A Low-Power CMOS Trans-Impedance Amplifier for 2.5 Gb/S Optical Communication Systems
Subject Areas : Low-power devicesMojgan Mohseni 1 , Mehdi Dolatshahi 2
1 - MSc /Najafabad Branch, Islamic Azad University
2 - Assistant Professor/Najafabad Branch, Islamic Azad University
Keywords: CMOS, Transimpedance amplifier, optical communications,
Abstract :
This Paper presents a new Trans-impedance amplifier for optical receiver circuits. The amplifier is based on parallel (R-C) feedback topology which is optimized for power consumption and uses shunt-peaking technique to enhance the frequency bandwidth of the amplifier. However, the circuit is designed and simulated using 0.18µm CMOS technology parameters. As simulation results show, the amplifier has a gain of 67.5dBΩ, bandwidth of 3GHz while consumes only 12.16 mW power which shows a very good performance for using in a 2.5Gb/S (SONET OC-48) optical communication system. Finally, as the simulated Eye-Diagram shows, the circuit has a very good performance for a 2.5Gb/S system for a 10µA input current.
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