@inproceedings{scholars7232,
            note = {cited By 4; Conference of IEEE International Circuits and Systems Symposium, ICSyS 2015 ; Conference Date: 2 September 2015 Through 4 September 2015; Conference Code:119196},
            year = {2016},
             doi = {10.1109/CircuitsAndSystems.2015.7394055},
       publisher = {Institute of Electrical and Electronics Engineers Inc.},
         journal = {Proceeding - 2015 IEEE International Circuits and Systems Symposium, ICSyS 2015},
           title = {Asymmetric T-coil, resistive feedback cascode low noise amplifier for ultrawideband receiver},
           pages = {11--16},
          author = {Zulkepli, S. N. I. S. and Zulkifli, T. Z. A.},
            isbn = {9781479917310},
        keywords = {Amplifiers (electronic); Analog circuits; Bandwidth; Broadband amplifiers; Cascode amplifiers; CMOS integrated circuits; Differential amplifiers; Feedback amplifiers; Noise figure; Reconfigurable hardware; Topology, Bandwidth extension; Cascode low noise amplifiers; Cascode topology; CMOS differential amplifiers; Minimum noise figure; Resistive feedback; Ultra-Wideband Receivers; Wideband low-noise amplifier, Low noise amplifiers},
             url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-84969786180&doi=10.1109\%2fCircuitsAndSystems.2015.7394055&partnerID=40&md5=2c75f68abe7ed4469ecff5b86b50ecfd},
        abstract = {This paper presents a wideband low-noise amplifier (LNA) using 0.18-{\^I}1/4m CMOS process which is combination of resistive feedback and T-coil techniques. The cascode stage with a resistive feedback technique to ensure the stability of the amplifier is proposed. The T-coil topology is adopted to achieve wideband output response that improves the bandwidth extension of the CMOS differential amplifier. The proposed topology exhibits a bandwidth of 3.1-7.0 GHz, a power gain of 12 dB, a minimum noise figure of 4.00 dB while drawing 1.4 mW from 1.8 V power supply. The simulated IIP3 of the amplifier is -9.5 dBm at 5.5 GHz. Hence, the T-coil network and cascode topology with resistive feedback can be implemented for mode 1, UWB standard. {\^A}{\copyright} 2015 IEEE.}
}