PCB header - MC 1,5/ 2-GF-3,5 AU
1995787

PCB headers, nominal cross section: 1.5 mm2, color: green, nominal current: 8 A, rated voltage (III/2): 160 V, contact surface: Gold, type of contact: Male connector, number of potentials: 2, number of rows: 1, number of positions: 2, number of connections: 2, product range: MC 1,5/..-GF, pitch: 3.5 mm, pin layout: Linear pinning, solder pin [P]: 3.4 mm, number of solder pins per potential: 1, plug-in system: MINI COMBICON, Pin connector pattern alignment: Standard, locking: Screw locking, mounting: Threaded flange, type of packaging: packed in cardboard


Product Details




Type Standard
Product line COMBICON Connectors S
Product type PCB headers
Number of positions 2
Pitch 3.5 mm
Number of connections 2
Number of rows 1
Mounting flange Threaded flange
Number of potentials 2
Pin layout Linear pinning

Nominal current IN 8 A
Nominal voltage UN 160 V
Pollution degree 3
Contact resistance 1.4 mΩ
Rated voltage (III/3) 160 V
Rated surge voltage (III/3) 2.5 kV
Rated voltage (III/2) 160 V
Rated surge voltage (III/2) 2.5 kV

Mounting type Wave soldering Wave soldering
Mounting type Wave soldering
Tightening torque 0.3 Nm

Material data - contact
Note WEEE/RoHS-compliant, free of whiskers according to IEC 60068-2-82/JEDEC JESD 201
Contact material Cu alloy
Surface characteristics Selective coating
Metal surface contact area (top layer) Gold (0.8 - 1.4 µm Au)
Metal surface contact area (middle layer) Nickel (2 - 3 µm Ni)
Metal surface soldering area (top layer) Gold (0.8 - 1.4 µm Au)
Metal surface soldering area (middle layer) Nickel (2 - 3 µm Ni)
Material data - housing
Housing color green (6021)
Insulating material PBT
Insulating material group llla
CTI according to IEC 60112 225
Flammability rating according to UL 94 V0

Dimensional drawing
Width 17.3 mm
Height 12.6 mm
Installed height 9.2 mm
Length of the solder pin 3.4 mm
Length 7.25 mm
Length of the solder pin 3.4 mm
Hole diameter 1.2 mm
Pitch 3.5 mm

Test for conductor damage and slackening
Specification IEC 60999-1:1999-11
Result Test passed
Pull-out test
Specification IEC 60999-1:1999-11
Conductor cross section/conductor type/tractive force setpoint/actual value 0.14 mm² / solid / > 7 N
0.14 mm² / flexible / > 7 N
1.5 mm² / solid / > 40 N
1.5 mm² / flexible / > 40 N
Insertion and withdrawal forces
Result Test passed
No. of cycles 100
Insertion strength per pos. approx. 5 N
Withdraw strength per pos. approx. 3 N
Torque test
Specification IEC 60999-1:1999-11
Contact holder in insert
Specification IEC 60512-15-1:2008-05
Contact holder in insert
Requirements >20 N
Test passed
Resistance of inscriptions
Specification IEC 60068-2-70:1995-12
Result Test passed
Polarization and coding
Specification IEC 60512-13-5:2006-02
Result Test passed
Visual inspection
Specification IEC 60512-1-1:2002-02
Result Test passed
Dimension check
Specification IEC 60512-1-2:2002-02
Result Test passed

Thermal test | Test group C
Specification IEC 60512-5-1:2002-02
Tested number of positions 16
Insulation resistance
Specification IEC 60512-3-1:2002-02
Insulation resistance, neighboring positions > 5 MΩ
Air clearances and creepage distances |
Specification IEC 60664-1:2007-04
Insulating material group llla
Comparative tracking index (IEC 60112) CTI 225
Rated insulation voltage (III/3) 160 V
Rated surge voltage (III/3) 2.5 kV
minimum clearance value - non-homogenous field (III/3) 1.5 mm
minimum creepage distance (III/3) 2.5 mm
Rated insulation voltage (III/2) 160 V
Rated surge voltage (III/2) 2.5 kV
minimum clearance value - non-homogenous field (III/2) 1.5 mm
minimum creepage distance (III/2) 1.6 mm
Rated insulation voltage (II/2) 250 V
Rated surge voltage (II/2) 2.5 kV
minimum clearance value - non-homogenous field (II/2) 1.5 mm
minimum creepage distance (II/2) 2.5 mm

Vibration test
Specification IEC 60068-2-6:2007-12
Frequency 10 - 500 - 10 Hz
Sweep speed 1 octave/min
Amplitude 0.35 mm (10 - 60.1 Hz)
Sweep speed 5g (60,1 - 500 Hz)
Test duration per axis 2 h
Durability test
Specification IEC 60512-9-1:2010-03
Impulse withstand voltage at sea level 2.95 kV
Contact resistance R1 1.4 mΩ
Contact resistance R2 1.5 mΩ
Insertion/withdrawal cycles 100
Insulation resistance, neighboring positions > 5 MΩ
Climatic test
Specification ISO 6988:1985-02
Corrosive stress 1.0 dm3 SO2 on 300 dm3/40 °C/3 cycles
Thermal stress 100 °C/168 h
Power-frequency withstand voltage 1.39 kV
Shocks
Specification IEC 60068-2-6:2007-12
Pulse shape Semi-sinusoidal
Acceleration 30g
Shock duration 18 ms
Test directions X-, Y- and Z-axis (pos. and neg.)
Ambient conditions
Ambient temperature (operation) -40 °C ... 100 °C (dependent on the derating curve)
Ambient temperature (storage/transport) -40 °C ... 70 °C
Relative humidity (storage/transport) 30 % ... 70 %
Ambient temperature (assembly) -5 °C ... 100 °C

Type of packaging packed in cardboard
Outer packaging type Carton

Item number 1995787
Packing unit 50 pc
Minimum order quantity 50 pc
Sales Key AAAECA
Product Key AABSAB
GTIN 4046356009775
Weight per Piece (including packing) 1.77 g
Weight per Piece (excluding packing) 1.498 g
Customs tariff number 85366930
Country of origin DE


ECLASS

ECLASS-9.0 27440402
ECLASS-10.0.1 27440402
ECLASS-11.0 27460201

ETIM

ETIM 8.0 EC002637

UNSPSC

UNSPSC 21.0

CSA

Approval ID: 13631
Approval Specification Data
Nominal Voltage UN Nominal Current IN Cross Section AWG Cross Section mm2
Use group B
300 V 8 A
Use group D
300 V 8 A

IECEE CB Scheme

Approval ID: DE1-60987-B1B2
Approval Specification Data
Nominal Voltage UN Nominal Current IN Cross Section AWG Cross Section mm2
160 V 8 A

EAC

Approval ID: B.01687

cULus Recognized

Approval ID: E60425-20110128
Approval Specification Data
Nominal Voltage UN Nominal Current IN Cross Section AWG Cross Section mm2
Use group B
300 V 8 A
Use group D
300 V 8 A

VDE report with production monitoring

Approval ID: 40011723
Approval Specification Data
Nominal Voltage UN Nominal Current IN Cross Section AWG Cross Section mm2
160 V 8 A

China RoHS Environmentally friendly use period: unlimited = EFUP-e
No hazardous substances above threshold values

Your advantages

Gold-plated contacts ensure transfer quality remains stable over the long term
Well-known mounting principle allows worldwide use
Screwable flange for superior mechanical stability
Maximum flexibility when it comes to device design – one header for connectors with different connection technologies