Miniaturized Millimeter-Wave HMIC Amplifiers Using Capacitively-Coupled Matching Circuits and FETs with Resistive Source-Stubs
スポンサーリンク
概要
- 論文の詳細を見る
Miniaturized millimeter-wave HMIC amplifiers have been developed by using capacitively-coupled matching circuits (CCMC) and FETs with resistive source-stubs. CCMC includes FET's parasitic reactances, and is able to reduce the size of a matching circuit in a HMIC amplifier to about 1/3 of a conventional matching circuit using an open-circuited stub for matching and a quarter-wavelength coupled-line for d.c. blocking The resistive source-stubs, which consist of two open-circuited stubs and a resistor, can improve the gain and stability of FETs at millimeter-wave frequencies. In this paper, design procedures of CCMC and the resistive source-stubs are described, and their usefulness has been confirmed experimentally through measurements of prototype V-band high-power HMIC amplifiers.
- 社団法人電子情報通信学会の論文
- 1999-11-25
著者
-
Uchida Hidekazu
Department Of Information And Computer Science Saitama University
-
ITOH Yasushi
Mitsubishi Electric Corporation, Information Technology R&D Center
-
Uchida H
Mitsubishi Electric Corp. Kamakura‐shi Jpn
-
UCHIDA Hiromitsu
Mitsubishi Electric Corporation, Information Technology R&D Center
-
HANJYO Hideshi
Mitsubishi Electric Corporation, Information Technology R&D Center
-
Hanjyo Hideshi
Mitsubishi Electric Corporation Information Technology R&d Center
-
Itoh Yasushi
Mitsubishi Electric Corporation Information Technology R&d Center
-
Uchida Hiromitsu
Mitsubishi Electric Corporation
-
Itoh Yasushi
Mitsubishi Electric Corporation Information Technology R & D Center
-
UCHIDA Hiromitsu
Mitsubishi Electric Corp., Information Technology R&D Center
関連論文
- An Application Possibility of Self-Ordered Mesoporous Silicate for Surface Photo Voltage (SPV) Type NO Gas Sensor (II) : Self-Ordered Mesoporous Silicate Incorporated SPV Device and Its Sensing Property Dependence on Mesostructure(Special Issue on Recent
- An Application Possibility of Self-Ordered Mesoporous Silicate for Surface Photo Voltage Type NO Gas Sensor (I) : The Characterization of Nonionic Triblock Copolymer Templated Self-Ordered Mesoporous Silicates and Preparation Their Film for Device Applica
- NO Gas Sensor Based on Surface Photovoltage System Fabricated by Self-Ordered Hexagonal Mesoporous Silicate Film : Atoms, Molecules, and Chemical Physics
- An Efficient Large-Signal Modeling Method Using Load-Line Analysis and Its Application to Non-linear Characterization of FET
- A Calculation Method of Large-Signal Characteristics of Multi-Stage Power Amplifier Modules Using Source-Pull and Load-Pull Data(Special Issue on Microwave and Millimeter-Wave Module Technology)
- Ku-Band Multi-Stage MMIC Low-Noise Amplifier Loaded with Double Gain-Equalizing Circuits
- Highly Stable 6-18 GHz 2.3 dB Low-Noise Amplifier with Resistive-Loaded Series Feedback Circuits(Amplifier)(Recent Trends on Microwave and Millimeter Wave Application Technology)
- A 2W High Efficiency 4-12GHz GaAs HFET MMIC Power Amplifier
- Miniaturized Millimeter-Wave HMIC Amplifiers Using Capacitively-Coupled Matching Circuits and FETs with Resistive Source-Stubs
- An Elliptic-Function Bandpass Filter Utilizing Left-Handed Operations of an Inter-Digital Coupled Line
- Very-Thin, Light-Weight Opto and Microwave Receiver Module for Satellite Communications (Special Issue on High-Frequency/speed Devices in the 21st Century)
- Special Issue on Low Distortion Technology for Microwave Devices and Circuits
- Millimeter-Wave MMIC Technology
- A Post-Wall Waveguide Matched Load with Thin-Film Resistor