This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
M. Li, B. Hayes-Gill, I. Harrison, 6 GHz transimpedance amplifier for optical sensing system in low cost 0.35 μm CMOS. Electronics letters, 42,1278-1279.10.1049/el:20062961Search in Google Scholar
D. Coppée, J. Genoe, J.H. Stiens, R.A. Vounckx, M. Kuijk, “Calculation of the Current Response of the Spatially Modulated Light CMOS Detector,” IEEE Transactions on Electron Devices, vol.48, pp. 1892-1902, September 2001.Search in Google Scholar
T. K. Woodward and Ashok V. Krishnamoorthy, 1-Gb/s Integrated Optical Detectors and Receivers in Commercial CMOS Technologies, IEEE Journal of Selected Topics in Quantum Electronics, vol. 5, no. 2, March/April 1999.10.1109/2944.778271Search in Google Scholar
Sunderarajan S. Mohan, Maria del Mar Hershenson, Stephen P. Boyd, and Thomas H. Lee, Bandwidth Extension in CMOS with Optimized On-hip Inductors, IEEE J. Solid-State Circuits, Vol. 35, No 3, Marsh 2000.10.1109/4.826816Search in Google Scholar
Natalie Wong, CMOS Integrated PhotoDiode and Low Voltage Tranimpedance Amplifier in Si- OEIC Application, university of Toronto, available from http:// www.eecg.toronto.edu /~kphang/ ece1371/ pd_tia.pdfSearch in Google Scholar
Sima Dimitrijev, Understanding Semiconductor Devices, Oxford university press, 2000.Search in Google Scholar
T. H. Lee, The Design of CMOS Radio-Frequency Integrated Circuits. Cambridge, U.K.: Cambridge Univ. Press, 1998.Search in Google Scholar
S. J. Sim, J. M. Park, S. M. Park, A 1.8 V, 60 dB Ohm 11 GHz transimpedance amplifier with strong immunity to input parasitic capacitance, IEEE International Symposium on Circuits and Systems (ISCAS), May 2006.Search in Google Scholar
H. Escid, M. Attari, Low Noise and High bandwidth 0.35 μm CMOS Transimpedance Amplifier, Proceedings of International Conference on Microelectronics (ICM), Marrakech Morocco, December 2009. ieeexplore.ieee.org/xpls/abs_all.jsp? arnumber = 5418634Search in Google Scholar
Sanz, M.T. del Pozo, J.M.G. Celma, S. Sarmiento, 50th Midwest Symposium on Circuits and Systems, MWSCAS 2007. ieeexplore.ieee.org/ie l5 / 4483493 / 4488527 / 04488587.pdf ? arnumber.Search in Google Scholar
M. Ingels, G. Van der Plas, J. Crols and M. Steyaert, A CMOS 18THz 240Mb/s transimpedance amplifier and 155Mb/s LED-driver for low cost optical fiber links, IEEE J. Solid-State Circuits 29 (1994) 1552–1559.10.1109/4.340430Search in Google Scholar
D. M. Pietruszynski. J. M. Steininger and E. J. Swanson, A 50Mbit/s CMOS monolithic optical receiver, IEEE J. Solid-State Circuits 23 (1988) 1426–1433.10.1109/4.90042Search in Google Scholar
Hsu .C, Wu .J .A, 125-MHz CMOS switched resistor programmable gain amplifier, IEEE J. Solid State Circuits, 2003, 38 : 1663-1670.10.1109/JSSC.2003.817665Search in Google Scholar
A. Abidi, On the noise optimum of gigahertz FET transimpedance amplifier, IEEE J. SolidState Circuits 22 (1987) 1207–1209.10.1109/JSSC.1987.1052877Search in Google Scholar
M. Ingels and M. Steyaert, A 1 Gb/s, 0.7 μm CMOS optical receiver with full rail-to-rail Swanson, A 50 Mbit/s CMOS monolithic optical receiver, IEEE J. Solid-State Circuits 23 (1988), pp. 1426 - 1433.Search in Google Scholar
Van Wyk, E., Design of an integrated optical receiver in a standard CMOS process, EUROCON 2003 Ljubljana, Slovenia, vol.2, pp. 427-431, 22-24 Sept. 2003.Search in Google Scholar
Austria Micro Systems (AMS), 0.35 um CMOS C35 Process Parameters ENG-182, Revision #2.0, 2003Search in Google Scholar
Chen, Y-J. A integrated CMOS optical receiver wih clock and data recovery circuit, MSc. thesis, University of pretoria, South Africa, Aug. 2005.Search in Google Scholar