DocumentCode
2991846
Title
Computer-aided design of induction watthour meter
Author
Ban, Keren
Author_Institution
Shanghai Electr. Meter Works, China
fYear
1990
fDate
13-15 Feb 1990
Firstpage
47
Lastpage
53
Abstract
The author describes a newly established precise mathematical model and CAD (computer-aided design) algorithms for a high-overload induction watthour meter (the software package is called WATTCAD). The problem of computing the dynamic induced magnetic and electric systems of the watthour meter is solved in WATTCAD with three new nonlinear equivalent circuits. The Monte Carlo method for tolerance analysis and an optimization technique have been programmed and improved for meter design. The user interface to WATTCAD was simplified and the amount of data to be entered minimized. The improved linear interpolation and secant algorithms are programmed for solving nonlinear equations of complex matrices which are used to describe the inductive electromagnetic phenomenon. As an example, the use of WATTCAD to design a new model watthour meter DD285 is discussed
Keywords
CAD; Monte Carlo methods; circuit analysis computing; electrical engineering computing; electromagnetic induction; equivalent circuits; interpolation; matrix algebra; nonlinear equations; optimisation; software packages; watthour meters; CAD; DD285; Monte Carlo method; WATTCAD; complex matrices; induction watthour meter; inductive electromagnetic phenomenon; linear interpolation; mathematical model; nonlinear equations; nonlinear equivalent circuits; optimization; secant algorithms; software package; tolerance analysis; Design automation; Design optimization; Equivalent circuits; Interpolation; Mathematical model; Software algorithms; Software packages; Tolerance analysis; User interfaces; Watthour meters;
fLanguage
English
Publisher
ieee
Conference_Titel
Instrumentation and Measurement Technology Conference, 1990. IMTC-90. Conference Record., 7th IEEE
Conference_Location
San Jose, CA
Type
conf
DOI
10.1109/IMTC.1990.65957
Filename
65957
Link To Document