622 Mbit/s‐sixteen‐channel FDM coherent optical transmission system using two‐section MQW DFB‐LDs

Abstract

AbstractA light source and optical frequency control technique needed for realizing the optical frequency division multiplexing transmission (Optical FDM) is developed and experiments of a 622 Mbit/s‐sixteen‐channel FDM coherent optical transmission based on the heterodyne detection are conducted. the transmission is configured such that sixteen 1.55 μm wavelength two‐section MQW DFB‐laser diode (LD) are multiplexed by a star coupler. the wavelength of each LD was spaced at 10 GHz intervals with the frequency fluctuation kept under + 100 MHz by the optical frequency control circuit that uses a scanning Fabry‐Perot interferometer. the receiver configuration has a delay‐line demodulator, polarization diversity, and a frequency discriminator with no dead bands. For the station light source, the two‐section MQW DFB‐LD was tuned, which is the same as the transmitter, using current and temperature control. Random channels could selectively be received with a receiver sensitivity of ‐39.3 dBm. It was verified that 16 channels of 622 Mbit/s high‐vision (Japanese standard HDTV) signal could be transmitted through 110 km of 1.3 μm zero dispersion fiber without signal degradation.