Jim Kulyk scite author profile

Abstract-This paper presents the design, simulation and measurements of wideband two-stage LNAs using commercially available discrete components and targeting Square Kilometre Array (SKA) focalplane-array verification studies. The design optimization was implemented through simulations based on theoretical work that shows that low wide-band noise figures and power match are achievable by inner-stage component selection and device bias. In contrast to the conventional practice of having each stage of a discrete LNA matched to 50 Ω, the inner stage was designed with a mismatching capacitor between the two stages. The measured results are presented for 0.7-1.4 GHz and achieve noise figures below 0.4 dB, gain of at least 28 dB, mid-band input return loss of 7 dB, output P1 dB of 18.3 dBm, input-referred IP3 of −15.47 dBm, and power consumption of 500 mW with a supply voltage of 5 V.

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Linearization Techniques for Cross-Coupled Transconductor Circuits Used in Integrated Q-Enhanced LC Filters

Pekau

Kulyk

Haslett

et al. 2006

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Jim Kulyk

A Monolithic CMOS 2368<tex>$pm$</tex>30 MHz Transformer Based<tex>$Q$</tex>-Enhanced Series-C Coupled Resonator Bandpass Filter

Wide-Band Two-Stage Gaas Lna for Radio Astronomy

Linearization Techniques for Cross-Coupled Transconductor Circuits Used in Integrated Q-Enhanced LC Filters

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Jim Kulyk

A Monolithic CMOS 2368&lt;tex&gt;$pm$&lt;/tex&gt;30 MHz Transformer Based&lt;tex&gt;$Q$&lt;/tex&gt;-Enhanced Series-C Coupled Resonator Bandpass Filter

Wide-Band Two-Stage Gaas Lna for Radio Astronomy

Linearization Techniques for Cross-Coupled Transconductor Circuits Used in Integrated Q-Enhanced LC Filters

Contact Info

Product

Resources

About

A Monolithic CMOS 2368<tex>$pm$</tex>30 MHz Transformer Based<tex>$Q$</tex>-Enhanced Series-C Coupled Resonator Bandpass Filter