摘要
在航天工程应用过程中,发现室温下HgCdTe红外探测器前置放大电路输出正常,但是当温度降低至-55℃时,输出有振荡现象,对探测器施加红外辐照后振荡现象加剧。文章首次对该现象进行系统研究,提出了HgCdTe红外探测器电路在低温下光照后的等效电路模型,从相位裕度与增益裕度角度分析前置放大电路在低温下产生振荡的机理,并在此基础上,提出了抑制低温光照后前置放大电路振荡的解决方法,实验结果验证了该方法的有效性。
In aerospace applications,a HgCdTe infrared detector preamplifier circuit yields the normal output at room temperature;however,it exhibits oscillations when the temperature is reduced to-55℃,and these oscillations intensify when infrared light is irradiated to the detector.In this study,this phenomenon is systematically investigated for the first time,and an equivalent circuit model of a HgCdTe infrared detector circuit after low-temperature irradiation is presented.The mechanism of the oscillation of the preamplifier circuit at low temperature is analyzed in terms of phase and gain margins.Based on the analysis,a solution is proposed to inhibit the oscillation of the preamplifier circuit after illumination at low temperatures.The validity of the method is confirmed experimentally.
作者
韩俊丽
刘福浩
杨晓阳
马丁
余双洋
李向阳
HAN Junli;LIU Fuhao;YANG Xiaoyang;MA Ding;YU Shuangyang;LI Xiangyang(School of Microelectronics,Shanghai University,Shanghai 200444,CHN;Shanghai Institute of Technology Physics,Chinese Academy of Sciences,Shanghai 200083,CHN)
出处
《半导体光电》
CAS
北大核心
2024年第4期653-657,共5页
Semiconductor Optoelectronics
基金
国家重点研发计划项目(2023YFF0721800)。
关键词
等效模型
电路低温光致振荡现象
产生机制
抑制方法
equivalent modeling
circuit low-temperature phototropic oscillatory phenomena
generation mechanisms
suppression methods
