AC-DC transfer standards-present status and future directions

Precision ac-dc transfer standards, for use at frequencies up to 100 kHz, are reviewed with emphasis on developments over the past eight years. Primary standards and most precise ac-dc transfer instruments are based on single- and multi-junction thermal converters. Sources of error in thermal conver...

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Veröffentlicht in:	IEEE transactions on instrumentation and measurement 1985-06, Vol.IM-34 (2), p.285-290, Article 285
1. Verfasser:	Inglis, Barry D.
Format:	Artikel
Sprache:	eng
Schlagworte:	AC generators Analog-digital conversion Automatic testing Calibration Electrical and electronic components, instruments and techniques Exact sciences and technology Frequency Instruments Instruments, apparatus, components and techniques common to several branches of physics and astronomy Laboratories Physics Standards development Thermoelectricity Voltage
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container_title	IEEE transactions on instrumentation and measurement
container_volume	IM-34
creator	Inglis, Barry D.
description	Precision ac-dc transfer standards, for use at frequencies up to 100 kHz, are reviewed with emphasis on developments over the past eight years. Primary standards and most precise ac-dc transfer instruments are based on single- and multi-junction thermal converters. Sources of error in thermal converters at midfrequencies are mainly associated with thermoelectric effects, and these sources are briefly discussed. Other sources of error and the performance and limitations of standards and instruments used for the ac-dc transfer of voltage and current, up to 1200 V and 20 A, are also considered. Calibration and intercomparison of these instruments in national laboratories is particularly costly and time consuming, and in recent years this has led to the development of automatic testing systems and procedures. It is unlikely that conventional thermal converters will be replaced as primary standards in the short term. However, computable ac generators and alternative thermal devices may be expected to make a significant contribution in the field of ac-dc transfer in the near future.
doi_str_mv	10.1109/TIM.1985.4315326
format	Article
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Primary standards and most precise ac-dc transfer instruments are based on single- and multi-junction thermal converters. Sources of error in thermal converters at midfrequencies are mainly associated with thermoelectric effects, and these sources are briefly discussed. Other sources of error and the performance and limitations of standards and instruments used for the ac-dc transfer of voltage and current, up to 1200 V and 20 A, are also considered. Calibration and intercomparison of these instruments in national laboratories is particularly costly and time consuming, and in recent years this has led to the development of automatic testing systems and procedures. It is unlikely that conventional thermal converters will be replaced as primary standards in the short term. 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Primary standards and most precise ac-dc transfer instruments are based on single- and multi-junction thermal converters. Sources of error in thermal converters at midfrequencies are mainly associated with thermoelectric effects, and these sources are briefly discussed. Other sources of error and the performance and limitations of standards and instruments used for the ac-dc transfer of voltage and current, up to 1200 V and 20 A, are also considered. Calibration and intercomparison of these instruments in national laboratories is particularly costly and time consuming, and in recent years this has led to the development of automatic testing systems and procedures. It is unlikely that conventional thermal converters will be replaced as primary standards in the short term. However, computable ac generators and alternative thermal devices may be expected to make a significant contribution in the field of ac-dc transfer in the near future.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TIM.1985.4315326</doi><tpages>6</tpages></addata></record>
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subjects	AC generators Analog-digital conversion Automatic testing Calibration Electrical and electronic components, instruments and techniques Exact sciences and technology Frequency Instruments Instruments, apparatus, components and techniques common to several branches of physics and astronomy Laboratories Physics Standards development Thermoelectricity Voltage
title	AC-DC transfer standards-present status and future directions
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