Characterization of non-sinusoidal measurement station component requirements and errors

Shehab Ahmed, Woojin Choi, Hamid A. Toliyat, Prasad Enjeti

Research output: Contribution to journalArticle

Abstract

With the increased use of digital instrumentation in industrial and commercial applications, it becomes highly essential for the engineer to become more familiar and aware of the possible sources of measurement error related to the instruments being used and their internal construction. This paper aims at providing a common terminology and error quantification in such systems. The discussion is aimed at both the user and the manufacturer of such instruments. The paper presents many performance features of modern digital measurement systems and the sources of error. Simple computer models will attempt to simulate digital measurement system components in an intuitive manner. Developing such an understanding will aid in the determination of the required tests and the interpretation of their results. The work is aimed at a better understanding of the non-sinusoidal situation and the measuring problems due to non-sinusoidal conditions. The main part of this work is the development of a solid background using modern simulation tools of one of the main components of the measurement system, namely, the data converter, and its requirements and errors. Sample data converter specifications will be illustrated based on a sample inverter waveform analysis. A new, simple, low-cost topology for a data converter suitable for such an application is also presented and its performance is assessed using simulation. The transistor level design of the chip, is being carried out, and it is intended to include chip performance results in the final manuscript.

Original languageEnglish
Pages (from-to)891-895
Number of pages5
JournalASHRAE Transactions
Volume108 PART 2
Publication statusPublished - 2002
Externally publishedYes

Fingerprint

Waveform analysis
Terminology
Measurement errors
Transistors
Topology
Specifications
Engineers
Costs

ASJC Scopus subject areas

  • Fluid Flow and Transfer Processes

Cite this

Characterization of non-sinusoidal measurement station component requirements and errors. / Ahmed, Shehab; Choi, Woojin; Toliyat, Hamid A.; Enjeti, Prasad.

In: ASHRAE Transactions, Vol. 108 PART 2, 2002, p. 891-895.

Research output: Contribution to journalArticle

Ahmed, Shehab ; Choi, Woojin ; Toliyat, Hamid A. ; Enjeti, Prasad. / Characterization of non-sinusoidal measurement station component requirements and errors. In: ASHRAE Transactions. 2002 ; Vol. 108 PART 2. pp. 891-895.
@article{67707c9baf6d475cae5e019c9c361bf2,
title = "Characterization of non-sinusoidal measurement station component requirements and errors",
abstract = "With the increased use of digital instrumentation in industrial and commercial applications, it becomes highly essential for the engineer to become more familiar and aware of the possible sources of measurement error related to the instruments being used and their internal construction. This paper aims at providing a common terminology and error quantification in such systems. The discussion is aimed at both the user and the manufacturer of such instruments. The paper presents many performance features of modern digital measurement systems and the sources of error. Simple computer models will attempt to simulate digital measurement system components in an intuitive manner. Developing such an understanding will aid in the determination of the required tests and the interpretation of their results. The work is aimed at a better understanding of the non-sinusoidal situation and the measuring problems due to non-sinusoidal conditions. The main part of this work is the development of a solid background using modern simulation tools of one of the main components of the measurement system, namely, the data converter, and its requirements and errors. Sample data converter specifications will be illustrated based on a sample inverter waveform analysis. A new, simple, low-cost topology for a data converter suitable for such an application is also presented and its performance is assessed using simulation. The transistor level design of the chip, is being carried out, and it is intended to include chip performance results in the final manuscript.",
author = "Shehab Ahmed and Woojin Choi and Toliyat, {Hamid A.} and Prasad Enjeti",
year = "2002",
language = "English",
volume = "108 PART 2",
pages = "891--895",
journal = "ASHRAE Transactions",
issn = "0001-2505",
publisher = "Amer. Soc. Heating, Ref. Air-Conditoning Eng. Inc.",

}

TY - JOUR

T1 - Characterization of non-sinusoidal measurement station component requirements and errors

AU - Ahmed, Shehab

AU - Choi, Woojin

AU - Toliyat, Hamid A.

AU - Enjeti, Prasad

PY - 2002

Y1 - 2002

N2 - With the increased use of digital instrumentation in industrial and commercial applications, it becomes highly essential for the engineer to become more familiar and aware of the possible sources of measurement error related to the instruments being used and their internal construction. This paper aims at providing a common terminology and error quantification in such systems. The discussion is aimed at both the user and the manufacturer of such instruments. The paper presents many performance features of modern digital measurement systems and the sources of error. Simple computer models will attempt to simulate digital measurement system components in an intuitive manner. Developing such an understanding will aid in the determination of the required tests and the interpretation of their results. The work is aimed at a better understanding of the non-sinusoidal situation and the measuring problems due to non-sinusoidal conditions. The main part of this work is the development of a solid background using modern simulation tools of one of the main components of the measurement system, namely, the data converter, and its requirements and errors. Sample data converter specifications will be illustrated based on a sample inverter waveform analysis. A new, simple, low-cost topology for a data converter suitable for such an application is also presented and its performance is assessed using simulation. The transistor level design of the chip, is being carried out, and it is intended to include chip performance results in the final manuscript.

AB - With the increased use of digital instrumentation in industrial and commercial applications, it becomes highly essential for the engineer to become more familiar and aware of the possible sources of measurement error related to the instruments being used and their internal construction. This paper aims at providing a common terminology and error quantification in such systems. The discussion is aimed at both the user and the manufacturer of such instruments. The paper presents many performance features of modern digital measurement systems and the sources of error. Simple computer models will attempt to simulate digital measurement system components in an intuitive manner. Developing such an understanding will aid in the determination of the required tests and the interpretation of their results. The work is aimed at a better understanding of the non-sinusoidal situation and the measuring problems due to non-sinusoidal conditions. The main part of this work is the development of a solid background using modern simulation tools of one of the main components of the measurement system, namely, the data converter, and its requirements and errors. Sample data converter specifications will be illustrated based on a sample inverter waveform analysis. A new, simple, low-cost topology for a data converter suitable for such an application is also presented and its performance is assessed using simulation. The transistor level design of the chip, is being carried out, and it is intended to include chip performance results in the final manuscript.

UR - http://www.scopus.com/inward/record.url?scp=0036455762&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0036455762&partnerID=8YFLogxK

M3 - Article

VL - 108 PART 2

SP - 891

EP - 895

JO - ASHRAE Transactions

JF - ASHRAE Transactions

SN - 0001-2505

ER -