Discontinued — No Longer Available New
This model has been discontinued by Pelco. Shop current Pelco products → or see the recommended alternatives below.
Pelco FRV10D1A2S1ST Fiber Optic Receiver
The Pelco FRV10D1A2S1ST is a single-mode fiber receiver designed for professional surveillance systems requiring consolidated signal transmission over fiber infrastructure. This ST simplex connector-equipped receiver multiplexes video, bidirectional data, and dual audio channels through a single fiber strand, streamlining head-end installation and reducing infrastructure complexity in enterprise deployments.
Key Features
- Single-mode fiber receiver with ST simplex connector
- Consolidates video, 2-way data, and 2 audio channels on one fiber
- Compatible with Pelco Spectra PTZ dome camera systems
- Eliminates need for separate fiber strands per signal type
- NDAA Section 889 compliant for federal installations
- Pairs with FTV10D1A2S1ST transmitter at camera end
- 1-year warranty with global Pelco support network
Technical Specifications
Engineered for single-mode fiber runs in extended-distance surveillance deployments, the FRV10D1A2S1ST reduces operational costs and installation time by consolidating multiple signal types into one optical connection. The receiver supports full camera control protocols, enabling comprehensive PTZ functionality and two-way communication channels essential for modern security operations.
Applications
Ideal for large-scale enterprise surveillance networks, government facilities, and industrial installations where fiber-based infrastructure provides immunity from electromagnetic interference. Particularly valuable for Pelco Spectra dome installations requiring multiple signal pathways without infrastructure expansion.
Compatibility & Variants
For FC connector-based infrastructure, order the FRV10D1A2S1FC variant. For multimode fiber within building distances, the FRV10D1A2M1ST provides a suitable alternative. All variants maintain compatibility with authorized Pelco distribution and installation networks.
