MIL Spec ST Connector, 9/125m Singlemode, Zirconia Ferrule, Screw-On Boot, Non-Locking, Nickel Plated Brass Body
Single Terminus (ST) Connectors
Installation zone RECOMMENDATION
OCC’s ruggedized ST connector and ST adapter products represent one of the best single-fiber connection systems available to industries where the ability to withstand extreme temperature change, shock, vibration, or corrosion is required. We offer both commercial-off-the-shelf (COTS) ST’s for harsh environment applications and the fully qualified, Military ST (MIL) that meets or exceeds 100% of the military specification MIL-DTL-83522E.
Applications
- Navy Shipboard Systems
- Army and Marine Corp TAC COM
- Pierside/Ship-to-Shore Communications
- Disaster Recovery Emergency Communications
- Commercial and Military Antennas and Radars
- Mobile Tactical Shelters
- Mobile or Remote Broadcast Harsh Environments
- Oil and Gas Industries
Features
- Nickel-plated brass or stainless steel options are available
- Available to support single-mode and multimode fibers
- Accommodate fiber cables with outer jackets from 2.0mm to 3.0mm outer diameters
- The locking version features washers that prevent inadvertent optical disconnect due to stress on the cable, and are more resistant to cable pull force or repeated shock and/or vibration
- Up to 50 lbs. of pull strength protection is readily achievable using standard termination techniques
- A convenient screw-on boot feature eliminates the need for a cumbersome boot tool
- The MIL ST features a higher spring force that passes Navy High Shock (explosive) requirements
- A slightly lower spring force allows OCC’s COTS ST connectors to provide the same optical performance as the MIL ST in standard shock and vibration while also allowing successful coupling with composite adapters and devices
- OCC’s ST’s feature a closed entry design which provides both easier mating when new and retains its mating profile for easier mating over repeated in-field mating cycles
- Ability to inter-mate with ST connectors in the field