Low-cost high-speed rapidly reconfigurable integrated half-duplex optical transceiver front-end

We present and demonstrate an integrated approach to make low-cost high-speed half-duplex optical transceiver with rapid reconfigurability. A single Distributed-Feedback (DFB) diode is employed as the unified E/O-O/E device, which is dynamically biased as laser or photodetector in transmitter or receiver mode. The bias for the DFB and the transmit/receive (T/R) signal path are provided by a custom-designed reconfigurable CMOS chip, which contains the biasing circuitry, a high-speed T/R switch and a burst-mode transimpedance amplifier (BM-TIA). The transceiver front-end operates up to 5 Gb/s for both transmitter (Tx) and receiver (Rx) mode experimentally, while its reconfiguration time is less than 131 ns. This integrated approach not only halves the transceiver optics to facilitate low cost, but also enables high-speed signal transmission as well as rapid reconfiguration, which will be critical for the fiber-to-everything paradigm shift in the near future.