Title of article
A Novel Resistive Capacitive Feedback Trans-impedance Amplifier Optimization Using IPSO Algorithm
Author/Authors
Niyazi, Hamid Department of Electrical Engineering - Yazd Branch Islamic Azad University, Yazd , Rastegari, Fakhralsadat Department of Electrical Engineering - Yazd Branch Islamic Azad University, Yazd , Pourahmadi, Majid Department of Electrical Engineering - Yazd Branch Islamic Azad University, Yazd
Pages
7
From page
23
To page
29
Abstract
A novel low noise trans-impedance amplifier is proposed using low cost 0.18 µm CMOS technology. A resistive-capacitive feedback is used to extend the bandwidth of the amplifier. As the structure is inductor less, it is suitable for low cost integrated optical interconnects. In this paper Improved Particle Swarm Optimization have applied to determine optimal trans-resistance and noise of proposed structure of amplifier. Simulation results showed a -3 dB bandwidth of 5 GHZ with a trans-impedance gain of ≈ 62 dB ohms. The total voltage source power dissipation is less than 5 mW that is much less than that of conventional trans-impedances. The output noise voltage spectral density is 9.5 nV/sqrt(Hz) with a peak of 15nV/sqrt(Hz), while, the input referred noise current spectral density is below 10pA/sqrt(Hz) within the amplifier frequency band.
Keywords
Trans-impedance amplifier , resistive-capacitive feedback , inductor less , low noise , Low Power
Journal title
Astroparticle Physics
Serial Year
2016
Record number
2491067
Link To Document