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Filter Design Guide. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Solder-In Style. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Bolt Style . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Cylindrical Style . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Military Qualified Products . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
Advanced Technology Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
Filter Plates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
How To Order . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54
1
Filter Product Selector
Application Notes
2
Hermetically sealed on one end. This
solder-in series provides both C & L circuit configurations with effective filtering
in the microwave frequency spectrum
from 10 MHz to 26 GHz and beyond.
Unique construction provides 300°C
installation protection against internal
solder reflow. Ideal for assembly into
filter arrays.
Most commonly used bolt-style filter provides improved filtering in the HF through
microwave frequency spectrum from 1
MHz – 10 GHz.
Highest cap values available in small size
– 1.4 MFD. Lowest profile configuration
in cylindrical style best suited for low
moisture environments where hermetic
seal is not required. Provides effective
filtering from 500 KHz to 10 GHz.
This hermetically sealed filter series
provides the longest cases and most
space available in a .375/.410 diameter
cylindrical style. It also offers the greatest
number of circuit options.
The MIL-F-28861/2, 3, 4, 5 are the QPL
equivalents of this series. This series
offers effective filtering from 30 KHz to 10
GHz.
This series of custom assemblies utilizes
AVX Filters' line of high temperature solder-in filters capable of 300°C installation
temperature and can be designed and
fabricated to your specified requirements
or spec control drawings. They can be
furnished 100% tested and burned-in
prior to shipment. To satisfy your requirements for military QPL product and to
preclude the need for non-standard parts
approval, these filter arrays may be
supplied with MIL-F-28861/12,/14 or /15
filters installed as available (see QPL
Listings). If no QPL sources available, the
arrays could be supplied with filters
approved to DESC drawings 88010,
84080, 84081, or 84082, respectively, or
to the AVX Filters catalog equivalents
designed to the requirements of the
MIL-F-28861 slash sheets.
Filter Design Guide
High Reliability
INSTALLATION, HANDLING, HARDWARE OPTIONS
GENERAL
Proper Electrical Operation Requires:
• Good filter/case ground.
• Design layout where filter is installed directly into
conductive shield or enclosure.
• Minimizing holes, slots, or other penetrations of the
shield near the filter.
Installation Precautions
• Although EMI/RFI filters can withstand temperature
extremes, rapid heat-up or cool-down can crack the
internal ceramic capacitor.
– Pre-heating of the filter prior to soldering should be
performed whenever possible.
– Forced-air cooling after soldering is not recommended.
Avoid Mechanical Stress
• Do not use pliers or other gripping tools capable of
exerting excessive pressure on filter case.
• Do not alter the lead or terminal flag either before or
after soldering.
SPECIFIC RECOMMENDATIONS
Hi-Temp Solder-In Style Filter
• Small case design sensitive to excessive heating.
• 150°C preheat prior to solder installation using supplied
solder preform highly recommended.
• Vapor phase reflow (VPR) soldering with integral preheat
is preferred.
• Infrared (IR) and hot plate soldering may also be used.
• Temperature should be increased to solder temperature
(300°C, max.) at a controlled rate of 2°C per second.
• Time at max. temperature should be kept at a minimum
and should never exceed 30 seconds.
• When soldering leads using an iron:
— Iron tip temperature should not exceed 460°F (60/40
solder recommended).
— Use a small iron, 15-20 watts, and do not apply heat
for longer than 10 seconds.
— Use of heat sink clip when lead length permits is
recommended.
• Do not expose leads to torque stresses by moving wires
after soldering to lead. The glass hermetic seal may be
damaged.
• Do not cut or form filter leads.
— Mechanical stress may be transmitted to the
discoidal capacitor.
— The glass hermetic seal may be damaged.
— Contact AVX Filters regarding custom lead lengths
to accommodate your requirements.
Bolt-Style Filters
• Do not exceed recommended nut mounting torques
listed on next page. NOTE: it is preferable to keep to the
low side of torque range when installing filters into
threaded mounting holes.
• On epoxy sealed bolt-style units AVX Filters recommends conformal coating of the units after installation to
improve moisture resistance.
• Observe same precautions listed for hi-temp filter when
soldering to filter center pin.
• Do not bend filter center pin.
Cylindrical-Style Filters
• Observe recommended nut mounting torque as per the
table on next page.
— BK, CK, GK – series filters (1/4-28 UNF-2A) require
44 ± 4 oz-in.
— JD series (5/16-24 UNF-2A) require 60 ± 4 oz-in.
• The terminal flags should not be subjected to mechanical
stress during or after leadwire installation. The glass
hermetic seal may be adversely affected.
• Use care in soldering to the terminal flags. An 18-30
watt soldering iron is recommended. CAUTION: the use
of a large wattage iron without temperature control may
cause reflow of the high-temperature solder used to seal
the terminal. This could result in the loss of hermeticity
for the filter.
HARDWARE OPTIONS
General
• Necessary mounting hardware is supplied with all filters.
• Hex nut and lockwasher plating will be as per filter case
specified.
• Refer to table for hardware selection. Standard hardware (“STD”) will be supplied unless otherwise requested.
MIL-F-28861 filters will be shipped with MIL-F-28861
hardware.
3
Screw & Locking Washer Table
HEX NUT AND INTERNAL TOOTH LOCKWASHER
THREAD
A
B
C
HEX NUT
WASHER
Size Thread
4-40 UNC-2B
(.112-40)
Hex Nut
(STD)
(ALT)
8-32 UNC-2B
(.164-32)
(STD)
(ALT)
10-32 UNF-2B
(.190-32)
(STD)
(ALT)
12-32 UNEF-2B
(.216-32)
(STD)
(ALT)
1/4-28 UNF-2B
(.250-28)
5/16-24 UNF-2B
(.312-24)
A
.187*
.180
.257
.241
.250*
.241
.313
.307
.250
.241
.345
.336
.250
.241
.250*
.241
.311*
.308
.377*
.365
*Used for MIL-F-28861 units.
Thread
(.112-40)
4-40 UNC-2A
(.164-32)
8-32 UNC-2A
(.190-32)
10-32 UNC-2A
(.216-32)
12-32 UNEF-2A
(.250-28)
1/4-28 UNF-2A
(.312-24)
5/16-24 UNF-2A
4
D
Recommended Mounting Torque
32 oz-in. ± 4 oz-in.
64 oz-in. ± 4 oz-in.
64 oz-in. ± 4 oz-in.
64 oz-in. ± 4 oz-in.
44 oz-in. ± 4 oz-in.
60 oz-in. ± 4 oz-in.
Lockwasher
B
.067*
.057
.083
.073
.083*
.073
.114
.104
.080
.070
.130
.120
.083
.073
.073*
.063
.096*
.091
.096*
.091
C
.225*
.215
.265
.255
.285*
.275
.336
.325
.311
.300
.381
.370
.383
.372
.383*
.372
.408*
.396
.435*
.425
D
.020*
.010
.018
.012
.025*
.015
.025
.015
.023
.013
.027
.017
.023
.013
.023*
.013
.021*
.015
.027*
.017
Filter Types
C
L
FEEDTHRU
FILTER
FILTER
A feedthru is a low inductance device, acting as a bypass
feedthru capacitor to ground. It works well with a high impedance load and source. For assured contact, it should be soldered directly to a bulkhead or a connector base.
C
This adds a series-inductive element to the bypass feedthru
capacitor connected to ground. Because of the inductor, it can
be connected to a low impedance source or load. This filter
may be used to link a low impedance source to a high impedance load, or vice versa, with the feedthru capacitor facing the
high impedance circuit.
L1
L2
π
T
FILTER
FILTER
This filter contains two feedthru capacitors connected to
ground with an inductor in-between. It presents a low impedance to both the source and load, and has a sharper roll-off
than either the feed-thru or L-section designs. With feedthru
capacitors as outer elements, this filter is best suited for high
impedance load and source applications.
Pi
This filter forms a 'T' with two inductors and a feedthru capacitor connected to ground. Like the π Filter, it has a sharper rolloff than a feedthru or an L-section design. With inductors as
outer elements, the T-section is intended for applications with
a low impedance load and source. It also finds application
where transient conditions may occur (EMP, lighting, etc).
T
I.L. vs. FREQUENCY
INSERTION LOSS
100
INSERTION LOSS (dB)
The insertion loss values specified throughout
this catalog are based upon an industry standard
of full load and balanced 50 ohm system in
accordance with MIL-STD-220A (at +25°C). The
actual attenuation performance in other circuits
will vary significantly with different values of
source and load impedance.
The insertion loss values in this catalog may
appear to be significantly lower than that of
comparable filters in certain other competitor catalogs. The reason for this is that AVX Filters takes
into account both component and circuit resonances and adjusts the table values such
that the insertion loss will not drop below straight
lines drawn between each data point in a
semilog graph.
(FOR VARIOUS FILTER CONFIGURATIONS)
80
π
60
C
T
L
40
20
0
10 KHz
100 KHz
1 MHz
10 MHz
100 MHz
FREQUENCY
5
Filter Design Guide
High Reliability
M28861 SCREENING
The Group A sequence as outlined in MIL-F-28861 is
performed on a 100% basis whenever Reliability Codes for
Class S or Class B are specified by the customer. Differences
between Class S and Class B screening are shown in the
descriptions.
S-CLASS, B-CLASS TESTING
Test
Thermal Shock
MIL-STD-202
(method)
107, cond. A
Burn-in
108
Dielectric
Withstanding Voltage
Insulation
Resistance
301
Capacitance and D.F.
Insertion Loss
DC Resistance
Voltage Drop
Radiographic Inspect.
Seal Test
Visual and
Mechanical
Solderability
302, cond. A
305
—
303
—
209
112
—
208
Description
S-class: 5 cycles from -55°C to +125°C. Through-hole mounting required.
B-class: as above except mounting not required.
S-class: 168 hours minimum at 2.0X rated voltage, 125°C polarity reversal for the
first 24-72 hours; fused B/I circuit for each filter.
B-class: 164 ± 4 hours at 2.0X rated voltage.
S-class, B-class: 2.5X rated DC voltage for 5 seconds minimum,
1 minute maximum, 50 mA charging current.
S-class: test at 100 VDC or rated, V, whichever is less. Pass/fail limits are
also based upon 125°C reading from first 50 pieces.
B-class: same as above, except omit pass/fail as per 50 piece calculation.
S-class, B-class: test 1000 ± 100 Hz, 0.1 to 1.2 VRMS
S-class, B-class: per MIL-STD 220 at load, no-load as specified.
S-class, B-class: test is optional if DC Voltage Drop Test performed.
S-class, B-class: M28861 para. 4.6.6.1 (AC rated), para 4.6.6.2 (DC rated)
S-class, B-class: 2 views required with 10X examination images.
S-class: condition C, B-class: condition A or D
S-class: M28861 para 4.6.1.2 which includes element, subassembly,
and pre-cap inspections, B-class: M28861 para 4.6.3 for external visual only.
S-class, B-class: 5 samples.
R-LEVEL SCREENING
The test sequence outlined below is performed whenever
AVX Filters R-level screening is specified. Each filter lot is
subjected to the tests in the order shown on a 100% basis.
Summary data is provided for R-level Screening and is
included with shipment.
R-LEVEL TESTING
Test
Thermal Shock
Burn-in
Dielectric
Withstanding Voltage
Insulation
Resistance
Seal Test
Depolarization
Capacitance
and D.F.
DC Resistance
Insertion Loss
Visual and
Mechanical
6
MIL-STD-202
(method)
107, cond. A
108, cond. A
301
112, cond. A
—
305
Description
5 cycles from -55°C to +125°C.
100 hours at 1.4 times rated voltage, ±125°C.
Twice (2X) rated DC voltage for 5 ± 1 sec at 25°C,
50 mA maximum charging current.
Testing performed at rated DC voltage.
The 125°C value shall be 10% of the specified IR at 25°C.
Gross leak test. Not applicable to epoxy-sealed units.
1 hour at 150°C. No voltage applied.
Test signal 1KHz, 1.0 VRMS.
303
—
—
DCR measured in lieu of voltage drop.
Per MIL-F-15733 para 4.6.9.1 (check test)
Per MIL-F-15733 para. 4.6.1
302, cond. A
Solder-In Style High Temp EMI Filters
ZZ Series – .118 Dia. – Circuits Available - C
APPLICATIONS
The ZZ series is intended for use as a
high reliability alternative to a commonly
available commercial filter type. Due to its
smaller body diameter, capacitance is
limited. It does provide effective filtering in
the MICROWAVE frequency spectrum
from 100 MHz through 26 GHz. Designed
to be soldered into a package, bracket or
bulkhead (and maintain hermeticity),
it is ideal for high impedance circuits
where large capacitance values are
not practical.
Alternate lead lengths or special capacitance values are available upon request.
Custom packages or bracket assemblies
utilizing this feedthru can be furnished to
your specifications.
CHARACTERISTICS
• High temperature construction withstands 300°C installation temperatures.
• Features rugged monolithic discoidal
capacitor construction.
• Glass hermetic seal on one end with
epoxy seal on the opposite end.
• High purity gold plating provides excellent solderability or compatibility with
thermal and ultrasonic wire bonding.
SPECIFICATIONS
1. Finish: Gold standard –
Silver and solder coat available
2. Material:
Case: Cold rolled steel
Leads: Alloy 52 steel
3. Operating Temperature Range:
-55°C to +125°C
4. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 100,000 megohms
min., whichever is less
At 125°C: 100 megohm-microfarad
min., or 10,000 megohms
min., whichever is less
5. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
6. DC Resistance (DCR): .01 ohm,
maximum
7. Dissipation Factor (DF): 3% maximum
8. Rated DC Current: 5 Amps, maximum
9. Maximum Installation Temperature:
300°C
10. Supplied with 60/40 solder preform for
easy installation
STANDARD CONFIGURATION
(See Note 1)
.118
±.002
.030
±.002
.020
±.005
GLASS SEAL
.140
±.005
.400
±.020
.110
±.005
.140
±.020
CIRCUIT DIAGRAMS
C
ZZ1
millimeters (inches)
0.05 (.002)
3.05 (.120)
Notes:
0.13 (.005)
3.43 (.135)
1. Glass seal on end opposite flange.
0.51 (.020)
3.56 (.140)
2. Metric equivalent dimensions given
for information only.
1.02 (.040)
3.68 (.145)
2.79 (.110)
10.16 (.400)
2.95 (.116)
—
—
(See Note 2)
7
Solder-In Style High Temp EMI Filters
ZZ Series – .118 Dia. – Circuits Available – C
SPECIFICATIONS
AVX
P/N
ZZ1C3-250H
ZZ1C3-500H
ZZ1C3-101H
ZZ1C3-102H
ZZ1C3-152H
ZZ1A3-250H
ZZ1A3-500H
ZZ1A3-101H
ZZ1A3-102H
ZZ1A3-152H
ZZ1B3-250H
ZZ1B3-500H
ZZ1B3-101H
ZZ1B3-102H
Current
AMP
5
5
5
5
5
5
5
5
5
5
5
5
5
5
CKT
C
C
C
C
C
C
C
C
C
C
C
C
C
C
DC
Voltage
50
50
50
50
50
100
100
100
100
100
200
200
200
200
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
1
CAP
Min.
25
50
100
1000
1500
25
50
100
1000
1500
25
50
100
1000
For special multi-unit assemblies see Multi-Component Filter Brackets section.
8
Insertion Loss2 Per MIL-STD-220, +25°C
1
10
100
1000
MHz
MHz
MHz
MHz
–
–
–
10
–
–
1
15
–
–
3
20
–
4
20
31
–
5
21
42
–
–
–
10
–
–
1
15
–
–
3
20
–
4
18
36
–
5
21
42
–
–
–
10
–
–
1
15
–
–
3
20
–
4
18
36
10
GHz
15
25
30
55
55
15
25
30
55
55
15
25
30
55
Solder-In Style High Temp EMI Filters
ZS/ZR Series – .128 Dia. – Circuits Available – C & L
APPLICATIONS
The ZS series provides effective filtering
in the MICROWAVE frequency spectrum
from 10 MHz through 26 GHz. Designed
to be soldered into a package, bracket or
bulkhead (and maintain hermeticity), it is
ideal for high impedance circuits where
large capacitance values are not practical.
In the “L” section version an internal ferrite bead element provides both induc-
tance and series resistance (lossy characteristic) which improves insertion loss and
provides superior transient performance.
Alternate lead lengths or special capacitance values may be ordered.
Custom packages or bracket assemblies
utilizing this feedthru can be furnished to
your specifications.
CHARACTERISTICS
• Meets or exceeds the applicable portions
of MIL-F-28861/12. See QPL listings.
• High temperature construction withstands 300°C installation temperatures.
• Features rugged monolithic discoidal
capacitor construction.
• Glass hermetic seal on one end with
epoxy seal on the opposite end.
• High purity gold plating provides excellent solderability or compatibility with
thermal and ultrasonic wire bonding.
SPECIFICATIONS
1. Plating: Gold standard –
Silver and solder coat available
2. Material:
Case: Cold rolled steel
Leads: Alloy 52 steel
3. Operating Temperature Range:
-55°C to +125°C
4. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 100,000 megohms
min., whichever is less
At 125°C: 100 megohm-microfarad
min., or 10,000 megohms
min., whichever is less
5. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
6. DC Resistance (DCR): .01 ohm,
maximum
7. Dissipation Factor (DF): 3% maximum
8. Rated DC Current: 5 Amps, maximum
9. Maximum Installation Temperature:
300°C
10. Supplied with 60/40 solder preform for
easy installation
11. Insertion Loss for the “C” and “L” circuits
are equivalent due to the saturation
characteristic of the ferrite bead element
at full rated current. At lower currents the
“L” becomes much more effective.
STANDARD CONFIGURATION
.128
±.005
.020
±.005
.030
±.002
GLASS SEAL
A
.156
±.005
.25
±.03
B
CIRCUIT DIAGRAMS
FLANGE
END
GLASS
SEAL
END
C
ZS1, ZR1
FLANGE
END
ZS2
millimeters (inches)
0.05 (.002) 3.25 (.128)
0.13 (.005) 3.96 (.156)
0.51 (.020) 5.08 (.200)
0.76 (.030) 6.4 (.25)
0.8 (.03) 15.88 (.625)
2.79 (.110) 18.16 (.715)
(See Note 4)
(See Note 3)
GLASS
SEAL
END
ZR2
Notes:
1. Outline drawing shows standard ZS configuration. Also
available with glass seal at
the opposite end, ZR reverse
configuration.
3. For ZS2 or ZR2 L-Section
Filters inductor always positioned at epoxy-filled end.
4. Metric equivalent dimensions
given for information only.
2. MIL-F-28861/12 style FS70
equivalent to standard ZS
configuration. Style FS71 is
reverse ZR configuration.
MIL-F-28861/12 (See Note 2)
Circuit
Diagram
Dimensions
A
B
±.005 Nom.
L
.200
.715
C
.110
.625
Dash No.
001 through 016,
033 and 034
017 through 032,
035 and 036
Style
FS70
FS71
9
Solder-In Style High Temp EMI Filters
ZS/ZR Series – .128 Dia. – Circuits Available – C & L
SPECIFICATIONS
AVX
P/N
ZS1C2-501H
ZS1C2-102H
ZS1C2-122H
ZS1C2-272H
ZS1C2-502H
ZS1C2-103H
ZS1C2-153H
ZS2C2-501H
ZS2C2-102H
ZS2C2-122H
ZS2C2-272H
ZS2C2-502H
ZS2C2-103H
ZS2C2-153H
ZS1A2-101H
ZS1A2-501H
ZS1A2-102H
ZS1A2-122H
ZS1A2-272H
ZS1A2-502H
ZS1A2-103H
ZS1A2-153H
ZS2A2-100H
ZS2A2-250H
ZS2A2-101H
ZS2A2-501H
ZS2A2-102H
ZS2A2-122H
ZS2A2-272H
ZS2A2-502H
ZS2A2-103H
ZS2A2-153H
Current
AMP
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
CKT
C
C
C
C
C
C
C
L
L
L
L
L
L
L
C
C
C
C
C
C
C
C
L
L
L
L
L
L
L
L
L
L
DC
Voltage
50
50
50
50
50
50
50
50
50
50
50
50
50
50
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
1
CAP
Min.
500
1000
1200
2700
5000
.010
.015
500
1000
1200
2700
5000
.010
.015
100
500
1000
1200
2700
5000
.010
.015
10
25
100
500
1000
1200
2700
5000
.010
.015
500
KHz
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Insertion Loss2 Per MIL-STD-220, +25°C
1
10
100
1000
MHz
MHz
MHz
MHz
–
–
15
30
–
4
20
31
–
5
20
35
–
10
25
40
–
15
30
45
4
20
35
48
7
25
40
50
–
–
15
30
–
4
20
33
–
5
20
37
–
10
25
40
–
15
30
45
4
20
38
50
7
25
42
50
–
–
3
20
–
–
15
30
–
4
20
31
–
5
20
35
–
10
25
40
–
15
30
45
4
20
35
48
7
25
40
50
–
–
–
5
–
–
–
10
–
–
3
20
–
–
15
30
–
4
20
33
–
5
20
37
–
10
25
40
–
15
30
45
4
20
38
50
7
25
42
50
10
GHz
50
55
55
60
60
60
60
50
55
55
60
60
60
60
30
50
55
55
60
60
60
60
10
15
30
50
55
55
60
60
60
60
continued
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
NOTE: AVX Filters' Standard configurations (e.g. ZS, YS, XS, WS) have the hermetic glass seal
opposite the flange end. All parts are capable of the reverse configuration with the glass
seal at the flange end. All parameters are otherwise identical. The part number changes
from “S” to “R” (e.g., standard = ZS1C2-153H; reverse = ZR1C2-153H).
For special multi-unit assemblies see Multi-Component Filter Brackets section.
10
Solder-In Style High Temp EMI Filters
ZS/ZR Series – .128 Dia. – Circuits Available – C & L
SPECIFICATIONS
AVX
P/N
ZS1B2-100H
ZS1B2-250H
ZS1B2-101H
ZS1B2-501H
ZS1B2-102H
ZS1B2-122H
ZS1B2-272H
ZS2B2-100H
ZS2B2-250H
ZS2B2-101H
ZS2B2-501H
ZS2B2-102H
ZS2B2-122H
ZS2B2-272H
Current
AMP
5
5
5
5
5
5
5
5
5
5
5
5
5
5
CKT
C
C
C
C
C
C
C
L
L
L
L
L
L
L
DC
Voltage
200
200
200
200
200
200
200
200
200
200
200
200
200
200
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
1
CAP
Min.
10
25
100
500
1000
1200
2700
10
25
100
500
1000
1200
2700
500
KHz
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Insertion Loss2 Per MIL-STD-220, +25°C
1
10
100
1000
MHz
MHz
MHz
MHz
–
–
–
4
–
–
–
10
–
–
3
20
–
–
15
30
–
4
20
31
–
5
20
35
–
10
25
40
–
–
–
5
–
–
–
10
–
–
3
20
–
–
15
30
–
4
20
33
–
5
20
37
–
10
25
40
10
GHz
10
15
30
50
55
55
60
10
15
30
50
55
55
60
NOTE: AVX Filters' Standard configurations (e.g. ZS, YS, XS, WS) have the hermetic glass seal
opposite the flange end. All parts are capable of the reverse configuration with the glass
seal at the flange end. All parameters are otherwise identical. The part number changes
from “S” to “R” (e.g., standard = ZS1C2-153H; reverse = ZR1C2-153H).
For special multi-unit assemblies see Multi-Component Filter Brackets section.
11
Solder-In Style High Temp EMI Filters
YS/YR Series – .165 Dia. – Circuits Available – C & L
APPLICATIONS
The YS series provides increased filtering
in the MICROWAVE frequency spectrum
from 1 MHz through 10 GHz. Previously
unavailable in the industry as a solder-in
device, this unique design offers higher
values of capacitance than were previously available. Designed to be soldered
into a package, bracket or bulkhead (and
maintain hermeticity), it is ideal for high
impedance circuits where large capacitance values are not practical. In the “L”
section version an internal ferrite bead
element provides both inductance and
series resistance (lossy characteristic)
which improves insertion loss and provides superior transient performance.
Alternate lead lengths or special capacitance values may be ordered.
Custom packages or bracket assemblies
utilizing this feedthru can be furnished to
your specifications.
CHARACTERISTICS
• Meets or exceeds the applicable portions
of MIL-F-28861/15. See QPL listings.
• High temperature construction withstands 300°C installation temperatures.
• Features rugged monolithic discoidal
capacitor construction.
• Glass hermetic seal on one end with
epoxy seal on the opposite end.
• High purity gold plating provides excellent solderability or compatibility with
thermal and ultrasonic wire bonding.
SPECIFICATIONS
1. Plating: Gold standard – Silver available
2. Material:
Case: Cold rolled steel
Leads: Alloy 52 steel
3. Operating Temperature Range:
-55°C to +125°C
4. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 100,000 megohms
min., whichever is less
At 125°C: 100 megohm-microfarad
min., or 10,000 megohms
min., whichever is less
5. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
6. DC Resistance (DCR): .01 ohm,
maximum
7. Dissipation Factor (DF): 3% maximum
8. Rated DC Current: 5 Amps, maximum
9. Maximum Installation Temperature:
300°C
10. Supplied with 60/40 solder preform for
easy installation
11. Insertion Loss for the “C” and “L” circuits
are equivalent due to the saturation
characteristic of the ferrite bead element
at full rated current. At lower currents the
“L” becomes much more effective.
12
STANDARD CONFIGURATION
.165
±.005
.025
±.005
.032
±.002
GLASS SEAL
A
.200
±.005
B
.25
±.03
(2 PLC)
CIRCUIT DIAGRAMS
FLANGE
END
GLASS
SEAL
END
C
FLANGE
END
YS2
YS1, YR1
millimeters (inches)
0.05
0.13
0.64
0.8
0.81
3.81
YR2
Notes:
(.002) 4.19 (.165)
(.005) 5.08 (.200)
(.025) 6.35 (.250)
(.03) 16.51 (.650)
(.032) 19.05 (.750)
(.150)
—
—
(See Note 4)
Circuit
Diagram
(See Note 3)
GLASS
SEAL
END
Dimensions
A
B
±.005
Ref.
L
.250
.750
C
.150
.650
1. Outline drawing shows standard YS configuration. Also
available with glass seal at
the opposite end, YR reverse
configuration.
2. MIL-F-28861/15 style A
equivalent to standard YS
configuration. Style B is
reverse YR configuration.
3. For YS2 or YR2 L-Section
Filters inductor always positioned at epoxy-filled end.
4. Metric equivalent dimensions
given for information only.
MIL-F-28861/15 (See Note 2)
Dash No.
001 through 004
005 through 008
Config.
A
B
Solder-In Style High Temp EMI Filters
YS/YR Series – .165 Dia. – Circuits Available – C & L
SPECIFICATIONS
AVX
P/N
YS1C2-152H
YS1C2-502H
YS1C2-103H
YS1C2-153H
YS1C2-203H
YS1C2-273H
YS1C2-503H
YS1C2-753H
YS1C2-104H
YS2C2-152H
YS2C2-502H
YS2C2-103H
YS2C2-153H
YS2C2-203H
YS2C2-273H
YS2C2-503H
YS2C2-753H
YS2C2-104H
YS1A2-152H
YS1A2-502H
YS1A2-103H
YS1A2-153H
YS1A2-203H
YS1A2-273H
YS1A2-503H
YS1A2-753H
YS2A2-152H
YS2A2-502H
YS2A2-103H
YS2A2-153H
YS2A2-203H
YS2A2-273H
YS2A2-503H
YS2A2-753H
Current
AMP
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
CKT
C
C
C
C
C
C
C
C
C
L
L
L
L
L
L
L
L
L
C
C
C
C
C
C
C
C
L
L
L
L
L
L
L
L
DC
Voltage
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
1
CAP
Min.
1500
5000
.010
.015
.020
.027
.050
.075
.1
1500
5000
.010
.015
.020
.027
.050
.075
.1
1500
5000
.010
.015
.020
.027
.050
.075
1500
5000
.010
.015
.020
.027
.050
.075
500
KHz
–
–
–
–
–
4
9
12
14
–
–
–
–
–
4
9
12
14
–
–
–
–
–
–
9
12
–
–
–
–
–
–
9
12
Insertion Loss2 Per MIL-STD-220, +25°C
1
10
100
1000
MHz
MHz
MHz
MHz
–
5
21
42
–
15
34
50
4
20
35
53
7
25
40
55
8
27
41
60
10
30
42
65
15
35
44
70
18
37
46
70
20
38
48
70
–
6
22
48
–
15
35
55
4
20
36
57
7
25
45
60
8
27
46
62
10
30
48
65
15
36
50
70
18
37
51
70
20
39
52
70
–
5
21
42
–
15
34
50
4
20
35
53
7
25
40
55
8
27
41
60
10
30
42
65
15
35
44
70
18
37
46
70
–
6
22
48
–
15
35
55
4
20
36
57
7
25
45
60
8
27
46
62
10
30
48
65
15
36
50
70
18
37
51
70
10
GHz
55
60
60
60
65
70
70
70
70
55
60
60
60
65
70
70
70
70
55
60
60
60
65
70
70
70
55
60
60
60
65
70
70
70
continued
NOTE: AVX Filters' Standard configurations (e.g. ZS, YS, XS, WS) have the hermetic glass seal
opposite the flange end. All parts are capable of the reverse configuration with the glass
seal at the flange end. All parameters are otherwise identical. The part number changes
from “S” to “R” (e.g., standard = ZS1C2-153H; reverse = ZR1C2-153H).
For special multi-unit assemblies see Multi-Component Filter Brackets section.
13
Solder-In Style High Temp EMI Filters
YS/YR Series – .165 Dia. – Circuits Available – C & L
SPECIFICATIONS
AVX
P/N
YS1B2-152H
YS1B2-502H
YS1B2-103H
YS1B2-153H
YS1B2-203H
YS1B2-273H
YS2B2-152H
YS2B2-502H
YS2B2-103H
YS2B2-153H
YS2B2-203H
YS2B2-273H
Current
AMP
5
5
5
5
5
5
5
5
5
5
5
5
CKT
C
C
C
C
C
C
L
L
L
L
L
L
DC
Voltage
200
200
200
200
200
200
200
200
200
200
200
200
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
1
CAP
Min.
1500
5000
.010
.015
.020
.027
1500
5000
.010
.015
.020
.027
500
KHz
–
–
–
–
–
4
–
–
–
–
–
4
Insertion Loss2 Per MIL-STD-220, +25°C
1
10
100
1000
MHz
MHz
MHz
MHz
–
5
21
42
–
15
34
50
4
20
35
53
7
25
40
55
8
27
41
60
10
30
42
65
–
6
22
48
–
15
35
55
4
20
36
57
7
25
45
60
8
27
46
62
10
30
48
65
NOTE: AVX Filters' Standard configurations (e.g. ZS, YS, XS, WS) have the hermetic glass seal
opposite the flange end. All parts are capable of the reverse configuration with the glass
seal at the flange end. All parameters are otherwise identical. The part number changes
from “S” to “R” (e.g., standard = ZS1C2-153H; reverse = ZR1C2-153H).
For special multi-unit assemblies see Multi-Component Filter Brackets section.
14
10
GHz
55
60
60
60
65
70
55
60
60
60
65
70
Solder-In Style High Temp EMI Filters
XS/XR Series – .250 Dia. – Circuits Available – C & L
APPLICATIONS
The XS series expands upon the YS
offering by providing additional filtering in
the HF through MICROWAVE frequency
spectrum from 500 KHz up to 10 GHz.
The larger diameter of the XS series
means that even higher values of capacitance and a rated DC current of 10 Amps
are available. Designed to be soldered
into a package, bracket or bulkhead
(and maintain hermeticity), it is ideal for
medium to high impedance circuits
where significant amounts of capacitance
to ground can be tolerated. In the “L”
section version an internal ferrite bead
element provides both inductance and
series resistance (lossy characteristic)
which improves insertion loss and provides superior transient performance.
Alternate lead lengths or special capacitance values may be ordered.
Custom packages or bracket assemblies
utilizing this feedthru can be furnished to
your specifications.
CHARACTERISTICS
• Glass hermetic seal on one end with
epoxy seal on the opposite end.
• High purity gold plating provides excellent solderability or compatibility with
thermal and ultrasonic wire bonding.
• Meets or exceeds the applicable portions
of MIL-F-28861/14. See QPL listings.
• High temperature construction withstands 300°C installation temperatures.
• Features rugged monolithic discoidal
capacitor construction.
SPECIFICATIONS
1. Plating: Gold standard – Silver available
2. Material:
Case: Cold rolled steel
Leads: Alloy 52 steel
3. Operating Temperature Range:
-55°C to +125°C
4. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 100,000 megohms
min., whichever is less
At 125°C: 100 megohm-microfarad
min., or 10,000 megohms
min., whichever is less
5. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
6. DC Resistance (DCR): .01 ohm,
maximum
7. Dissipation Factor (DF): 3% maximum
8. Rated DC Current: 5 Amps, maximum
9. Maximum Installation Temperature:
300°C
10. Supplied with 60/40 solder preform for
easy installation
11. Insertion Loss for the “C” and “L” circuits
are equivalent due to the saturation
characteristic of the ferrite bead element
at full rated current. At lower currents the
“L” becomes much more effective.
STANDARD CONFIGURATION
.250
±.005
.025
±.005
.032
±.002
GLASS SEAL
A
.290
±.005
B
REF
.25
±.03
(2 PLC)
CIRCUIT DIAGRAMS
FLANGE
END
GLASS
SEAL
END
C
XS2
XS1, XR1
millimeters (inches)
0.05
0.13
0.64
0.8
0.81
(See Note 3)
GLASS
SEAL
END
XR2
Notes:
(.002) 3.81 (.150)
(.005) 6.35 (.250)
(.025) 7.37 (.290)
(.03) 16.51 (.650)
(.032) 19.05 (.750)
(See Note 4)
Circuit
Diagram
FLANGE
END
Dimensions
A
B
±.005
Ref.
L
.250
.750
C
.150
.650
1. Outline drawing shows standard XS configuration. Also
available with glass seal at
the opposite end, XR reverse
configuration.
2. MIL-F-28861/14 configuration
A is equivalent to standard XS
configuration. B is reverse XR
configuration.
3. For XS2 or XR2 L-Section
Filters inductor always positioned at epoxy-filled end.
4. Metric equivalent dimensions
given for information only.
MIL-F-28861/14 (See Note 2)
Dash No.
001 through 006
007 through 012
Config.
A STD
B REV
15
Solder-In Style High Temp EMI Filters
XS/XR Series – .250 Dia. – Circuits Available – C & L
SPECIFICATIONS
AVX
P/N
XS1C2-503H
XS1C2-753H
XS1C2-104H
XS1C2-154H
XS1C2-254H
XS2C2-503H
XS2C2-753H
XS2C2-104H
XS2C2-154H
XS2C2-254H
XS1A2-503H
XS1A2-753H
XS1A2-104H
XS2A2-503H
XS2A2-753H
XS2A2-104H
XS1B2-153H
XS1B2-223H
XS2B2-153H
XS2B2-223H
XS1L2-103H
XS2L2-103H
Current
AMP
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
CKT
C
C
C
C
C
L
L
L
L
L
C
C
C
L
L
L
C
C
L
L
C
L
DC
Voltage
50
50
50
50
50
50
50
50
50
50
100
100
100
100
100
100
200
200
200
200
300
300
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
1
CAP
Min.
.050
.075
.1
.15
.25
.050
.075
.1
.15
.25
.050
.075
.1
.050
.075
.1
.015
.022
.015
.022
.010
.010
500
KHz
9
12
14
17
21
9
12
14
17
21
9
12
14
9
12
14
–
2
–
2
–
–
Insertion Loss2 Per MIL-STD-220, +25°C
1
10
100
1000
MHz
MHz
MHz
MHz
15
35
44
70
18
37
46
70
20
38
48
70
24
38
50
70
31
40
55
70
15
36
50
70
18
37
51
70
20
39
52
70
26
40
53
70
31
40
56
70
15
35
44
70
18
37
46
70
20
38
48
70
15
36
50
70
18
37
51
70
20
39
52
70
5
25
40
55
8
26
40
58
5
25
45
60
8
27
45
65
3
20
35
52
3
20
38
55
NOTE: AVX Filters' Standard configurations (e.g. ZS, YS, XS, WS) have the hermetic glass seal
opposite the flange end. All parts are capable of the reverse configuration with the glass
seal at the flange end. All parameters are otherwise identical. The part number changes
from “S” to “R” (e.g., standard = ZS1C2-153H; reverse = ZR1C2-153H).
For special multi-unit assemblies see Multi-Component Filter Brackets section.
16
10
GHz
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
60
70
60
70
60
60
Solder-In Style High Temp EMI Filters
WS/WR Series – .400 Dia. – Circuits Available – C & L
APPLICATIONS
The WS series expands greatly upon the
XS and YS offerings by providing
increased filtering in the HF through
MICROWAVE frequency spectrum from
500 KHz up to 10 GHz. The larger diameter of the WS series means even higher
values of capacitance, a rated DC current
of 15 Amps, plus 125 VAC/400 Hz ratings are available. Designed to be soldered into a package, bracket or bulkhead (and maintain hermeticity), it is ideal
for low to medium impedance circuits
where large amounts of capacitance to
ground can be tolerated. In the “L”
section version an internal ferrite bead
element provides both inductance and
series resistance (lossy characteristic)
which improves insertion loss and provides superior transient performance.
Alternate lead lengths or special capacitance values may be ordered.
Custom packages or bracket assemblies
utilizing this feedthru can be furnished to
your specifications.
CHARACTERISTICS
SPECIFICATIONS
• Meets or exceeds the applicable portions
of MIL-F-28861/13. See QPL listings.
• High temperature construction withstands 300°C installation temperatures.
• Features rugged monolithic discoidal
capacitor construction.
1. Plating: Gold standard – Silver available
2. Material:
Case: Cold rolled steel
Leads: Alloy 52 steel
3. Operating Temperature Range:
-55°C to +125°C
4. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 100,000 megohms
min., whichever is less
At 125°C: 100 megohm-microfarad
min., or 10,000 megohms
min., whichever is less
5. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
6. DC Resistance (DCR): .01 ohm,
maximum
7. Dissipation Factor (DF): 3% maximum
8. Rated DC Current: 15 Amps, maximum
9. Maximum Installation Temperature:
300°C
10. Supplied with 60/40 solder preform for
easy installation
11. Insertion Loss for the “C” and “L” circuits
are equivalent due to the saturation
characteristic of the ferrite bead element
at full rated current. At lower currents the
“L” becomes much more effective.
• Glass hermetic seal on one end with
epoxy seal on the opposite end.
• High purity gold plating provides excellent solderability or compatibility with
thermal and ultrasonic wire bonding.
STANDARD CONFIGURATION
.400
±.005
.050
±.002
.025
±.005
GLASS SEAL
A
.450
±.005
B
REF
.25
±.03
(2 PLC)
CIRCUIT DIAGRAMS
GLASS
SEAL
END
C
WS2, WR2 (See Note 3)
WS1, WR1
millimeters (inches)
0.05
0.13
0.64
0.8
1.27
5.08
Notes:
(.002) 6.35 (.250)
(.005) 7.62 (.300)
(.025) 10.16 (.400)
(.03) 11.43 (.450)
(.050) 17.78 (.700)
(.200) 20.32 (.800)
(See Note 4)
Circuit
Diagram
FLANGE
END
Dimensions
A
B
±.005
Ref.
L
.300
.800
C
.200
.700
1. Outline drawing shows standard WS configuration. Also
available with glass seal at
the opposite end, WR reverse
configuration.
2. MIL-F-28861/13 configuration
“A” is equivalent to standard
WS configuration. “B” is
reverse WR configuration.
3. For WS2 or WR2 L-Section
Filters inductor always positioned at epoxy-filled end.
4. Metric equivalent dimensions
given for information only.
MIL-F-28861/13 (See Note 2)
Dash No.
001 through 008
009 through 016
Config.
A
B
17
Solder-In Style High Temp EMI Filters
WS/WR Series – .400 Dia. – Circuits Available – C & L
SPECIFICATIONS
AVX
P/N
WS1C2-154H
WS1C2-504H
WS1C2-754H
WS1C2-125H
WS2C2-154H
WS2C2-504H
WS2C2-754H
WS2C2-125H
WS1N2-704H
WS2N2-704H
WS1A2-154H
WS1A2-504H
WS1A2-754H
WS1A2-105H
WS2A2-154H
WS2A2-504H
WS2A2-754H
WS2A2-105H
WS1L2-503H
WS1L2-154H
WS2L2-503H
WS2L2-154H
WS1E2-103H
WS1E2-503H
WS2E2-103H
WS2E2-503H
Current
AMP
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
Circuit
C
C
C
C
L
L
L
L
C
L
C
C
C
C
L
L
L
L
C
C
L
L
C
C
L
L
DC
Voltage
50
50
50
50
50
50
50
50
70
70
100
100
100
100
100
100
100
100
200*
200*
200*
200*
400
400
400
400
1
CAP
Min.
.15
.50
.75
1.2
.15
.50
.75
1.2
.70
.70
.15
.50
.75
1.0
.15
.50
.75
1.0
.050
.15
.050
.15
.010
.050
.010
.050
500
KHz
17
26
31
33
17
26
31
33
30
30
17
26
31
31
17
26
31
31
7
17
7
17
–
7
–
7
Insertion Loss2 Per MIL-STD-220, +25°C
1
10
100
1000
MHz
MHz
MHz
MHz
24
38
50
70
34
42
58
70
37
43
62
70
37
52
70
70
26
40
53
70
36
44
60
70
40
44
64
70
38
53
70
70
36
41
60
70
38
42
62
70
24
38
50
70
34
42
58
70
37
43
62
70
40
48
64
70
26
40
53
70
34
44
60
70
40
44
64
70
41
50
65
70
15
34
42
70
24
38
50
70
15
34
44
70
26
40
53
70
4
20
34
50
15
34
44
70
4
20
35
55
15
34
44
70
* Rated 200 VDC or 125 VAC/400 Hz.
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
NOTE: AVX Filters' Standard configurations (e.g. ZS, YS, XS, WS) have the hermetic glass seal
opposite the flange end. All parts are capable of the reverse configuration with the glass
seal at the flange end. All parameters are otherwise identical. The part number changes
from “S” to “R” (e.g., standard = ZS1C2-153H; reverse = ZR1C2-153H).
For special multi-unit assemblies see Multi-Component Filter Brackets section.
18
10
GHz
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
60
70
60
70
Bolt Style EMI Filters
SA Series – 4-40 Thread - Epoxy Sealed –
Circuits Available – C & L
APPLICATIONS
The SA series provides effective filtering
in the RF and MICROWAVE frequency
spectrums from 10 MHz through 26 GHz.
Designed for mounting in a tapped
bulkhead or with the standard nut and
lockwasher provided, it is ideal for high
impedance circuits where large capacitance values are not practical. In the “L”
section version an internal ferrite bead
element provides both inductance and
series resistance (lossy characteristic)
which improves insertion loss and provides superior transient performance. The
SA series comes with a standard .020
diameter beryllium copper lead. Alternate
lead lengths, diameters of .016 or .026
and alternate materials in steel or halfhard copper are available.
CHARACTERISTICS
• Meets or exceeds the applicable portions
of MIL-F-28861/6. See QPL listings.
• Smallest screwbody filter available.
• Features rugged monolithic discoidal
capacitor construction.
• Epoxy seal on both ends.
SPECIFICATIONS
1. Plating: Silver standard – Electro-tin or
gold available
2. Material:
Case: Cold rolled steel
Leads: Beryllium copper (steel or half/hard
copper leads available)
3. Operating Temperature Range:
-55°C to +125°C
4. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 100,000 megohms
min., whichever is less
At 125°C: 100 megohm-microfarad
min., or 10,000 megohms
min., whichever is less
5. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
6. DC Resistance (DCR): .02 ohm,
maximum
7. Dissipation Factor (DF): 3% maximum
8. Rated DC Current: 5 Amps, maximum
9. Recommended Mounting Torque:
32 oz-in. ± 4 oz-in.
10. Supplied with mounting nut and lockwasher - See Filter Design Guide Screw
and Locking Washer Table
11. Insertion Loss for the “C” and “L” sections
are equivalent due to the saturation
characteristic of the ferrite bead element
at rated current. At lower currents the “L”
becomes much more effective.
STANDARD CONFIGURATION
A
.154
.159
.030
MAX.
.112-40 UNC-2A
(4-40)
.020 ±.002
(Std. - See Note 1)
.030
MAX.
.220
±.010
.240
±.020
A = .120 ±.005
(See Note 2)
.360
±.020
CIRCUIT DIAGRAMS
THRD
END
C
SA1
millimeters (inches)
0.05 (.002) 3.05 (.120)
0.13 (.005) 3.68 (.145)
0.25 (.010) 3.91 (.154)
0.41 (.016) 4.04 (.159)
0.51 (.020) 5.59 (.220)
0.66 (.026) 6.10 (.240)
0.76 (.030) 9.14 (.360)
2.84 (.112)
—
—
L2
SA2 (See Note 3)
Notes:
1. Standard catalog designs
have .020" dia. lead. MIL-F28861/6 calls for .026" dia.
.026" dia. will not be supplied
unless specified.
3. All SA2 L-Section Filters have
inductor (bead) at threaded
end.
4. Metric equivalent dimensions
given for information only.
2. “A” dimension of .120 ± .005
will satisfy M28861/6-003
requirement for .145 ± .030.
All “SA” series are supplied
A = .120 ± .005.
(See Note 4)
19
Bolt Style EMI Filters
SA Series – 4-40 Thread - Epoxy Sealed –
Circuits Available – C & L
SPECIFICATIONS
AVX
P/N
SA1C1-102
SA1C1-502
SA1C1-103
SA1C1-273
SA1C1-503
SA2C1-102
SA2C1-502
SA2C1-103
SA2C1-273
SA2C1-503
SA1A1-102
SA1A1-502
SA1A1-103
SA1A1-273
SA1A1-453
SA2A1-102
SA2A1-502
SA2A1-103
SA2A1-273
SA2A1-453
SA1B1-102
SA1B1-502
SA1B1-103
SA2B1-102
SA2B1-502
SA2B1-103
CKT
C
C
C
C
C
L2
L2
L2
L2
L2
C
C
C
C
C
L2
L2
L2
L2
L2
C
C
C
L2
L2
L2
CAP1
1000
5000
.01
.027
.05
1000
5000
.01
.027
.05
1000
5000
.01
.027
.045
1000
5000
.01
.027
.045
1000
5000
.01
1000
5000
.01
DC
Voltage
50
50
50
50
50
50
50
50
50
50
100
100
100
100
100
100
100
100
100
100
200
200
200
200
200
200
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
20
DCR
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
.02
1
MHz
–
–
4
10
15
–
–
4
10
15
–
–
4
10
14
–
–
4
10
14
–
–
4
–
–
4
Insertion Loss2 Per MIL-STD-220, +25°C
10
100
200
1
MHz
MHz
MHz
GHz
4
20
25
25
15
34
41
42
21
35
42
50
30
39
43
65
35
42
45
70
4
20
27
30
15
35
41
45
21
35
44
50
30
50
45
65
37
45
45
70
4
20
25
25
15
35
41
42
21
35
42
50
30
39
43
65
35
42
45
70
4
20
27
30
15
35
41
45
21
35
44
50
30
50
45
70
37
45
45
70
4
20
25
25
15
34
41
42
21
35
42
50
4
20
27
30
15
35
41
45
21
35
44
50
10
GHz
55
55
70
70
70
60
60
70
70
70
55
55
70
70
70
60
60
70
70
70
55
55
70
60
60
70
Bolt Style EMI Filters
SB Series – 8-32 Thread - Epoxy Sealed –
Circuits Available – C, L, π
APPLICATIONS
The SB series provides improved filtering
in the HF through MICROWAVE frequency
spectrums from 1 MHz through 10 GHz.
Also designed for mounting in a tapped
bulkhead or with the standard nut and
lockwasher provided, it is ideal for medium
to high impedance circuits where large
capacitance values are not practical.
In the “L” and “π” section versions an
internal ferrite bead element provides
both inductance and series resistance
(lossy characteristic) which improves the
insertion loss rolloff to 40 dB and 60 dB
per decade respectively.
CHARACTERISTICS
• Designed to meet or exceed the applicable portions of MIL-F-28861/7. See QPL
listings.
• π design offers steeper insertion loss
rolloff.
SPECIFICATIONS
1. Plating: Silver standard – Electro-tin or
gold available
2. Material:
Case: Cold rolled steel
Leads: Half/hard copper
3. Operating Temperature Range:
-55°C to +125°C
4. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 100,000 megohms
min., whichever is less
At 125°C: 100 megohm-microfarad
min., or 10,000 megohms
min., whichever is less
5. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
6. DC Resistance (DCR): .01 ohm,
maximum
7. Dissipation Factor (DF): 3% maximum
8. Rated DC Current: 10 Amps, maximum
9. Recommended Mounting Torque:
64 oz-in. ± 4 oz-in.
10. Supplied with mounting nut and lockwasher - See Filter Design Guide Screw
and Locking Washer Table
11. Insertion Loss for the “C”, “L” and “π” circuits are equivalent due to the saturation
characteristic of the ferrite bead element
at full rated current. At lower currents the
“L” and “π” become much more effective.
• Features rugged monolithic discoidal
capacitor construction.
• Epoxy seal on both ends.
STANDARD CONFIGURATION
.093
±.010
.187
±.010
.040
MAX.
.045
±.005
.164-32 UNC-2A
(8-32)
.032 ±.002
(Std. - See Note 2)
.050
±.005
.020
±.005
(Std. - See Note 1)
.216
±.005
.890
±.013
.312
±.031
CIRCUIT DIAGRAMS
THRD
END
C
SB1
millimeters (inches)
0.05 (.002) 1.14 (.045)
0.13 (.005) 1.27 (.050)
0.18 (.007) 1.85 (.073)
0.25 (.010) 2.36 (.093)
0.33 (.013) 4.17 (.164)
0.38 (.015) 4.75 (.187)
0.51 (.020) 5.49 (.216)
0.64 (.025) 6.35 (.250)
0.76 (.030) 7.11 (.280)
0.79 (.031) 7.92 (.312)
0.81 (.032) 22.61 (.890)
1.02 (.040)
—
—
L2
SB2 (See Note 3)
Pi
SB3
Notes:
1. Nailhead standard, straight
lead available.
2. Lead diameters other than
.032" available.
3. All SB2 L-Section Filters have
inductor (bead) at threaded
end.
4. Metric equivalent dimensions
given for information only.
(See Note 4)
21
Bolt Style EMI Filters
SB Series – 8-32 Thread - Epoxy Sealed –
Circuits Available – C, L, π
SPECIFICATIONS
AVX
P/N
SB1C1-102
SB1C1-502
SB1C1-103
SB1C1-273
SB1C1-503
SB2C1-273
SB2C1-503
SB3C1-323
SB1A1-102
SB1A1-502
SB1A1-103
SB1A1-273
SB1A1-503
SB2A1-103
SB2A1-273
SB3A1-152
SB3A1-123
SB3A1-153
SB1B1-102
SB1B1-502
SB2B1-102
SB2B1-502
SB3B1-202
CKT
C
C
C
C
C
L2
L2
π
C
C
C
C
C
L2
L2
π
π
π
C
C
L2
L2
π
CAP1
1000
5000
.01
.027
.05
.027
.05
.032
1000
5000
.01
.027
.05
.01
.027
1500
.012
.015
1000
5000
1000
5000
2000
DC
Voltage
50
50
50
50
50
50
50
50
100
100
100
100
100
100
100
100
100
100
200
200
200
200
200
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
22
DCR
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
1
MHz
–
–
4
10
15
10
15
12
–
–
4
10
15
4
10
–
–
–
–
–
–
–
–
Insertion Loss2 Per MIL-STD-220, +25°C
10
100
200
1
MHz
MHz
MHz
GHz
4
20
25
40
15
34
41
50
21
35
40
55
30
39
45
65
35
42
50
70
30
50
54
65
36
54
60
70
30
60
70
70
4
20
25
40
15
34
41
50
21
35
40
55
30
39
45
65
35
42
50
70
21
35
38
65
30
50
54
70
8
20
45
70
12
60
70
70
17
37
43
70
4
20
25
40
15
34
41
50
4
20
27
45
15
35
41
55
8
42
58
70
10
GHz
50
55
60
70
70
70
70
70
50
55
60
70
70
70
70
70
70
70
50
55
70
70
70
Bolt Style EMI Filters
SH Series – 10-32 Thread - Epoxy Sealed –
Circuits Available – C, L, π
APPLICATIONS
The SH series provides intermediate
filtering in the RF through MICROWAVE
frequency spectrums from 100 KHz
through 10 GHz. The larger hex size
means that much higher values of capacitance are available in the feedthru style
circuits and that a 125 VAC/400 Hz rating
is available in certain values. Also
designed for mounting in a tapped bulkhead or with the standard nut and lockwasher provided, it is optimum in medium
to low impedance circuits where significant
amounts of capacitance to ground can
be tolerated. In the “L” and “π” section
versions an internal ferrite bead element
provides both inductance and series
resistance (lossy characteristic) which
improves the insertion loss rolloff to 40 dB
and 60 dB per decade respectively.
Alternate lead diameters or lengths are
available, both with and without a nailhead.
CHARACTERISTICS
• Equivalent to SB series π circuits and to
SP series feedthru or “L” circuits.
• Conservatively rated for 125 VAC/400
Hz in certain values.
•
π
design offers steeper insertion loss
rolloff.
• Features rugged monolithic discoidal
capacitor construction.
• Epoxy seal on both ends.
SPECIFICATIONS
1. Plating: Silver standard – Electro-tin or
gold available
2. Material:
Case: Cold rolled steel standard,
brass available
Leads: Half/hard copper
3. Operating Temperature Range:
-55°C to +125°C
4. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 100,000 megohms
min., whichever is less
At 125°C: 100 megohm-microfarad
min., or 10,000 megohms
min., whichever is less
5. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
6. DC Resistance (DCR): .01 ohm,
maximum
7. Dissipation Factor (DF): 3% maximum
8. Rated DC Current: 10 Amps, maximum
9. Recommended Mounting Torque:
64 oz-in. ± 4 oz-in.
10. Supplied with mounting nut and lockwasher - See Filter Design Guide Screw
and Locking Washer Table
11. Insertion Loss for the “C”, “L” and “π” circuits are equivalent due to the saturation
characteristic of the ferrite bead element
at full rated current. At lower currents the
“L” and “π” become much more effective.
STANDARD CONFIGURATION
.140
±.015
.228
±.004
.035
MAX.
.045
±.005
.020
±.005
.234
±.015
.421
±.031
.328
±.031
(Std. - See Note 1)
.190-32 UNF-2A
(10-32)
.032
±.002
CIRCUIT DIAGRAMS
THRD
END
C
SH1
millimeters (inches)
0.05 (.002) 3.56 (.140)
0.10 (.004) 4.83 (.190)
0.13 (.005) 5.79 (.228)
0.38 (.015) 5.94 (.234)
0.51 (.020) 8.33 (.328)
0.79 (.031) 10.69 (.421)
0.81 (.032)
—
—
L2
SH2 (See Note 2)
Pi
SH3
Notes:
1. Nailhead standard, straight
lead available.
3. Metric equivalent dimensions
given for information only.
2. All SH2 L-Section Filters
have inductor (bead) at
threaded end.
(See Note 3)
23
Bolt Style EMI Filters
SH Series – 10-32 Thread - Epoxy Sealed –
Circuits Available – C, L, π
SPECIFICATIONS
AVX
P/N
SH1C1-124
SH1C1-204
SH2C1-124
SH2C1-204
SH3C1-303
SH1A1-503
SH1A1-104
SH2A1-503
SH2A1-104
SH3A1-123
SH1L1-102
SH1L1-502
SH1L1-103
SH1L1-253
SH2L1-102
SH2L1-502
SH2L1-103
SH3B1-202
CKT
C
C
L2
L2
π
C
C
L2
L2
π
C
C
C
C
L2
L2
L2
π
CAP1
.12
.2
.12
.2
.03
.05
.1
.05
.1
.012
1000
5000
.01
.025
1000
5000
.01
2000
DC
Voltage
50
50
50
50
50
100
100
100
100
100
200*
200*
200*
200*
200*
200*
200*
200
* Rated 200 VDC or 125 VAC/400 Hz
1
2
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
24
DCR
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
1
MHz
21
28
21
28
10
15
20
15
20
–
–
–
4
8
–
–
4
–
Insertion Loss2 Per MIL-STD-220, +25°C
10
100
200
1
MHz
MHz
MHz
GHz
38
49
60
70
39
52
60
70
38
52
70
70
39
54
70
70
28
58
70
70
35
42
50
70
38
48
53
70
36
50
60
70
39
52
65
70
12
60
70
70
4
20
25
40
15
34
41
45
21
35
38
60
28
36
44
64
4
20
27
45
15
35
41
55
21
36
40
60
8
42
58
70
10
GHz
70
70
70
70
70
70
70
70
70
70
50
55
65
70
55
65
65
70
Bolt Style EMI Filters
SP Series – 12-32 Thread - Epoxy Sealed –
Circuits Available – C, L, π
APPLICATIONS
The SP series provides increased filtering
in the HF through MICROWAVE frequency spectrums from 100 KHz through 10
GHz. The larger hex size means that
much higher values of capacitance are
available and that a 125 VAC/400 Hz rating is available in certain values. Also
designed for mounting in a tapped bulkhead or with the standard nut and lockwasher provided, it is optimum in medium
to low impedance circuits where significant
amounts of capacitance to ground can
be tolerated. In the “L” and “π” section
versions an internal ferrite bead element
provides both inductance and series
resistance (lossy characteristic) which
improves the insertion loss rolloff to 40 dB
and 60 dB per decade respectively.
Alternate lead diameters or lengths are
available both with and without a nailhead.
CHARACTERISTICS
• Designed to meet or exceed the applicable portions of MIL-F-28861/9. See QPL
listing.
• Conservatively rated for 125 VAC/400
Hz in certain values.
STANDARD CONFIGURATION
SPECIFICATIONS
1. Plating: Silver standard –
Electro-tin or gold available
2. Material:
Case: Cold rolled steel standard, brass
available
Leads: Half/hard copper
3. Operating Temperature Range:
-55°C to +125°C
4. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 100,000 megohms
min., whichever is less
At 125°C: 100 megohm-microfarad
min., or 10,000 megohms
min., whichever is less
5. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
6. DC Resistance (DCR): .01 ohm,
maximum
7. Dissipation Factor (DF): 3% maximum
8. Rated DC Current: 10 Amps, maximum
9. Recommended Mounting Torque:
64 oz-in. ± 4 oz-in.
10. Supplied with mounting nut and lockwasher - See Filter Design Guide Screw
and Locking Washer Table
11. Insertion Loss for the “C”, “L” and “π” circuits are equivalent due to the saturation
characteristic of the ferrite bead element
at full rated current. At lower currents the
“L” and “π” become much more effective.
π
design offers steeper insertion loss
rolloff.
• Features rugged monolithic discoidal
capacitor construction.
• Epoxy seal on both ends.
•
.157
.250
±.010
.040
MAX.
.045
.020
±.005
(Std. - See Note 1)
millimeters (inches)
0.05 (.002) 2.36 (.093)
0.13 (.005) 3.99 (.157)
0.18 (.007) 4.75 (.187)
0.25 (.010) 5.49 (.216)
0.51 (.020) 6.12 (.241)
0.58 (.023) 6.35 (.250)
0.79 (.031) 7.90 (.311)
0.81 (.032) 8.71 (.343)
1.02 (.040) 9.45 (.372)
1.14 (.045) 9.73 (.383)
1.60 (.063) 23.39 (.921)
1.85 (.073)
—
—
.216 UNEF-2A
(12-32)
.032 ±.002
(Std. - See Note 2)
.250
.311
.921
±.020
.343
±.020
ALTERNATE CONFIGURATION (SC SERIES)
(See Note 5)
.187
±.005
.093
MAX.
12-32 UNEF-2A
20 GAUGE
(.032)
.032
±.005
.250 DIA.
±.005
(See Note 4)
.250
±.005
.157 .311
±.005 ±.005
.921
.343
±.020
±.020
Notes:
1. Nailhead standard, straight lead available.
2. Lead diameters other than .032" available.
3. SP2 L-Section Filters have inductor (bead) at
threaded end.
4. Metric equivalent dimensions given for information only.
5. Small-hex version may be specified for selected
capacitance/voltage ratings. Contact AVX
Filters Engineering for availability.
CIRCUIT DIAGRAMS
THRD
END
C
L2
SP1
SP2 (See Note 3)
Pi
SP3
25
Bolt Style EMI Filters
SP Series – 12-32 Thread - Epoxy Sealed –
Circuits Available – C, L, π
SPECIFICATIONS
AVX
P/N
SP1C1-204
SP2C1-204
SP3C1-124
SP1A1-503
SP1A1-104
SP2A1-503
SP3A1-753
SP1L1-102
SP1L1-502
SP1L1-103
SP1L1-253
SP2L1-102
SP2L1-502
SP2L1-103
SP3B1-152
SP3B1-123
CKT
C
L2
π
C
C
L2
π
C
C
C
C
L2
L2
L2
π
π
CAP1
.20
.20
.12
.05
.10
.05
.075
1000
5000
.01
.025
1000
5000
.01
1500
.012
DC
Voltage
50
50
50
100
100
100
100
200*
200*
200*
200*
200*
200*
200*
200
200
* Rated 200 VDC or 125 VAC/400 Hz
1
2
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
26
DCR
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
1
MHz
26
26
20
15
20
15
18
–
–
4
8
–
–
4
–
–
Insertion Loss2 Per MIL-STD-220, +25°C
10
100
200
1
MHz
MHz
MHz
GHz
39
52
60
70
38
65
70
70
38
70
70
70
35
38
50
70
38
48
53
70
36
54
60
70
38
70
70
70
4
20
25
40
15
34
41
50
21
35
40
55
28
36
44
64
4
20
27
45
15
35
41
55
21
35
38
65
8
20
45
70
12
60
70
70
10
GHz
70
70
70
70
70
70
70
50
55
60
70
70
70
70
70
70
Bolt Style EMI Filters
SN Series – 12-32 Thread - Hermetically Sealed –
Circuits Available – C, L, π
APPLICATIONS
The SN series offers effective filtering
from 1 MHz to 10 GHz. Glass sealed on
both ends for hermeticity, this series is
impervious to high moisture, solvents, or
other severe environmental conditions
commonly encountered in military applications. It is designed for bulkhead mounting
with nut and lockwasher supplied.
The feedthru designs yield constant filtering as current level is increased from
no-load to full rated load. They are most
effective when placed in high impedance
circuits. The π-section designs exhibit
sharper roll-off in filter characteristic and
perform effectively when used in medium
to low impedance circuits.
Alternate lead configurations or special
capacitance values and voltage ratings
may be ordered.
CHARACTERISTICS
SPECIFICATIONS
• The hermetic bolt-style design was
developed to meet or exceed the
applicable portions of MIL-F-28861/10.
The filter is assembled with a glass hermetic seal on both ends. The rugged
monolithic capacitor element is a low
inductance design that yields superior
bypass performance. The π-section
design contains two capacitor elements
together with a ferrite bead inductor.
• Certain feedthru designs are rated for
115 VAC/400 Hz applications. The 200
VDC π-section design is rated for DC
applications only.
1. Plating: Silver standard – Electro-tin or gold
available
STANDARD CONFIGURATION
2. Material:
Case: Cold rolled steel standard, brass available
.220
.250
MAX.
Leads: Copper nailhead standard. Only available
±.010
.216-32 UNEF-2A
.040
in .032" diameter. Beryllium copper lead
(12-32)
MAX.
available. Straight lead available.
.032 ±.002
3. Operating Temperature Range:
-55°C to +125°C
4. Electrical Characteristics:
A. Capacitance: Guaranteed Minimum Value
(GMV) as listed
.250
±.005
B. Insulation Resistance:
.311
At 25°C: 1,000 megohm-microfarad
±.005
min., or 100,000 megohms
.921
.343
min., whichever is less
±.020
±.020
At 125°C: 100 megohm-microfarad
min., or 10,000 megohms
CIRCUIT DIAGRAMS
min., whichever is less
C. Dielectric Withstanding Voltage (DWV):
R-level designs:
L2
2.0 times rated voltage
C
Pi
Class B, Class S designs:
2.5 times rated voltage
SN2
SN1
SN3
D. DC Resistance (DCR): .01 ohm, maximum
Notes:
millimeters (inches)
E. Voltage Drop: 0.1 volt, maximum
0.05 (.002) 1.85 (.073)
F. Dissipation Factor (DF): 3% maximum
1. Metric equivalent dimensions
given for information only.
0.13 (.005) 3.99 (.157)
G. Rated Current: 10 Amps, maximum
0.18 (.007) 5.49 (.216)
5. Seal: In accordance with MIL-F-28861.
Leakage rate for Class S designs shall not
0.25 (.010) 6.12 (.241)
exceed 1 x 10-7 atm cc/sec.
0.51 (.020) 6.35 (.250)
6. Marking: Standard (AVX symbol, AVX part
0.58 (.023) 7.90 (.311)
number)
0.79 (.031) 8.71 (.343)
7. Installation: Filter is supplied with mounting nut 0.81 (.032) 9.45 (.372)
and lockwasher. The recommended mounting 1.02 (.040) 9.73 (.383)
torque is 64 oz-in. ± 4 oz-in. Refer to the
1.14 (.045) 23.39 (.921)
“Installation and Handling” section for additional
1.60 (.063)
—
—
information.
(See Note 1)
27
Bolt Style EMI Filters
SN Series – 12-32 Thread - Hermetically Sealed –
Circuits Available – C, L, π
SPECIFICATIONS
AVX
P/N
SN1C1-204
SN2C1-204
SN3C1-124
SN1A1-503
SN1A1-104
SN2A1-503
SN3A1-753
SN1L1-102
SN1L1-502
SN1L1-103
SN1L1-253
SN2L1-102
SN2L1-502
SN2L1-103
SN3B1-152
SN3B1-123
CKT
C
L2
π
C
C
L2
π
C
C
C
C
L2
L2
L2
π
π
CAP1
.20
.20
.12
.05
.10
.05
.075
1000
5000
.01
.025
1000
5000
.01
1500
.012
Voltage
50
50
50
100
100
100
100
200*
200*
200*
200*
200*
200*
200*
200
200
* Rated 200 VDC or 125 VAC/400 Hz
1
2
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
28
DCR
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
.01
1
MHz
26
26
20
15
20
15
18
–
–
4
8
–
–
4
–
–
Insertion Loss2 Per MIL-STD-220, +25°C
10
100
200
1
MHz
MHz
MHz
GHz
39
52
60
70
38
65
70
70
38
70
70
70
35
42
50
70
38
48
53
70
36
54
60
70
38
70
70
70
4
20
25
40
15
34
41
50
21
35
40
55
28
36
44
64
4
20
27
45
15
35
41
55
21
35
38
65
8
20
45
70
12
60
70
70
10
GHz
70
70
70
70
70
70
70
50
55
60
70
70
70
70
70
70
Cylindrical Style EMI Filters
BL Series – .375 Dia. – Button Epoxy Sealed –
Circuits Available – C & L
APPLICATIONS
The BL series offers effective filtering from
30 KHz up through 1 GHz. It offers epoxy
resin seals on both ends in order to
optimize volumetric efficiency and reduce
cost. Where severe moisture environments
exist the slightly larger companion BK
series is recommended as it incorporates
a glass to metal hermetic seal at both
ends. The BL series is designed for bulkhead mounting in a slotted hole with nut
and lockwasher supplied. This series is
ideal for low to medium impedance
circuits where large amounts of capacitance to ground can be tolerated. In the
“L” section version an internal ferrite bead
element provides both inductance and
series resistance (lossy characteristic)
which improves insertion loss at lower
current ratings and provides superior
transient performance.
Alternate lead configurations or special
capacitance values may be ordered.
Custom packages or filter arrays utilizing
the BL series can be furnished.
CHARACTERISTICS
• Internal ferrite bead provides inductance
for the L-section version.
• High DC current rating: 15 Amps.
SPECIFICATIONS
1. Case/Terminal Plating:
Electro-tin standard – Gold or silver available
2. Material:
Case: Brass Standard – Steel available
End Seal: Epoxy
Terminals: Copper nailhead standard
3. Operating Temperature Range:
-55°C to +125°C
4. Electrical Characteristics:
A. Rated Voltage: See chart
B. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad min.,
or 50,000 megohms min.,
whichever is less, at the rated
DC voltage
At 125°C: 100 megohm-microfarad
min., or 5,000 megohms
min., whichever is less
C. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B designs:
2.5 times rated DC voltage
D. Capacitance: Values listed in chart are
“guaranteed minimum value” (GMV)
5. Marking:
Standard Marking: AVX, AVX part number,
lot code
BL2 only: Letter “L” denotes ferrite bead
inductor at threaded end
See Reliability Codes section for definition of
Reliability Level marking. See How to Order
section for part number construction.
6. Installation:
A. Mounting Torque:
44 oz-in. ± 4 oz-in.
B. Refer to “Installation, Handling, Hardware
Options” section of the catalog.
STANDARD CONFIGURATION
250-28 UNF-2A (1/4-28)
.375
±.010
.050
.040
±.010
.200
±.010
.150
±.032
* = A FOR .187 ±.010 THREAD
B FOR .312 THREAD
(See Note 1)
.060
REF.
.030
±.010
*
±.010
.150
MAX.
.280
±.032
CIRCUIT DIAGRAMS
THRD
END
C
BL1
millimeters (inches)
.25
.76
.81
1.02
1.52
(.010)
(.030)
(.032)
(.040)
(.060)
2.54
3.81
4.57
5.08
9.53
(.100)
(.150)
(.180)
(.200)
(.375)
L2
BL2 (See Note 1)
Notes:
1. All BL2 L-Section Filters have
inductor (bead) at threaded
end.
2. Metric equivalent dimensions
given for information only.
(See Note 2)
29
Cylindrical Style EMI Filters
BL Series – .375 Dia. – Button Epoxy Sealed –
Circuits Available – C & L
SPECIFICATIONS
AVX
P/N
BL1CA-754
BL1CA-105
BL1CA-125
BL1CA-145
BL2CA-754
BL2CA-105
BL2CA-125
BL2CA-145
BL1AA-504
BL1AA-754
BL1AA-105
BL1AA-125
BL2AA-504
BL2AA-754
BL2AA-105
BL2AA-125
BL1BA-103
BL1LA-753
BL1LA-154
BL2BA-103
BL2LA-753
BL2LA-154
CKT
C
C
C
C
L2
L2
L2
L2
C
C
C
C
L2
L2
L2
L2
C
C
C
L2
L2
L2
CAP1
.75
1.0
1.2
1.4
.75
1.0
1.2
1.4
.50
.75
1.0
1.2
.50
.75
1.0
1.2
.01
.075
.15
.01
.075
.15
DC
Voltage
50
50
50
50
50
50
50
50
100
100
100
100
100
100
100
100
200
200*
200*
200
200*
200*
* Also rated 125 VAC/400 Hz
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
30
30
KHz
11
12
15
15
11
12
15
15
6
11
12
15
6
11
12
15
–
–
–
–
–
–
Insertion Loss2 Per MIL-STD-220, +25°C
150
300
1
10
100
KHz
KHz
MHz
MHz
MHz
24
30
40
40
64
24
30
40
40
65
28
33
40
40
70
28
33
40
40
70
24
30
40
40
64
24
30
40
40
65
28
33
40
40
70
28
33
40
40
70
19
25
36
40
60
24
30
40
40
64
24
30
40
40
65
28
33
40
40
70
19
25
36
40
60
24
30
40
40
64
24
30
40
40
65
28
33
40
40
70
–
–
2
20
40
–
7
18
37
46
10
16
26
40
52
–
–
2
20
40
–
7
18
37
51
10
16
26
40
52
1
GHz
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
55
70
70
55
70
70
Cylindrical Style EMI Filters
BK Series – .375/.410 Dia. – Button Hermetically Sealed
Circuits Available – C & L
APPLICATIONS
The BK series offers effective filtering
from 500 KHz to 10 GHz. Glass sealed
for hermeticity, this low profile series is
impervious to high moisture, solvents, or
other severe environmental conditions
commonly encountered in military applications. It is designed for bulkhead
mounting in a slotted hole with nut and
lockwasher supplied. This series is ideal
for low to medium impedance circuits
where large amounts of capacitance to
ground can be tolerated. In the “L”
section version an internal ferrite bead
element provides both inductance and
series resistance (lossy characteristic)
which improves insertion loss and provides superior transient performance.
Alternate lead configurations or special
capacitance values may be ordered.
Custom packages or filter arrays utilizing
the BK series can be furnished.
CHARACTERISTICS
• .410 Dia. version (AK) meets or exceeds
the applicable requirements of MIL-F28861/1. See QPL listings.
• Glass hermetic seal on both ends.
• Internal ferrite bead provides inductance
for the L-section version.
• High DC current rating: 15 Amps
SPECIFICATIONS
1. Case/Terminal Plating:
Electro-tin standard – Silver or gold
available
2. Material:
Case: Brass standard – Steel available
End Seal: Mild steel
Terminals: Nickel-iron alloy
3. Operating Temperature Range:
-55°C to +125°C
4. Electrical Characteristics:
A. Rated Voltage: See chart
B. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 50,000 megohms,
whichever is less, at the rated
DC voltage
At 125°C: 100 megohm-microfarad
min., or 5,000 megohms,
whichever is less
C. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
D. Capacitance: Values listed in chart are
“guaranteed minimum value” (GMV)
5. Marking:
Standard Marking: AVX, AVX part number,
lot code
BK2 only: Letter “L” denotes ferrite bead
inductor at threaded end
See Reliability Codes section for definition of
Reliability Level marking. See How to Order
section for part number construction.
6. Installation:
A. Mounting Torque:
44 oz-in. ± 4 oz-in.
B. Refer to “Installation, Handling, Hardware
Options” section of the catalog.
STANDARD CONFIGURATION
ALT. .410 DIA. MAX.
See Note 4
.375 DIA.
±.010
.200
±.010
.070 ±.010
(2 PLC)
.250-28 UNF-2A (1/4-28)
.050
.115
REF.
.160
MAX.
* = A FOR .187 THREAD
B FOR .312 THREAD
(See Note 1)
.170
* ±.010
±.010
.190
MAX
CIRCUIT DIAGRAMS
THRD
END
C
BK1
millimeters (inches)
.25 (.010) 4.75 (.187)
1.27 (.050) 4.83 (.190)
1.78 (.070) 5.08 (.200)
2.92 (.115) 7.93 (.312)
3.81 (.150) 9.53 (.375)
4.32 (.170)
—
—
L2
BK2 (See Note 2)
Notes:
1. Thread length option. Standard
part numbers shown (e.g.,
BK1CA-103) are .187" thread
length. Optional .312 length
available. (e.g., BK1CB-103).
2. Ferrite bead inductor at threaded end (BK2 only).
3. Metric equivalent dimensions
given for information only.
4. .410 Dia. (identified as AK) is
required for all hi-rel tested
parts (e.g., MIL-F-28861/1
series).
(See Note 3)
(See Note 1)
31
Cylindrical Style EMI Filters
BK Series – .375/.410 Dia. – Button Hermetically Sealed
Circuits Available – C & L
SPECIFICATIONS
AVX
P/N
BK1CA-125
BK1CB-125
BK2CA-125
BK2CB-125
BK1NA-704
BK1NB-704
BK2NA-704
BK2NB-704
BK1AA-103
BK1AA-454
BK1AB-454
BK1AA-754
BK1AA-105
BK2AA-454
BK2AB-454
BK2AA-754
BK2AA-105
BK1HA-254
BK1HB-254
BK2HA-254
BK2HB-254
BK1LA-753
BK1LA-154
BK1LB-154
BK2BA-203
BK2LA-753
BK2LA-154
BK2LB-154
CKT
C
C
L2
L2
C
C
L2
L2
C
C
C
C
C
L2
L2
L2
L2
C
C
L2
L2
C
C
C
L2
L2
L2
L2
CAP1
1.2
1.2
1.2
1.2
.7
.7
.7
.7
.01
.45
.45
.75
1.0
.45
.45
.75
1.0
.25
.25
.25
.25
.075
.15
.15
.02
.075
.15
.15
DC
Voltage
50
50
50
50
70
70
70
70
100
100
100
100
100
100
100
100
100
150
150
150
150
200*
200*
200*
200*
200*
200*
200*
* Also rated 125 VAC/400 Hz
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
32
30
KHz
15
15
15
15
10
10
10
10
–
6
6
11
12
6
6
11
12
–
–
–
–
–
–
–
–
–
–
–
Insertion Loss2 Per MIL-STD-220, +25°C
150
300
1
10
100
KHz
KHz
MHz
MHz
MHz
28
33
40
40
70
28
33
40
40
70
28
33
40
40
70
28
33
40
40
70
24
30
40
40
64
24
30
40
40
64
24
30
40
40
64
24
30
40
40
64
–
–
2
20
40
19
25
36
40
60
19
25
36
40
60
24
30
40
40
64
24
30
40
40
65
19
25
36
40
60
19
25
36
40
60
24
30
40
40
64
24
30
40
40
65
14
20
31
40
56
14
20
31
40
56
14
20
31
40
56
14
20
31
40
56
–
7
18
37
46
10
16
26
40
52
10
16
26
40
52
–
–
7
25
40
–
7
18
37
51
10
16
26
40
52
10
16
26
40
52
1
GHz
70
70
70
70
70
70
70
70
55
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
60
70
70
70
Cylindrical Style EMI Filters
CK Series – .375 Dia. – Button Hermetically Sealed –
Circuits Available – C & L
APPLICATIONS
The CK series offers effective filtering
from 100 KHz to 10 GHz. Glass sealed
for hermeticity, this medium profile series
is impervious to high moisture, solvents,
or other severe environmental conditions
commonly encountered in military applications. It is designed for bulkhead
mounting in a slotted hole with nut and
lockwasher supplied. This series is ideal
for low to medium impedance circuits
where large amounts of capacitance to
ground can be tolerated. In the “L”
section version an internal ferrite bead
element provides both inductance and
series resistance (lossy characteristic)
which improves insertion loss and provides superior transient performance.
Alternate lead configurations or special
capacitance values may be ordered.
Custom packages or filter arrays utilizing
the CK series can be furnished.
CHARACTERISTICS
SPECIFICATIONS
• Meets or exceeds the applicable
requirements of MIL-F-15733, and the
environmental/test requirements of MILF-28861.
• Glass hermetic seal on both ends.
• Internal ferrite bead provides inductance
1. Case/Terminal Plating:
Electro-tin standard –
Silver or gold available
2. Material:
Case: Brass standard – Steel available
End Seal: Mild steel
Terminals: Nickel-iron alloy
3. Operating Temperature Range:
-55°C to +125°C
4. Electrical Characteristics:
A. Rated Voltage: See chart
B. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad min.,
or 50,000 megohms min.,
whichever is less, at the rated
DC voltage
At 125°C: 100 megohm-microfarad
min., or 5,000 megohms
min., whichever is less
C. Dielectric Withstanding Voltage (DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
D. Capacitance: Values listed in chart are
“guaranteed minimum value” (GMV)
5. Marking:
Standard Marking: AVX, AVX part number,
rated current, voltage, lot code
B. CK2 only: Letter “L” to denote ferrite bead
inductor at threaded end
C. See Reliability Codes section for definition
of Reliability Level marking. See How to
Order section for part number construction.
6. Installation:
A. Mounting Torque: 44 oz-in. ± 4 oz-in.
B. Refer to “Installation, Handling, Hardware
Options” section of the catalog.
for the L-section version.
• High DC current rating: 15 Amps.
• High capacitance values available.
• Conservatively rated for 125 VAC/400
Hz in certain values.
STANDARD CONFIGURATION
.375 DIA.
±.010
.070 ±.010
(2 PLC)
.250-28 UNF-2A (1/4-28)
.050
.115
REF.
.200
±.010
.150
MAX.
* = A FOR .187 THREAD
B FOR .312 THREAD
(See Note 1)
.190
MAX
.250
* ±.010
±.010
CIRCUIT DIAGRAMS
THRD
END
C
CK2 (See Note 2)
CK1
millimeters (inches)
0.25 (.010) 4.83 (.190)
1.27 (.050) 5.08 (.200)
1.78 (.070) 6.35 (.250)
2.92 (.115) 7.93 (.312)
3.81 (.150) 9.53 (.375)
4.75 (.187)
—
—
(See Note 3)
L2
Notes:
1. Thread length option.
EXAMPLE: CK1CA-103
(.187 thrd. L)
CK1CB-103
(.312 thrd. L).
3. Metric equivalent dimensions given for information only.
2. All CK2 L-Section Filters
have inductor (bead) at
threaded end.
33
Cylindrical Style EMI Filters
CK Series – .375 Dia. – Button Hermetically Sealed –
Circuits Available – C & L
SPECIFICATIONS
AVX
P/N
CK1CA-754
CK1CA-105
CK1CA-145
CK1CA-205
CK2CA-754
CK2CA-105
CK2CA-145
CK2CA-205
CK1AA-504
CK1AA-754
CK1AA-105
CK1AA-185
CK2AA-504
CK2AA-754
CK2AA-105
CK2AA-185
CK1BA-103
CK1LA-753
CK1BA-104
CK1LA-154
CK1BA-304
CK1BA-504
CK2BA-103
CK2LA-753
CK2BA-104
CK2LA-154
CK2BA-304
CK2BA-504
Current
AMP
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
CKT
C
C
C
C
L2
L2
L2
L2
C
C
C
C
L2
L2
L2
L2
C
C
C
C
C
C
L2
L2
L2
L2
L2
L2
CAP1
.75
1.0
1.4
2.0
.75
1.0
1.4
2.0
.5
.75
1.0
1.8
.5
.75
1.0
1.8
.01
.075
.1
.15
.3
.5
.01
.075
.1
.15
.3
.5
DC
Voltage
50
50
50
50
50
50
50
50
100
100
100
100
100
100
100
100
200
200*
200
200*
200
200
200
200*
200
200*
200
200
* Also rated 125 VAC/400 Hz
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
34
30
KHz
11
12
15
16
11
12
15
16
–
11
12
15
–
11
12
15
–
–
–
–
–
6
–
–
–
–
–
6
Insertion Loss2 Per MIL-STD-220, +25°C
150
500
1
10
100
KHz
KHz
MHz
MHz
MHz
24
30
40
40
64
24
30
40
40
65
28
33
40
40
70
30
35
43
45
70
24
30
40
40
64
24
30
40
40
65
28
33
40
40
70
30
35
43
45
70
16
26
34
42
58
24
30
40
40
64
24
30
40
40
65
28
33
41
45
70
16
26
36
44
60
24
30
40
40
64
24
30
40
40
65
28
33
41
45
70
–
–
2
20
40
–
7
18
37
46
–
14
24
38
50
10
16
26
40
52
15
23
32
40
56
19
25
36
40
58
–
–
2
20
40
–
7
18
37
51
–
14
24
38
50
10
16
26
40
52
15
23
32
40
56
19
25
36
40
60
1
GHz
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
55
70
70
70
70
70
55
70
70
70
70
70
Cylindrical Style EMI Filters
GK Series – .375/.410 Dia.
Hermetically Sealed – Circuits Available – C, L, π, T
APPLICATIONS
The GK series offers effective filtering from
30 KHz to 10 GHz. Glass sealed for
hermeticity, this series is impervious to
high moisture, solvents, or other severe
environmental conditions commonly
encountered in military applications. It
is designed for bulkhead mounting in
a slotted hole with nut and lockwasher
supplied.
The “L” and “T” configurations are designed
to provide effective attenuation over a wide
range of circuit impedances. For current
ratings under 10 Amps toroidal wound
inductor elements offer increased filter
performance and protection against circuit
transients. Data showing the actual
inductance versus various levels of DC or
AC bias current are available as well as the
attenuation in any combination of source
and load impedances.
Alternate lead configurations or special
capacitance/inductance values may be
ordered.
Custom packages or filter arrays utilizing
the GK series can be furnished.
CHARACTERISTICS
• .410 Dia. version (HK) meets or exceeds the applicable
requirements of MIL-F-28861/2,/3,/4,/5. See QPL listing.
• Glass hermetic seal on both ends.
• Wound toroidal inductor used in current ratings up through
5 Amps. Ferrite bead inductor used in 10 and 15 Amp
designs.
• High DC current rating: 15 Amps.
• High capacitance values available.
SPECIFICATIONS
1. Case/Terminal Plating:
Electro-tin standard –
Silver or gold available
2. Material:
Case: Brass standard – Steel available
End Seal: Mild steel
Terminals: Nickel-iron alloy
3. Operating Temperature Range:
-55°C to +125°C
4. Electrical Characteristics:
A. Rated Voltage and Current: See chart
B. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 50,000 megohms
min., whichever is less, at
the rated DC voltage
At 125°C: 100 megohm-microfarad
min., or 5,000 megohms
min., whichever is less
C. Dielectric Withstanding Voltage
(DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
D. Capacitance: Total capacitance listed
in chart for each filter type is “guaranteed minimum value” (GMV)
5. Marking:
Standard Marking: AVX, AVX part number, rated current, voltage, lot code,
schematic
NOTE: Schematic to indicate location of
inductor (standard or reverse) for GK2
L-Section Filters.
See Reliability Codes section for definition of
Reliability Level marking. See How to Order
section for part number construction.
6. Installation:
A. Mounting Torque: 44 oz-in. ± 4 oz-in.
B. Refer to “Installation, Handling,
Hardware Options” section of the
catalog.
35
Cylindrical Style EMI Filters
GK Series – .375/.410 Dia.
Hermetically Sealed – Circuits Available – C, L, π, T
STANDARD CONFIGURATION
.070 ±.010
(2 PLC)
.250-28 UNF-2A (1/4-28)
.375 DIA.
±.010
.050
ALT. .410 DIA. MAX.
(See Note 3)
.115
REF.
.200
±.010
* = A FOR .187 ±.010 THREAD
B FOR .312 THREAD
(See Note 1)
.150
MAX.
*
±.010
.190
MAX
L
±.031
CIRCUIT DIAGRAMS
THRD
END
THRD
END
millimeters (inches)
0.25 (.010) 4.75 (.187)
0.79 (.031) 4.83 (.190)
1.27 (.050) 5.08 (.200)
1.78 (.070) 7.93 (.312)
2.92 (.115) 9.53 (.375)
3.81 (.150) 13.72 (.540)
(See Note 2)
36
L2
L1
GK2 - Standard
GK2 - Reverse
Pi
T
GK3
GK4
Notes:
1. Thread length option. Standard part
numbers shown (e.g., GK2BA-S02)
are .187" thread length. Optional .312
length available (e.g., GK2BB-S02).
2. Metric equivalent dimensions given
for information only.
3. All QPL MIL-F-28861, and Hi-rel, will
be supplied with .410 diameter (HK).
See applicable slash sheet for
mechanical dimensions.
* = A for .187 ±.010 Thread
B for .312 Thread
(See Note 1)
Cylindrical Style EMI Filters
GK Series – .375/.410 Dia. – Hermetically Sealed –
Circuits Available – L, π, T
SPECIFICATIONS
Insertion Loss2 Per MIL-STD-220, +25°C
AVX
P/N
Current
AMP
GK2CA-S01
GK2CA-S02
GK2CA-S03
GK2CA-S04
GK2CA-S05
GK2CA-S06
GK2CA-S07
GK2CA-S08
GK2CA-S09
GK2CA-S10
GK2CA-S12
GK3CA-P02
GK3CA-P04
GK3CA-P07
GK3CA-P08
GK3CA-P09
GK3CA-P10
GK3CA-P12
GK4CA-T08
GK4CA-T09
GK4CA-T16
GK4CA-T12
.06
.1
.15
.25
.30
.45
.50
1.0
2.0
3.0
10
.1
.25
.5
1
2
3
10
1
2
4
10
CKT
L. dim
DCR
L2
L2
L2
L2
L2
L2
L2
L2
L2
L2
L2
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
1.020
1.020
1.020
1.020
12
10
4
4
0.5
0.3
1
.25
.063
.027
.008
10
4
1
.25
.063
.027
.008
.5
.09
.03
.008
10
KHz
30
KHz
150
KHz
300
KHz
1
MHz
10
MHz
100
MHz
1
GHz
70
62
52
53
35
33
41
31
28
28
28
70
70
66
54
40
30
28
34
26
26
27
70
70
64
65
45
44
54
42
35
34
34
70
70
70
70
60
50
34
56
37
34
34
70
70
70
70
66
65
70
63
51
45
44
70
70
70
70
70
70
40
70
61
47
44
70
70
70
70
70
70
70
70
70
70
52
70
70
70
70
70
70
52
70
70
70
60
70
70
70
70
70
70
70
70
70
70
65
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
65
70
70
70
70
70
70
70
70
70
70
70
50 VDC, 1.4 µF
2
π
π
π
π
π
π
π
T
T
T
T
16
15
7
6
5
5
5
5
5
5
5
12
8
7
5
5
5
5
5
5
5
5
44
34
24
25
16
15
16
15
15
15
15
44
36
24
15
15
15
15
16
15
15
17
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
NOTE: All “L2” circuits are also available as “L1”.
Insertion loss and other parameters are identical.
Only the part number changes
(e.g., L2 = GK2LA-S04, L1 = GK2LA-R04).
37
Cylindrical Style EMI Filters
GK Series – .375/.410 Dia. – Hermetically Sealed –
Circuits Available – L, π, T
SPECIFICATIONS
Insertion Loss2 Per MIL-STD-220, +25°C
AVX
P/N
Current
AMP
CKT L. dim CAP1 DCR
15
KHz
30
KHz
50
KHz
100
KHz
150
KHz
300
KHz
1
MHz
10
MHz
100
MHz
1
GHz
41
35
29
21
20
14
20
69
62
56
46
17
–
24
21
17
15
15
48
42
36
26
24
17
24
79
73
67
57
36
16
28
26
20
19
19
60
54
48
36
31
24
30
80
80
80
75
51
38
34
49
32
29
28
70
70
69
55
45
36
40
80
80
80
80
80
75
40
70
55
42
38
70
70
70
70
70
60
40
80
80
80
80
80
80
52
70
70
70
55
70
70
70
70
70
70
64
80
80
80
80
80
80
80
70
70
70
70
70
70
70
70
70
70
70
80
80
80
80
80
80
80
70
70
70
70
70 VDC, .7–1.4 µF
GK2NA-S02
GK2NA-S05
GK2NA-S07
GK2NA-S08
GK2NA-S10
GK2NA-S11
GK2NA-S12
GK3NA-P02
GK3NA-P05
GK3NA-P07
GK3NA-P08
GK3NA-P10
GK3NA-P11
GK3NA-P12
GK4NA-T08
GK4NA-T09
GK4NA-T16
GK4NA-T12
.1
.3
.5
1
3
5
10
.1
.3
.5
1
3
5
10
1
2
4
10
L2
L2
L2
L2
L2
L2
L2
π
π
π
π
π
π
π
T
T
T
T
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
1.020
1.020
1.020
1.020
.7
.7
.7
.7
.7
.7
.7
1.4
1.4
1.4
1.4
1.4
1.4
1.4
.75
.75
.75
.75
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
NOTE: All “L2” circuits are also available as “L1”.
Insertion loss and other parameters are identical.
Only the part number changes
(e.g., L2 = GK2LA-S04, L1 = GK2LA-R04).
38
1.7
.77
.36
.14
.05
.015
.008
1.7
.77
.36
.14
.05
.015
.008
–
–
–
–
9
6
5
5
5
–
–
15
–
–
–
–
–
5
–
–
–
–
20
15
12
11
10
–
10
36
29
21
–
–
–
15
10
10
9
9
29
23
19
15
14
–
14
50
44
37
20
–
–
20
15
13
12
12
Cylindrical Style EMI Filters
GK Series – .375/.410 Dia. – Hermetically Sealed –
Circuits Available – L, π
SPECIFICATIONS
Insertion Loss2 Per MIL-STD-220, +25°C
AVX
P/N
Current
AMP
CKT
L. dim
CAP1
DCR
10
KHz
30
KHz
150
KHz
300
KHz
1
MHz
10
MHz
100
MHz
1
GHz
70
62
52
35
33
41
28
28
70
60
36
24
25
20
19
19
38
64
23
52
18
25
17
–
70
70
64
45
44
54
35
33
70
70
53
29
49
32
29
28
50
80
34
70
27
51
24
38
70
70
70
66
65
70
51
44
70
70
70
40
70
56
42
39
60
80
55
80
45
80
36
75
70
70
70
70
70
70
70
52
70
70
70
70
70
70
70
58
60
80
60
80
60
80
60
80
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
65
60
80
60
80
60
80
60
80
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
65
60
80
60
80
60
80
60
80
100 VDC, .45–1.4 µF
GK2AA-S01
GK2AA-S02
GK2AA-S03
GK2AA-S05
GK2AA-S06
GK2AA-S07
GK2AA-S09
GK2AA-S12
GK3AA-P02
GK3AA-P07
GK3AA-P09
GK3AA-P12
GK4AA-T08
GK4AA-T09
GK4AA-T16
GK4AA-T12
GK2AA-S04
GK3AA-P04
GK2AA-S08
GK3AA-P08
GK2AA-S10
GK3AA-P10
GK2AA-S11
GK3AA-P11
.06
.1
.15
.3
.45
.5
2
10
.1
.5
2
10
1
2
4
10
.25
.25
1.0
1.0
3.0
3.0
5.0
5.0
L2
L2
L2
L2
L2
L2
L2
L2
π
π
π
π
T
T
T
T
L2
π
L2
π
L2
π
L2
π
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
1.020
1.020
1.020
1.020
1.020
.540
.540
.540
.540
.540
.540
.540
.540
1.4
1.4
1.4
1.4
1.4
1.4
1.4
1.4
1.0
1.0
1.0
1.0
.75
.75
.75
.75
.45
.90
.45
.90
.45
.90
.45
.90
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
12
10
4
.5
.3
1
.063
.008
10
1
.063
.008
.5
.09
.03
.008
1.5
1.5
.25
.25
.05
.05
.015
.015
15
12
7
–
–
–
–
–
12
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
44
34
24
14
14
16
15
14
40
18
9
9
10
10
10
9
–
–
–
–
–
–
–
–
NOTE: All “L2” circuits are also available as “L1”.
Insertion loss and other parameters are identical.
Only the part number changes
(e.g., L2 = GK2LA-S04, L1 = GK2LA-R04).
39
Cylindrical Style EMI Filters
GK Series – .375/.410 Dia. – Hermetically Sealed –
Circuits Available – L, π, T
SPECIFICATIONS
Insertion Loss2 Per MIL-STD-220, +25°C
AVX
P/N
Current
AMP
CKT
L. dim
CAP1
100
KHz
DCR
150
KHz
300
KHz
1
MHz
10
MHz
100
MHz
1
GHz
51
44
39
26
20
20
20
70
70
66
58
38
20
15
42
32
21
21
60
60
59
48
36
32
32
80
80
80
80
70
63
35
70
50
40
28
60
60
60
60
60
60
40
80
80
80
80
80
80
60
80
70
60
44
60
60
60
60
60
60
56
80
80
80
80
80
80
80
80
80
80
60
70
70
70
70
70
70
70
80
80
80
80
80
80
80
80
80
80
80
150 VDC, .25–.50 µF
GK2HA-S02
GK2HA-S05
GK2HA-S07
GK2HA-S08
GK2HA-S10
GK2HA-S11
GK2HA-S12
GK3HA-P02
GK3HA-P05
GK3HA-P07
GK3HA-P08
GK3HA-P10
GK3HA-P11
GK3HA-P12
GK4HA-T08
GK4HA-T09
GK4HA-T16
GK4HA-T12
.1
.3
.5
1.0
3.0
5.0
10.0
0.1
0.3
0.5
1.0
3.0
5.0
10.0
1
2
4
10
L2
L2
L2
L2
L2
L2
L2
π
π
π
π
π
π
π
T
T
T
T
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
1.020
1.020
1.020
1.020
.25
.25
.25
.25
.25
.25
.25
.50
.50
.50
.50
.50
.50
.50
.25
.25
.25
.25
1.7
.77
36
14
.05
.015
.008
1.7
.77
.36
.14
.05
.015
.008
.5
.09
.03
.006
32
25
20
12
11
8
6
49
43
37
28
–
–
–
15
9
6
–
39
30
26
16
15
12
12
60
53
48
40
–
–
–
23
13
10
9
200 VDC, .15–.36 µF
AVX
P/N
Current
AMP
GK2BA-S02
GK2BA-S04
GK2BA-S07
GK2BA-S08
GK2BA-S09
GK2BA-S10
GK2BA-S12
GK3BA-P02
GK3BA-P04
GK3BA-P07
GK3BA-P08
GK3BA-P09
GK3BA-P10
GK3BA-P12
GK4BA-T08
GK4BA-T09
GK4BA-T16
GK4BA-T12
.1
.25
.5
1
2
3
10
.1
.25
.5
1
2
3
10
1
2
4
10
CKT
L. dim
CAP1
DCR
10
KHz
30
KHz
150
KHz
300
KHz
1
MHz
10
MHz
100
MHz
1
GHz
L2
L2
L2
L2
L2
L2
L2
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
1.020
1.020
1.020
1.020
.15
.15
.15
.15
.15
.15
.15
.36
.36
.36
.36
.36
.36
.36
.15
.15
.15
.15
10
.4
1
.25
.063
.027
.008
10
4
1
.25
.063
.027
.008
.5
.09
.03
.008
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
21
11
3
–
–
–
–
21
10
–
–
–
–
–
3
–
–
3
50
39
29
18
15
15
15
61
52
44
30
16
–
–
17
12
12
12
61
51
41
28
21
21
21
70
68
63
46
33
21
20
42
24
21
21
70
70
63
49
38
31
31
70
70
70
70
63
55
30
70
48
34
31
70
70
70
70
70
70
51
70
70
70
70
70
70
60
70
70
70
50
70
70
70
70
70
70
60
70
70
70
70
70
70
70
70
70
70
60
70
70
70
70
70
70
60
70
70
70
70
70
70
70
70
70
70
60
π
π
π
π
π
π
π
T
T
T
T
1
Decimal point values indicate capacitance in microfarads. Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor resonances and other design constraints.
NOTE: All “L2” circuits are also available as “L1”. Insertion loss and other parameters are identical.
Only the part number changes (e.g., L2 = GK2LA-S04, L1 = GK2LA-R04).
40
Cylindrical Style EMI Filters
GK Series – .375/.410 Dia. – Hermetically Sealed –
Circuits Available – L, π, T
SPECIFICATIONS
Insertion Loss2 Per MIL-STD-220, +25°C
AVX
P/N
Current
AMP
GK2LA-S02
GK2LA-S07
GK2LA-S09
GK2LA-S12
GK3LA-P02
GK3LA-P07
GK3LA-P10
GK3LA-P12
GK2LA-S04
GK2LA-S08
GK2LA-S10
GK2LA-S11
GK3LA-P04
GK3LA-P08
GK3LA-P10
GK3LA-P11
GK4LA-T08
GK4LA-T09
GK4LA-T16
GK4LA-T12
.1
.5
2
10
.1
.5
3
10
.25
1
3
5
.25
1
3
5
1
2
4
10
CKT
L. dim
L2
L2
L2
L2
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
.540
1.020
1.020
1.020
1.020
CAP1
DCR
10
KHz
30
KHz
150
KHz
300
KHz
1
MHz
10
MHz
100
MHz
1
GHz
54
35
14
14
70
56
25
20
40
24
16
14
62
50
19
–
36
18
15
15
70
56
30
25
70
70
54
30
60
45
30
26
80
80
59
51
66
41
27
25
70
70
70
45
70
70
70
70
60
60
60
55
80
80
80
80
70
70
70
70
70
70
70
60
70
70
70
70
60
60
60
55
80
80
80
80
70
70
70
70
70
70
70
60
70
70
70
70
70
70
70
70
80
80
80
80
70
70
70
70
200 VDC (125 VAC/400 Hz) .15–.30 µF
π
π
π
π
L2
L2
L1
L2
π
π
π
π
T
T
T
T
.15
.15
.15
.15
.3
.3
.3
.3
.15
.15
.15
.15
.3
.3
.3
.3
.15
.15
.15
.15
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
10
1
.063
.008
10
1
.027
.008
1.5
.25
.05
.015
1.5
.25
.05
.015
.5
.09
.03
.008
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
14
–
–
–
21
–
–
–
6
–
–
–
8
–
–
–
–
–
–
–
42
23
8
8
60
40
–
–
28
13
8
8
44
32
–
–
10
7
8
8
NOTE: All “L2” circuits are also available as “L1”.
Insertion loss and other parameters are identical.
Only the part number changes
(e.g., L2 = GK2LA-S04, L1 = GK2LA-R04).
41
Cylindrical Style EMI Filters
JD Series – .690 Dia.
Hermetically Sealed – Circuits Available – C, L, π, T
APPLICATIONS
CHARACTERISTICS
• Designed to meet the requirements of DESC drawings
84083, 84084 and MIL-F28861/16 and /17.
• Glass hermetic seal on both
ends.
• Wound toroidal inductor used in
designs up to 10 Amps. 15
Amp designs incorporate ferrite
bead inductor.
• Superior heat dissipation for
both 125 VAC and 230 VAC
designs.
The JD series offers effective filtering from
14 KHz to 10 GHz. The large diameter,
increased length, restricted capacitance
values and conservative dielectrics of the
JD series are particularly important
design features for 400 Hz AC applications where high reactive currents and
the resultant heat dissipation must be
controlled. Glass sealed on both ends for
hermeticity, this series is impervious to
high moisture, solvents, or other severe
environmental conditions commonly
encountered in military applications. It is
designed for bulkhead mounting in a
slotted hole with nut and lockwasher
supplied.
The 230 VAC “T” section style is uniquely capable of handling very high pulse
inrush currents or overvoltage conditions
typical of EMP.
In addition, transient voltage suppression
devices can be added to any of the JD
circuit designs to provide complete
circuit protection against EMP, lightning,
or voltage spikes such as MIL-STD-704.
These devices when combined with high
frequency attenuation characteristics of
the discoidal capacitor and toroidal
inductors offer significant performance
advantages by suppressing and absorbing the EMP pulse over a very broad
spectral range. Very high pulse currents
will occur within the EMI filter, however,
reradiation to sensitive electronic circuits
is prevented by the fully shielded case
design. In some cases a slight increase
in the case length of the filter is required
to provide space for the transient suppression device.
The “L”, and the “T” designs are designed
to provide effective attenuation over a
wide range of circuit impedances. For
current ratings under 15 Amps toroidal
wound inductor elements offer increased
filter performance and protection against
circuit transients. Data showing the actual
inductance versus various levels of DC or
AC bias current are available as well as the
attenuation in any combination of source
and load impedance.
Alternate lead configurations or special
capacitance/inductance values may be
ordered.
Custom packages or filter arrays utilizing
the JD series can be furnished.
SPECIFICATIONS
1. Case/Terminal Plating:
Electro-tin standard –
Silver or gold available
2. Material:
Case: Brass standard – Steel available
End Seal: Mild steel
Terminals: Nickel-iron alloy
3. Operating Temperature Range:
-55°C to +125°C
4. Electrical Characteristics:
A. Rated Voltage:
300 VDC/125 VAC, 400 Hz or
400 VDC/230 VAC, 400 Hz
B. Current Rating - see chart
42
C. Insulation Resistance:
At 25°C: 1,000 megohm-microfarad
min., or 50,000 megohms
min., whichever is less, at
the rated DC voltage
At 125°C: 100 megohm-microfarad
min., or 5,000 megohms
min., whichever is less
D. Dielectric Withstanding Voltage
(DWV):
R-level designs:
2.0 times rated DC voltage
Class B, Class S designs:
2.5 times rated DC voltage
3. Capacitance: Total capacitance listed in
chart for each filter type is “guaranteed
minimum value” (GMV)
5. Marking:
Standard Marking: AVX, AVX part
number, rated voltage, current, lot
number, schematic
NOTE: Schematic to indicate location of
inductor (standard or reverse) for
JD2 L-Section Filters.
See Reliability Codes section for
definition of Reliability Level marking.
See How to Order section for part
number construction.
6. Installation:
A. Mounting Torque: 60 oz-in. ± 4 oz-in.
B. Refer to “Installation and Handling”
section of Filter Design Guide
Cylindrical Style EMI Filters
JD Series – .690 Dia. – Hermetically Sealed –
Circuits Available – C, L, π, T
STANDARD CONFIGURATION
.3125-24 UNF-2A (5/16-24)
.062
.062 ± .015 x .125 ± .015
MAX.
(2 PLC)
.690
MAX.
.250
±.015
.120
±.020
(2 PLC)
.312
±.010
.620
MAX.
.290
MAX.
L
MAX.
(See Note 1)
CIRCUIT DIAGRAMS
THRD
END
THRD
END
L2
C
JD3
JD2 - Standard
JD1
L1
Pi
JD2 - Reverse
T
JD4
millimeters (inches)
0.08 (.003) 6.35 (.250)
0.13 (.005) 7.37 (.290)
0.18 (.007) 7.92 (.312)
0.25 (.010) 9.53 (.375)
0.38 (.015) 10.67 (.420)
0.51 (.020) 11.18 (.440)
0.56 (.022) 15.75 (.620)
1.14 (.045) 17.27 (.680)
1.57 (.062) 17.78 (.700)
2.36 (.093) 26.92 (1.060)
3.05 (.120) 30.61 (1.205)
3.18 (.125) 33.02 (1.300)
(See Note 2)
MIL-F-28861/17
(See P/N Table)
L
Weight
Dash Dimension (grams)
No.
Max.
Max.
001
.700
18.0
002
1.060
20.0
003
1.060
20.0
004
1.060
20.0
005
1.060
20.0
006
1.060
20.0
007
1.060
20.0
008
1.060
20.0
009
1.060
20.0
010
1.060
20.0
011
1.060
20.0
012
1.205
29.0
013
1.205
29.0
014
1.205
29.0
015
1.205
29.0
016
1.205
29.0
017
1.300
29.0
018
1.300
29.0
019
1.300
29.0
MIL-F-28861/16
(See P/N Table)
Dash
No.
001
002 through 011
012 through 016
017 through 019
L
Dimension
Max.
.700
1.060
1.205
1.300
Notes:
1. Refer to Part Number Table
for L-Max for specific filter.
2. Metric equivalent dimensions
given for information only.
3. All dimensions for JD series
filters established per
MIL-F-28861/16 and /17,
and DESC 84083 and 84084
requirements.
43
Cylindrical Style EMI Filters
JD Series – .690 Dia. – Hermetically Sealed –
Circuits Available – C, L, π, T
SPECIFICATIONS
Insertion Loss2 Per MIL-STD-220, +25°C
AVX
P/N
Current
AMP
JD1AB-125
JD1AB-704
JD2AB-S07
JD2AB-S08
JD2AB-S10
JD2AB-S11
JD2AB-S12
JD3AB-P07
JD3AB-P08
JD3AB-P10
JD3AB-P11
JD3AB-P12
JD4AB-T08
JD4AB-T09
JD4AB-T16
JD4AB-T12
15
15
.5
1
3
5
10
.5
1
3
5
10
1
2
4
10
CKT
DC
CAP1 Voltage
DCR
L. dim
50
KHz
150
KHz
300
KHz
1
MHz
10
MHz
100
MHz
1
GHz
27
19
40
37
26
25
24
70
68
43
26
30
48
26
24
24
34
28
58
55
37
34
34
80
80
73
63
40
70
44
35
34
43
40
70
70
55
46
44
80
80
80
80
70
70
70
50
44
60
50
70
70
70
70
70
80
80
80
80
70
70
70
70
60
60
60
70
70
70
70
70
80
80
80
80
80
70
70
70
70
60
60
70
70
70
70
70
80
80
80
80
80
70
70
70
70
21
16
30
28
16
14
15
50
46
18
13
20
50
48
18
12
30
24
48
45
28
24
24
70
70
50
40
30
70
70
24
22
40
34
65
65
45
36
34
80
80
80
70
40
80
80
42
34
53
51
70
70
60
52
50
80
80
80
80
55
80
80
80
70
60
60
70
70
70
70
70
80
80
80
80
80
80
80
80
80
60
60
70
70
70
70
70
80
80
80
80
80
80
80
80
80
100 VDC, 1.2–2.8 µF
C
C
L2
L2
L2
L2
L2
π
π
π
π
π
T
T
T
T
1.2
1.2
1.4
1.4
1.4
1.4
1.4
2.8
2.8
2.8
2.8
2.8
1.4
1.4
1.4
1.4
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
.008
.008
.3
.21
.03
.007
.006
.3
.21
.03
.007
.006
.5
.09
.03
.005
.700
.700
1.060
1.060
1.060
1.060
1.060
1.205
1.205
1.205
1.205
1.205
1.400
1.400
1.400
1.400
16
10
21
19
16
15
15
40
35
13
–
20
21
15
15
14
200 VDC, .45–.9 µF
JD1BB-904
JD1BB-454
JD2BB-S07
JD2BB-S08
JD2BB-S10
JD2BB-S11
JD2BB-S12
JD3BB-P07
JD3BB-P08
JD3BB-P10
JD3BB-P11
JD3BB-P12
JD4BB-T08
JD4BB-T09
JD4BB-T16
JD4BB-T12
15
15
.5
1
3
5
10
.5
1
3
5
10
1
2
4
10
C
C
L2
L2
L2
L2
L2
π
π
π
π
π
T
T
T
T
.9
.45
.45
.45
.45
.45
.45
.9
.9
.9
.9
.9
.45
.45
.45
.45
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
Actual measurements may vary due to internal capacitor
resonances and other design constraints.
NOTE: All “L2” circuits are also available as “L1”.
Insertion loss and other parameters are identical.
Only the part number changes (e.g., L2 = GK2LA-S04,
L1 = GK2LA-R04).
44
.006
.006
.3
.21
.03
.007
.006
.3
.21
.03
.007
.006
3
.21
.03
.006
.700
.700
1.060
1.060
1.060
1.060
1.060
1.205
1.205
1.205
1.205
1.205
1.400
1.400
1.400
1.400
12
6
10
8
6
6
6
15
11
–
–
9
18
12
–
–
Cylindrical Style EMI Filters
JD Series – .690 Dia. – Hermetically Sealed –
Circuits Available – C, L, π, T
SPECIFICATIONS
Insertion Loss2 Per MIL-STD-220, +25°C
AVX
P/N
Current
AMP
JD1LB-304
JD2LB-S07
JD2LB-S08
JD2LB-S10
JD2LB-S11
JD2LB-S12
JD3LB-P07
JD3LB-P08
JD3LB-P10
JD3LB-P11
JD3LB-P12
JD4LB-T08
JD4LB-T09
JD4LB-T16
JD4LB-T12
15
.5
1
3
5
10
.5
1
3
5
10
1
2
4
10
CKT
DC
CAP1 Voltage
DCR
L. dim
50
KHz
150
KHz
300
KHz
1
MHz
10
MHz
100
MHz
1
GHz
22
40
37
24
22
20
62
56
40
25
–
28
22
20
19
32
60
56
42
34
30
80
80
70
60
50
58
37
34
30
46
60
60
70
68
56
80
80
80
80
80
70
70
70
48
58
70
70
70
70
70
80
80
80
80
80
70
70
70
60
70
70
70
70
70
70
80
80
80
80
80
70
70
70
70
16
32
30
19
16
16
52
46
30
12
–
25
18
16
15
26
50
46
36
28
25
80
74
60
50
30
48
40
31
25
40
60
60
60
54
48
80
80
80
80
80
70
64
58
45
52
70
70
70
70
70
80
80
80
80
80
70
70
70
60
70
70
70
70
70
70
80
80
80
80
80
70
70
70
70
300 VDC (125 VAC/400Hz*), .3–.36 µF
C
L2
L2
L2
L2
L2
π
π
π
π
π
T
T
T
T
.3
.3
.3
.3
.3
.3
.36
.36
.36
.36
.36
.3
.3
.3
.3
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
.008
.33
.15
.026
.013
.008
.33
.15
.026
.013
.008
.07
.05
.03
.008
.700
1.060
1.060
1.060
1.060
1.060
1.205
1.205
1.205
1.205
1.205
1.400
1.400
1.400
1.400
7
13
6
7
7
7
14
–
–
–
–
6
6
6
–
16
28
24
17
16
16
44
37
18
–
–
18
16
16
–
400 VDC (230 VAC/400Hz*), .15–.2 µF
JD1EB-154
JD2EB-S07
JD2EB-S08
JD2EB-S10
JD2EB-S11
JD2EB-S12
JD3EB-P07
JD3EB-P08
JD3EB-P10
JD3EB-P11
JD3EB-P12
JD4EB-T08
JD4EB-T09
JD4EB-T16
JD4EB-T12
15
.5
1
3
5
10
.5
1
3
5
10
1
2
4
10
C
L2
L2
L2
L2
L2
π
π
π
π
π
T
T
T
T
.15
.15
.15
.15
.15
.15
.2
.2
.2
.2
.2
.15
.15
.15
.15
400
400
400
400
400
400
400
400
400
400
400
400
400
400
400
1
Decimal point values indicate capacitance in microfarads.
Non-decimal point values indicate capacitance in picofarads.
2
Insertion loss limits are based on theoretical values.
.008
.33
.15
.026
.013
.008
.33
.15
.026
.013
.008
.07
.05
.03
.008
.700
1.060
1.060
1.060
1.060
1.060
1.205
1.205
1.205
1.205
1.205
1.300
1.300
1.300
1.300
–
5
–
–
–
–
–
–
–
–
–
–
–
–
–
10
24
19
11
10
10
34
27
–
–
–
12
10
10
–
* Actual measurements may vary due to internal capacitor
resonances and other design constraints.
NOTE: All “L2” circuits are also available as “L1”.
Insertion loss and other parameters are identical.
Only the part number changes (e.g., L2 = GK2LA-S04,
L1 = GK2LA-R04).
45
Military Qualified Products
There have been many questions raised regarding the
differences between MIL-F-15733 and MIL-F-28861. To clarify these differences we have incorporated the following
Analysis Chart which compares the differences between
these two military specifications.
ANALYSIS MIL-F-15733 vs. MIL-F-28861
MIL-F-15733
MIL-F-28861
Characteristics
Filter Design/Construction
Filter Design/
Construction
Class B
Class S
CASE
Standard
Standard
Standard
CAPACITOR
(Discoidal)
• Dielectrics
•K
• VTL
• Cap Range
Standard
Special Design
Special Design
X7R, Z5U
2200-10K
N/A
Max Cap/Case Size
BR
2K max
+15%, -40%
Limited Cap/Case Size
Conservation Design
BX
2K max
+15%, -25% (when design permits)
Limited Cap/Case Size &
MIL-C-123 Req’ts Conservative Design
Testing
Testing
GROUP A
MIL-STD-105,
100% Test
100% Test
• Test
• PDA
(parts
defective
allowed)
1.0% AQL
None
10%
Thermal Shock, Burn-in*,
IR & DWV–2% each test
Cap, Volt. Drop, Insertion
Loss -3% max combined
Total 10% max
X-RAY
None
MIL-STD-202
Method 209
MIL-STD-202
Method 209
LEAK TEST
Condition “A”
Gross Leak
Condition “A”
Gross Leak
Condition “A”
Gross Leak
PDA 10% max
Condition “C”
Fine Leak
PDA 10% max
BURN-IN
None generally. A few
slash sheets require
1.4 x rated voltage
160 Hrs. @ 2 x rated
voltage — Resistor protected
168 Hrs. (250 Hrs. max) @ 2 x
rated voltage - Fuse protected
*PDA .2% max lasts 50 Hrs.
INSERTION LOSS
1.0% AQL
100%
100%
SOLDERABILITY
None
MIL-STD-202
Method 208
5 Samples
MIL-STD-202
Method 208
5 Samples
46
Advanced Technology Filters
Miniature, Subminiature & Microminiature
APPLICATIONS
AVX’s Miniature filter line breaks the “small” size barrier. These
ultraminiature products, available as solder-in or screw-in style,
have case diameters as low as .073". Threaded filters will allow
substitution, flexibility of placement and simple installation, while
solder-in parts will provide hermeticity of your microcircuit packages. Now, with capacitance values of up to 50,000 pF, “C”, “L”
or “T” circuits, superior insertion loss over on-board
filtering, variety of ultra small and lightweight sizes, you can meet
all “mission critical” objectives. World’s smallest and most
complete miniature EMI filter line is especially well suited for
microwave industry, medical electronics, avionics instrumentation, satellites or other applications where space is at premium.
FEATURES
■ World’s smallest filters, a “must”
for avionics and space industry.
■ Tiny size for miniaturization of
microwave and telecom equipment.
■ Hardware real-estate and weight
reduction of up to 60%.
■ Most complete product offering
with solder-in or bolt installation.
■ Discoidal capacitor design to
meet cost/reliability goals.
1
2
3
4
6
3
5
1 – LEAD
4 – SOLDER
1
2
3
4
6
3
2 – CASE
3 – EPOXY
5 – GLASS SEAL 6 – CAPACITOR
NOTE: Torque limiting tool with custom adapter available upon request.
SPECIFICATIONS
Mechanical
Material: Solder-In: Case and Leads:
Kovar per ASTM F-15
Screw-in: Case: CRS per ASTM-108
Leads: Copper clad steel
(1-64 & 2-56 Thd.)
Copper (4-40 & 8-36 Thd.)
Finish: Solder-in: Gold per Mil-G-45204
Screw-in: Gold per Mil-G-45204 (standard)
Silver optional (1-64 & 2-56 Thd.)
Silver per QQ-S-365 (standard)
Gold optional (4-40 & 8-36 Thd.)
Electrical
Capacitance: measured @ 1KHz and .1 to 1 VRMS, 25°C
Dissipation factor: 3% max.
Insulation resistance: 10,000 Mohms min. @ 25°C, WVDC;
1000 Mohms min. @ 125°C, WVDC
DC resistance: .02 ohm max.
Dielectric withstanding voltage: 200% of WVDC min.
47
EMI Filters
Miniature, Subminiature & Microminiature
SOLDER-IN STYLE, C TYPE
SPECIFICATIONS
.075±.002
(1.90±0.05)
.075±.005
(1.90±0.13)
.016±.002
(0.41±0.05)
GLASS
SEAL
.008±.003
(0.20±0.08)
.030 (0.76)
MAX. POTTING
MENISCUS
.100±.020
(2.54±0.5)
.275±.020
(6.98±0.5)
.093±.005
(2.36±0.13)
.100±.005
(2.54±0.13)
.105±.002
(2.67±0.05)
GLASS
SEAL
.008±.003
(0.20±0.08)
.020±.002
(0.51±0.05)
.030 (0.76)
MAX. POTTING
MENISCUS
.125±.020
(3.18±0.5)
.125±.005
(3.18±0.13)
.350±.020
(8.89±0.5)
.120±.002
(3.05±0.05)
.110±.005
(2.79±0.13)
GLASS
SEAL
.008±.003
(0.20±0.08)
.030±.002
(0.76±0.05)
.030 (0.76)
MAX. POTTING
MENISCUS
.140±.020
(3.56±0.5)
.400±.020
(10.16±0.5)
.140±.005
(3.56±0.13)
AVX
Voltage
Min.
Current
MINIMUM NO LOAD INSERTION LOSS
(db) @ 25°C PER MIL-STD-220
Part
Vdc
Cap
Idc
Number
(V)
(pF)
(A)
ZXS1C3-502
ZXS1C3-272
ZXS1A3-152
ZXS1A3-102
ZXS1A3-501
ZXS1A3-251
ZXS1B3-101
ZXS1B3-500
ZXS1B3-250
50
50
100
100
100
100
200
200
200
5000
2700
1500
1000
500
250
100
50
25
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
15
10
5
4
–
–
–
–
–
ZXS1B3-100
ZXS1B3-5R0
ZXS1B3-000
200
200
200
10
5
2 max.
1.5
1.5
1.5
–
–
–
ZYS1C3-273
ZYS1C3-103
ZYS1A3-502
ZYS1A3-272
ZYS1A3-152
ZYS1B3-102
ZYS1B3-501
ZYS1B3-251
ZYS1B3-101
ZYS1B3-500
ZYS1B3-250
ZYS1B3-100
ZYS1B3-5R0
ZYS1B3-000
50
50
100
100
100
200
200
200
200
200
200
200
200
200
27000
10000
5000
2700
1500
1000
500
250
100
50
25
10
5
2 max.
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
ZZS1C3-503
ZZS1C3-273
ZZS1A3-103
ZZS1B3-502
ZZS1B3-272
ZZS1B3-152
ZZS1B3-102
ZZS1B3-501
ZZS1B3-251
ZZS1B3-101
ZZS1B3-500
ZZS1B3-250
ZZS1B3-100
ZZS1B3-5R0
ZZS1B3-000
50
50
100
200
200
200
200
200
200
200
200
200
200
200
200
50000
27000
10000
5000
2700
1500
1000
500
250
100
50
25
10
5
2 max.
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
10
30
100
300
MHZ MHZ MHZ MHZ
1
10
GHZ GHZ
22
17
12
10
–
–
–
–
–
35
30
25
22
15
10
3
1
–
45
38
33
30
25
17
10
6
1
55
50
45
42
35
27
20
15
10
60
60
55
55
50
40
30
25
22
–
–
–
–
–
–
–
–
–
3
–
–
20
15
–
30
20
15
10
5
4
–
–
–
–
–
–
–
–
37
27
22
17
12
10
–
–
–
–
–
–
–
–
43
37
35
30
25
22
15
10
3
1
–
–
–
–
53
47
45
38
33
30
25
17
10
6
1
–
–
–
65
60
55
50
45
42
35
27
20
15
10
3
–
–
70
65
60
60
55
55
50
40
30
25
22
20
15
–
35
30
20
15
10
5
4
–
–
–
–
–
–
–
–
40
37
27
22
17
12
10
–
–
–
–
–
–
–
–
45
43
37
35
30
25
22
15
10
3
1
–
–
–
–
55
53
47
45
38
33
30
25
17
10
6
1
–
–
–
70
65
60
55
50
45
42
35
27
20
15
10
3
–
–
70
70
65
60
60
55
55
50
40
30
25
22
20
15
–
NOTE: Dimensions in inches (millimeters).
CONFIGURATION OPTIONS
Terminals
Glass Seal
Opposite Flange End – Standard
Schematic
"C" STANDARD
At Flange End – Reversed
Change 3rd letter of part number from
“S” to “R” for reversed configuration
Flattened at Glass Seal End Only
48
GLASS
SEAL
END
"L1" AVAILABLE
WITH EXTENDED
CASE LENGTH
EMI Filters
Miniature, Subminiature & Microminiature
SCREW-IN STYLE, C TYPE
1-64
2-56
THD.
SPECIFICATIONS
AVX
Part
Number
Voltage
Vdc
(V)
Min.
Cap
(pF)
Current
Idc
(A)
MINIMUM NO LOAD INSERTION LOSS
(db) @ 25°C PER MIL-STD-220
10
30
100
300
MHZ MHZ MHZ MHZ
1
10
GHZ GHZ
SXD1C3-502
50
5000
3
15
22
35
45
55
SXD1C3-272
50
2700
3
10
17
30
38
50
60
SXD1A3-152
100
1500
3
5
12
25
33
45
55
SXD1A3-102
100
1000
3
4
10
22
30
42
55
SXD1A3-501
100
500
3
–
–
15
25
35
50
SXD1A3-251
100
250
3
–
–
10
17
27
40
SXD1B3-101
200
100
3
–
–
3
10
20
30
SXD1B3-500
200
50
3
–
–
1
6
15
25
SXD1B3-250
200
25
3
–
–
–
1
10
22
SXD1B3-100
200
10
3
–
–
–
–
3
20
SXD1B3-5R0
200
5
3
–
–
–
–
–
15
SYD1C3-502
50
5000
3
15
22
35
45
55
60
SYD1C3-272
50
2700
3
10
17
30
38
50
60
1.5 MAX. IMPERFECT THD.
NO UNDERCUT
SYD1A3-152
100
1500
3
5
12
25
33
45
55
SYD1A3-102
100
1000
3
4
10
22
30
42
55
#2-56UNC-2A THD.
SYD1A3-501
100
500
3
–
–
15
25
35
50
SYD1A3-251
100
250
3
–
–
10
17
27
40
SYD1B3-101
200
100
3
–
–
3
10
20
30
SYD1B3-500
200
50
3
–
–
1
6
15
25
SYD1B3-250
200
25
3
–
–
–
1
10
22
SYD1B3-100
200
10
3
–
–
–
–
3
20
SYD1B3-5R0
200
5
3
–
–
–
–
–
15
SZD1C3-273
50
27000
5
30
37
SZD1C3-103
50
10000
5
20
27
1.5 MAX. IMPERFECT THD.
SZD1A3-502
100
5000
5
15
22
.024±.002
NO UNDERCUT
(0.61±0.05)
SZD1A3-272
100
2700
5
10
17
#2-56UNC-2A THD.
SZD1A3-152
100
1500
5
5
12
SZD1B3-102
200
1000
5
4
10
SZD1B3-501
200
500
5
–
–
.020±.003
SZD1B3-251
200
250
5
–
–
(0.51±0.08)
.090±.005
SZD1B3-101
200
100
5
–
–
(2.29±0.13)
SZD1B3-500
200
50
5
–
–
.260±.020
(6.60±0.5)
SZD1B3-250
200
25
5
–
–
.105±.005
.240±.020
(2.67±0.13)
(6.10±0.5)
SZD1B3-100
200
10
5
–
–
MOUNTING TORQUE: 14 ± 2 oz-in
SZD1B3-5R0
200
5
5
–
–
NOTE: Dimensions in inches (millimeters). Torque limiting tool with custom adapter required for proper installation (see page 2)
43
37
35
30
25
22
15
10
3
1
–
–
–
53
47
45
38
33
30
25
17
10
6
1
–
–
65
60
55
50
45
42
35
27
20
15
10
3
–
70
65
60
60
55
55
50
40
30
25
22
20
15
.080±.005
(2.03±0.13)
.021±.001
(0.53±0.03)
.018±.002
(0.46±0.05)
1.5 MAX. IMPERFECT THD.
NO UNDERCUT
#1-64UNC-2A THD.
.020±.003
(0.51±0.08)
.090±.005
(2.29±0.13)
.180±.020
(4.57±0.5)
.073±.003
(1.85±0.08)
.190±.020
(4.83±0.5)
MOUNTING TORQUE: 7 ± 1 oz-in
.080±.005
(2.03±0.13)
.021±.001
(0.53±0.03)
.018±.002
(0.46±0.05)
.020±.003
(0.51±0.08)
.086±.003
(2.18±0.08)
.090±.005
(2.29±0.13)
.180±.020
(4.57±0.5)
.190±.020
(4.83±0.5)
MOUNTING TORQUE: 14 ± 2 oz-in
.110±.005
(2.79±0.13)
.021±.001
(.53±0.03)
60
CONFIGURATION OPTIONS
Terminals
Mounting
.090 Thd. Length Standard,
intended for tapped hole
feed through mounting
“SZD” and “SYD” Parts Only
Slotted terminal available
on one or both sides
.140 Thd. Length available
for through hole mounting
with hex nut
Schematic
"C" STANDARD
THD.
END
"L1"
"T"
AVAILABLE
WITH EXTENDED
CASE LENGTH
49
EMI Filters
Miniature, Subminiature & Microminiature
SCREW-IN STYLE, C TYPE
4-40
8-36
THD.
SPECIFICATIONS
AVX
Part
Number
.030 MAX.(0.762)
UNDERCUT
.125±.003
(3.18±0.08)
#4-40UNC-2A THD.
.075±.005
(1.91±0.13)
.030 MAX.(0.762)
IMPERFECT THD.
ø.032±.002
(0.81±0.05)
.140±.005
(3.56±0.13)
.225±.020
(5.72±0.50)
.315±.020
(8.00±0.50)
MOUNTING TORQUE: 32 ± 4 oz-in
.030 MAX.(0.762)
UNDERCUT
.154 (3.91)
.159 (4.04)
#4-40UNC-2A THD.
.120
(3.05)
.030 MAX.(0.762)
IMPERFECT THD.
ø.026±.002
(0.66±0.05)
.220±.010
(5.59±0.25)
.240±.031
(6.10±0.79)
.360±.031
(9.14±0.79)
MOUNTING TORQUE: 32 ± 4 oz-in
.015 MAX.(0.38)
UNDERCUT
.187±.010
(4.75±0.25)
.040±.005
(1.02±0.13)
#8-36UNF-2A THD.
.025 MAX.(0.64)
IMPERFECT THD.
ø.030±.002
(0.76±0.05)
.090±.010
(2.29±0.25)
.240±.020
(6.10±0.50)
.360±.020
(9.14±0.50)
MOUNTING TORQUE: 64 ± 4 oz-in
Voltage
Vdc
(V)
Min.
Cap
(pF)
Current
Idc
(A)
MINIMUM NO LOAD INSERTION LOSS
(db) @ 25°C PER MIL-STD-220
1
10
MHZ MHZ
100
300
1
MHZ MHZ GHZ
SA1C3-503
50
50000
10
15
35
45
55
70
70
SA1A3-273
100
27000
10
10
30
43
53
65
70
SA1A3-103
100
10000
10
4
20
37
47
60
65
SA1B3-502
200
5000
10
–
15
35
45
55
60
SA1B3-272
200
2700
10
–
10
30
38
50
60
SA1B3-152
200
1500
10
–
5
25
33
45
55
SA1B3-102
200
1000
10
–
4
22
30
42
55
SA1B3-501
200
500
10
–
–
15
25
35
50
SA1B3-251
200
250
10
–
–
10
17
27
40
SA1B3-101
200
100
10
–
–
3
10
20
30
SA1B3-500
200
50
10
–
–
1
6
15
25
SA1B3-250
200
25
10
–
–
–
1
10
22
SA1B3-100
200
10
10
–
–
–
–
3
20
SA1B3-5R0
200
5
10
–
–
–
–
–
15
SA1C1-104
50
100000
10
20
40
50
60
70
70
SA1A1-503
100
50000
10
15
35
45
55
70
70
SA1A1-273
100
27000
10
10
30
43
53
65
70
SA1B1-103
200
10000
10
4
20
37
47
60
65
SA1B1-502
200
5000
10
–
15
35
45
55
60
SA1B1-272
200
2700
10
–
10
30
38
50
60
SA1B1-102
200
1000
10
–
4
22
30
42
55
SA1B1-501
200
500
10
–
–
15
25
35
50
SA1B1-251
200
250
10
–
–
10
17
27
40
SA1B1-101
200
100
10
–
–
3
10
20
30
SA1B1-500
200
50
10
–
–
1
6
15
25
SA1B1-250
200
25
10
–
–
–
1
10
22
SA1B1-100
200
10
10
–
–
–
–
3
20
SA1B1-5R0
200
5
10
–
–
–
–
–
15
SZ1C1-503
SZ1A1-273
SZ1A1-103
SZ1B1-502
SZ1B1-272
SZ1B1-152
SZ1B1-102
SZ1B1-501
SZ1B1-251
SZ1B1-101
SZ1B1-500
SZ1B1-250
SZ1B1-100
SZ1B1-5R0
50
100
100
200
200
200
200
200
200
200
200
200
200
200
50000
27000
10000
5000
2700
1500
1000
500
250
100
50
25
10
5
10
10
10
10
10
10
10
10
10
10
10
10
10
10
15
10
4
–
–
–
–
–
–
–
–
–
–
–
35
30
20
15
10
5
4
–
–
–
–
–
–
–
45
43
37
35
30
25
22
15
10
3
1
–
–
–
55
53
47
45
38
33
30
25
17
10
6
1
–
–
70
65
60
55
50
45
42
35
27
20
15
10
3
–
70
70
65
60
60
55
55
50
40
30
25
22
20
15
NOTE: Dimensions in inches (millimeters).
Leads
CONFIGURATION OPTIONS
Custom lead lengths and materials available
Chamfered or rounded lead tips for mating with connectors
50
10
GHZ
Schematic
END
THD.
"L1" AVAILABLE
FOR "SZ" P/N
THD.
"L2" AVAILABLE
FOR "SA" P/N
END
Advanced Technology Filters
Hermetic High Temperature Solder-Ins
AVX FILTERS
SOLDER-IN STYLE FILTER
STANDARD
CONSTRUCTION
HERMETIC
CONSTRUCTION
DISCOIDAL
CAPACITOR
EPOXY
FINAL
GLASS SEAL
HOUSING
HIGH TEMP
METALLURGICAL
BOND
CONDUCTIVE
POLYMER
EPOXY
ADHESIVE
GENERAL DESCRIPTION
These are high frequency filters in space
saving solder-in designs which will operate under harsh environments and meet
the high reliability requirements of MIL-F28861 without outgassing. AVX Filters
Corporation has designed a filter which
sets a new standard for the industry.
These feed-thru filters are constructed
with hi-rel semiconductor materials and
rugged MLC discoidal capacitors. They
are also manufactured at high temperatures (>500°C) without fluxes, epoxies or
other polymers, thus eliminating failure
mechanisms associated with conventional solder-ins. These solder-ins withstand short temperature excursions as
high as 400°C, and can actually be
operated at temperatures to 200°C.
Available either as discrete packages in
standard case sizes or as multiple filter
brackets, all have hermetic glass-tometal seals on both ends.
SEALING GLASS
LEAD
FEATURES
•
•
•
•
•
Standard sizes
Epoxy free construction
Hermetic on both ends
MIL-C-123 Discoidal Capacitor
400°C installation
STYLE
• Discrete, hermetically sealed
solder-in filters
AVX Filters Series*
WQ: .400" Case Diameter
XQ: .250" Case Diameter
YQ: .165" Case Diameter
ZQ: .128" Case Diameter
*Equivalent to MIL-F-28861
Series FS70, FS71, FS72, FS73 and FS74
• Custom design available
• Multiple filter arrays
- Custom bracket housing
employing discrete hermetic filters
- Custom rugged bracket housings
with inter-rated hermetic filtered
feed-thrus
SPECIFICATIONS
• Operating temperature range:
-55°C to 200°C
• 400°C rated installation
temperature
• Voltage range: 50 to 300 VDC/up
to 200 VAC
• Capacitance Range:
10 pF to 1.4 mF
• Hermeticity: 1 x 10-7 ATM cm3/sec
minimum
• Rated current: up to 25 amps
• Circuits: C
• Designed to meet or exceed
requirements of MIL-F-28861
CHARACTERISTICS
• Rugged monolithic ceramic
capacitor construction
• Capacitor attached with solderless, fluxless, high temperature
metallurgical bond
• Hermetic glass-to-metal seals on
both ends
• No epoxies, resins or polymers
to outgas or degrade in harsh
environments
51
Filter Plates
Custom Designed Filter Plates
AVX solder-in style filters are designed to be soldered into
bulkheads, plates, and/or assemblies similar to those depicted in the photograph above. AVX Filters will design and
fabricate bracket arrays to your specific requirements or
Source Control Drawing.
The mechanical stress and extreme temperatures encountered by the filters during installation into assemblies is
normally the harshest environment they will experience during the life of a system.
If you are buying the discrete filters and doing the installation
in house you should seriously consider:
• How much is it costing you to purchase burned-in
and fully tested filters only to damage them during the
installation procedure?
• How much is it costing you to test for component
integrity after installation?
• How much is it costing you to rework damaged filter
assemblies at your labor rates and overhead?
• How much is it costing you to contend with low assembly
yields?
• How much is it costing you to inventory a larger number
of line items than necessary?
52
AVX Filters will design and fabricate filter brackets:
• To your specific requirements.
• 100% tested and burned-in prior to delivery.
• Which utilize the superior solder-in style filters (Series
ZZ, ZS, XS, WS) capable of withstanding installation
temperatures up to 300°C, or
• Which utilize the new hermetic solder-in when harsh
environments or other requirements call for true hermetic
components.
A custom designed filter bracket will help:
• To reduce your yield losses.
• To eliminate filter rework in assemblies.
• To reduce system assembly costs.
• To minimize your inventory.
For additional information on filter brackets or design assistance, contact the AVX Filters Application Engineering
Department.
Filter Plates
SPECIFICATIONS AND CAPABILITIES
Size:
Basically unlimited. The physical size is determined by the
quantity and style (WS, YS, etc.) of filters selected.
Construction:
Hand fabricated or machined metallic (steel, brass, aluminum, or other alloys) bracket.
Finish Options:
The bracket can be electro-tin plated, gold plated, anodized,
chem film, painted, or as specified by the customer.
The individual filter terminals can be gold plated or solder
coated.
Electrical Characteristics:
The following electrical parameters are governed by the
individual types of filters selected or as dictated by the
customer’s Source Control Drawing or specific application.
Voltage Rating
Current Rating
Insulation Resistance
DWV
DC Resistance
Insertion Loss
Operating Temperature
Discrete Components:
The number of components, individual circuits, can range
from 2 to 200 filters of different styles and/or electrical
characteristics (WS, YS, etc.) and can be combined to form
a single custom assembly.
The individual filters can be specified with MIL-F-15733,
AVX Filters Level R, MIL-F-28861 Class B or Class S reliability
levels (see Reliability section of catalog for description) or
as dictated by the customer’s Source Control Drawing or
specific application.
Bracket Assembly:
The complete bracket assembly can be tested to similar
requirements as the individual filters.
Hermeticity:
Some brackets are more cost effective and volumetrically
efficient as non-hermetic assemblies where application
allows.
Most brackets can be manufactured to provide a hermetic
barrier (glass-to-metal seal) on one side of the assembly.
There are true hermetic brackets, glass-to-metal seals on
both sides available, but only in a capacitive circuit.
Installation Temperature:
Filter bracket assemblies are capable of withstanding installation temperatures up to 300°C.
Additional Assembly Operations:
Wiring harnesses or flex cables can be attached to the
complete assembly and completely tested prior to delivery.
Environmental Considerations:
Capable of meeting the applicable portions of MIL-STD-202
and MIL-STD-810.
Discrete Component Testing:
QPL and/or QPL equivalents can be utilized.
Discoidal capacitors can be designed and tested to the
requirements of MIL-C-123.
53
How To Order
Notes
NOTE 1:
CAPACITANCE CODE
All AVX Filters part numbers, with exception of certain cylindrical styles, show total filter capacitance using the 3-digit
EIA code. The first two digits are significant: the last digit is
the multiplier.
Example:
103=10000 picofarads
125=1200000 picofarads
(1.2 microfarads)
It is important to note that π filters and multisection filters are
described using the EIA code from the standpoint of total
capacitance. Capacitance is understood to be specified
as “guaranteed minimum value” (GMV) unless otherwise
specified. AVX Filters can supply ±20% or other specified
tolerances at an additional charge. Contact AVX Filters
Applications Engineering for further information.
NOTE 2:
RELIABILITY CODES
The customer must select the reliability code to be consistent with the filter application. As a minimum, all catalog
filters are available as R-level designs.
Options:
“-” signifies an R-level filter design without the optional
R-level high-rel screening
“R” R-level design with optional R-level high-rel screening
also specified
“B” Class B design with Group A screening per M28861 for
Class B filters
“S” Class S design with Group A screening per M28861 for
Class S (space grade) filters
Please refer to the catalog section on Reliability for additional
information on how to select reliability codes.
NOTE 3:
SPECIAL DESIGN CODE
(ASSIGNED BY AVX FILTERS)
A special suffix to the standard part number will be added by
AVX Filters Applications Engineering to describe special
designs or designs that are controlled by customer specifications. It is important to note that even in those instances
where a customer drawing describes a standard catalog
design it is AVX Filters policy to assign a special part number
to the customer drawing for configuration control.
54
NOTE 4:
VOLTAGE CODES AND FILTER
VOLTAGE RATINGS
IMPORTANT: please contact AVX Filters Applications
Engineering when considering DC-rated filter designs for
possible use in AC applications. As a general rule, DC
designs may be derated for AC applications. Let us assist
you.
The voltage code letters must be selected consistent with
the capabilities as outlined in the product selection tables for
a given filter type. It is important to note that the same code
letter may signify a different voltage rating depending upon
filter type. For example: the “L” code signifies a 200
VDC/125 VAC rating for a bolt-style filter, but it describes a
300 VDC/125 VAC design when applied to a JD-style filter.
NOTE 5:
TERMINAL AND LEADWIRE CODES
Non-standard terminal configurations including special
materials or finishes are available. Please indicate a description and/or outline drawing when requesting a non-standard
terminal (code “3”).
NOTE 6:
SPECIAL INFORMATION FOR
CYLINDRICAL STYLE FILTERS
L-section filter designs must be specified with regard to
“standard” or “reverse” configuration. The L-section filter is
normally utilized with the capacitor on the high impedance
side of the circuit and the inductor looking into the low
impedance side. Compact filter types such as the BK2
or CK2 button filters with ferrite bead inductors are only
supplied with the bead assembled into the threaded end.
GK2 and JD2 L-section filters are normally supplied with
a schematic or other marking to indicate location of the
inductor.
AC-rated catalog designs incorporate reduced values of
capacitance to limit reactive current heating (and subsequent
filter temperature rise) to safe levels. Do not specify a
DC-rated filter with larger capacitance for an AC application
without contacting AVX Filters Applications Engineering.
How To Order
Part Number Construction
SOLDER-IN STYLE
Z
Basic Style
zz
Z
Y
X
W
S
Glass Seal
Orientation
S - Standard
R - Reverse
Q - Hermetic
(Glass Both
Sides)
N - No Glass
(Epoxy Both
Sides)
2
Circuit
0 - Non-Feed
Thru Post
1 - Feed Thru
2 - L-Section
C
2
Voltage
A - 100 VDC
B - 200 VDC
C - 50 VDC
E - 400 VDC/
230 VAC
F - 500 VDC
G - 1000 VDC
K - 250 VDC
L - 300 VDC or
200 VDC/
115 VAC
M - 350 VDC
N - 70 VDC
BOLT STYLE
SB
2
Circuit
1 - Feedthru (C)
2 - L-Section (L)
3 - PI-Section (π)
Basic Style
SA-4-40
Epoxy Sealed
SG-6-32
Epoxy Sealed
SB-8-32
Epoxy Sealed
SM-8-32
Hermetic Sealed
SH-10-32 Epoxy Sealed
SJ-12-28 Epoxy Sealed
SC-12-32 Epoxy Sealed (.187 Hex)
SP-12-32 Epoxy Sealed (.250 Hex)
SN-12-32 Hermetic Sealed
SL-1/4-28 Epoxy Sealed
SD-5/16-24 Epoxy Sealed
SF-5/16-32 Epoxy Sealed
A
Voltage
A - 100 VDC
B - 200 VDC
C - 50 VDC
F - 500 VDC
G - 1000 VDC
H - 150 VDC
J - 600 VDC
K - 250 VDC
L - 200 VDC/
125 VAC
M - 350 VDC
N - 70 VDC
–
1
0
3
Reliability
Code
See Notes
H
X
X
Use “H”
to specify
HiTemperature
(300°C)
Rated
Design
Y - Solder
3-Digit
Capacitor
Code
(In pF)
Lead
2 - Nickel Iron
(Standard)
3 - Special
4 - Aluminum
Compatible with
seating flange
(Std. Lead)
5 - Aluminum
Compatible with
seating flange
(Special Lead)
D - Aluminum
Compatible with
centering flange
(Std. Lead)
E - Aluminum
Compatible with
Centering flange
(Special Lead)
F - Aluminum
Compatible with
Special Design
1
–
1
0
Special
Design
(Customer
DWG. or QPL
Designation)
3
Reliability
Code
(-See Note 2)
Terminal
1 - Copper
2 - Steel
3 - Special Lead
Design
4 - Beryllium
Copper
X
X
Special Design
(-See Note 3)
3-Digit Capacitor
Code
(-See Note 1)
55
How To Order
Part Number Construction
CYLINDRICAL STYLE
G
Basic Style
A - Button Type
(.410 Dia.)
B - Button Type
(.375 Dia.)
C - Extended
Button
G - .375" Dia.
J - .690" Dia.
H - .410" Dia.
F - .250" Dia.
Q - Special
K
Thread Type
K - 1/4-28 Herm
Seal
L - 1/4-28 Epoxy
Seal
M - 8-32 Herm
Seal
N - 12-32 Herm
Seal
T - 1/4-28
Post Terminal
(Both Ends)
V - 1/4-28 Post
and Flag
Terminal
X - 1/4-28 Hex
Adaptor
2
Circuit
0 - Feedthru Lead
(without
Capacitor)
1 - Feedthru
Capacitor
2 - L-Section
Filter
3 - PI Filter
4 - T-Section
5 - Double
L-Section
6 - Five Element
Cap Input
7 - Five Element
IND Input
8 - Special Ckt.
Design
A
Voltage
A - 100 VDC
B - 200 VDC
C - 50 VDC
E - 400 VDC/
230 VAC
F - 500 VDC
G - 1000 VDC
H - 150 VDC
J - 600 VDC
K - 250 VDC
L - 200 VDC/
125 VAC
(Except JD
Series
300 VDC/
125 VAC)
M - 350 VDC
N - 70 VDC
A
Thread
Length
A - .187"
B - .312"
–
S07
XX
Reliability
Code
(See Notes)
Feedthru’s &
BK2, CK2
All Other
Circuit Types
Special Design
(Customer DWG.
or QPL
Designation)
XXX
Capacitance In
Picofarads
Circuit
S - Standard L
(Inductor at
Thread End)
R - Reverse L
(Capacitor at
Thread End)
P - PI-Circuit
M - Multi
Section
T - T Circuit
Current Rating
Code
Current
01
.06 AMP
02
.1
03
.15
04
.25
05
.3
06
.45
07
.5
08
1
09
2
10
3
11
5
12
10
16
4
17
6
18
.75
19
1.5
Please contact the factory for Filter Plates
and other custom product part numbers.
NOTICE: Specifications are subject to change without notice. Contact your nearest AVX Sales Office for the latest specifications. All statements, information and
data given herein are believed to be accurate and reliable, but are presented without guarantee, warranty, or responsibility of any kind, expressed or implied.
Statements or suggestions concerning possible use of our products are made without representation or warranty that any such use is free of patent infringement
and are not recommendations to infringe any patent. The user should not assume that all safety measures are indicated or that other measures may not be
required. Specifications are typical and may not apply to all applications.
56
USA
AVX Myrtle Beach, SC
Corporate Offices
AVX North Central, IN
AVX Southwest, AZ
AVX Southeast, GA
Tel: 317-848-7153
FAX: 317-844-9314
Tel: 480-539-1496
FAX: 480-539-1501
Tel: 404-608-8151
FAX: 770-972-0766
AVX Mid/Pacific, MN
AVX South Central, TX
AVX Canada
Tel: 952-974-9155
FAX: 952-974-9179
Tel: 972-669-1223
FAX: 972-669-2090
Tel: 905-564-8959
FAX: 905-564-9728
Tel: 843-448-9411
FAX: 843-448-1943
AVX Northwest, WA
Tel: 360-699-8746
FAX: 360-699-8751
EUROPE
AVX Limited, England
European Headquarters
Tel: ++44 (0) 1252-770000
FAX: ++44 (0) 1252-770001
AVX/ELCO, England
Tel: ++44 (0) 1638-675000
FAX: ++44 (0) 1638-675001
AVX S.A., France
AVX srl, Italy
Tel: ++33 (1) 69-18-46-00
FAX: ++33 (1) 69-28-73-87
Tel: ++390 (0)2 614-571
FAX: ++390 (0)2 614-2576
AVX GmbH, Germany
AVX Czech Republic
Tel: ++49 (0) 8131-9004-0
FAX: ++49 (0) 8131-9004-44
Tel: ++420 465-358-111
FAX: ++420 465-323-010
ASIA-PACIFIC
AVX/Kyocera, Singapore
Asia-Pacific Headquarters
Tel: (65) 6286-7555
FAX: (65) 6488-9880
AVX/Kyocera, Hong Kong
Tel: (852) 2-363-3303
FAX: (852) 2-765-8185
AVX/Kyocera, Korea
Tel: (82) 2-785-6504
FAX: (82) 2-784-5411
AVX/Kyocera, Taiwan
Kyocera, Japan - KDP
Tel: (886) 2-2698-8778
FAX: (886) 2-2698-8777
Tel: (81) 75-604-3424
FAX: (81) 75-604-3425
AVX/Kyocera, Malaysia
AVX/Kyocera, Shanghai, China
Tel: (60) 4-228-1190
FAX: (60) 4-228-1196
Tel: 86-21 6886 1000
FAX: 86-21 6886 1010
Elco, Japan
AVX/Kyocera, Tianjin, China
Tel: 045-943-2906/7
FAX: 045-943-2910
Tel: 86-22 2576 0098
FAX: 86-22 2576 0096
Kyocera, Japan - AVX
Tel: (81) 75-604-3426
FAX: (81) 75-604-3425
Contact:
A KYOCERA GROUP COMPANY
http://www.avxcorp.com
S-USM5M104-R