RS PRO 9-Contact Male Interface Module, D-sub Connector, DIN Rail Mount, 1.5A

RS Stock No.: 665-9699Brand: RS PRO
brand-logo
View all in Interface Modules

Technical documents

Specifications

Brand

RS Pro

Gender

Male

Wire Size

22 → 14 AWG

Number Of Contacts

9

Connector Type

D-sub

Mounting Type

DIN Rail Mount

Test Proof Voltage

0.6kV

Voltage Rating

125 V ac/dc

Current Rating

1.5A

Cable CSA

0.2 → 2.5mm²

Dimensions

37 x 61 x 47mm

Depth

47mm

Length

37mm

Maximum Operating Temperature

+50°C

Width

61mm

Minimum Operating Temperature

-20°C

Product details

D Subminiature

Interconnect D-Subminiature into screw-clamp terminals
D-sub according to MIL-C-24308 / DIN41652
Compact 47 mm profile
Rail mount on DIN-rail TS35
1.5A current rating per pin
Stripping length, screw/tension spring 6-7mm
Alternative to pure individual wire approach

Stock information temporarily unavailable.

Please check again later.

Stock information temporarily unavailable.

₪ 241.52

Each (ex VAT)

₪ 282.58

Each (inc. VAT)

RS PRO 9-Contact Male Interface Module, D-sub Connector, DIN Rail Mount, 1.5A

₪ 241.52

Each (ex VAT)

₪ 282.58

Each (inc. VAT)

RS PRO 9-Contact Male Interface Module, D-sub Connector, DIN Rail Mount, 1.5A
Stock information temporarily unavailable.

Buy in bulk

quantityUnit price
1 - 9₪ 241.52
10 - 49₪ 196.39
50+₪ 174.63

Technical documents

Specifications

Brand

RS Pro

Gender

Male

Wire Size

22 → 14 AWG

Number Of Contacts

9

Connector Type

D-sub

Mounting Type

DIN Rail Mount

Test Proof Voltage

0.6kV

Voltage Rating

125 V ac/dc

Current Rating

1.5A

Cable CSA

0.2 → 2.5mm²

Dimensions

37 x 61 x 47mm

Depth

47mm

Length

37mm

Maximum Operating Temperature

+50°C

Width

61mm

Minimum Operating Temperature

-20°C

Product details

D Subminiature

Interconnect D-Subminiature into screw-clamp terminals
D-sub according to MIL-C-24308 / DIN41652
Compact 47 mm profile
Rail mount on DIN-rail TS35
1.5A current rating per pin
Stripping length, screw/tension spring 6-7mm
Alternative to pure individual wire approach