学术报告 a low noise amplifier for 5.2ghz application using 0.18um cmos 蔡天昊 2014.04.4
TRANSCRIPT
学术报告
A Low Noise Amplifier For 5.2GHz Application Using
0.18um CMOS
蔡天昊2014.04.4
Outline
• Abstract• Introduction• Circuit Design• Simulation Results• Conclusion • References
Abstract
This paper presents a novel LNA for 5.2 GHz applications.
• The fully integrated 5.2GHz LNA exhibits 15dB maximum gain, 2dB minimum noise.
• The LNA produces a 1-dB compression output power of -16 dB m . It consumes 5mA current from a supply voltage of 1.8V.
Low noise amplifier is used extensively in modern communication systems.
The LNA uses source inductor degeneration to trade off between the noise and gain.
Introduction
Fig 1. Narrowband LNA topology
TOTAL NOISE
Conclusion
• A novel LNA operating in 5.25GHz using standard 0.18um 1P6M CMOS technology was demonstrated.
References Frank Ellinger and Heinz Jackel, “Low-cost BiCMOS
Variable gain LNA at Ku-Band with Ultra-Low power consumption, “IEEE MTT, vol. 52, No2, pp702-707, Feb. 2004.
R.-C. Liu, K.-L. Deng, and H.Wang, “A 0.6–22 GHz broadband CMOS distributed amplifier,” in Proc. IEEE Radio Frequency Integrated Circuits (RFIC) Symp., June 8–10, 2003, pp. 103–106.
Che-Hong Liao and Huey-Ru Chuang, “ A 5.7GHz 0.18um CMOS Gain-Controlled Differential LNA with Current Reuse WLAN Receiver,” Receiver,”IEEE Microwave and Wireless Components Letters, vol. 13,No. 12,pp.526-528, December 2003
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