MS3474W22-21S

MS3474 - Connectors, Receptacle, Electrical, Series 2, Crimp Type, Rear Mounting Jam Nut, Bayonet Coupling, 26482 Series II

The MIL-DTL-26482 Series 2 connectors feature enhanced sealing properties compared to Series I, with rear hardware not included for added versatility. Available in various configurations including narrow and wide flange receptacles, cable connectors, and jam nut receptacles, they meet rigorous military specifications for harsh environments. With 9 shell sizes and 33 insert arrangements, these connectors utilize M39029 crimp contacts in sizes 20, 16, and 12. Constructed with aluminum shells, they offer a range of plating options such as olive drab cadmium and electroless nickel, meeting RoHS and Boeing BACC standards. Designed for reliability in corrosive and fluid-resistant environments, these connectors are essential for demanding applications.
AVAILABILITY
Immediate Shipment:NA
Stock Location:In Stock
Factory Stock:Call for Stock
Factory Lead:
Unit Of Measure:
Minimum/Multiple:1/1
Pricing
CALL:800.400.7041
Product Category:
Manufacturer:Aero-Electric Connector | Conesys
Manufacturer Part Number:Aero-Electric Connector | Conesys MS3474W22-21S
Military Specification:MIL-DTL-26482 II
Series:Series II
Connector Type:Circular, Receptacle
Number of Contacts:21
Mount Type:Jam Nut Mounting
Contact Plating:Gold
Maximum Operating Temperature:175 °C
Minimum Operating Temperature:-55 °C
Contact Size:16(21)
Contact Type:Rear Release, Removable Crimp Contacts
Mating Type:Bayonet
Finish/Coating:Cadmium Olive Drab
Termination Type:Crimp
Keyway Polarization:N
Service Rating:II
Shell Style:Jam Nut Mounting Receptacle
Shell Size - Insert Arrangement:22-21
Service Class:W
Shell Material:Aluminum
Contact Gender:Female
Conductivity:Conductive
Ingress Protection:Environment Resistant
Contact Style:Socket
Service Class Detail:Corrosive and Fluid Resistant Conductive Cadmium Plate
SKU:AERMS3474W22-21S

Environmental Initiative Details

Environmental Initiative:RoHS
Compliant:Unknown
Date of this Information:Unknown
Notes: