Low Noise Transimpedance Amplifier Design Using Berkeley Analog Generator

Eric Jan

EECS Department, University of California, Berkeley

Technical Report No. UCB/EECS-2020-146

August 13, 2020

http://www2.eecs.berkeley.edu/Pubs/TechRpts/2020/EECS-2020-146.pdf

Modern applications for high speed optical links demand low noise as a fundamental constraint. Much prior work exists in terms of low noise optimization, with various different techniques and architecture proposed, but few are generalizable across process and are comprehensive enough for other designers to use. This work investigates fundamental techniques at both an architectural level through equalization and system-wide co-optimzation and low-level component sizing techniques achieved through automated design script also covering layout and schematic generation. The result is a true push-button flow interfacing with Berkeley Analog Generator that takes in a generic set of desired system specifications and produces a corresponding layout and schematic of a satisfactory system. The proposed methodology, techniques, design scripts and resultant push-button flow are validated across multiple design points with various photodiode models by taping out three macro designs in a 45nm SOI process.

Advisors: Vladimir Stojanovic

BibTeX citation:

@mastersthesis{Jan:EECS-2020-146,
    Author= {Jan, Eric},
    Title= {Low Noise Transimpedance Amplifier Design Using Berkeley Analog Generator},
    School= {EECS Department, University of California, Berkeley},
    Year= {2020},
    Month= {Aug},
    Url= {http://www2.eecs.berkeley.edu/Pubs/TechRpts/2020/EECS-2020-146.html},
    Number= {UCB/EECS-2020-146},
    Abstract= {Modern applications for high speed optical links demand low noise as a fundamental constraint. Much prior work exists in terms of low noise optimization, with various different techniques and architecture proposed, but few are generalizable across process and are comprehensive enough for other designers to use. This work investigates fundamental techniques at both an architectural level through equalization and system-wide co-optimzation and low-level component sizing techniques achieved through automated design script also covering layout and schematic generation. The result is a true push-button flow interfacing with Berkeley Analog Generator that takes in a generic set of desired system specifications and produces a corresponding layout and schematic of a satisfactory system. The proposed methodology, techniques, design scripts and resultant push-button flow are validated across multiple design points with various photodiode models by taping out three macro designs in a 45nm SOI process.},
}

EndNote citation:

%0 Thesis
%A Jan, Eric 
%T Low Noise Transimpedance Amplifier Design Using Berkeley Analog Generator
%I EECS Department, University of California, Berkeley
%D 2020
%8 August 13
%@ UCB/EECS-2020-146
%U http://www2.eecs.berkeley.edu/Pubs/TechRpts/2020/EECS-2020-146.html
%F Jan:EECS-2020-146