LC Field
Key features
- Sealed against fluids and dust (IP68)
- Shock, vibration proof
- Number of Channels: 2
- Typical Insertion Loss: 0,5dB in MM and SM
- Durability 500 mating/unmating cycles (changes for<0,2 dB)
Applications
- Military communication
- Base Station
- Navy
- Railways
The patented RJStop(R) system allows use of a standard LC patchcord in a metallic plug, which will protect it from shock, dust and fluids. There is no need for field termination.
This metallic plug is connected into a receptacle, using a Tri Start Thread coupling mechanism (MIL-DTL-38999 Series III type) with anti-decoupling device for high vibrations.
Related products
Amphenol Socapex LC Field Connector is an innovative solution that allows users to transform their LC cordset into a rugged LC Field connector. This connector is sealed against fluids and dust, making it ideal for use in military communication, base stations, navy, and railways. It is also shock and vibration-proof, ensuring that it can withstand harsh conditions. One of the key features of this connector is the patented RJStop(R) system, which allows the use of a standard LC patchcord in a metallic plug that protects it from shock, dust, and fluids. This system eliminates the need for field termination, making installation quick and easy. The metallic plug is connected into a receptacle using a Tri Start Thread coupling mechanism (MIL-DTL-38999 Series III type) with an anti-decoupling device for high vibrations. This coupling mechanism provides a secure and reliable connection that can withstand even the most demanding environments. Amphenol LC Field Connector has two channels and a typical insertion loss of 0.5dB in MM and SM. It has a durability of 500 mating/unmating cycles with changes of less than 0.2 dB. Overall, Amphenol Socapex LC Field Connector is an excellent solution for those who need a rugged, high-performance connector for their LC cordset. Its IP68 rating, shock and vibration-proof design, and patented RJStop(R) system make it an ideal choice for use in harsh environments.