A K-Band MMIC Frequency Doubler Using Resistive Series Feedback Circuit
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概要
- 論文の詳細を見る
A novel K-band MMIC frequency doubler has been developed using resistive series feedback circuit. The doubler exhibits much better D/U ratio, smaller output power variation against ambient temperature and lower power consumption than those of the conventional single-ended doubler. This paper presents the simulation results on the effect of the resistive series feedback by harmonic balance methods. To obtain practical and accurate simulation results, newly developed gate charge model for C_gs and C_gd is introduced. The fabricated result of the proposed MMIC is also demonstrated.
- 社団法人電子情報通信学会の論文
- 2000-05-25
著者
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Fumio Sasaki
Microwave Solid-state Engineering Department Komukai Operations Information And Industrial Systems &
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Yasushi Shizuki
Microwave Solid-State Engineering Department, Komukai Operations, Information and Industrial Systems
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Yumi FUCHIDA
Microwave Solid-State Engineering Department, Komukai Operations, Information and Industrial Systems
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Kazuhiro ARAI
Microwave Solid-State Engineering Department, Komukai Operations, Information and Industrial Systems
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Shigeru WATANABE
Microwave Solid-State Engineering Department, Komukai Operations, Information and Industrial Systems
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Shizuki Y
Semiconductor Devices Microwave Solid-state Department Komukai Operations Social Infrastructure Syst
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Fuchida Y
Microwave Solid-state Engineering Department Komukai Operations Information And Industrial Systems &
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Kazuhiro Arai
Microwave Solid-state Engineering Department Komukai Operations Information And Industrial Systems &
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Shigeru Watanabe
Microwave Solid-state Engineering Department Komukai Operations Information And Industrial Systems &
関連論文
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- A K-Band MMIC Frequency Doubler Using Resistive Series Feedback Circuit
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