| Attribute | Value |
|---|---|
| Product Category: | |
| Manufacturer: | Amphenol Sine Systems |
| Manufacturer Part Number: | Amphenol Sine Systems RT00122PNH03 |
| Military Specification: | MIL-DTL-26482 |
| Series: | ecomate® RM Series |
| Gender: | Male |
| Housing Material: | Zinc Alloy |
| Number of Contacts: | 4 |
| Mount Type: | Panel Mount |
| Termination Method: | Crimp |
| Contact Material: | Copper Alloy |
| Maximum Operating Temperature: | 125 °C |
| Minimum Operating Temperature: | -40 °C |
| IP Rating: | IP67 |
| Shell Size: | 12 |
| Contact Type: | Pin |
| Mating Type: | Bayonet |
| Seal Material: | Silicone Rubber |
| Shell Size - Insert Arrangement: | 12-4 |
| Shell Material: | Zinc Alloy |
| Mating Cycles: | 500 cycle |
| Wire Size: | 14 to 12 AWG, 28 to 20 AWG |
| Shell Type: | Square Flange Receptacle |
| Shell Finish: | Nickel |
| Current Rating: | 23 A, 5 A, 7.5 A |
| Voltage Rating: | 500 V |
| Insert Arrangement: | 12-4 |
| Locking Mechanism: | Bayonet |
| SKU: | AMERT00122PNH03 |
RT00122PNH03
Specifications
Detailed Description
Introducing the RT00122PNH03, a rugged and reliable circular connector designed for military specifications. This male receptacle features a durable zinc alloy housing with a panel mount configuration, ensuring secure and stable connections in harsh environments. With a MIL-DTL-26482 certification, it guarantees performance excellence. The 4 gold-plated contacts, crimp termination method, and silicone rubber seal make it ideal for applications requiring IP67 protection and reliable signal transmission. Operating seamlessly in temperatures ranging from -40 °C to 125 °C, it offers versatility in demanding conditions. The bayonet mating type and 500 mating cycles ensure easy and durable connectivity. Suitable for wire sizes 14-12 AWG and 28-20 AWG, with a shell finish of nickel plating, this connector provides a current rating of 5A, 23A, and 7.5A at 500V, meeting the needs of various high-performance systems. Trust in the ecomate® RM series for quality and durability in critical operations.
