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A full W-band Low Noise Amplifier (LNA) Module is designed and fabricated in this letter. A broadband transition is introduced in this module. The proposed transition is designed, optimized based on the results from numerical simulations. The results show that 1 dB bandwidth of the transition ranges from 61 to 117 GHz. For the purpose of verification, two transitions in back-to-back connection are measured. The results show that transmission loss is only about 0.9-1.7dB. This transition is used to interface integrated circuits to waveguide components. The characteristic of the LNA module is measured after assembly. It exhibits a broad bandwidth of 75 to 110 GHz , has a small signal gain above 21 dB. The noise figure is lower than 5dB throughout the entire W-band (below 3 dB from 89 to 95GHz) at a room temperature. The proposed LNA module exhibits potential for millimeter wave applications due to its high small signal gain, low noise, and low dc power consumption  相似文献   
2.
A two-stage MMIC power amplifier has been realized by use of a l-μm InP double heterojunction bipolar transistor(DHBT).The cascode structure,low-loss matching networks,and low-parasite cell units enhance the power gain.The optimum load impedance is determined from load-pull simulation.A coplanar waveguide transmission line is adopted for its ease of fabrication.The chip size is 1.5×1.7 mm~2 with the emitter area of 16×1μm×15μm in the output stage.Measurements show that small signal gain is more than 20 dB over 75.5-84.5 GHz and the saturated power is 16.9 dBm @ 79 GHz with gain of 15.2 dB.The high power gain makes it very suitable for medium power amplification.  相似文献   
3.
A W-band frequency doubler MMIC is designed and fabricated using 1-μm InP DHBT technology. Active balun is employed to transform the single-ended signal into differential output. Push-push configuration loaded with harmonic resonant network is utilized to acquire the second harmonic frequency. A multi-stage differential structure improves the conversion gain and suppresses the fundamental frequency. The MMIC occupies an area of 0.55×0.5 mm2 with 18 DHBTs integrated. Measurements show that the output power is above 5.8 dBm with the suppression of fundamental frequency below -16 dBc and the conversion gain above 4.7 dB over 75-80 GHz.  相似文献   
4.
W波段InGaAs/InP动态二分频器   总被引:1,自引:0,他引:1       下载免费PDF全文
采用fT=214 GHz,fmax=193 GHz的InGaAs/InP异质结双极型晶体管工艺,设计了一款基于时钟驱动型反相器的动态二分频器.该分频器工作频段为60 ~ 100 GHz,但由于测试系统上限频率的限制,只能测出62 ~ 83 GHz的工作范围.在-4.2V和-5.2 V的单电源直流偏置下该分频器的功耗分别为596.4 mW、1060.8 mW.此分频器的成功制作对于工作在W波段锁相环的构建有较大的意义.  相似文献   
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