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蔡天昊 2014.04.4

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.

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蔡天昊 2014.04.4

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  1. 学术报告 A Low Noise Amplifier For 5.2GHz Application Using 0.18um CMOS 蔡天昊 2014.04.4

  2. Outline • Abstract • Introduction • Circuit Design • Simulation Results • Conclusion • References

  3. Abstract • This paper presents a novel LNAfor 5.2GHz applications.

  4. 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.

  5. Introduction • Low noise amplifier is used extensively in modern communication systems. • The LNA uses source inductor degeneration to trade off between the noise and gain.

  6. Fig 1. Narrowband LNA topology

  7. TOTAL NOISE

  8. Conclusion • A novel LNA operating in 5.25GHz using standard 0.18um 1P6M CMOS technology was demonstrated.

  9. 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

  10. The end!

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