PRODUCT SPECIFICATION
REVISION: ECR/ECN INFORMATION: TITLE: PRODUCT SPECIFICATION
SINGLE ROW – STACKABLE
LINEAR (SL) CONNECTOR SYSTEM
SHEET No.
N EC No: UCP2013-1367 1 of 10
DATE: 2012/10/15
DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:
PS
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MMSTROH MKIPPER FSMITH
TEMPLATE FILENAME: PRODUCT_SPEC[SIZE_A](V.1).DOC
TABLE OF CONTENTS
PARAGRAPH DESCRIPTION PAGE
1.0 SCOPE ........................................................................ 2
2.0 PRODUCT DESCRIPTION.............................................. 2
3.0 APPLICABLE DOCUMENTS AND SPECIFICATIONS.. 4
4.0 RATINGS.......................................................................... 4
5.0 PERFORMANCE.............................................................. 5
6.0 PACKAGING ................................................................... 10
7.0 QUALITY ASSURANCE PROVISIONS........................ 10
PRODUCT SPECIFICATION
REVISION: ECR/ECN INFORMATION: TITLE: PRODUCT SPECIFICATION
SINGLE ROW – STACKABLE
LINEAR (SL) CONNECTOR SYSTEM
SHEET No.
N EC No: UCP2013-1367 2 of 10
DATE: 2012/10/15
DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:
PS
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70400
MMSTROH MKIPPER FSMITH
TEMPLATE FILENAME: PRODUCT_SPEC[SIZE_A](V.1).DOC
1.0 SCOPE
This specification is intended to define the mechanical, electrical and environmental requirements for
the SL .100” (2.54) pitch modular, single row wire-to-board and wire-to-wire system.
SL is designed for high density signal applications. The system includes: low profile latching vertical
and right angle headers; low profile housings for male and female crimp terminals; pre-assembled,
single piece pin and receptacle connectors for Insulation Displacement Technology (IDT); panel
mounts for modular wire-to-wire remote interconnections; and SL offers design flexibility and
automated harness-making capabilities when combined with our tooling.
2.0 PRODUCT DESCRIPTION:
2.1 The following Series are covered by this product specification:
70021, male, crimp terminal
70058, female box, crimp terminal
71851, female box, high force crimp terminal
70066 & 70107, single row, crimp housing
70450 & 74130, dual row, crimp housing
70400, female, single row, insulation displacement, connector assembly
70475 & 71178 ,male, single row, insulation displacement, connector assembly
Headers:
70541, single row, .120” pocket, wire-to-board, shrouded header, vertical, split peg
70543, single row, .120” pocket, wire-to-board, shrouded header, vertical
70545, single row, .120” pocket, wire-to-board, shrouded header, vertical, tri-peg
70546, single row, .120” pocket, wire-to-board, shrouded header, vertical, tri-peg
70551, single row, .120” pocket, wire-to-board, shrouded header, right angle, split peg
70553, single row, .120” pocket, wire-to-board, shrouded header, right angle
70555, single row, .120” pocket, wire-to-board, shrouded header, right angle, tri-peg
70556, single row, .120” pocket, wire-to-board, shrouded header, right angle, tri-peg
70563, single row, .180” pocket, wire-to-board, shrouded header, vertical
70564, single row, .180” pocket, wire-to-board, shrouded header, vertical
70566, single row, .180” pocket, wire-to-board, shrouded header, vertical, tri-peg
70571, single row, .180” pocket, wire-to-board, shrouded header, right angle, board snaps
70575, single row, .180” pocket, wire-to-board, shrouded header, right angle, tri-peg
70634, single row, .120” pocket, wire-to-board, shrouded header, right angle, tri-peg, SMT
71164, single row, .120” pocket, wire-to-board, shrouded header, voided circuits
74095, single row, .120” pocket, wire-to-board, shrouded header, vertical, compliant pin
74098, single row, .120” pocket, wire-to-board, shrouded header, right angle, split peg, SMT
74099, single row, .120” pocket, wire-to-board, shrouded header, vertical, SMT
74105, single row, .120” pocket, wire-to-board, shrouded header, right angle, SMT
PRODUCT SPECIFICATION
REVISION: ECR/ECN INFORMATION: TITLE: PRODUCT SPECIFICATION
SINGLE ROW – STACKABLE
LINEAR (SL) CONNECTOR SYSTEM
SHEET No.
N EC No: UCP2013-1367 3 of 10
DATE: 2012/10/15
DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:
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TEMPLATE FILENAME: PRODUCT_SPEC[SIZE_A](V.1).DOC
2.2 DIMENSIONS, MATERIALS AND SPECIFICATIONS:
2.2.1 Mating Pin Height
2.2.1.1 Maximum mating pin height: .320” (8.13 mm)
2.2.1.2 Minimum mating pin height: .200” (5.08 mm)
2.2.2 Centerline spacing (pitch): .100” (2.54 mm)
2.2.3 Wire Sizes:
For IDT: #22 - #28 AWG stranded wire, with an insulation diameter of .053”
(1.35 mm) max.
For Crimp: #22-#36 AWG wire. See Termination Application Specs for insulation
diameter requirements
2.2.4 Molex cable: 7307, 7767, 8996, 8997, 24226, 24241, 24369 and 24389.
2.2.5 Termination Method:
2.2.5.1 Crimp (70021, 70058, 71851)
2.2.5.2 IDT (70400, 70475)
2.2.5.3 Header
2.2.5.3.1 Thru Hole: Wave Solder
2.2.5.3.2 SMT: Reflow
2.2.5.3.3 Compliant: N/A
2.2.6 Housings:
(70066, 70450, 70107, 74130): Black Glass Filled Polyester, UL 94V-0
Header: Black Glass Filled Polyester, UL 94V-0
2.2.7 Terminals: (70021, 70058, 71851): Phosphor Bronze
2.2.8 Pins: Phosphor Bronze
2.2.9 Plating: Gold and Tin
2.2.9.1 Gold: 30 microinches minimum Gold in select area over Nickel overall
with 75 microinches Tin in select area over Nickel overall
or
Gold: 15 microinches minimum Gold in select area over Nickel overall
with 75 microinches Tin in select area over Nickel overall
2.2.9.2 Tin: 150 microinches minimum Tin over Nickel overall.
See the appropriate Sales Drawing(s) for additional information on dimensions, materials, platings,
and markings.
PRODUCT SPECIFICATION
REVISION: ECR/ECN INFORMATION: TITLE: PRODUCT SPECIFICATION
SINGLE ROW – STACKABLE
LINEAR (SL) CONNECTOR SYSTEM
SHEET No.
N EC No: UCP2013-1367 4 of 10
DATE: 2012/10/15
DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:
PS
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70400
MMSTROH MKIPPER FSMITH
TEMPLATE FILENAME: PRODUCT_SPEC[SIZE_A](V.1).DOC
2.3 SAFETY AGENCY APPROVALS:
UL File Number . . . . . . . . . . . E29179
CSA File Number . . . . . . . . . . LR19980
3.0 APPLICABLE DOCUMENTS AND SPECIFICATIONS:
All documents referenced shall be of the latest revision. The order of precedence shall be as follows.
Product Drawings
This product specification
Reference documents
3.1 REFERENCE DOCUMENTS:
EIA 364 Electronic Industries Association, Recommended Standard
MIL-STD-202: Test methods for electronics and electrical component parts.
UL-94: Tests for flammability of plastic material
4.0 RATINGS:
4.1 VOLTAGE:
250 V
4.2 CURRENT:
1.2 A - 28 AWG
1.8 A - 26 AWG
3.0 A - 24 AWG
3.0 A - 22 AWG
4.2 TEMPERATURE:
Operating: -40 °C to +105 °C
Non-Operating -40 °C to +105 °C
Processing Temperature for Headers: 260°C Maximum for Thru Hole Wave solder only
245°C Maximum for IR reflow SMT and Thru Hole Paste
PRODUCT SPECIFICATION
REVISION: ECR/ECN INFORMATION: TITLE: PRODUCT SPECIFICATION
SINGLE ROW – STACKABLE
LINEAR (SL) CONNECTOR SYSTEM
SHEET No.
N EC No: UCP2013-1367 5 of 10
DATE: 2012/10/15
DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:
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MMSTROH MKIPPER FSMITH
TEMPLATE FILENAME: PRODUCT_SPEC[SIZE_A](V.1).DOC
5.0 PERFORMANCE:
Note: For Specifications of individual Terminals and un-mated Headers please see their
respective Product Specs:
PS-70021 – Male, crimp terminal
PS-70058 – Female box, crimp terminal
PS-71851 – Female box, high force crimp terminal
PS-70541 – Vertical and Right Angle Headers
PS-70495 – Compliant Header
5.1 ELECTRICAL PERFORMANCE:
Item
Test Condition
Requirement
Contact Resistance
(Low Level)
Mate Connectors with a maximum
voltage of 20mV and a current of 100
mA.
30 milliohm Maximum
Initial
Insulation
Resistance
Mate Connectors with a voltage of 500
VDC between adjacent terminals and
between terminals and ground.
10000 Megohms Minimum
Dielectric
Withstanding
Voltage
Mate Connectors with a voltage of
1500 VAC for 1 minute between
adjacent terminals and between
terminals and ground.
Or
Mate Connector
s with a voltage of 500
VDC for 1 minute between adjacent
terminals
No breakdown
Voltage Drop
Mate Connectors with a current of 3
amps and the open circuit voltage set
to not exceed 15 VDC. Power is
applied for a minimum of 30 seconds
before the first measurement
30 millivolt Maximum
Initial
Voltage Drop after
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
30 millivolt Maximum
Initial
&
60 millivolt Maximum
After Endurance Exposure
PRODUCT SPECIFICATION
REVISION: ECR/ECN INFORMATION: TITLE: PRODUCT SPECIFICATION
SINGLE ROW – STACKABLE
LINEAR (SL) CONNECTOR SYSTEM
SHEET No.
N EC No: UCP2013-1367 6 of 10
DATE: 2012/10/15
DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:
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TEMPLATE FILENAME: PRODUCT_SPEC[SIZE_A](V.1).DOC
Item
Test Condition
Requirement
Voltage Drop after
Heat Resistance
Place mated connectors in an air
circulating chamber oven exposed to
a temperature of 100 degrees for 120
hours.
30
millivolt Maximum
Initial
&
60 millivolt Maximum
After Endurance Exposure
Voltage Drop after
Cold Resistance
Place mated connectors in an air
circulating chamber exposed to a
temperature of -40°C for 120 hours.
30
millivolt Maximum
Initial
&
60 millivolt Maximum
After Endurance Exposure
Voltage Drop after
Dust Proofness
Place mated connectors 150mm from
the walls of a chamber that measure
1000 mm in length, width, and height.
Approximately 1.5kg of Portland
cement is to be diffused at a rate of 10
seconds per 15 minutes by blowing air
onto it. Expose for 1 hour
30 millivolt Maximum
Initial
&
60 millivolt Maximum
After Endurance Exposure
Leak Current
Apply a potential of 13 volts DC
across the adjacent contacts of a
mated pair. After 60 seconds,
measure the initial leakage current.
Place mated pair in a thermostatic
chamber at a temperature of 60±5° C
and a humidity level of 90-
95% for one
hour
10 microamps Maximum
Initial
&
1 milliamp Maximum Post
Environmental
Capacitance Measure between adjacent terminals
at 1 MHz. (Loaded: 50 ohms
impedance)
Loaded:
2
picofarad
maximum
Unloaded: 0.5 picofarad
maximum
5.2 MECHANICAL PERFORMANCE:
Item
Test Condition
Requirement
Terminal
Insertion and
Withdrawal Forces
Insert and withdraw a terminal (male
to female) at a rate of 25 ± 6mm (1 ±
1/4 inch) per minute.
70058 - Insertion force
shall be 4.45 N (1.0 lb)
maximum and withdrawal
0.56 N (0.125 lb) minimum
71851 - Insertion force
shall be 13.34 N (3.0 lb)
maximum and withdrawal
1.67 N (0.375 lb) minimum
PRODUCT SPECIFICATION
REVISION: ECR/ECN INFORMATION: TITLE: PRODUCT SPECIFICATION
SINGLE ROW – STACKABLE
LINEAR (SL) CONNECTOR SYSTEM
SHEET No.
N EC No: UCP2013-1367 7 of 10
DATE: 2012/10/15
DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:
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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.
N EC No: UCP2013-1367 8 of 10
DATE: 2012/10/15
DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:
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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
of
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
45
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 ± 3o C
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.
N EC No: UCP2013-1367 9 of 10
DATE: 2012/10/15
DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:
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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
PRODUCT SPECIFICATION
REVISION: ECR/ECN INFORMATION: TITLE: PRODUCT SPECIFICATION
SINGLE ROW – STACKABLE
LINEAR (SL) CONNECTOR SYSTEM
SHEET No.
N EC No: UCP2013-1367 10 of 10
DATE: 2012/10/15
DOCUMENT NUMBER: CREATED / REVISED BY: CHECKED BY: APPROVED BY:
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70400
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TEMPLATE FILENAME: PRODUCT_SPEC[SIZE_A](V.1).DOC
Item
Test Condition
Requirement
Temperature Rise
and
Cold Resistance
Temperature Rise: Mate the
connectors; and measure the
temperature rise at the rated current
after 45 minutes.
Cold Resistance: Place mated
connectors in an air circulating
chamber exposed to a temperature of
-40°C for 120 hours
Temperature Rise: 30°C
above ambient maximum
Temperature Rise: 30°C
above ambient maximum
Solderability
Molex SMES-152
Steam age 1 hr. Solder time 5 ± 0.5
seconds. Solder temperature: 245 ±
5°C
Non activated flux.
95% of the immersed area
must show no voids, pin
holes
Flowing Mixed Gas
(FMG)
Battelle Class II, 10 ppm
Cl
2
, 10 ppm
H2S, 100 ppm NO2, 70 ± 1% R.H., 25
deg. C.
50-60 CFM. 10 days mated and 7
days unmated exposure.
Contact Resistance:
10 milliohms Maximum
change from Initial
Resistance to Solder
Heats
Solder Time 3 ± 0.5 seconds
Solder Temperature: 260 ± 5°C
Immerse leads to a depth of 1.57mm
(.062 in.) from connector body.
Appearance: No damage
or discoloration of
connector materials.
6.0 PACKAGING:
Parts are packaged in trays, tubes or bulk packed, refer to appropriate Sales Drawing for specific
information.
7.0 QUALITY ASSURANCE PROVISIONS:
7.1 MATERIAL INSPECTION:
Shall consist of certification supported by verifying data.
7.2 ACCEPTANCE INSPECTION:
Acceptance of ongoing production product shall be determined by inspection according to
Molex approved quality plans and required PPM levels for critical characteristics.
7.3 CONFORMANCE TESTING:
Shall be performed on production quality manufactured products.
