RS PRO , Straight , Female Gold , Copper Alloy , Backplane Connector Contact
Technical Document
Specifications
Brand
RS ProSeries
DIN 41612
Orientation
Straight
For Use With
DIN41612 Type M Female Connector
Gender
Female
Contact Plating
Gold
Maximum Contact Resistance
1.0mΩ
Contact Material
Copper Alloy
Current Rating
10.0A
Mounting Type
Cable Mount
Maximum Operating Temperature
125.0°C
Minimum Operating Temperature
-55.0°C
Country of Origin
Germany
Product details
DIN 41612 M Contacts
Power plug and socket contacts in both solder bucket and 90° terminations rated up to 40A
Contact resistance <3mΩ
Gold plated class 1
50Ω coaxial contacts accept RG178B/U & RG174A/U (RG316) cables by crimp and solder terminations
75Ω coaxial contacts accept RG179 cables by crimp or solder terminations
Coaxial contact resist. <10mΩ centre, <3Ω outer
High voltage inserts contact resistance, outer conductor = <3 mΩ
DIN41612 - Mixed Contact Range
Stock information temporarily unavailable.
Please check again later.
BD 3.625
Each (Exc. Vat)
BD 3.987
Each (inc. VAT)
1
BD 3.625
Each (Exc. Vat)
BD 3.987
Each (inc. VAT)
1
Buy in bulk
quantity | Unit price |
---|---|
1 - 19 | BD 3.625 |
20 - 74 | BD 3.010 |
75 - 299 | BD 2.530 |
300+ | BD 2.385 |
Technical Document
Specifications
Brand
RS ProSeries
DIN 41612
Orientation
Straight
For Use With
DIN41612 Type M Female Connector
Gender
Female
Contact Plating
Gold
Maximum Contact Resistance
1.0mΩ
Contact Material
Copper Alloy
Current Rating
10.0A
Mounting Type
Cable Mount
Maximum Operating Temperature
125.0°C
Minimum Operating Temperature
-55.0°C
Country of Origin
Germany
Product details
DIN 41612 M Contacts
Power plug and socket contacts in both solder bucket and 90° terminations rated up to 40A
Contact resistance <3mΩ
Gold plated class 1
50Ω coaxial contacts accept RG178B/U & RG174A/U (RG316) cables by crimp and solder terminations
75Ω coaxial contacts accept RG179 cables by crimp or solder terminations
Coaxial contact resist. <10mΩ centre, <3Ω outer
High voltage inserts contact resistance, outer conductor = <3 mΩ