Digital instrument construction – “new” metrology

IF 0.1 Q4 INSTRUMENTS & INSTRUMENTATION
Pavel Neyezhmakov, Olena Vasylieva, Yurii Pavlenko, V. Ogar
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引用次数: 0

Abstract

As of today, Ukraine maintains a number of primary radio measurement standards established at the end of the last century. However, there is an abundance of high-tech multi-functional measuring equipment being widely spread for the purpose of metrological support (verification, repair, calibration). This circumstance requires the adaptation of the domestic infrastructure of metrological support and revision of the principles and approaches to the metrological support system itself. The essence of the new approach lies in the maximum use of both our methodological experience in metrology and technological solutions of modern instrumentation. When establishing a new primary measurement standard for frequency deviation, these new principles are implemented. The paper shows that the main tendencies in the instrumentation in the field of electro-radio measurements are not only aimed at the improvement of metrological characteristics, but also at the wide use of digital and software solutions, which requires new approaches to metrological support. The experience of developing the primary measurement standard for frequency deviation of frequency-modulated (FM) oscillations, as well as the study of the measurement standard for amplitude-modulated (AM) oscillations, shows the effectiveness of using digital methods for the generation of precise complex broadband signals, and software methods for the implementation of complex measurement algorithms. Thanks to the programming, such methods as “zeros of the Bessel function” and “combination frequencies” have been implemented, which in the analogue version are very cumbersome and difficult to apply in practice. The experimental estimation of metrological characteristics of the most important equipment devices (generators and demodulators) during their operation by analogue and digital methods is described, and the results of comparative measurements are given. It is shown that, in addition to the increasing number of metrological capabilities, digital and software approaches allow creating flexible multifunctional calibration complexes in the field of radio measurements.
数字仪器制造--"新 "计量学
截至目前,乌克兰仍保留着上世纪末制定的一系列无线电测量主要标准。然而,大量高科技多功能测量设备正在广泛传播,用于计量支持(验证、维修、校准)。在这种情况下,需要对国内的计量支持基础设施进行调整,并对计量支持系统本身的原则和方法进行修订。新方法的精髓在于最大限度地利用我们在计量方法方面的经验和现代仪器的技术解决方案。在建立新的频率偏差主要测量标准时,这些新原则得到了贯彻。本文表明,无线电测量领域仪器设备的主要发展趋势不仅在于改进计量特性,还在于广泛使用数字和软件解决方案,这就需要新的计量支持方法。制定频率调制(FM)振荡频率偏差初级测量标准的经验,以及对幅度调制(AM)振荡测量标准的研究表明,使用数字方法生成精确复杂的宽带信号,以及使用软件方法实施复杂的测量算法,都是非常有效的。通过编程,"贝塞尔函数的零点 "和 "组合频率 "等方法得以实现,而这些方法在模拟版本中非常繁琐,难以实际应用。文中介绍了模拟和数字方法对最重要设备(发生器和解调器)运行期间计量特性的实验估算,并给出了比较测量的结果。结果表明,除了不断增加的计量功能外,数字和软件方法还可以在无线电测量领域创建灵活的多功能校准综合体。
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
Ukrainian Metrological Journal
Ukrainian Metrological Journal INSTRUMENTS & INSTRUMENTATION-
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21
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