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W3005927642 abstract "Recently, different medical devices have emerged and utilized in a numerous health care fields such as pulse oximetry, cuffless blood pressure using Photoplethysmogram (PPG), noninvasive blood glucose measuring, and Near Infrared Spectroscopy (NIRS). Those devices are very similar in their analog front end circuit which is a transimpedance amplifier (TIA). Many different TIA topologies have appeared in different optoelectronic fields which make the choice of the best TIA topology for a certain application a challenging task. In this regard, this paper presents a comparison between state of the art, previously published TIA topologies. All topologies are simulated at four different simulation cases to account for various design scenarios. The topologies are simulated with 10 pF photodiode (PD) input capacitance and 5 KHz bandwidth (BW) while optimizing for two different targets; one time for minimum input noise and the other for minimum power consumption. Moreover, the same procedures are performed with 2 pF PD and 100 MHz BW to account for higher BW demanding applications. The studied topologies are compared according to their transimpedance gain, power consumption, total input referred noise current, and dynamic range (DR) to expose their relative merits. A noise and a transimpedance gain mathematical models are also presented for each topology to assist the comparison. Recommendations to designers on which TIA to select in a certain application are concluded according to the obtained results." @default.
W3005927642 created "2020-02-24" @default.
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W3005927642 date "2020-01-01" @default.
W3005927642 modified "2023-10-13" @default.
W3005927642 title "CMOS Transimpedance Amplifiers for Biomedical Applications: A Comparative Study" @default.
W3005927642 cites W1496480222 @default.
W3005927642 cites W1559153186 @default.
W3005927642 cites W1601180381 @default.
W3005927642 cites W1601901011 @default.
W3005927642 cites W1966811960 @default.
W3005927642 cites W1974925979 @default.
W3005927642 cites W1989994987 @default.
W3005927642 cites W1995926160 @default.
W3005927642 cites W1998970380 @default.
W3005927642 cites W2007141380 @default.
W3005927642 cites W2010125684 @default.
W3005927642 cites W2017916221 @default.
W3005927642 cites W2026677429 @default.
W3005927642 cites W2052351374 @default.
W3005927642 cites W2053356496 @default.
W3005927642 cites W2064477623 @default.
W3005927642 cites W2068421067 @default.
W3005927642 cites W2076023293 @default.
W3005927642 cites W2077346804 @default.
W3005927642 cites W2078268525 @default.
W3005927642 cites W2083370403 @default.
W3005927642 cites W2099636456 @default.
W3005927642 cites W2101917397 @default.
W3005927642 cites W2131853386 @default.
W3005927642 cites W2134299622 @default.
W3005927642 cites W2146385727 @default.
W3005927642 cites W2153688802 @default.
W3005927642 cites W2155735390 @default.
W3005927642 cites W2158103696 @default.
W3005927642 cites W2166241773 @default.
W3005927642 cites W2166564467 @default.
W3005927642 cites W2167242718 @default.
W3005927642 cites W2170769596 @default.
W3005927642 cites W2171214731 @default.
W3005927642 cites W2308565020 @default.
W3005927642 cites W2309518356 @default.
W3005927642 cites W2319160543 @default.
W3005927642 cites W231933568 @default.
W3005927642 cites W2336549744 @default.
W3005927642 cites W2462580769 @default.
W3005927642 cites W2475675708 @default.
W3005927642 cites W2488159282 @default.
W3005927642 cites W2505721444 @default.
W3005927642 cites W2511952571 @default.
W3005927642 cites W2514338478 @default.
W3005927642 cites W2570632582 @default.
W3005927642 cites W2581659157 @default.
W3005927642 cites W2587228267 @default.
W3005927642 cites W2599976224 @default.
W3005927642 cites W2618098351 @default.
W3005927642 cites W2755407785 @default.
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W3005927642 cites W2800625595 @default.
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W3005927642 cites W2913961917 @default.
W3005927642 cites W4256013926 @default.
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W3005927642 doi "https://doi.org/10.1109/mcas.2019.2961724" @default.
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