Self-homodyne Coherent Lidar System for Range and Velocity Detection

Lidar systems are gaining popularity due to their benefits, including high resolution, precise accuracy and scalability. An FMCW lidar based on self-homodyne coherent detection technique is used for range and velocity measurement with a phase diverse coherent receiver. The system employs a self-homodyne detection technique, where a LO signal is derived directly from the same laser source as the transmitted signal and is the same linear chirp as the transmitted signal, thereby minimizing phase noise. A coherent receiver is employed to get in-phase and quadrature components of the photocurrent and to perform de-chirping. Since the LO has the same chirp as the transmitted signal, the mixing process in the photodiodes effectively cancels out the chirp or frequency modulation from the received signal. The spectrum of the de-chirped complex waveform is used to determine the range and velocity of the target. This lidar system simplifies the signal processing by using photodetectors for de-chirping. Additionally, after de-chirping, the resulting signal has a much narrower bandwidth compared to the original chirp signal and signal processing can be performed at lower frequencies.