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Design and Analysis of an Integrated Pulse Modulated S-Band Power Amplifier in Gallium Nitride Process.

机译：一种集成脉冲调制s波段功率放大器的氮化镓工艺设计与分析。

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The design of power amplifiers in any semi-conductor process is not a trivia exercise and it is often encountered that the simulated solution is qualitatively different than the results obtained. Phenomena such as oscillation occurring either in-band or out of band and sometimes at subharmonic intervals, continuous spectrum noticed in some frequency bands, often referred to as chaos, and jumps and hysteresis effects can all be encountered and render a design useless. All of these problems might have been identified through a more rigorous approach to stability analysis. Designing for stability is probably the one area of amplifier design that receives the least amount of attention but incurs the most catastrophic of effects if it is not performed properly. Other parameters such as gain, power output, frequency response and even matching may suitable mitigation paths. But the lack of stability in an amplifier has no mitigating path. In addition to of loss of the design completely there are the increased production cycle costs, costs involved with investigating and resolving the problem and the costs involved with schedule slips or delays resulting from it. The Linville or Rollett stability criteria that many microwave engineers follow and rely exclusively on is not sufficient by itself to ensure a stable and robust design. It will be shown that the universal belief that unconditional stability is obtained through an analysis of the scattering matrix S to determine if 1 and (Delta)(sub S) < 1 is only part of the procedure and other tools must be used to validate the criteria. The research shown contributes to the state of the art by developing a more thorough stability design technique for designing amplifiers of any class, whether that be current mode or switch mode, than is currently undertaken with the goal of obtaining first pass design success.

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作者
Sedlock, S.;
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年度 2012
页码 1-159
总页数 159
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Power amplifiers; Gallium nitrides; Design; Engineers; Hysteresis; Mitigation; Oscillation; Production; Scattering; Schedules; Stability;

机译：功率放大器;氮化镓;设计;工程师;迟滞;缓解;振荡;生产;散射;时间表;稳定性;

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1. Integrated Design of a Compact and Lightweight S-Band Traveling-Wave Tube Amplifier for a New Class of Microwave Power Module [J] . Heather Song, Leslie Tekamp, Frank Francisco, Journal of Electromagnetic Analysis and Applications . 2013,第3期

机译：用于新型微波功率模块的紧凑轻巧的S波段行波管放大器的集成设计
2. A Study of Interpulse Instability in Gallium Nitride Power Amplifiers in Multifunction Radars [J] . Carlos G. Tua, Timothy Pratt, Amir I. Zaghloul IEEE Transactions on Microwave Theory and Techniques . 2016,第11期

机译：多功能雷达中氮化镓功率放大器的脉冲间不稳定性研究
3. Compact, Portable, and Easy to Use: A Perspective on Transistor Modeling for Gallium Nitride High-Power Amplifier Design [J] . John Wood IEEE microwave magazine . 2018,第7期

机译：紧凑，便携式和易于使用：氮化镓大功率放大器设计的晶体管建模的观点
4. A Highly Integrated Gallium Nitride S-Band Radar Pallet Amplifier [C] . Gregory French International Radar Symposium India . 2012

机译：高度集成的氮化镓S频带雷达托盘放大器
5. Aluminum gallium nitride/gallium nitride high-electron-mobility-transistors based flip-chip integrated broadband power amplifiers [D] . Xu, Jian 2000

机译：基于氮化铝镓/氮化镓高电子迁移率晶体管的倒装芯片集成宽带功率放大器
6. Generation of megawatt peak power picosecond pulses from a divided-pulse fiber amplifier [O] . L. J. Kong, L. M. Zhao, S. Lefrancois, -1

机译：兆瓦的峰值功率皮秒脉冲的产生从一个分割脉冲光纤放大器
7. Design and analysis of an integrated pulse modulated S-band power amplifier in gallium nitride process [O] . Sedlock, Steve 2012

机译：氮化镓工艺中集成脉冲调制S波段功率放大器的设计与分析

Design and Analysis of an Integrated Pulse Modulated S-Band Power Amplifier in Gallium Nitride Process.

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