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A 50-MHz–1-GHz 2.3-dB NF Noise-Cancelling Balun-LNA Employing a Modified Current-Bleeding Technique and Balanced Loads | IEEE Journals & Magazine | IEEE Xplore

A 50-MHz–1-GHz 2.3-dB NF Noise-Cancelling Balun-LNA Employing a Modified Current-Bleeding Technique and Balanced Loads

Publisher: IEEE

Abstract:

A new noise-cancelling method that employs a modified current-bleeding (CBLD) technique and balanced loads is presented by developing a design for a low-noise and high-li...View more

Abstract:

A new noise-cancelling method that employs a modified current-bleeding (CBLD) technique and balanced loads is presented by developing a design for a low-noise and high-linearity balun-low-noise amplifier (LNA) for broadband applications. The basic common-gate (CG)-common-source (CS) balun topology cannot achieve a noise figure (NF) of less than 3 dB. Thus, a practical topology containing a CS transistor of which the transconductance is N times larger than that of the CG transistor and a CS resistor of which the resistance is N times smaller than that of the CG resistor is often used to decrease the NF. However, unsymmetrical load resistors cause a gain and phase imbalance at the differential output. The proposed modified CBLD technique enables the balun-LNA to achieve differential balanced output, low noise, and low-second-order distortion characteristics. The proposed balun-LNA is implemented in 65-nm CMOS technology and covers the frequency range of 50 MHz-1 GHz. It achieves a voltage gain of 30 dB, an S11 of less than -10 dB, an OIP3 of 25.9 dBm, and an OIP2 of 50.6 dBm. The minimum NF is 2.3 dB whereas the average NF is 2.63 dB across the whole band. It operates at a nominal supply voltage of 2.2 V with bias currents of 9 mA. The active die area is 0.0448 mm 2 .
Published in: IEEE Transactions on Circuits and Systems I: Regular Papers ( Volume: 66, Issue: 2, February 2019)
Page(s): 546 - 554
Date of Publication: 02 September 2018

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Publisher: IEEE

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