308-BS6P0241-000 [AMPHENOL]
D Type Connector, 25 Contact(s), Female, Solder Terminal, #4-40, Plug;
| 型号: | 308-BS6P0241-000 |
| 厂家: | 
Amphenol |
| 描述: | D Type Connector, 25 Contact(s), Female, Solder Terminal, #4-40, Plug PC |
| 文件: | 总28页 (文件大小:2052K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Amphenol
Filtered
Connectors
Filtered ARINC
Connectors
Filtered MIL-C-24308
Connectors
Discrete Filters
Filter Plates
Filter Terminal Blocks
Amphenol
Amphenol Canada Corp.
an ISO 9001 company
About The Company
Amphenol Canada,
a
subsidiary of Amphenol
solderless technology in tubular, planar, and chip
capacitor designs.
Corporation, is an international leader in the manufac-
ture of filter connectors and has been pioneering EMI and
EMP technologies for more than 40 years.
Amphenol Canada is vertically integrated and, with the
exception of diodes,has the capability of manufacturing all
elements of our filter connectors. We also have the
support of other Amphenol divisions in an integrated
working relationship as one of the largest connector
manufacturing companies in the world.
Located in Toronto, Canada, our modern 60,000 sq. ft.
facility employs approximately 250 people, and is
dedicated to the manufacture of filter connectors. We
design, develop and manufacture EMI and EMP filter
connectors which are used world-wide in Military,
Aerospace,Communication and Commercial applications.
Our products are unique, offering stress-isolated,
Our expertise in understanding and supporting our
customers’ filter interconnect needs has earned us a
reputation of quality and excellence among the world’s
leading users of electronic components.
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A m p h e n o l F i l t e r e d C o n n e c t o r s
Table of Contents
Introduction to Filter Connectors
Advantages of Filter Connectors ................................................................................................................................ 2
Filter Connector Design ............................................................................................................................................. 2
Filter Connector Selection ...........................................................................................................................................
3
Filtered ARINC 600 and 404 connectors (485 series)
Introduction and Design Features ............................................................................................................................... 4
Cross-section and Material Specification .................................................................................................................
Electrical Characteristics ............................................................................................................................................
5
6
ARINC 600 Dimensions ..................................................................................................................................... 7 and 8
ARINC 600 Insert Arrangements ..............................................................................................................................
9
ARINC 404 Dimensions .................................................................................................................................. 10 and 11
ARINC 404 Insert Arrangements .............................................................................................................................. 12
ARINC 404 and 600 Termination Styles .................................................................................................................. 12
Transient Suppression for Lightning and EMP Applications ................................................................................ 13
Diode/MOV Electrical Characteristics ..................................................................................................................... 14
Filter/Diode Connector Transient Response............................................................................................................ 15
Termination Module .................................................................................................................................................... 15
ARINC Accessories .................................................................................................................................................... 16
ARINC Part Numbering System ............................................................................................................................... 16
Filtered D-Sub Connectors (308 Series)
Introduction ................................................................................................................................................................... 17
308 Series (Planar design)
Cross-section and Material Specification ................................................................................................................ 18
Electrical Characteristics ........................................................................................................................................... 19
Dimensions .................................................................................................................................................................... 20
Termination Styles ........................................................................................................................................................ 21
Mounting Styles ................................................................................................................................................ 21 and 22
Part Numbering System .............................................................................................................................................. 22
Insert Arrangements .................................................................................................................................................... 23
Panel Cutout .................................................................................................................................................................. 23
FX Series
Filter Terminal Blocks, Discrete Filters and Specials ............................................................................................. 24
A m p h e n o l F i l t e r e d C o n n e c t o r s
1
Advantages of Filter Connectors
The integration of the filter elements into the • improved high frequency EMI performance by
connector, rather than a board level solution, results
in many advantages to the user:
elimination of parasitic effects associated with
board level filters
• reduction in space and weight
• superior shielding effectiveness
• reduction in inspection and assembly labour
Filter Connector Design
avionics applications are planar arrays and tubular
capacitors. Each of these capacitor types is an
efficient filter at high frequencies (>1 GHz) and has
been proven to be extremely reliable when suitably
assembled into a connector. Both planar and tubular
designs feature Amphenol’s unique solderless
construction which reduces stress on the ceramic
elements and results in superior physical and
thermal shock capabilities.
Filter connectors have been used for over thirty
years to provide cost and space effective solutions to
EMI problems in a wide range of military and
commercial applications including avionics systems,
satellites, missiles, communications, control systems
and tempest equipment. A low pass filter connector
incorporates capacitors and ferrite inductors into
the connector body. The two capacitor types
commonly used in filter connectors for military or
Planar Array
Amphenol Canada’s planar design consists of planar
ceramic capacitor arrays and discrete ferrite
inductors assembled concentrically over the
contacts and into the connector shell. The planars
are compressed between rubber gaskets and have
contact springs in each position which form a stress
isolated connection with the contact body. The
planars are grounded to the shell via a ground
spring.
Planar Ceramic
Capacitor
Contact Spring
Contact
Ferrite
Ground Spring
Connector
Shell
Tubular Capacitor
Conductive
Amphenol Canada’s tubular design consists of a
ferrite bead and ceramic tubular capacitor
assembled onto a machined contact.The filter tube
is connected to the contact with conductive rubber
washers to provide a stress-isolated contact
assembly. Grounding is achieved via a ground plate.
Rubber
Tubular Ceramic
Capacitor
Washer
Ferrite
Contact
Formed
Ground Plate
Connector
Shell
A m p h e n o l F i l t e r e d C o n n e c t o r s
2
Filter Connector Selection
Selection of a particular filter circuit will depend on
the required insertion loss characteristics and the
system source and load impedances. By arranging
the capacitive and inductive elements in a variety of
combinations a number of equivalent circuits may
be attained. These filter types are available in a
wide range of capacitance and voltage values and
may be selected in virtually any combination within
the connector insert. In addition to filter contacts,
insulated contacts, ground contacts and sealing
plugs are available.
Filter Circuit
Best Filtering Application
PI
Unknown or medium source and load impedance
Low source and high load impedance
High source and low load impedance
High source and high load impedance
Low source and low load impedance
Low source or load impedance <10ohms
FERRITE
LRC
FERRITE
CLR
FERRITE
C
T
FERRITE
FERRITE
High source or load impedance >100ohms
The following factors may affect the filter performance, and should be considered when
selecting a filter connector:
Operating Voltage
Operating Temperature Range
As a DC voltage is applied across a capacitor, the
dielectric constant decreases resulting in a
capacitance decrease and a reduction in filter
performance. The magnitude of the change is
dependant upon the type of ceramic material used,
the dielectric thickness and the magnitude of the
voltage applied.
Capacitance and insertion loss performance are
shown at 25oC. Depending on the type of ceramic
material being used, capacitance can drop by up to
80% at temperature extremes. However, commonly
used dielectrics have temperature coefficients of
+/- 15% from -55oC to +125oC.
Transient Voltage Requirements
Operating Currents
Operating currents cause magnetic saturation of
inductive elements (ferrites). Therefore filters with
ferrite inductors (Pi, CLR, LRC and T) will perform
much like C filters as the ferrite approaches
saturation.
Some transient voltage requirements may necessitate
the addition of diodes or MOV’s to the PCB or in the
connector.
A m p h e n o l F i l t e r e d C o n n e c t o r s
3
485 Series Introduction and Design Features
The Amphenol 485 series is a range of filtered
ARINC 404 and 600 rack and panel connectors
designed to provide space and cost-effective
solutions to EMC compliance issues in avionics
products. Amphenol’s filtered ARINC connectors
are used extensively on Boeing,McDonnell Douglas
and Airbus avionics equipment and a wide range of
other military and commercial applications. The
majority of the Amphenol filtered ARINC
connector designs incorporate planar capacitor
array technology in a solderless, stress-isolated
configuration.This results in superior thermal and
physical shock performance and unparalleled long
term reliability. These products have been
extensively qualified to the requirements ofARINC
600-9 and MIL-C-81659 and there are numerous
qualification test reports available for review.
Front Removable Socket Contact Stability
One significant feature of the Amphenol filtered
ARINC connector is the ability to remove the
front socket contact.This is an important design
feature as the size 22D socket contacts in
ARINC 404 and 600 connectors are exposed
and therefore susceptible to damage.This is one
of the most common in-service problems of
standard ARINC connectors. A front removable
socket contact avoids the potential cost and
inconvenience of removing the connector from
the avionics box and results in long term
improvements in maintainability and reduction
in life cycle costs. It is important that the front
removable socket be designed such that the contact
is mechanically stable and properly positioned to
meet the connector interface and mating
specifications. The Amphenol design provides for
excellent true position location and contact stability
by virtue of the solderless design. The Amphenol
contact is stabilized at the front by a plastic
stabilization insert, through the length of the
connector and at the rear engagement area. This
approach provides for the best possible contact
location and stability and is further augmented by
the use of an environmental seal at the connector
mating interface.
Retention Insert
Solderless
filter section
Rear epoxy
seal
Plastic
stabilization insert
Silicone rubber
environmental face
seal
(Enhances contact
alignment)
Rear engagement
area
A m p h e n o l F i l t e r e d C o n n e c t o r s
4
ARINC Filter Connector Construction and Material Specifications
Machined aluminum alloy shell per QQ-A-
225, plated in accordance with
1. Electroless nickel per MIL-C-26074
2. Cadmium per QQ-P-416 with
yellow or clear chromate finish
Beryllium copper EMI
grounding spring
Fixed rear
termination contact
Ferrite inductor
Beryllium copper
contact spring, gold
plated per
MIL-G-45204
Sealing and stress
isolating elastomeric
gaskets
Stainless steel
socket contact
hood
Front removable
machined copper
alloy contact, gold
plated per
MIL-G-45204
Beryllium copper
contact retention clip
Monolithic planar
capacitor array
Silicone rubber
interfacial seal
High temperature dielectric insert,
glass-filled polyethersulfone
thermoplastic per MIL-P-46185
A m p h e n o l F i l t e r e d C o n n e c t o r s
5
Electrical Characteristics
Filter Circuit
PI
C,CLR,LRC,T
FilterType
PA4 P02 P04 P08 CA2 C01 C02 C04 C22 C50
Capacitance (pF)
400 to
800
1800 to
3600
4000 to
8000
8000 to
16000
200 to
400
900 to 1800 to
4000 to 22000 to 50000 to
(@ 25˚C, 1kHz & 1.0VRMS)
1800
3600
8000
40000
100000
Insertion Loss* (dB min.)
(per MIL-STD-220
.1 MHz
1 MHz
–
–
–
–
2
–
–
–
–
–
–
–
3
–
5
–
–
–
10
15
at 25˚C & no load)
10 MHz
2
10
38
60
15
50
60
18
55
63
–
4
8
13
33
50
26
35
100 MHz
1000 MHz
20
58
10
25
20
35
25
40
45
50
50
52
WorkingVoltage (VDC)
(@ 25˚C & sea level)
200
100
300
Dielectric WithstandingVoltage (VDC)
(@ 25˚C & 50 mA max. charging current)
500
10
Insulation Resistance (Gohms)
(@ 25˚C & working voltage)
Current Rating by Contact Size
(continuous max., DC amperes)
#22 = 5 Amps
#20 = 7.5 Amps
#16 = 13 Amps
#12 = 23 Amps
Filter RF Current Rating (amperes)
(max. @ any frequency)
3
Note: Other capacitance values, mixed capacitance arrangements, ground and insulated contacts are available.
Consult the factory for your particular application.
* Acceptance testing performed to 500MHz maximum
Typical Insertion Loss Performance
A m p h e n o l F i l t e r e d C o n n e c t o r s
6
ARINC 600 Style Filter Connectors
Receptacle Shell Size 1
Receptacle Shell Size 2
* This dimension is for all filter styles with PCB, wire wrap or solder cup
terminations. For environmental class connectors with rear release
contacts, add .600” (15,24mm). Shorter length designs are available. Consult
the factory for details.
Note:Size 22D contacts are supplied installed and are removable withAmphenol
insertion/removal tool 485-905. Cavity C and F power contacts are packaged
separately. Coax and triax contacts may be ordered separately.
†
Cavity C dimension is shown unfiltered
A m p h e n o l F i l t e r e d C o n n e c t o r s
7
ARINC 600 Style Filter Connectors
Receptacle Shell Size 3
MIL-C-83527 Style Filter Connectors
Receptacle Shell Size 3
* This dimension is for all filter styles with PCB, wire wrap or solder cup
terminations. For environmental class connectors with rear release
contacts, add .600” (15,24mm). Shorter length designs are available. Consult
the factory for details.
Note:Size 22D contacts are supplied installed and are removable withAmphenol
insertion/removal tool 485-905. Cavity C and F power contacts are packaged
separately. Coax and triax contacts may be ordered separately.
†
ARINC 600 Cavity C and F and MIL-C-83527 Cavity B and D dimensions
are shown unfiltered.
A m p h e n o l F i l t e r e d C o n n e c t o r s
8
ARINC 600 Insert Arrangements
Shell Size 2 or 3, Cavity A, B, D or E
Insert 150
150 #22 Contacts
Insert 71C1
70 #22 Contacts
1 #1 Coax Contact
Insert 71C1A
70 #22 Contacts
1 #1 Coax Contact
Insert 121
110 #22 Contacts
5 #16 Contacts
6 #20 Contacts
Insert C2
Insert C4
Insert 10T10
Insert 120T2
118 #22 Contacts
2 #8 Triax/Coax Contacts
2 #1 Coax Contacts
4 #1 Coax Contacts
10 #8 Triax/Coax Contacts
Shell Size 2 or 3, Cavity C or F
Shell Size 1
Cavity A or B
Cavity C
Insert 6T6
Insert 13C2
6 #8 Twinax/Coax Contacts
4 #12 Contacts
3 #16 Contacts
4 #20 Contacts
2 #5 Coax Contacts
Insert 5C2
1 #12 Contact
2 #16 Contacts
2 #5 Coax Contacts
Insert 60
60 #22 Contacts
Insert 100
Insert 85
100 #22 Contacts
80 #22 Contacts
4 #20 Contacts
1 #16 Contact
Note: Consult the factory for other insert patterns.
A m p h e n o l F i l t e r e d C o n n e c t o r s
9
ARINC 404 and MIL-C-81659 Filtered Connectors
Receptacle Shell Size 1
Receptacle Shell Size 2
* This dimension is for all filter styles with PCB, wire wrap or solder cup
terminations. For environmental class connectors with rear release
contacts, add .600” (15,24mm). Shorter length designs are available. Consult
the factory for details.
Note:Size 22D contacts are supplied installed and are removable withAmphenol
insertion/removal tool 485-905. Pin contacts are not removable. Coax and triax
contacts may be ordered separately.
A m p h e n o l F i l t e r e d C o n n e c t o r s
1 0
ARINC 404 and MIL-C-81659 Filtered Connectors
Receptacle Shell Size 3
Receptacle Shell Size 4
* This dimension is for all filter styles with PCB, wire wrap or solder cup
terminations. For environmental class connectors with rear release
contacts, add .600” (15,24mm). Shorter length designs are available. Consult
the factory for details.
Note:Size 22D contacts are supplied installed and are removable withAmphenol
insertion/removal tool 485-905. Pin contacts are not removable. Coax and triax
contacts may be ordered separately.
A m p h e n o l F i l t e r e d C o n n e c t o r s
1 1
ARINC 404 and MIL-C-81659 Insert Arrangements
Insert 32C2
Insert 32C4
Insert 40C1
Insert 26
26 #16 Contacts
24 #20 Contacts
30 #20 Contacts
39 #20 Contacts
4
4
#16 Contacts
#5 Coax Contacts
2
#5 Coax Contacts
1
#5 Coax Contact
Insert 33C4
Insert 36C7
Insert 45
Insert 40
29 #22 Contacts
45 #20 Contacts
40 #20 Contacts
25 #20 Contacts
7
#5 Coax Contacts
4
4
#16 Contacts
#5 Coax Contacts
Insert 57
Insert 67
Insert 106
Insert C8
8
#9 Coax Contacts
57 #20 Contacts
106 #22 Contacts
64 #20 Contacts
3
#16 Contacts
Note: Consult the factory for other insert patterns.
ARINC 404 and 600 Termination Styles
.148 [3,76] Mounting Hole or
6-32 UNC Self-locking clinch nut
Rear Crimp Removable
Solder Cup
.120 [3,05] Mounting Hole or
4-40 UNC Self-locking clinch nut
Printed Circuit Tail
Wire Wrap Tail*
*Various lengths are available.
Consult the factory for details.
A m p h e n o l F i l t e r e d C o n n e c t o r s
1 2
Transient Suppression for Lightning and EMP Applications
Designing for Lightning Induced Transient Susceptibility
In addition to designing for control of steady state In general, practices which are good for control of
electromagnetic interference (EMI/EMC), modern EMI/EMC will also serve to mitigate the effects of
avionics engineers must also design for the recent lightning induced transients but further measures
advent of much stricter requirements for immunity must often be taken to ensure proper system
to lightning induced transient susceptibility. These operation and survivability. One of the more
requirements vary by equipment type and effective methods available is the inclusion of circuit
environmental area and are defined by a variety of
military and commercial specifications including
protective devices in the circuit at the input of the
LRU.The most common types of devices employed
RTCA/DO-160 C Section 22. The nature of the are Zener suppression diodes and metal oxide
transient events ranges from very low level varistors (MOV’s). These non-linear V-I devices
disturbances requiring little or no protection, to conduct very little current at low voltage levels, but
high frequency and high energy events that can be once above the breakdown voltage, the voltage
disruptive or destructive to the avionics equipment. across the device remains fairly constant.
Filter Connectors with Transient Supressors
While conventional EMI filter connectors have been provides several advantages:
shown to be effective in providing protection • saves space and weight versus placing discrete
against low energy transients, they offer little
components onto a PCB
protection from high voltage/high energy transients • reduces system design time
that may result from lightning, load switching, • reduces number of components
electrostatic discharge (ESD) or electromagnetic • improves voltage clamping performance by
pulse (EMP). For those applications requiring
protection of sensitive circuitry from such over-
eliminating parasitic lead resistance and
inductance of board level components
voltage events, Zener suppression diodes or MOV’s • allows for retrofit of existing equipment requiring
can be incorporated into the connector body in lightning or EMP hardening
combination with EMI filtering or alone. Combining • improves system repairability and maintenance
the transient suppression device into the connector
logistics
Amphenol Diode Protected Connectors
The approach employed byAmphenol to incorporate weight. In the ARINC connector products this design
diode protection into the connector body is to install still allows for easy removal and replacement of the
a custom diode/contact assembly into an insert with front socket contacts. In addition, each diode is
a ground plate. This design provides for a 600 W individually replaceable at the factory in the event
device to be installed on each contact in the
connector while minimizing the package size and
that repair is necessary.
A m p h e n o l F i l t e r e d C o n n e c t o r s
1 3
Diode Contact Characteristics
Maximum
Reverse
Leakage
Current
ID @
Maximum*
Peak Reverse
Clamping
Voltage
Maximum
Peak
Rated
Stand-off
Voltage
VWM
Diode
Contact
Designation
Breakdown Voltage+
V(BR)
Power
Pulse
Test
Current
IT
Capability
Current
IPP
V Max.
@1 msec Pulse
Min. Nom. Max.
VWM
C@IPP
VDC
6.4
VDC
6.8
VDC
7.2
mADC
V
µADC
V
A
W
485-D0068
485-D0100
485-D0150
485-D0220
485-D0330
485-D0470
485-D0680
485-D1000
485-D1500
485-D2000
10
1
5.8
1000
10.5
14.5
21.2
30.6
45.7
64.8
92.0
137.0
207.0
274.0
57.0
41.0
28.0
20.0
13.2
9.3
600
600
600
600
600
600
600
600
600
600
9.5
10.0
15.0
22.0
33.0
47.0
68.0
100.0
150.0
200.0
10.5
15.8
23.1
34.7
49.4
71.4
105.0
158.0
210.0
8.5
10
5
14.3
20.9
31.4
44.7
64.6
95.0
143.0
190.0
1
12.8
18.8
28.2
40.2
58.1
85.5
128.0
171.0
1
5
1
5
1
5
1
5
6.5
1
5
4.4
1
5
2.9
1
5
2.2
Note: Other diode contacts having different voltage and power capabilities are available. Consult the factory for additional information.
* 10 x 1000 µsec pulse
+ Available in undirectional and bidirectional devices
MOV Contact Characteristics
Characteristics (25˚C)
Maximum
Maximum Ratings (125˚C)
Continuous Transient
Maximum
Leakage
Current
at 90%
VT (DC)
MOV
Maximum
Leakage
Contact
Designation
Peak
Capacitance
Varistor Voltage
@1m ADC
Clamping
Current at 90%
VT (DC)
RMS
DC
Current
(pF)
Energy
Voltage VC@Test
Current (8/20µs)
Voltage
Voltage
(8/20µs)
f=1 MHz
(10/1000µs)
Test Current
ITM
VM(AC)
Volts
VM(DC)
Volts
WTM
Joules
IL Max
µA
Min.
Volts
VN(DC)
Volts
Max.
Volts
VC
Volts
IP
IL Max
µA
VT (DC)
Volts
Min.
Max.
Amperes
Amps
485-M-0160
485-M-0220
485-M-0390
485-M-0470
485-M-2000
485-M-2400
6.0
10.0
25.0
30.0
130.0
150.0
8.0
14.0
31.0
38.0
130.0
150.0
1.5
1.5
1.5
1.5
2.4
2.4
250
250
250
250
300
300
50
50
12.5
18.5
35.0
42.0
16.0 19.5
22.0 25.5
39.0 43.0
47.0 52.0
34.0
42.0
10
10
5
1600 2750
1600 2750
450 1350
450 1250
150 350
100 350
5.0
5.0
5.0
5.0
5.0
5.0
8
14
50
85.0
28
50
100.0
5
36
100
100
184.0 200.0 228.0 375.0
212.0 240.0 268.0 430.0
5
130
150
5
Note: Values are for size 22 contacts. Other MOV contacts are available. Consult the factory for additional information.
A m p h e n o l F i l t e r e d C o n n e c t o r s
1 4
Filter/Diode Connector Transient Response
Incident Transient Pulse
Incident Transient Pulse
Incident Transient Pulse
Transient Pulse not adequately
suppressed by the EMI filter contact
Transient Pulse not clamped quickly
enough due to lead inductance effect
Transient Pulse clamped by EMP contact
System safe voltage
System safe voltage
System safe voltage
TIME
TIME
TIME
EMI Filter
PCB mounted Diode or MOV
Contact/Connector Diode or MOV
Termination Module
A termination module is a removable extension
of the connector which is recommended for use
with ARINC connectors which have transient
suppression devices.The engagement side of the
termination module is designed to mate to the
rear of the connector and the termination end is
designed to attach to the PCB or wire harness
(PC tails, solder-cups, wire-wrap or crimp).
Proper engagement of the connector and
termination module is guaranteed by guide posts
in the connector and front or rear activated jack
screws. Sealing is accomplished with a rubber
interfacial gasket.
Connectors designed to engage to a termination
module are designed with one-piece front
removable socket contacts to minimize the
number of interconnects.
The use of a termination module provides
several advantages:
• simplifies the assembly process by soldering to
the lighter weight termination module rather
• tfahcainlittaotetsherecpoanirneacntdorreitwseolrfk procedures due
to easy installation and removal from the
motherboard
A m p h e n o l F i l t e r e d C o n n e c t o r s
1 5
ARINC Accessories
ARINC replacement contacts can be ordered
separately if required. Additional accessories such as
EMI backshells and fibre optic contacts are also
available. Contact the factory for details.
ARINC 600
Contact Size
Contact P/N
Insertion/Removal tool
Crimp tool
Positioner
N/A
M22520/2-06 or
M22520/7-06
M22520/2-08
M22520/1-02
M22520/1-11
#22 socket
#22 crimp termination
485-1034*
485-6222
485-905
M81969/1-01
N/A
M22520/2-01 or
M22520/7-01
M22520/2-01
M22520/1-01
M22520/1-01
#20 pin+
#16 pin+
#12 pin+
485-120
485-116
485-112
M81969/1-02 or M81969/14-10
M81969/1-03 or M81969/14-03
M81969/14-04
ARINC 404
Contact Size
Contact P/N
Insertion/Removal tool
Crimp tool
Positioner
#22 socket
#22 crimp termination
485-1236*
485-4222
485-905
M81969/1-01
N/A
M22520/2-01 or
M22520/7-01
N/A
M22520/2-06 or
M22520/7-06
* Some connectors have custom socket contacts. Consult the factory for details.
+ Cavity C or F contacts
485 Series Part Numbering Information
6 2 R B 2 00 - 000
485-
Series
Deviation
(assigns insert arrangements.
filtering and custom requirements)
ARINC Series
Key Position
4 = ARINC 404 or MIL-C-81659
6 = ARINC 600
00 = N/A
01 to 99 per ARINC 600 and 404
8 = MIL-C-83527 or EN3682
Shell Size
1,2,3 or 4
ARINC Class
1 = Unsealed
2 = Sealed
Termination Styles
B = P.C. Tails
Style
S = Solder Cup
A = Adapter
P = Plug
T = Crimp Removable (UTS)
W = Wire Wrap
R = Receptacle
A m p h e n o l F i l t e r e d C o n n e c t o r s
1 6
MIL-C-24308 Style (D-Sub) Filter Connectors
Amphenol offers a variety of filtered D–Sub
connectors to address aerospace and commercial
EMI requirements. There are two products in
particular which are designed for aerospace
applications where high reliability and superior
environmental and electrical performance are
required. The 481 series of filtered D–Sub
connectors has been in production for over 20
years using tubular capacitor filter technology. In
the late 1980’s, Amphenol developed a planar filter
capacitor version of the same connector, the 308
series. As a result, Amphenol has the widest
product offering in the industry and can provide
either technology as the application and production
requirements dictate.
308 Series – Planar Capacitor Technology
• superior pin–pin cross talk isolation
• cost effective for small quantities
• can accommodate a wider range of capacitance
values than planar designs
• fully tooled in medium density pin and selected
socket and high density arrangements
• short production leadtimes
• solderless stress–isolated construction (see page
23 for details)
Quality Conformance Inspection
The 308 series connectors have been extensively For high reliability applications, the following
qualified per the requirements of MIL–C–24308. inspection tests or certifications are also available:
All products shipped receive the following
inspection tests:
• thermal shock
• elevated temperature voltage conditioning
• elevated temperature insulation resistance
and capacitance
• outgassing per JSC–SPR–0022 for space
borne applications
• 100% visual and mechanical inspection
• 100% capacitance, dielectric withstanding voltage,
insulation resistance and dissipation factor testing
• sample insertion loss testing (AQL 1.0%)
• baseline and single lot date code manufacturing
• other tests as required (consult the factory)
308 Special
Filtered D-Sub programmable
EMI Grounded Special
Zinc Nickel Plating
Environmentally friendly, conductive and able
to withstand up to 2000 hours of salt spray
per ASTM-B117
Please consult factory for any custom arrangements
A m p h e n o l F i l t e r e d C o n n e c t o r s
1 7
Planar D-Sub Filter Connector Construction and Material Specifications
Ferrite
inductor
Single piece machined aluminum alloy shell per
Copper alloy
soldercup
termination, gold
plated per
QQ-A-225, plated in accordance with
1) Electroless nickel per MIL-C-26074 or
2) Tin per MIL-T-10727 or
Monolithic
3) Cadmium per QQ-P-416 with clear chromate or
4) Gold per MIL-G-45204 over electroless nickel
per MIL-C-26074
planar
MIL-G-45204
capacitor
array
Copper alloy
crimp barrel
termination, gold
plated per
MIL-G-45204
Beryllium copper
contact springs, gold
plated per
MIL-G-45204
High temperature
dielectric insert -
polyethersulfone
thermoplastic per
MIL-P-46185
Machined copper
alloy contact, gold
plated per
Beryllium copper
EMI grounding
spring
MIL-G-45204
Sealing and stress
isolating elastomeric
gaskets (3 places)
A m p h e n o l F i l t e r e d C o n n e c t o r s
1 8
308 Series Electrical Characteristics
Filter Circuit
PI
C,CLR,LRC,T
†
†
FilterType
Capacitance (pF)
PA4 P02 P04 P08 P16 CA2 C01 C02 C04 C22 C50
400 to 1800 to 4000 to 8000 to 16000 to 200 to
900 to 1800 to 4000 to 22000 to 50000 to
(@ 25˚C, 1kHz & 1.0VRMS)
800
3600
8000
16000
32000
400
1800
3600
8000
40000
100000
Insertion Loss (dB min.)
(per MIL-STD-220
.1 MHz
1 MHz
–
–
–
–
–
–
–
–
–
–
3
–
–
2
5
8
–
–
–
–
10
15
at 25˚C & no load)
10 MHz
2
10
38
60
15
50
60
18
55
63
28
62
68
–
4
8
13
33
50
26
35
100 MHz
1000 MHz
20
58
10
25
20
35
25
40
45
50
50
52
WorkingVoltage (VDC)
(@ 25˚C & sea level)
200
500
10
5
100
300
Dielectric WithstandingVoltage (VDC)
(@ 25˚C & 50 mA max. charging current)
Insulation Resistance (Gohms)
(@ 25˚C & working voltage)
Contact Current Rating
(continuous max., DC amperes)
Filter RF Current Rating (amperes)
(max. @ any frequency)
3
Note: Other capacitance values, mixed capacitance arrangements, ground and insulated contacts are available.
Consult the factory for your particular application.
† Not available in high density arrangements
Typical Insertion Loss Performance
PI Filter
C, CLR, LRC and T Filters
P08 P04
P16
70
60
50
40
30
20
10
70
60
50
40
30
20
10
P02
PA4
C50
C22
C04
B
(dB)
C02
C01
CA2
10
10
100
1000
0.1
1.0
10
100
1000
Frequency (MHz)
Frequency (MHz)
A m p h e n o l F i l t e r e d C o n n e c t o r s
1 9
308 Series Plug Dimensions
Rear View
Front View
Side View
Dimension
D Max
Number of
A
B Max
C
E Max
F
G
Shell Size Contacts ±.005” ±,13mm inches
mm ± .015” ±,38mm inches mm
inches mm ± .005” ±,13mm ± .005” ±,13mm
E
A
B
C
D
6
9 or 15
0.984 24,99 0.685 17,34 1.213 30,81 0.534 13,56 0.434 11,02 0.329
8,36
8,36
8,36
8,36
0.666 16,92
0.994 25,25
1.534 38,96
2.182 55,42
15 or 26 1.312 33,32 1.009 25,63 1.541 39,14 0.534 13,56 0.434 11,02 0.329
25 or 44 1.852 47,04 1.557 39,55 2.088 53,04 0.534 13,56 0.434 11,02 0.329
37 or 62 2.500 63,50 2.205 56,01 2.729 69,32 0.534 13,56 0.434 11,02 0.329
50 or 78 2.406 61,11 2.110 53,59 2.635 66,93 0.641 16,28 0.541 13,74 0.441 11,20 2.079 52,81
104 2.500 63,50 2.255 57,28 2.729 69,32 0.680 17,27 0.640 16,26 0.503 12,77 2.212 56,18
* For Dimension P, see page 21
308 Series Receptacle Dimensions
Front View
Side View
Rear View
Dimension
D Max
Shell Size Contacts ±.005” ±,13mm inches mm ± .015” ±,38 mm inches mm
Number of
A
B Max
C
E Max
F
G
inches mm ± .005” ±,13mm ± .005” ±,13mm
E
A
B
C
D
6
9 or 15
0.984 24,99 0.685 17,34 1.213 30,81
0.534 13,56 0.434 11,02 0.311
7,90 0.643 16,33
7,90 0.971 24,66
7,90 1.511 38,38
7,90 2.159 54,84
15 or 26 1.312 33,32 1.009 25,63 1.541 39,14
25 or 44 1.852 47,04 1.557 39,55 2.088 53,04
37 or 62 2.500 63,50 2.205 56,01 2.729 69,32
50 or 78 2.406 61,11 2.110 53,59 2.635 66,93
0.534 13,56 0.434 11,02 0.311
0.534 13,56 0.434 11,02 0.311
0.534 13,56 0.434 11,02 0.311
0.641 16,28 0.541 13,74 0.423 10,74 2.064 52,43
0.680 17,27 0.640 16,26 0.485 12,32 2.189 55,60
104
2.500 63,50 2.255 57,28 2.729 69,32
* For Dimension P, see page 21
A m p h e n o l F i l t e r e d C o n n e c t o r s
2 0
308 Series Termination Styles
Termination Style 3
Termination Style 1
Termination Style 2
Termination Style 4
Termination Style 6
Termination Style 7
Termination Style 8
Termination Style 9
† This dimension is 0.078” (1,98) for high density arrangements
Termination Style and Shell Length (P Max dimension)
Filter
1 and 2
inches mm
3
4
6
7
8
9
Circuit
inches
mm
inches
mm
inches
mm
inches
mm
inches
mm
inches
mm
PI,LRC,CLR,T
C
0.575 14,61 0.695 17,65 0.575 14,61 0.575 14,61 N/A
N/A 0.470 11,94 0.695 17,65
9,40 0.570 14,48
0.450 11,43 0.570 14,48 0.450 11,43 0.450 11,43 0.400 10,16 0.370
308 Series Mounting Styles
Mounting Style 2
Mounting Style 1
A m p h e n o l F i l t e r e d C o n n e c t o r s
2 1
Mounting Style 3 (two row)
Mounting Style 3 (three row)
Dimension
Number of
A
B Max
C
D
E
F Max
Shell Size
Contacts
±.004” ±,11mm inches mm
±.015” ±,39mm ± .008” ±,21mm ±.020” ±,51mm inches mm
E
A
B
C
D
9 or 15
0.331
8,41
8,41
8,41
8,41
9,83
0.250
0.250
0.250
0.250
0.250
6,35
6,35
6,35
6,35
6,35
0.647 16,43 0.270
0.647 16,43 0.270
0.647 16,43 0.270
0.647 16,43 0.270
0.703 17,86 0.324
6,86 0.149 3,79 0.855 21,72
15 or 26 0.331
25 or 44 0.331
37 or 62 0.331
50 or 78 0.387
6,86 0.149 3,79 0.855 21,72
6,86 0.149 3,79 0.855 21,72
6,86 0.149 3,79 0.855 21,72
8,23 0.149 3,79 0.910 23,12
308 Series Part Numbering Information
B P 1 P 08 1 1 - 000H
308-
Series
Planar D-Sub
Density
H High Density
Deviation
000 = Standard
Blank if medium
Shell Size
E(1), A(2), B(3), C(4), D(5), 6
Shell Plating
1 = Electroless Nickel
2 = Tin
3 = Cadmium (clear)
4 = Gold
5 = Zinc Nickel
Contact
P = Pin
S = Socket
Mounting Style
1 - .120“ (3,04mm) mounting hole
2 - 4-40 threaded clinch nut
3 - Right Angle mounting bracket
4 - Right Angle mounting bracket
with 4-40 threaded clinch nut
Termination Style
1 - .025“ (,64mm) diameter PCB
2 - .020“ (,51mm) diameter PCB
3 - Solder cup
4 - .900“ (22,86mm) footprint right angle
6 - .590“ (14,99mm) footprint right angle
7 - .328“ (8,33mm) footprint right angle
8 - .025“ (,64mm) diameter PCB with short connector body
9 - Crimp, non-removable
Capacitance (pF)
Pi
C, CLR, LRC, T
A4 = 400 to 800
02 = 1800 to 3600
04 = 4000 to 8000
08 = 8000 to 16000
16 = 16000 to 32000
A2 = 200 to 400
Filter Circuit
A4 = 400 to 620
P = Pi
R = CLR
T = T Style
01 = 900 to 1800
02 = 1800 tp 3600
04 = 4000 to 8000
10 = 10000 to 15000
16 = 16000 to 32000
22 = 22000 to 40000
50 = 50000 to 100000
C = Capacitive
L = LRC
A m p h e n o l F i l t e r e d C o n n e c t o r s
2 2
308 Series Insert Arrangements
Pin Engaging Face Shown
Shell Size 3 (B)
Shell Size 2 (A)
Shell Size 1 (E)
9 #20 Contacts
15 #20 Contacts
25 #20 Contacts
15 #22 Contacts
26 #22 Contacts
44 #22 Contacts
Shell Size 5 (D)
Shell Size 4 (C)
37 #20 Contacts
62 #22 Contacts
50 #20 Contacts
78 #22 Contacts
Shell Size 6
104 #22 Contacts
Note: Consult the factory for other insert patterns.
Recommended Panel Cutout
Front and Rear Mounting
Dimension
A min
Shell Size inches mm
B
C min
±.005” ±,13mm inches
mm
1 (E)
0.801
1.129
1.669
2.321
20,35
28,68
42,39
58,95
56,21
57,15
59,94
0.984
1.312
1.852
2.500
2.406
2.406
2.500
24,99
33,32
47,04
63,50
61,11
61,11
63,50
0.449
0.449
0.449
0.449
0.555
0.585
0.630
11,40
11,40
11,40
11,40
14,09
14,86
16,00
2 (A)
3 (B)
4 (C)
5 (D)* 2.213
5 (D)
6 *
+
2.250
2.360
* Rear mounting dimensions
+
Front mounting dimensions
A m p h e n o l F i l t e r e d C o n n e c t o r s
2 3
FX Series
Filter Terminal Blocks, Discrete Filters and Specials
D E S C R I P T I O N
Amphenol’s FX series of Discrete Feed-thru Filters offer
excellent, low cost filter solutions for telecom, industrial,
military and aerospace electronics applications, especially
where small size and high performance are important.
Manufactured to meet the requirements of Mil-F-15733, the FX
filters are available in threaded bushing and solder-mount styles
with capacitance ranges from 10pF to 600nF.
Due to Amphenol’s unique manufacturing process, higher
capacitance values and greater voltage withstand capabilities are
achieved with the same industry standard package sizes.
Consult factory for custom filter and/or filter plate requirements.
M A T E R I A L S
Terminals: Copper Alloy, silver plated (filter pins shown are
gold plated)
Eyelets/Bushings: Brass, silver plated
O R D E R I N G I N F O R M A T I O N
FX B - 1 P 152 1 -100
Discrete Filter Series
FX
B
B - Threaded Bushing
E - Solder-in Eyelet
F - Filter Pin
P - Filter Plate (Consult Factory)
Deviation code 100 - Standard Cataloge Package
100
Sizes (see page 4)
Mtg Style 1 - .110 Mtg Hole Dia.
2 - .138 Mtg Hole Dia.
3 - .145 Mtg Hole Dia.
4 - .210 Mtg Hole Dia.
0 - Special Size
Bushing Only
Termination 1 - Straight Lead
4 - P.C. Tail
1
1
5 - 6-32 Thread
6 - 8-32 Thread
7 - 12-32 Thread
8 - 5/16-32 Thread
2 - Nail Head (Turret) 5 - Flattened & Pierced
3 - Solder Cup
6 - Hooked Term
Circuit Type P - Pi
C - Capacitive
L - L
Capacitance Code 101 - 100pF
152
P
(PF)
202 - 2000pF
203 - 20,000pF
(Last digit of 3 number code is the
number of zeros after first 2 digits)
Coax Filter Plate Assembly
Filtered Terminal Block
Filter Plate Assembly
Special Filter Plate Shell Assembly
A m p h e n o l F i l t e r e d C o n n e c t o r s
2 4
For EMI/EMP Protection,
Look to the Leader -
Amphenol Aerospace
Amphenol Aerospace, the Interconnection Leader, offers advanced EMI/EMP Protection with high
reliability. The proven performance of Amphenol® EMI Filter/Transient Protection Connectors
means dependable protection for the costly and sensitive circuitry in sophisticated avionics.
Each circuit of the filter connector is individually filtered and internally housed in the connector, eliminating the need for
costly and bulky exterior discrete protection devices. Amphenol Filter connectors are intermateable and intermount-
able with MIL-C-38999, MIL-C-27599, MIL-C-83723, MIL-C-26482, MIL-C-24308, MIL-C-5015.
Amphenol offers a broad range of cost saving filter options with versatility in sizes, styles and arrangements.
EMI Programmable Connectors
EMI/EMP Adapters
Header Assemblies
An alternative to non-removable filter contacts.
Crimp style EMI contacts are insertable and
removable from the rear of the connector. Allows
the user to run diagnostic EMI evaluations of
systems before going into production, easily
modifying circuitry and pinouts at the test bench
level. Available in a wide range of capacitance
values in both Pi and C type filters, crimp and
PC termination styles.
Provide cost effective solutions to problems on
existing applications. Designed to be installed
between the existing cable plug and unit recep-
tacle. Circuit protection at MF, HF, VHF, and UHF
levels is available in contact sizes 22 to 12 with all
the popular Mil-specs.
For time and cost savings. Can be vapor phase
or wave soldered to flex or printed circuit boards
prior to the receipt of an EMI/EMP connector.
Expensive connector assemblies can be easily
removed from and reattached to the header
assembly as the manufacturing process dic-
tates. Available to fit all major cylindrical Mil-
spec connectors.
Contact us for your special application requirements: Amphenol Aerospace, 40-60 Delaware Ave., Sidney, NY 13838-1395
Phone: 607-563-5011 Fax: 607-563-5157 Web Site: www.Amphenol-Aerospace.com
Amphenol Canada
20 Melford Drive
Scarborough, ON
Canada M1B 2X6
Phone: 416-291-4401
Fax: 416-292-0647
Amphenol-Tuchel Electronics GmbH
August-Haeusser-Strasse 10
74080 Heilbronn
Germany
Phone: 49-7131-929-0
Amphetronix Limited
P.O. Box No. 1, Plot No. 105
105 Bhosari Industrial Area
Pune 411026, India
Amphenol Aerospace
40-60 Delaware Avenue
Sidney, NY 138 38-1395
Phone: (607) 563-5453
Fax: (607) 563-5351
Phone: 91-20-790363
Israel
Bar-Tec Ltd.
11 Barliam St., P.O. Box 279
Kfar Saba 44102
Israel
Phone: (972-9) 974097
Fax: (972-9) 974324
Amphenol Aerospace
22952 Alcade Drive
Suite 110
Laguna Hills, CA 92653
Phone: (949) 855-4454
Fax: (949) 855-9115
Amphenol Aerospace
57 E. Hattendorf Avenue
Suite 150
Roselle, IL 60172
Phone: (630) 893-1713
Fax: (603) 893-3958
Amphenol Australia Limited
2 Fiveways Blvd., Keysboroug
Victoria 3173, Melbourne, Australia
Phone: 61-3-8796-8888
Amphenol European Sales Operations
Hoofdveste 19
3992 DH
The Netherlands
Phone: 31-30-635-8001
Amphenol Aerospace
7506 East Independence Blvd.
Charlotte, NC 28227
Phone: (704) 531-9053
Fax: (704) 531-9054
Amphenol Dae Shin Limited
#182-1 Dodan-Dong, Wonmi-ku
Bucheon-City, Kyungki-Do
Korea
Communication and Network
Products Division
One Kennedy Avenue
Danbury, CT 06810
Phone: (203) 743-9272
Phone: 82-32-680-3800
Amphenol do Brasil LTDA
Morumbi Tower
Avenida Roque Petroni Junior 999
13th Floor CEP 04707-910
Sao Paulo, Brazil
Fiber Optic Products
1925A Ohio Street
Lisle, IL 60532
Phone: (630) 960-1010
Phone: 55-11-5185-2881
Sine Systems * Pyle Connectors
Corporation
25325 Joy Boulevard
Mt. Clemens, MI 48046
Phone: (810) 465-3131
Amphenol East Asia Limited
10/F Wah Luen Industrial Centre
15-21 Wong Chuk Yeung Street
Fotan, Hong Kong
Phone: 852-2669-2663
Chicago Office
650 W. Grand Avenue, Suite 304
Elmhurst, IL 60126
Amphenol Espana
Calle Cuba No. 6, 2-5
28820 Coslada Madrid
Spain
Phone: (630) 832-4600
Spectra Strip
Phone: 349-1-673-2235
720 Sherman Avenue
Hamden, CT 06514
Phone: (203) 281-3200
Amphenol Gesellschaft mbH
Johnstrasse 42
2 Stoch, Top 3A
Vienna, Austria
Phone: 43-1-985-1511
Technical Products International
2110 Notre Dame Avenue
Winnipeg, MB, R3H 0K1 Canada
Phone: (204) 697-2222
Amphenol Interconnect
Products Corporation
20 Valley Street
Endicott, NY 13760
Phone: (607) 754-4444
Times Fiber Communications, Inc.
358 Hall Avenue
Wallingford, CT 06492
Phone: (203) 265-8500
Amphenol Mexico
Presidente Masaryk 61, Piso 2
C.P. 11570 Mexico D.F.
Mexico
Phone: (52-5) 254-7283
Fax: (52-5) 531-9659
Amphenol Italia, S.P.A.
Galleria Gandhi, 2-27
20017 - Mazzo di Rho (Milano)
Italy
Phone: (390-2) 939-04192
Fax: (390-2) 935-03206
Telex: 334623 AMPHIT I
Advanced Circuit Technology
118 Northeastern Boulevard
Nashua, NH 03062
Amphenol Japan, K.K.
2-3-27, Kudan Minami
Chiyoda-ku, Tokyo 102
Japan
Phone: (603) 880-6000
Amphenol Scandinavia
P.O. Box 2047
Phone: 81-3-3263-5611
Johannelundsvagen 2
194 02 Upplands Vaesby
Sweden
Amphenol Limited
Thanet Way
Whitstable, Kent
England CT5 3JF
Phone: 44-1227-773-200
Phone: 46-8-594-10440
Amphenol Socapex S.A.S.
Promenade de l’Arve, BP 29
74311 Thyez Cedex
France
Amphenol Ges mbH
Tautenhayngasse 22
A-1150 Wien (Vienna)
Austria
Phone: (43-1) 985-15-11
Fax: (43-1) 982-61-01
Telex: (847) 132661 AMPHWA
Phone: 33-4-5089-2800
Amphenol-TFC (Changzhou)
Communications Equipment Co., Ltd.
96 Hehai Road, Changzhou New &
HighTech & Industrial
Development Zone
Changzhou 213000, Jiangsu, PRC
Phone: 86-519-510-6004
Amphenol East Asia, Ltd.
80 Genting Lane
09-04 Genting Block
Ruby Industrial Complex
Singapore 1334
Phone: (65) 7433022
Fax: (65) 7432466
Amphenol Taiwan
59, Lung-Shou Street, Sec. 1
Lu-Chu-Hsiang, Taoyuan Hsien
Taiwan
Rupublic of China
Phone: 886-3-379-5677
Telex: RS 23499 AMPHNL
Notice: Specifications are subject to change without notice. Contact your nearest Amphenol sales office for the latest specifications. All statements, information and data
given herein are believed to be accurate and reliable but are presented without guaranty,warranty,or responsibility of any kind,express 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 recommended to infringe
any patent. The user should not assume that all safety measures are indicated or that other measures may not be required. Amphenol is a registered trademark.
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