线性模式主被动碲镉汞APD探测器测试研究

Research on testing of active and passive HgCdTe APD detector in linear mode

  • 摘要: 碲镉汞雪崩光电二极管(Avalanche Photodiode, APD)探测器在主被动模式下能同时获取目标物体的强度信息和时间信息,实现实时的三维探测。高精度时间标定的测试方法是验证三维测距的基础。文中分析了盖革模式和线性模式的优缺点,针对一种线性模式主被动HgCdTe APD探测器的读出电路结构进行了分析,并对TOF计算方法进行了研究,在此基础上搭建了一套高精度时间标定的测试平台,对系统和环境噪声进行了测试,得到噪声带来的时间抖动为179 ps。对测试仪器带来的固定时延进行了校准,对影响TOF精度的电压、电容、斜坡发生器的精度以及高精度电压源的精度等参数进行了理论分析,在77 K下完成了线性模式HgCdTe APD探测器的主、被动信息的测试。测试结果得到低温下电路线性度高达99.9%,饱和电荷容量为7 Me−,时间精度抖动的均方根为2.107 ns,证明该测试平台和方法能有效地评估探测器的性能,为红外精准探测提供了参考。

     

    Abstract: The mercury cadmium telluride avalanche photodiode (HgCdTe APD) detector can simultaneously obtain the intensity information and time information of the target object in the active and passive mode, to realize real-time three-dimensional detection. The testing method of high-resolution time calibration is the basis for verifying three-dimensional ranging. The advantages and disadvantages of Geiger mode and linear mode were analyzed. Besides, the readout circuit structure of a linear mode active and passive HgCdTe APD detector was analyzed, and the time-to-flight (TOF) calculation method was studied. On this basis, a set of high-precision time calibration test platform was built, the system and environmental noise were tested, and the time jitter caused by the noise was 179 ps. The fixed time delay caused by the test instrument was calibrated, and theoretical analysis was conducted on the voltage, capacitance, the accuracy of the ramp generator and the high-precision voltage source and other parameters that affected the TOF resolution. The active and passive information test of the linear mode HgCdTe APD detector was completed at 77 K. The test results show that the circuit linearity is as high as 99.9% at low temperature, the saturation charge capacity is 7 Me−, the root mean square (RMS) value of the time resolution jitters is 2.107 ns. It proves that the test platform and method can effectively evaluate the performance of the detector, and provide reference for precise infrared detection.

     

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