최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기電子工學會論文誌. Journal of the Institute of Electronics Engineers of Korea. TE, 전문기술교육, v.39 no.4, 2002년, pp.409 - 412
The LNA(Low Noise Amplifier) is designed for use in low cost commercial application covered fully IMT-2000 band(1920~2170MHz, BW=250MHz). It is optimized source inductance for source lead and designed to equivalent etched line. The LNA uses a high pass impedance matching network for noise match and ...
Matthew M. Radmanesh, 'Radio Frequence and Microwave Electronics', Prentice Hall, pp. 122-158, 2001
Peter B. Kenington, 'High-Linearity RF Amplifier Design', Artech House, pp. 89-131, 2000
Tatsuo Itoh, George Haddad, and James Harvey, 'RF Technologies for Low Power Wireless Communications', Willy-Interscience, pp. 159-188, 2001
Kai Chang, Inder Bahl, and Vijay Nair, 'RF and Microwave Circuit and Component Design for Wireless Systems', Willy-Interscience, pp. 271-309, 2002
Kevin McClaning and Tom Vito, 'Radio Receiver Design', Noble Publishing Corporation, pp. 443-538, 2000
Agilent Technologies, 'Low Noise Amplifiers for 900 MHz using the Agilent ATF-34143 Low Noise PHEMT', Agilent Technologies Application Note 1190, 2000
Agilent Technologies, 'High Intercept Low Noise Amplifier for 1930-990 MHz PCS Band using the Agilent ATF-34143 Low Noise PHEMT(4V, 40mA)', Agilent Technologies Application Note 1191, 2000
Agilent Technologies, 'A Low Noise High Intercept Point Amplifier for 1930-990 MHz PCS Band using the Agilent ATF-33143 PHEMT', Agilent Technologies Application Note 1195, 2000
Agilent Technologies, 'High Intercept Low Noise Amplifiers for 1500 MHz through 2500 MHz using the ATF-34143 Low Noise PHEMT', Agilent Technologies Application Note 1175, 1999
Guillermo Gonzalez, 'Microwave Transistor Amplifiers', Prentice Hall, pp. 212-373, 1997
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