Measurements of Periodic Signals Phase Shifts with Application of Direct Digital Synthesis

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION

Devices and Methods of Measurements Pub Date : 2019-06-24 DOI:10.21122/2220-9506-2019-10-2-169-177

I. Gula, O. Polikarovskykh, K. Horiashchenko, L. Karpova, V. Melnychuk

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引用次数: 3

Abstract

The development of new methods and high-bit instruments for measuring phase shifts of high-frequency periodic signals with high speed for radar and radionavigation tasks is an actual task. The purpose of this work is to create a new phase shift meter for high-frequency periodic signals based on the double-matching method using direct digital frequency synthesis.On the basis of the proposed mathematical model of phase shift measurements of periodic signals by the method of double coincidence using the statistical accumulation of pulse coincidences, a functional diagram of a digital phase shift meter of periodic signals using a direct digital frequency synthesizer is developed. This allowed the implementation of an 8-bit converter phase shift signal to the code on the programmed logic integrated circuit EPM240T100C5N firm Altera.The digital phase shift meter of periodic signals based on the double-matching method consists of two comparators, two short-wave pulse generators, a direct digital frequency synthesizer, two pulse counter control circuits, two short pulse coincidence circuits, two pulse counting circuits, four clock counters, four registers, a microcontroller and an indicator. Block diagram of a double-matching digital phase meter using direct digital sintesizer use minimal hardware logic.In the developed phase shift meter, due to the use of the double-matching method, the time delay between signals does not depend on the period of input signals and can be found when changing the frequency of periodic pulses in wide limits. Measurement errors will be determined mainly by the duration of the pulses of coincidence. The use of statistical accumulation of pulse coincidence in the basis of the work allowed eliminating the restrictions on the duration of pulses of known non-ionic meters.On the basis of the obtained results, a high-bit converter of phase shifts of high-frequency periodic signals into a binary code with high speed for problems of industrial tomography, radar and radionavigation can be developed.

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应用直接数字合成技术测量周期信号相移

为雷达和无线电导航任务开发高速测量高频周期信号相移的新方法和高比特仪器是一项实际任务。本工作的目的是基于直接数字频率合成的双匹配方法，创建一种新的高频周期信号相移计。在提出的利用脉冲重合统计累加的双符合法测量周期信号相移的数学模型的基础上，给出了采用直接数字频率合成器测量周期信号的数字相移计的功能图。这允许实现8位转换器相移信号到Altera公司编程逻辑集成电路EPM240T100C5N上的代码。基于双匹配法的周期信号数字移相计由两个比较器、两个短波脉冲发生器、一个直接数字频率合成器、两个脉冲计数器控制电路、两个短脉冲重合电路、两个脉冲计数电路、四个时钟计数器、四个寄存器、一个微控制器和一个指示器组成。使用直接数字烧结器的双匹配数字相位计的框图使用最小的硬件逻辑。在所研制的相移计中，由于采用了双匹配方法，信号间的时间延迟不依赖于输入信号的周期，在宽范围内改变周期脉冲的频率即可得到。测量误差主要由符合脉冲的持续时间决定。在工作的基础上使用脉冲重合的统计积累，可以消除对已知非离子计脉冲持续时间的限制。在得到的结果的基础上，可以开发出用于工业层析成像、雷达和无线电导航问题的高频周期信号相移成高速二进制码的高比特转换器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-

自引率

25.00%

发文量

审稿时长

8 weeks