0705550079 Datasheet 0705550079, 0705550076, 0016020111 | P7-P9

PRODUCT SPECIFICATION

REVISION: ECR/ECN INFORMATION: TITLE:

PRODUCT SPECIFICATION

SINGLE ROW – STACKABLE

LINEAR (SL) CONNECTOR SYSTEM

SHEET No.

EC No:

UCP2013-1367

7 of 10

DATE:

2012/10/15

DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:

70400

MMSTROH MKIPPER FSMITH

TEMPLATE FILENAME: PRODUCT_SPEC[SIZE_A](V.1).DOC

Item

Test Condition

Requirement

Retention Force (in

Housing) for

Crimped/IDT

Terminals

Axial pullout force on the terminal in

the housing at a rate of 25 ± 6mm (1

± 1/4 inch) per minute.

Contact : 17.79 N (4.0

lbs.)

min.

Durability

Mate connectors up to 25 cycles for

tin plating and 50 cycles for gold

plating at a maximum rate of 10 cycles

per minute prior to defined

Environmental Tests

Contact Resistance :

10 milliohms Maximum

Change from Initial

Durability – Male

Plug (30 Gold Plate

Pins)

Male Plug is mated to the receptacle

and then unmated at a rate of 500

cycles/hour. The receptacle was

replaced every 50 cycles. The male

plug was subjected to 500

mate/unmate cycles

Contact Resistance :

10 milliohms Maximum

Change from Initial

Vibration

Mil-Std-1344

Method 2005.1

Condition I

Amplitude: 1.50mm (.060 inch) peak

to peak

Sweep: 10-55-10 Hz in one minute

Duration: 2 hours in each X-Y-Z axis.

(Test module shall be per Section 7.0)

Contact Resistance:

10 milliohms Maximum

Change from Initial

Discontinuity: not greater

than one microsecond

Mechanical Shock

Mil-Std-1344

Method 2004.1

Condition A

50 g's with three 1/2 sine wave form

shocks in each X-Y-Z axis.

(Test module shall be per Section 8.2)

Contact Resistance:

10 milliohms Maximum

Change from Initial

Discontinuity: not greater

than one microsecond

Wire Pullout Force

(Axial)

Apply an axial pullout force on the

wire at a rate of 25 ± 6mm (1 ± 1/4

inch) per minute.

Pullout force - 75% tensile

strength of wire, minimum.

Wire Pullout Force

(Right Angle)

Apply a right angle pullout force on the

wire at a rate of 25 ± 6mm (1 ± 1/4

inch) per minute.

Pullout force

75%

tensile

strength of wire, minimum.

20 Newton’s and below -

no plastic deformation / no

electrical discontinuity

Above 20 and below 60

Newton’s - slight non-

functional plastic

deformation / no electrical

discontinuity.

Insertion Force (into

Housing) for Female

Terminals

Apply an axial insertion force on the

terminal at a rate of 25 ± 6mm (1 ± 1/4

inch) per minute.

13.34 N (3.0 lbs) maximum

insertion force.

Wire Flex Flex cable 180° for 500 cycles.

Contact resistance:

10 milliohms Maximum

Change from Initial.

Appearance: No Damage

PRODUCT SPECIFICATION

REVISION: ECR/ECN INFORMATION: TITLE:

PRODUCT SPECIFICATION

SINGLE ROW – STACKABLE

LINEAR (SL) CONNECTOR SYSTEM

SHEET No.

EC No:

UCP2013-1367

8 of 10

DATE:

2012/10/15

DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:

70400

MMSTROH MKIPPER FSMITH

TEMPLATE FILENAME: PRODUCT_SPEC[SIZE_A](V.1).DOC

Item

Test Condition

Requirement

Normal Force of Box

Crimp

Apply a perpendicular force at a rate

25 ± 6mm (1 ± 1

/4 inch) per minute on

the contacts in a manner simulating

actual use.

0.49 N (50 grams)

minimum end of life, for

gold plating

0.98 N (100 grams)

minimum end of life, for tin

plating.

Connector Insertion

Mate connectors at a rate of 1 in/min

until latch engagement was achieved

29.4 N Maximum

Connector Retention

Unmate connectors

at a rate of 1

in/min until latch defeat occurred

Unmate connectors at a rate of 0.8

in/min with latch disengaged

N Minimum with latch

engaged

15 N Minimum with latch

dise

ngaged

Connector Retention

Apply a perpendicular force of 45 N to

the wire harness using a free hanging

weight.

No deformation or

Terminal separation

5.3 ENVIRONMENTAL PERFORMANCE

Item

Test Condition

Requirement

Thermal Shock

Mil-Std-202F

Method 107 E

Mate connectors exposed to 10 cycles

of:

Temperature °C Duration (Min)

-40 +0/-3 30

+25 +/-10 5 Max

+105 +3/-0 30

+25 +/-10 5 Max

-40 +0/-3 30

Appearance: No Damage

Contact Resistance:

10 milliohms maximum

change from initial

Thermal Aging

Mil-Std-202F

Method 108

Mate connectors; expose to 240 hours

at 105 ± 3

Appearance: No Damage

Contact Resistance:

10 milliohms maximum

change from initial

Humidity (Steady

State)

Mil-Std-202F

Method 103

Mate connectors; expose to a

temperature of :

85 ± 2°C with a Relative Humidity of

92 ± 3% for 96 hours.

Note: Remove surface moisture and

air dry for 1 hour prior to

measurements.

Appearance: No Damage

Contact Resistance:

10 milliohms maximum

change from initial.

Dielectric Withstanding

Voltage: No Breakdown

Insulation Resistance:

10000 Megohms Minimum

PRODUCT SPECIFICATION

REVISION: ECR/ECN INFORMATION: TITLE:

PRODUCT SPECIFICATION

SINGLE ROW – STACKABLE

LINEAR (SL) CONNECTOR SYSTEM

SHEET No.

EC No:

UCP2013-1367

9 of 10

DATE:

2012/10/15

DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:

70400

MMSTROH MKIPPER FSMITH

TEMPLATE FILENAME: PRODUCT_SPEC[SIZE_A](V.1).DOC

Item

Test Condition

Requirement

Humidity

(Cyclic)

Mil-Std-202

Method 105

Mate connectors; expose for 10 cycles

at 90-98% relative humidity with a

transition time of 2.5 hours between

extremes:

Temperature °C Duration (Min)

+25 ± 10 5 maximum

+65 +3/-0 15 maximum

Note: Remove surface moisture and

air dry for one hour prior to

measurements.

Appearance: No Damage

Contact Resistance: 10

milliohms maximum

change from initial.

Dielectric Withstanding

Voltage: No Breakdown

Insulation Resistance:

10000 Megohms Minimum

Temperature Rise

and

Current Cycling

Temperature Rise: Mate the

connectors; and measure the

temperature rise at the rated current

after 96 hours.

Current Cycling: Mate connectors;

measure the temperature rise at the

rated current after 500 hours (45

minutes ON and 15 minutes OFF per

hour). Measure temperature rise.

Temperature Rise: 30°C

above ambient maximum

Temperature Rise: 30°C

above ambient maximum

Temperature Rise

and

Vibration

Temperature Rise: Mate the

connectors; and measure the

temperature rise at the rated current

after 45 minutes.

Vibration: Subject mated connectors

to a total of 8 hours of simple

harmonic motions. (Apply 4 hours in

the Z axis and 2 hours in each of the

X and Y axes). Vary the frequency

uniformly from 10 Hz to 50 Hz

traversed continuously in 8 minutes.

Measure temperature rise.

Temperature Rise: 30°C

above ambient maximum

Temperature Rise: 30°C

above ambient maximum

Temperature Rise

and

Heat Resistance

Temperature Rise: Mate the

connectors; and measure the

temperature rise at the rated current

after 45 minutes.

Heat Resistance: Place mated

connectors in an air circulating

chamber oven exposed to a

temperature of 100 degrees for 120

hours. Measure temperature rise.

Temperature Rise: 30°C

above ambient maximum

Temperature Rise: 30°C

above ambient maximum

P1-P3 P4-P6 P7-P9 P10-P10

0705550079

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