利用SMT降低DLVA输出瞬态电压的10mhz低通滤波器的设计与实现

D. Kurniadi, P. Daud, A. Setiawan, F. Darwis, D. Mahmudin, P. Putranto, E. J. Pristianto, Taufiqqurrachman, S. Hardiati, W. Desvasari, Sulistyaningsih, A. N. Rahman
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引用次数: 0

摘要

使用表面贴装技术(SMT)成功创建了10 MHz低通滤波器(LPF)。该滤波器为7阶极椭圆型滤波器,在13 MHz频率范围内阻带宽度约为30%,阻带深度为60 dB。该滤波器设计用于通过2-18 GHz移动电子支持测量(ESM)的检测器对数视频放大器(DLVA)输出的视频信号,该信号具有可能在信号处理中导致误读的瞬态电压。SMT用于提供更紧凑的电路尺寸以及良好的质量(Q)因子。本文包括该滤波器的规划、仿真、实现和测量。从结果来看,与不使用LPF相比,LPF满足规格要求,能够通过降低瞬态电压来提高DLVA输出的性能。因此,数字信号处理器对即将到来的信号的误读可以被最小化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and Realization of 10 MHz Low Pass Filter using SMT to Reduce Transient Voltage on the DLVA Output
A 10 MHz low pass filter (LPF) using surface mount technology (SMT) has been successfully created. This LPF is a 7-order pole elliptic-type filter, with stopband width of about 30% in 13 MHz frequency range, and 60 dB stopband depth. This filter is designed to pass the video signal output from a detector logarithmic video amplifier (DLVA) of a 2–18 GHz mobile Electronic Support Measure (ESM) which has a transient voltage that may cause misinterpretation in the signal processing. The SMT is used to provide a more compact dimensions of the circuit as well as a good quality (Q) factor. This paper contains planning, simulation, realization, and measurement of the filter. From the result, the LPF fulfills the specification and able to enhance the performance of DLVA output by reducing the transient voltage, compared to without the LPF. Hence, the upcoming misinterpretation of the signal by the digital signal processor can be minimized.
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