Integrated Track-and-Receive System for Free-Space Optical Communications

A monostatic, beaconless fiber transceiver for free-space optical links infers fine tracking information using receiver optoelectronics and an injected pointing dither (nutation). A MEMS steering mirror fine-points the beams and injects the nutation. While this may disturb fiber coupling and transmit beam pointing, link loss becomes negligible for sufficient SNR. The SNR for links without point-ahead correction is about 35 dB to keep dither loss below 0.1 dB and RMS spacial tracking noise below a tenth of the beam divergence. Since the pointing and tracking bandwidth is much smaller than the receiver communication bandwidth, this SNR is achievable with appropriate filtering. For point-ahead correction, a single-mode fiber transceiver can reach up to about 1 beamwidth of correction, while a few-mode fiber transceiver can reach up to about 1.75 beamwidths due to improved coupling sensitivity at higher point-ahead offsets. Using a double-clad fiber with a secondary detector further reduces the incurring coupling loss.

Researchers

Kerri Cahoy / Paul Serra / Ondrej Cierny

Departments: Department of Aeronautics and Astronautics
Technology Areas: Communication Systems: Optical, Wireless / Computer Science: Networking & Signals / Electronics & Photonics: Photonics

  • integrated track-and-receive system for free-space optical communications
    United States of America | Granted | 11,296,787

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