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Japan National Standard of Attenuation in the Frequency Range of 10 MHz to 18 GHz

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A. Widarta; D. Sugawara; T. Kawakami; K. Komiyama
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Abstract:

An attenuation measurement system employs an IVD at 1 kHz as a reference standard and dual-channel IF substitution method is developed to renew the Japan national standar...Show More

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Abstract:

An attenuation measurement system employs an IVD at 1 kHz as a reference standard and dual-channel IF substitution method is developed to renew the Japan national standard of attenuation. The new system has a measurable attenuation range of 100 dB at frequencies from 10 MHz to 12 GHz, and besides 60 dB up to 18 GHz
Published in: 2004 Conference on Precision Electromagnetic Measurements
Date of Conference: 27 June 2004 - 02 July 2004
Date Added to IEEE Xplore: 12 February 2007
ISBN Information:
DOI: 10.1109/CPEM.2004.305481
Conference Location: London, UK
References is not available for this document.
Contents

Introduction

At the National Metrology Institute of Japan (NMIJIAIST), an accurate and traceable attenuation measurement system operated at 30 MHz and 10 GHz had been developed and used as a national standard of attenuation [1]. The system adopted a homodyne detection and employed inductive voltage divider (IVD) working at 1 kHz as a reference standard. The measurable range was up to 50 dB. However, with the increasingly growing demands for accurate, traceable, broadband standards in which have a high attenuation range, it is necessary to develop a new standard measurement system, since the previous system based on homodyne detection is unsuitable for broadband implementation.

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1.
T. Kawakami et al., "RF attenuation measurement system with 1-kHz voltage ratio standard", IEEE Trans. IM, vol. 42, pp. 1014-1019, Dec. 1993.
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2.
A. Widarta et al., "Attenuation measurement system in frequency range of 10 to 100 MHz", IEEE Trans. IM, vol. 52, pp. 302-306, April. 2003.
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3.
A. Widarta et al., "Dual Channel IF Substitution Measurement system for Microwave attenuation standard", IEICE Trans. Electron., vol. E86-C, pp. 1580-1583, August 2003.
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