@article{Honarmand_Zohoori_Abbasi_2024, title={A Low-power, CMOS Optical Communication Receiver System for 5Gbps Applications based on RGC Structure}, volume={14}, url={https://oiccpress.com/Majlesi-Journal-of-Electrical-Engineering/article/a-low-power-cmos-optical-communication-receiver-system-for-5gbps-applications-based-on-rgc-structure/}, DOI={10.29252/mjee.14.4.57}, abstractNote={An optical communication receiver system is presented in this research using 65nm CMOS, which consists of three low-power active differential stages as Limiting Amplifier (LA) following an ultra-low-power RGC-Based Transimpedance Amplifier (RB-TIA). The presented active circuit of the RB-TIA is followed by a gain stage that extends the -3dB frequency of the circuit by creating a resonance for the load capacitance. Thus, needless of consuming extra power, a wide-bandwidth circuit has been designed. In addition, employing active-inductor loads within the LA stages enables obtaining a 5Gbps receiver system. The RB-TIA consumes 573µW and provides 3.52GHz frequency, while the complete optical receiver consumes only 4.76mW power to provide -3dB frequency of 3.5GHz and high gain of 80dB (10’000). The circuits have been mathematically presented and discussed, and simulations have justified the presented circuit design.}, number={4}, journal={Majlesi Journal of Electrical Engineering}, publisher={OICC Press}, author={Honarmand, Sima and Zohoori, Soorena and Abbasi, Kavoos}, year={2024}, month={Feb.}, keywords={Low-power, Optical receiver, Transimpedance amplifier, Limiting Amplifier, Regulated Cascode.} }