108-151009
Product
Specification
11 MAY 2020 Rev D
DEUTSCH* DT Series Connector System
1.
SCOPE
1.1.
Content
This specification covers performance, tests and quality requirements for the TE Connectivity (TE) DT
Series Connector System.
1.2.
Qualification
When tests are performed on the subject product line, procedures specified in Test Requirements and
Procedures Summary sections shall be used. All inspections shall be performed using the applicable
inspection plan and product drawing.
1.3.
Qualification Test Results
Successful qualification testing on the subject product line was completed in 1987 and 2017. The
Qualification Test Report number for this testing is 501-151032 (original version) and 501-151088 (snap
cap version). These documentations are on file at and available from Product Engineering, Industrial
Commercial Transportation (ICT).
2.
APPLICABLE DOCUMENTS AND FORMS
The following documents and forms constitute a part of this specification to the extent specified herein.
Unless otherwise indicated, the latest edition of the document applies.
2.1.
TE Connectivity (TE) Documents
109-1
General Requirements for Testing
114-151000
Application Specification for DEUTSCH Size 16 S&F Pin & Socket
114-151001
Application Specification for DEUTSCH Size 16 S&F Pin & Socket
114-151004
Application Specification for DEUTSCH Size 4-20 Solid Pin & Socket
114-151009
Application Specification for DEUTSCH DT Series Connector System
408-151008
Instruction Guide DEUTSCH Removal Tool DT-RT1
501-151032
DT Qualification Test Report
501-151088
DT 2&3 pin Snap Cap Qualification Test Report
502-151009
DT Ingress Protection Engineering Test Report
Product Drawings (X = A, B, C, D keys, XXXX = product modification)
DT04-2P-XXXX
DT04-3P-XXXX
DT04-4P-XXXX
DT04-6P-XXXX
DT04-08PX-XXXX
DT04-12PX-XXXX
2pin Receptacle
3pin Receptacle
4pin Receptacle
6pin Receptacle
8pin Receptacle
12pin Receptacle
DT06-2S-XXXX
DT06-3S-XXXX
DT06-4S-XXXX
DT06-6S-XXXX
DT06-08SX-XXXX
DT06-12SX-XXXX
2pin Plug
3pin Plug
4pin Plug
6pin Plug
8pin Plug
12pin Plug
© 2020 TE Connectivity family of companies
All Rights Reserved
| Indicates Change
DT13-2P-XXXX
DT13-4P-XXXX
DT13-6P-XXXX
DT13-08PX-XXXX
DT13-12PX-XXXX
2pin Receptacle, 90° Header
4pin Receptacle, 90° Header
6pin Receptacle, 90° Header
8pin Receptacle, 90° Header
12pin Receptacle, 90° Header
DT15-2P-XXXX
DT15-3P-XXXX
DT15-4P-XXXX
DT15-6P-XXXX
DT15-08PX-XXXX
DT15-12PX-XXXX
2pin Receptacle, 180° Header
3pin Receptacle, 180° Header
4pin Receptacle, 180° Header
6pin Receptacle, 180° Header
8pin Receptacle, 180° Header
12pin Receptacle, 180° Header
This controlled document is subject to change.
For latest revision and Regional Customer Service, visit our website at www.te.com
PRODUCT INFORMATION 1-800-522-6752
*Trademark. TE Connectivity, TE connectivity (logo), and TE (logo) are trademarks. Other logos, product, and/or company names may be trademarks of their respective owners.
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DT16-6SX-XXXX
DT16-15SX-XXXX
DT16-18SX-XXXX
6pin Plug
15pin Plug
18pin Plug
2303812
2303813
2303815
2303816
DTF13-2PX-XXXX
2pin Receptacle, 90º Header, Flangeless
DTF13-3PX-XXXX
3pin Receptacle, 90º Header, Flangeless
DTF13-4PX-XXXX
4pin Receptacle, 90º Header, Flangeless
DTF13-6PX-XXXX
6pin Receptacle, 90º Header, Flangeless
DTF13-8PX-XXXX
8pin Receptacle, 90º Header, Flangeless
DTF13-12PX-XXXX
12pin Receptacle, 90º Header, Flangeless
DTF15-12PX-XXXX
12pin Receptacle, 180º Header, Flangeless
2pin Receptacle, Snap Cap
3pin Receptacle, Snap Cap
2pin Plug, Snap, Cap
3pin Plug, Snap Cap
Wedge Lock PN's sold separately but are required for DT functionality
W2P-XXXX
W3P-XXXX
W4P-XXXX
W6P-XXXX
W8P-XXXX
W12P-XXXX
2pin Rcpt Wedge Lock
3pin Rcpt Wedge Lock
4pin Rcpt Wedge Lock
6pin Rcpt Wedge Lock
8pin Rcpt Wedge Lock
12pin Rcpt Wedge Lock
1011-344-0205
1011-345-0305
1011-346-0405
1011-347-0605
1011-348-0805
1011-349-1205
2.2.
2pin Plug Wedge Lock
3pin Plug Wedge Lock
4pin Plug Wedge Lock
6pin Plug Wedge Lock
8pin Plug Wedge Lock
12pin Plug Wedge Lock
2pin Dust Cap
3pin Dust Cap
4pin Dust Cap
6pin Dust Cap
8pin Dust Cap
12pin Dust Cap
Industry Documents
Rev D
W2SX-XXXX
W3S-XXXX
W4SX-XXXX
W6S-XXXX
W8S-XXXX
W12S-XXXX
DIN 40050-9: Road vehicles Degrees of Protection (l P Code)
DIN 72551-6: Road Vehicles—Low-Tension Cables—Part 6: Single-Core, Unscreened with Thin
Insulation Wall; Dimensions, Materials, Marking
EIA-364: Electrical Connector/Socket Test Procedures Including Environmental Classifications
IEC-60512: Electronic Equipment - Tests and Measurements
IEC-60529: Degrees of Protection Provided by Enclosures (IP Code)
ISO 6722: Road Vehicles—60 V and 600 V Single-Core Cables—Dimensions, Test Methods, and
Requirements
SAE J1128: Low Voltage Primary Cable
SAE J2030: Heavy-Duty Electrical Connector Performance Standard
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3.
REQUIREMENTS
3.1.
Design and Construction
Product shall be of the design, construction, materials and physical dimensions specified on the
applicable product drawing.
3.2.
Ratings
Voltage: 250 VAC/VDC
Current (Amp)
14 AWG [2.00 mm²]: 13 A
16 AWG [1.00 mm²]: 13 A
18 AWG [0.80 mm²]: 10 A
20 AWG [0.50 mm²]: 7.5 A
Temperature: -55°C to +125°C
Ingress Protection (Inline): IP68 and IP6K9K (with rear protection, such as backshell)
Ingress Protection (Header): Not Tested
Flammability (Inline): UL Recognized. Parts are made out of V-0 material and have been
successfully tested to the 12 mm Flame Test per Standard UL-94.
Flammability (Header): V-0
3.3.
Test Requirements and Procedures Summary (Original Version)
Unless otherwise specified, all tests shall be performed at ambient environmental conditions.
NOTE
a) See Appendix A for Additional Test Requirements for Original Version
b) See Appendix B for Test Requirements and Procedures Summary for Snap Cap Version
c) See Appendix C for Procedure Comparison Chart
VISUAL
3.3.1. Examination of Product
A. Procedure: EIA-364-18
B. Method: Visually inspected for use of materials, proper construction, correct part number and
insert markings and over-all quality of workmanship. Poor molding fabrication, loose materials,
damaged or improperly manufactured contacts, galling of metal parts, nicks and burrs of metal
parts, torn seals or cracked plastic were considered adequate basis for rejection.
C. Requirement: The connectors shall be correctly constructed, marked and shall show good quality
and workmanship.
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ELECTRICAL
3.3.2. Insulation Resistance
A. Procedure: MIL-STD-1344, Method 3003.1
B. Method: Using a 500 VDC megohmmeter check each contact to all other contacts and the shell
electrically connected together.
C. Requirement: 1000 MΩ minimum at 25C.
3.3.3. Dielectric Withstanding Voltage
A. Procedure: MIL-STD-1344, Method 3001.1
B. Method: Check each contact to all other contacts and the shell electrically connected together for
breakdown / flashover when subjected to a 1500 VAC test potential for a period of 1 minute.
C. Requirement: No evidence of breakdown or flashover or current leakage in excess of 2.0
milliampers.
3.3.4. Contact Resistance
A. Procedure: MIL-STD-1344, Method 3004.1
B. Method: 15A for 16AWG
C. Requirement: Maximum voltage drop across a 6 inch wire/contact assembly shall be 89mV max for
16AWG.
3.3.5. Contact Resistance
A. Procedure: MIL-STD-1344, Method 3004.1
B. Method: 15A for 16AWG
C. Requirement: Maximum voltage drop across a 6 inch wire/contact assembly shall be 89mV max for
16AWG.
MECHANICAL
3.3.6. Maintenance Aging
A. Procedure: MIL-STD-1344, Method 2002.1
B. Method: Subject 10% of the cavities to 10 cycles of inserting and removing its respective contact.
Insert by hand, remove using removal tool.
C. Requirement: There shall be no visible change or damage to the contact cavities.
3.3.7. Contact Retention
A. Procedure: MIL-STD-1344, Method 2007.1
B. Method: Subject each wired contact to an applied load of 25 lbf for a period of 15 seconds in a
direction tending to push the contact out of the rear of the connector.
C. Requirement: The contact shall remain in place
3.3.8. Durability
A. Procedure: MIL-STD-1344, Method 2016
B. Method: The connector shall be mated and unmated for a total of 100 complete cycles at room
temperature.
C. Requirement: No evidence of damage to the contacts, contact plating, connector housing or seals
which may be detrimental to reliable connector performance.
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3.3.9. Vibration
A. Procedure: MIL-STD-1344, Method 2005.1
B. Method:
Sine Sweep: 10 to 2000 Hz
Initial Displacement: .07 inch DA
Test Duration: 12 hours
Sweep Cycle: 20 minutes
Maximum Acceleration: 20G
Time Per Axis X, Y, Z: 4 hours
Test Current first 3 hours each axis: 16 AWG: 13A
C. Requirement: No discontinuity in excess of 1.0 μs at 100 mA during the last hour of each axis. Shall
meet visual requirements, show no physical damage and meet requirements of additional tests as
needed.
3.3.10. Shock
A. Procedure: MIL-STD-1344, Method 2004.1
B. Method: 10 cycles of ½ sine pluses, 50g±15%, 11±1 ms duration X and Z axis are to be tested.
C. Requirement: No discontinuity in excess of 1.0 μs at 100 mA during the last hour of each axis. Shall
meet visual requirements, show no physical damage and meet requirements of additional tests as
needed.
ENVIRONMENTAL
3.3.11. Temperature Life
A. Procedure: MIL-STD-1344, Method 1005.1
B. Method: The wired mated connectors shall be subjected to 100 hours at 125°C. Insulation
resistance shall be measured immediately after removing sample from the oven.
C. Requirement: There shall be no evidence of cracking, distortion or detrimental damage to the
connector following the test. Meet 500 MΩ minimum
3.3.12. Salt Spray
A. Procedure: MIL-STD-1344, Method 1001.1
B. Method: Connector shall be fully mated, then submerged in a fine mist of 5% by weight of salt
solution for 96 hour.
C. Requirement: There should be no evidence of corrosion on the connector or terminals after the
connector is removed from the test and cleaned with tap water.
3.3.13. Fluid Immersion
A. Procedure: MIL-STD-1344, Method 1016
B. Method: Subject each connector to one fluid only. The wired mated connectors shall be submerged
in the fluids below at ambient temperature. Each connector shall be submerged for 5 minutes, then
removed from the fluid to air dry for 24 hours. This cycle is to be completed a total of 5 cycles.
Motor Oil 30 weight
Gasoline
Antifreeze Solution (Max Protection)
Brake Fluid (disc type 1)
Diesel Fuel #2
Transmission Oil 90 weight
C. Requirement: There shall be no evidence of cracking, distortion or detrimental damage to the
connector following the test.
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3.3.14. Thermal Shock
A. Procedure: MIL-STD-1344, Method 1003.1
B. Method: Cycle mated connectors for 30 minutes at –55°C followed by 30 minutes at +125°C with 2
minute max transfer time. Repeat for 5 cycles. Insulation resistance measured during last heat
cycle.
C. Requirement: There shall be no evidence of cracking, distortion or detrimental damage to the
connector following the test. Meet 500 MΩ minimum
3.3.15. Moisture
A. Procedure: Not Applicable
B. Method: The wired mated connectors shall be immersed in 3 feet of water for 24 hours.
C. Requirement: Connectors shall show no sign of moisture inside the cavities or connector interior.
3.4
Product Qualification and Requalification Test Sequence (Original Version)
TEST GROUP (a)
TEST or EXAMINATION
1
2
3
4
5
6
TEST SEQUENCE (b)
Examination of Product
1
1
1
1
1
1
Insulation Resistance
2
2
2
2
2
2
Dielectric Withstanding Voltage
3
3
3
3
3
3
Maintenance Aging
4
4
Temperature Life
Contact Retention
4
5
4
4
5
Durability
5
6
Salt Spray
6
7
4
5
Moisture
6
Fluid Immersion
7
7
Thermal Shock
8
8
Vibration
9
9
7
Shock
10
10
8
Contact Resistance
11
9
11
9
7
8
Final Examination
12
10
12
10
8
9
8
5
5
6
6
6
7
NOTE
a) Specimens shall be prepared in accordance with applicable Application Specification and
shall be selected at random from current production.
b) Groups 1-6. Specimens shall consist of 3-position connectors with DEUTSCH solid terminal
system size 16 nickel plated pin and socket contacts with 16 AWG GXL wire.
c) Numbers indicate sequence in which tests are performed.
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3.5
Appendix A. Additional Test Requirements (Original Version)
ELECTRICAL
3.5.1. Low Level Contact Resistance
A. Procedure: EIA-364-23
B. Method: Test with applied voltage not to exceed 20 mV open circuit and the test current shall be
limited to 100 mA. The resistance of an equal length of wire (reference wire) shall be subtracted
from the same reel as used for the connector wiring.
C. Requirement:
16 AWG [1.00 mm²]: 6.0 mΩ max
18 AWG [0.80 mm²]: 7.5 mΩ max
20 AWG [0.50 mm²]: 11.0 mΩ max
3.5.2. Contact Resistance
A. Procedure: EIA-364-6
B. Method: Using test currents as defined. The resistance of an equal length wire (reference wire)
shall be subtracted from the actual readings to determine the added resistance of the terminal. The
reference wire shall be from the same reel as used for the connector wiring.
Test Currents:
14 AWG [2.00 mm²]: 13A
18 AWG [0.80 mm²]: 10A
16 AWG [1.00 mm²]: 13A
20 AWG [0.50 mm²]: 7.5A
C. Requirement: 60mV (Solids) and 100mV (S&F) voltage drop
MECHANICAL
3.5.3. Vibration
A. Procedure: Not Applicable
B. Method:
Sine Sweep: 10 to 2000 Hz
Maximum Acceleration: 20G
Time Per Axis X, Y, Z: 4 hours
Initial Displacement: 1.78 mm DA
Test Duration: 12 hours
Test Current first 3 hours each axis:
14-16 AWG [2.00-1.00 mm²]: 10A
18 AWG [0.80 mm²]: 8A
20 AWG [0.50 mm²]: 5A
C. Requirement: There shall be no discontinuity in excess of one (1) μs at 20mV and 100 mA during
the last hour of each axis. Shall meet visual requirements, show no physical damage and meet
requirements of additional tests as needed.
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3.5.4. Impact
A. Procedure: Not Applicable
B. Method: Wired mated connector shall be dropped from a height of 1.2m on a cement floor. This
action is to be completed a total of five (5) times.
C. Requirement: There shall be no evidence of cracking, distortion or detrimental damage to the
connector following the test. Small chips and dents that do not adversely affect the connector shall
be disregarded.
3.5.5. Contact Retention
A. Procedure: Not Applicable
B. Method: Apply a pulling force to the wire bundles that exit the rear of the connector for a period of
one (1) minute. The amount of load is to be 111N, times the number of cavities, up to a maximum
of 445N.
C. Requirement: There shall be no evidence of cracking, distortion or detrimental damage to the
connector following the test.
ENVIRONMENTAL
3.5.6. Temperature Life
A. Procedure: MIL-STD-202, Method 108, Test Condition D
B. Method: The wired mated connectors shall be subjected to 1000 hours at +125 ±3°C without
current flowing.
C. Requirement: There shall be no evidence of cracking, distortion or detrimental damage to the
connector following the test.
3.5.7. Fluid Immersion
A. Procedure: Not Applicable
B. Method: Subject each sample group to one fluid only. The wired mated connectors shall be
submerged in the fluids below at the temperatures listed. Each connector shall be submerged for
five (5) minutes, then removed from the fluid to air dry for 24 hours. This cycle is to be completed a
total of five (5) cycles.
Motor Oil 30 weight: +60±3°C
Gasoline: +25±3°C
50/50 Antifreeze/Water Mixture: +60±3°C
Brake Fluid (disc type 1): +60±3°C
Diesel Fuel #2: +60±3°C
Transmission Oil 90 weight: +60±3°C
C. Requirement: There shall be no evidence of cracking, distortion or detrimental damage to the
connector following the test.
3.5.8. Thermal Cycle
A. Procedure: Not Applicable
B. Method: Cycle mated connectors from –55 ± 3°C to +125 ±3°C at a rate of 3°C ± 1°C per minute.
Connectors to remain at each temperature extreme for one (1) hour minimum. Mated connectors
are to be cycled a total of 20 complete cycles.
C. Requirement: There shall be no evidence of cracking, distortion or detrimental damage to the
connector following the test.
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3.5.9. Water Immersion
A. Procedure: Not Applicable
B. Method: The wired mated connectors shall be placed in an oven at +125 ±3°C for two (2) hours
minimum then immediately be placed in water with a 5% salt by weight content and 0.1 g/L wetting
solution to a depth of 914mm for four (4) hours minimum. The free ends of the mated connectors
must remain out of the water to prevent wicking of the water through the open wires. Water
temperature to be +23 ±3°C.
C. Requirement: Test samples must meet Insulation Resistance.
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3.6
Appendix B. Test Requirements and Procedures Summary (Snap Cap Version)
VISUAL
3.6.1. Examination of Product
A. Procedure: SAE J2030_201506
B. Method: Conduct a visual examination for identification of product, torn seals, cracked plastic, etc.
C. Requirement: The connectors shall be correctly constructed, marked and show good quality and
workmanship. Connector after conditioning shall not show signs of damage or any detectable loss
of function.
ELECTRICAL
3.6.2. Insulation Resistance
A. Procedure: SAE J2030_201506
B. Method: Using a 1000 VDC megohmmeter check the insulation resistance between each contact to
each adjacent contact.
C. Requirement: > 20 MΩ
3.6.3. Connection Resistance
A. Procedure: SAE J2030_201506
B. Method: The resistance of a cable equal in length to that of the two measuring points shall be
subtracted from the measured values. The cable used shall be from the same batch of cable as
used for the connector wiring.
C. Requirement: Measurements shall be taken after thermal equilibrium at 15A. Voltage drops shall
not exceed 100mV.
MECHANICAL
3.6.4. Mating Force
A. Procedure: SAE J2030_201506
B. Method: The maximum required force to mate the plug and receptacle pair and engage the latching
mechanism.
C. Requirement: F ≤ 135N
3.6.5. Un-Mating Force
A. Procedure: SAE J2030_201506
B. Method: The maximum force required to separate the plug and receptacle with the latch
mechanism fully disengaged.
C. Requirement: F ≤ 135N
3.6.6. Maintenance Aging
A. Procedure: SAE J2030_201506
B. Method: Subject at least 10% of the cavities to 10 cycles of inserting and removing its respective
contact. The 10th cycle shall include any disassembly required to remove the contacts. The
connectors shall be mated and unmated during each cycle.
C. Requirement: There shall be no visible change or damage to the contact cavity
3.6.7. Durability
A. Procedure: SAE J2030_201506
B. Method: The connector shall be mated and unmated for a total of 50 complete cycles.
C. Requirement: No evidence of damage to the contacts, contact plating, connector housing or seals
which may be detrimental to reliable connector performance.
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3.6.8. Terminal Retention in Connector
A. Procedure: SAE J2030_201506
B. Method: The contacts shall be subjected to a direct pull of 110N for 1 minute. The pull is to be
exerted on the conductor by means of a tension-testing machine or equivalent to prevent sudden or
jerking force during test. The terminal shall maintain its original position in the connector throughout
the test. The secondary-locking device is needed.
C. Requirement: The contact shall remain in place.
3.6.9. Connector Retention
A. Procedure: SAE J2030_201506
B. Method: Apply a pulling force to the wire bundle of the mated connector. The load shall be applied
for 30 seconds.
C. Requirement:
a. 2pin: 222N
b. 3pin: 300N
3.6.10. Vibration
A. Procedure: SAE J2030_201506
B. Method:
Sine Sweep: 10 to 2000 Hz
Max Acceleration: 20G
Time Per Axis: 8 hours
Test Duration: 24 hours
Test Current: 13A first 3 hours each axis
C. Requirement: No defects, cracks and no discontinuity greater than 10Ω >1 μs during the last hour
of each axis
3.6.11. Drop
A. Procedure: SAE J2030_201506
B. Method: The free end of the cord or cable, which shall be 1500 mm, shall be fixed to a wall at a
height of 750 mm above a concrete floor. The specimen shall be held so that the cord or cable is
horizontal and allowed to fall to a concrete floor eight times. Rotate the specimens through
approximately 45° at it fixing each time.
C. Requirement: There shall be no evidence of cracking, distortion or detrimental damage to the
connector following the test. Small chips and dents that do not adversely affect the connector shall
be disregarded.
ENVIRONMENTAL
3.6.12. Temperature Life
A. Procedure: SAE J2030_201506
B. Method: +125ºC for 1000 hours
C. Requirement: No evidence of cracking, chipping, or other damage detrimental to the normal
operation of the connector.
3.6.13. Thermal Shock
A. Procedure: SAE J2030_201506
B. Method: Test samples were subjected to 10 cycles. One cycle consisted of a soak time at -55°C,
then transitioned within 2 minutes to an ambient temperature of +125°C with a soak time, and then
transition back to -55°C within 2 minutes. The soak times were established as the time necessary
to bring the internal connector temperature on test to within 5°C of each of the ambient
temperatures.
C. Requirement: No evidence of cracking, chipping, or other damage detrimental to the normal
operation of the connector.
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3.6.14. Water Immersion
A. Procedure: SAE J2030_201506
B. Method: The wired mated connectors shall be placed in an oven at +125°C for 1 hour then
immediately be placed in water with a 5% salt in weight content and 0.1 g/L wetting agent, to a
depth of 1 meter for 4 hours. Water temperature is to be 23°C. The ends of the cable are to be
sealed during this test.
C. Requirement: Must meet Insulation Resistance and visually inspect for moisture inside the
connector.
3.6.15. Fluid Immersion
A. Procedure: SAE J2030_201506
B. Method: Subject each connector to one fluid only in the cabled and mated condition. Submerge the
mated connector in fluid per table below at the specified temperature ±3 °C for 5 minutes, then
remove and allow to air dry for 24 h. This completes one cycle. Each connector is to be subjected
to a total of five cycles. Inspect for damage after the test.
C. Requirement: No evidence of cracking, distortion or detrimental damage to the connector.
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3.7
Product Qualification and Requalification Test Sequence (Snap Cap Version)
TEST GROUP (a)
TEST OR EXAMINATION
1
2
3
TEST SEQUENCE (b)
Examination of Product
1,12
1,11
Insulation Resistance
2,10
2
Connection Resistance
3,6,8
3,10
1,8
Mating Forces
5
3
Un-mating Forces
6
4
Maintenance Aging
2
Durability
7
5
Terminal Retention in Connector
6
Connector Retention
7
Thermal Shock
4
Temperature Life
8
4
Vibration
5
Drop
7
Water Immersion
9
Fluid Immersion
11
9
NOTE
a) Specimens shall be prepared in accordance with applicable Application Specification and
shall be selected at random from current production.
b) Groups 1-3. Specimens shall consist of 2 and 3-position snap cap connectors with DEUTSCH
stamped and formed terminal system size 16 nickel plated pin and socket contacts with 16
GXL wire.
c) Numbers indicate sequence in which tests are performed.
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3.8
Appendix C. Test Procedure Comparison Chart
Test
Examination of product
Insulation Resistance
Dielectric Withstanding Voltage
Low Level Contact Resistance
Contact Resistance
Maintenance Aging
Contact Retention
Durability
Vibration
Shock
Impact
Connector Retention
Temperature Life
Salt Spray
Fluid Immersion
Thermal Cycle
Thermal Shock
Moisture
Water Immersion
Rev D
MIL-STD-1344
Method
EIA-364
Dash No.
3003.1
3001.1
3002.1
3004.1
2002.1
2007.1
2016
2005.1
2004.1
1005.1
1001.1
1016
1003.1
-
18
21
20
23
06
24
29
09
28
27
42
17
26
10
32
-
Similar to
SAE J2030
Paragraph
6.1
6.3
6.2
6.4
6.6
6.18
6.11
6.15
6.16
6.17
6.20
6.7
6.12
6.14
6.13
6.19
Similar to
ISO 8092-2
Paragraph
4.2
4.12
4.13
4.8
4.8
4.7
4.3
4.20
4.18
4.16
4.23
4.22
4.9
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4.
REVISION HISTORY
Rev Ltr
Date
Dwn
Apvd
A
Initial Release
02-Mar-2015
RM
DM
B
Fixed Section 3.3
19-Mar-2015
RM
DM
B1
Removed INLINE from part number table
09-Jun-2015
RM
DM
B2
Add new part numbers
24-Jul-2015
RM
DM
B3
Fix typo
30-Jul-2015
RM
DM
B4
Add dust cap part number table on sheet 1 for the plugs
28-Jun-2017
JA
DM
B5
Add Production Drawing table for DTF13 and 15 on sheet 2.
Revised and rewritten
Added snap cap version
Page 1. Corrected hyperlinks
Page 1, Sec 2.1. Added 114-151001, 114-151004, 502-151009
Page 3, Sec 3.2. Added (Inline) to Ingress Protection, Added
Ingress Protection (Header)
Page 3, Sec 3.2. Added (Inline) to Flammability, Added
Flammability (Header)
11-May-2018
JA
DM
17-Apr-2020
DM
DM
11-May-2020
DM
DM
C
D
Rev D
Brief Description of Change
15 of 15
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