Monolithic Transformers and Their Application in a Differential CMOS RF Low-Noise Amplifier (1998)
| Venue: | IEEE J. Solid-State Circuits |
| Citations: | 5 - 0 self |
BibTeX
@ARTICLE{Zhou98monolithictransformers,
author = {Jianjun Zhou and David J. Allstot},
title = {Monolithic Transformers and Their Application in a Differential CMOS RF Low-Noise Amplifier},
journal = {IEEE J. Solid-State Circuits},
year = {1998},
volume = {33},
pages = {2020}
}
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Abstract
A 900 MHz low-noise amplifier (LNA) utilizing three monolithic transformers to implement on-chip tuning networks and requiring no external components has been integrated in 2.88 mm 2 in a standard digital 0.6 m CMOS process. A bias current reuse technique is employed to reduce power dissipation, and process-, voltage-, and temperature-tracking biasing techniques are used. At 900 MHz, the LNA dissipates 18 mW from a single 3 V power supply and provides 4.1 dB noise figure, 12.3 dB power gain, 00033.0 dB reverse isolation, and an input 1-dB compression level of 00016 dBm. Analysis and modeling considerations for silicon-based monolithic transformers are presented, and it is shown that a monolithic transformer occupies less die area and provides a higher quality factor than two independent inductors with the same effective inductance in differential applications. I. INTRODUCTION F INE-LINE CMOS technology easily provides high frequency active devices for use in RF applications (e...
