1.2 kW C波段固态高效率GaN微波源研制

梁勤金; 陈世韬; 余川

doi:10.11884/HPLPB201426.103002

强激光与粒子束

1.2 kW C波段固态高效率GaN微波源研制

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梁勤金, 陈世韬, 余川. 2014: 1.2 kW C波段固态高效率GaN微波源研制, 强激光与粒子束, null(10): 103002. doi: 10.11884/HPLPB201426.103002

引用本文:

梁勤金, 陈世韬, 余川. 2014: 1.2 kW C波段固态高效率GaN微波源研制, 强激光与粒子束, null(10): 103002. doi: 10.11884/HPLPB201426.103002

LiangQinjin, ChenShitao, YuChuan. 2014: Development of 1 .2 kW C band solid-state high efficiency GaN microwave source, High Power Lase and Particle Beams, null(10): 103002. doi: 10.11884/HPLPB201426.103002

Citation:

LiangQinjin, ChenShitao, YuChuan. 2014: Development of 1 .2 kW C band solid-state high efficiency GaN microwave source, High Power Lase and Particle Beams, null(10): 103002. doi: 10.11884/HPLPB201426.103002

1.2 kW C波段固态高效率GaN微波源研制

中国工程物理研究院应用电子学研究所，高功率微波技术重点实验室，四川绵阳 621900

Development of 1 .2 kW C band solid-state high efficiency GaN microwave source

摘要: 针对传统大功率 Si,GaAs 固态微波源效率低和高温度性能差的不足,采用导热系数优良的宽禁带 GaN单元功放模块集成、低损耗同轴波导径向空间功率合成方法,研制出一种1.2 kW全固态 C 波段高效率宽禁带 GaN微波源。实验结果表明：该方法实现了大功率固态微波源高效率及连续长时间高温风冷散热运行,系统安全可靠。单路功放模块集成6位移相器,移相精度5.6°,增益35 dB,输出功率大于31 W。系统连续波输出功率1.2 kW ,总效率30%,谐波抑制-54.8 dBc；杂散-63.69 dBc,相位噪声-94.03 dBc/Hz@1kHz。
- GaN固态功放 /
- 高效率 /
- 固态微波源 /
- 功率合成
Abstract: AstheefficienciesofthetraditionalhighpowersolidstateSimicrowavesourceandGaAsmicrowavesourceare low and their performances are poor at high temperature,we have developed a 1 .2 kW C-band all solid state high efficiency GaN microwave source by using the low loss coaxial waveguide spatial power combining technique which utilizes GaN units power am-plifier module integration.The experimental result shows that the efficiency of the GaN microwave source is high and it can safely and reliably operate at high temperature.A single C-band GaN power amplifier module unit integrates a 6-bit phase shifter with a phase shift precision of 5.6°,a gain of 35 dB,and an output power greater than 31 W.The continuous output power of the micro-wave source is 1.2 kW,the total efficiency is 30%,the harmonic suppression is -54.8 dBc,the stray is -63.69 dBc and the phase noise is -94.03 dBc/Hz@1kHz.

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1.2 kW C波段固态高效率GaN微波源研制

中国工程物理研究院应用电子学研究所，高功率微波技术重点实验室，四川绵阳 621900

关键词:

摘要: 针对传统大功率 Si,GaAs 固态微波源效率低和高温度性能差的不足,采用导热系数优良的宽禁带 GaN单元功放模块集成、低损耗同轴波导径向空间功率合成方法,研制出一种1.2 kW全固态 C 波段高效率宽禁带 GaN微波源。实验结果表明：该方法实现了大功率固态微波源高效率及连续长时间高温风冷散热运行,系统安全可靠。单路功放模块集成6位移相器,移相精度5.6°,增益35 dB,输出功率大于31 W。系统连续波输出功率1.2 kW ,总效率30%,谐波抑制-54.8 dBc；杂散-63.69 dBc,相位噪声-94.03 dBc/Hz@1kHz。

English Abstract

Development of 1 .2 kW C band solid-state high efficiency GaN microwave source

中国工程物理研究院应用电子学研究所，高功率微波技术重点实验室，四川绵阳 621900

Keywords:

Abstract: AstheefficienciesofthetraditionalhighpowersolidstateSimicrowavesourceandGaAsmicrowavesourceare low and their performances are poor at high temperature,we have developed a 1 .2 kW C-band all solid state high efficiency GaN microwave source by using the low loss coaxial waveguide spatial power combining technique which utilizes GaN units power am-plifier module integration.The experimental result shows that the efficiency of the GaN microwave source is high and it can safely and reliably operate at high temperature.A single C-band GaN power amplifier module unit integrates a 6-bit phase shifter with a phase shift precision of 5.6°,a gain of 35 dB,and an output power greater than 31 W.The continuous output power of the micro-wave source is 1.2 kW,the total efficiency is 30%,the harmonic suppression is -54.8 dBc,the stray is -63.69 dBc and the phase noise is -94.03 dBc/Hz@1kHz.

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1.2 kW C波段固态高效率GaN微波源研制

Development of 1 .2 kW C band solid-state high efficiency GaN microwave source

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1.2 kW C波段固态高效率GaN微波源研制

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Development of 1 .2 kW C band solid-state high efficiency GaN microwave source

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