可调腔型高q滤波器的实时温度补偿控制系统

Yu-Chen Wu, M. Abu Khater, D. Peroulis
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引用次数: 3

摘要

本文设计、实现了一种可调高q腔滤波器的实时温度补偿控制系统,并进行了实验验证。高Q (Q = 400)带阻谐振器可由压电驱动器从1.27 GHz调谐到1.79 GHz,由共享同一压电驱动器的集成监测谐振器实时监测。因此,射频共振与监测共振具有一对一的对应关系。压控振荡器与监测谐振器耦合,产生频率取决于射频谐振器频率的振荡输出信号。监测共振通过闭环实时与用户提供的共振进行比较来控制。根据谐振器中心频率的不同,系统分辨率在2 ~ 13 MHz范围内变化,传感周期为1.6 μs,平均设置为512。该系统能够在-40°C和40°C之间的广泛温度范围内通过调整压电驱动器的偏置电压来补偿频率漂移。在4 MHz(0.25%)下测得1.5 GHz频率控制误差,远小于相同温度变化下195 MHz(12.97%)的开环误差。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Real-time temperature compensation control system for tunable cavity-based high-Q filters
In this paper, a real-time temperature compensation control system for a tunable high-Q cavity-based filter is designed, implemented and experimentally validated. A high-Q (Q = 400) bandstop resonator that can be tuned by a piezoelectric actuator from 1.27 GHz to 1.79 GHz is monitored in real time by an integrated monitoring resonator that shares the same piezoelectric actuator. Consequently, the RF resonance has a one-to-one correspondence to the monitoring resonance. A VCO is coupled with the monitoring resonator resulting in an oscillatory output signal at a frequency that depends on the RF resonator frequency. The monitoring resonance is controlled by comparing it to a user-provided resonance through a closed-loop in real-time. The system resolution varies from 2 MHz to 13 MHz depending on the resonators center frequency with a 1.6 μs sensing period and averaging set at 512. The system is capable of compensating for frequency drifts by adjusting bias voltage to the piezoelectric actuator for a wide range of temperatures between -40°C and 40°C. The frequency control error at 1.5 GHz is measured at 4 MHz (0.25%), which is much smaller than the open-loop change of 195 MHz (12.97%) for the same temperature change.
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