Quintech 2307 Miniature Fiber Optic Receiver
- Compact, efficient form factor provides fiber receiver functionality in zero rack space
- Provides high quality, direct optical input to XRF series routers and other devices with DC biased RF input ports
- Wide frequency range for L-band, over-the-air DTV and other applications
- Tri color LED optical input strength indicator
- Efficient design featuring high reliability and low power consumption
- Protocol independent passes any modulation format
- Minimizes the use of coax in the infrastructure, providing the highest possible quality signals over longer distances and without high frequency roll-off
- Compatible with Evertz 2408LT, 7708LT and 7807LT-2 series fiber transmitters
The 2307LR is a fiber optic receiver in a revolutionary form factor. With the same diameter as a BNC connector, and overall length of 3.3” (85mm), the 2307LR is the smallest RF optical receiver in the industry. It accepts an optical LC connector input on one end, and provides an electrical output on the other. The 2307LR attaches to the input of a device without any intermediate cabling required. This essentially offers direct optical input to the connected piece of equipment, without incurring the cost and rack space associated with using conventional optical receivers. The primary application is in providing direct optical inputs to XRF series routers, without requiring external fiber receiver cards. The 2307LR receives its power from the same connector that attaches to the input of the companion device; therefore , the 2307LR may also be interfaced to any device that provides LNB voltage at its RF input connector. For example, when connected to a 7703DA16-RF-LNB, a fiber receiver with 16 electrical outputs is created. A 2307LR connected to the input of a 7703PA-LNB results in a fiber receiver with a high-powered output and adjustable slope compensation. The 2307LR may also be connected to the DC-biased inputs of devices such as IRDs, facilitating direct optical input via high performance optical infrastructure.