| Attribute | Value |
|---|---|
| Product Category: | |
| Manufacturer: | Amphenol Pcd |
| Manufacturer Part Number: | Amphenol Pcd 62GB12E1832SE |
| Military Specification: | MIL-C-26482E |
| Series: | 62GB Series |
| Contact Plating: | Gold |
| Shell Size: | 18 |
| Contact Type: | Socket |
| Shell Material: | Aluminum |
| Shell Type: | Box Mount Receptacle |
| Shell Finish: | Olive Drab Zinc Cobalt |
| Insert Arrangement: | 18-32 |
| Keying Position: | E |
| Locking Mechanism: | Bayonet |
| Operating Temperature: | -55 to 125 °C |
| SKU: | PCD62GB12E1832SE |
62GB12E1832SE
| Heilind Number: | PCD62GB12E1832SE |
| Manufacturer: | Amphenol Pcd |
| Manufacturer Number: | 62GB12E1832SE |
| ECAD Model: | |
Description:
This Miniature Bayonet Lock Connector Series Offers Designers Important Features not Found in any Other Range of Connectors. 62GB Series Connectors Compliant to the United States Military Specification MIL-C-26482E on Certificate No. 1713. They are the First and Only British Connectors to Have Achieved This. A Doubly Strong Position which Amphenol are Well Geared to Handle. The Manufacturing Facilities of the Whitstable Plant have Been Cited as Exemplary in Europe. Certainly the Layout is Extensive and Extremely Efficient. 62GB Series Connectors have Been well Established with Government Authorities on an International Scale.
More >>Specifications
Detailed Description
Introducing the MIL-C-26482E compliant 62GB12E1832SE, a rugged and reliable circular connector from the 62GB Series. Designed for demanding military and aerospace applications, this high-performance connector features gold contact plating for optimal conductivity. Its aluminum shell with Olive Drab Zinc Cobalt finish ensures durability in harsh environments. With a box mount receptacle shell type and bayonet locking mechanism, the 62GB12E1832SE offers secure and easy installation. Engineered with insert arrangement 18-32 and keying position E, it guarantees proper mating every time. Trust in this Circular MIL Spec Connector for seamless connectivity in critical operations.
