A. D. Gungordu Et Al. , "A fully-differential, flipped-voltage-follower-based (FVF) transimpedance design for optical receivers with large-area photodetectors," ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING , vol.113, no.2, pp.241-248, 2022
Gungordu, A. D. Et Al. 2022. A fully-differential, flipped-voltage-follower-based (FVF) transimpedance design for optical receivers with large-area photodetectors. ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING , vol.113, no.2 , 241-248.
Gungordu, A. D., Comertoglu, I., & Yelten, M. B., (2022). A fully-differential, flipped-voltage-follower-based (FVF) transimpedance design for optical receivers with large-area photodetectors. ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING , vol.113, no.2, 241-248.
Gungordu, Ali, Irem Comertoglu, And Mustafa Berke Yelten. "A fully-differential, flipped-voltage-follower-based (FVF) transimpedance design for optical receivers with large-area photodetectors," ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING , vol.113, no.2, 241-248, 2022
Gungordu, Ali D. Et Al. "A fully-differential, flipped-voltage-follower-based (FVF) transimpedance design for optical receivers with large-area photodetectors." ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING , vol.113, no.2, pp.241-248, 2022
Gungordu, A. D. Comertoglu, I. And Yelten, M. B. (2022) . "A fully-differential, flipped-voltage-follower-based (FVF) transimpedance design for optical receivers with large-area photodetectors." ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING , vol.113, no.2, pp.241-248.
@article{article, author={Ali Doğuş Güngördü Et Al. }, title={A fully-differential, flipped-voltage-follower-based (FVF) transimpedance design for optical receivers with large-area photodetectors}, journal={ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING}, year=2022, pages={241-248} }