@inproceedings{scholars8539,
             doi = {10.1109/PRIMEASIA.2017.8280377},
            year = {2017},
           title = {Design and simulation of a low-power 0.18 {\^I}1/4m CMOS MedRadio band LNA},
       publisher = {IEEE Computer Society},
            note = {cited By 3; Conference of 2017 IEEE Asia Pacific Conference on Postgraduate Research in Microelectronics and Electronics, PrimeAsia 2017 ; Conference Date: 31 October 2017 Through 2 November 2017; Conference Code:134541},
          volume = {2017-O},
         journal = {Asia Pacific Conference on Postgraduate Research in Microelectronics and Electronics},
           pages = {113--116},
        keywords = {CMOS integrated circuits; Feedback; Integrated circuit design; Low power electronics; Noise figure; Timing circuits, 0.18-{\^I}1/4m CMOS; Circuit techniques; CMOS; Current reuse; Design and simulation; Feedback circuits; Low noiseamplifier; Low Power; Medradio; Shunt feedback, Low noise amplifiers},
             url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85046352351&doi=10.1109\%2fPRIMEASIA.2017.8280377&partnerID=40&md5=048bff598009f6d55dc4454a39ed8323},
            isbn = {9781538605240},
          author = {Mubin, M. A. and Marzuki, A. and Mustaffa, M. T. and Ain, M. F. and Zulkifli, T. Z. A.},
            issn = {21592144},
        abstract = {This paper presents the design and simulation of a low-power MedRadio band low noise amplifier (LNA) using standard 0.18 {\^I}1/4m CMOS process. This LNA utilizes current reuse and active shunt feedback circuit techniques to achieve (on simulation) very low power operation with gain of more than 18 dB, noise figure of less than 5 dB, and input return loss of more than 10 dB between 401 MHz to 406 MHz MedRadio band. Total power consumption of this LNA is just under 0.6 mW where approximately 0.1 mW is due to the active shunt feedback network. The design and simulation were done in Cadence IC5 with Silterra's 0.18 {\^I}1/4m CMOS technology. {\^A}{\copyright} 2017 IEEE.}
}