| Attribute | Value |
|---|---|
| Product Category: | |
| Manufacturer: | Amphenol Pcd |
| Manufacturer Part Number: | Amphenol Pcd 62GB12E1203SE |
| Series: | 62GB Series |
| Shell Size: | 12 |
| Shell Type: | Box Mount Receptacle |
| Contact Type: | Socket |
| Shell Finish: | Olive Drab Zinc Cobalt |
| Shell Material: | Aluminum |
| Contact Plating: | Gold |
| Keying Position: | E |
| Locking Mechanism: | Bayonet |
| Insert Arrangement: | 12-3 |
| Military Specification: | MIL-C-26482E |
| Operating Temperature: | -55 to 125 °C |
| SKU: | PCD62GB12E1203SE |
62GB12E1203SE
| Heilind Number: | PCD62GB12E1203SE |
| Manufacturer: | Amphenol Pcd |
| Manufacturer Number: | 62GB12E1203SE |
| 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 62GB12E1203SE, a rugged and reliable military specification connector from the 62GB Series. Designed for demanding environments, this box mount receptacle features gold contact plating for superior conductivity and durability. Constructed with a durable aluminum shell finished in olive drab zinc cobalt, it offers exceptional resistance to corrosion and wear. With an insert arrangement of 12-3 and a keying position of E, this connector ensures secure and precise connections every time. The bayonet locking mechanism provides quick and easy mating, making it ideal for field applications. Trust in the 62GB12E1203SE for high-performance connectivity in harsh conditions.
