Paper Info
Title
A Resolver-to-Digital Conversion Method Based on Third-Order Rational Fraction Polynomial Approximation for PMSM Control
Abstract
In this paper, a cost-effective and highly accurate resolver-to-digital conversion method is presented. The core of the idea is to apply a third-order rational fraction polynomial approximation for the conversion of sinusoidal signals into the pseudo linear signals, which are extended to the range 0°–360° in four quadrants. Then, the polynomial least squares method is used to achieve compensation to acquire the final angles. The presented method shows better performance in terms of accuracy and rapidity compared with the commercial available techniques in simulation results. This paper describes the implementation details of the proposed method and the way to incorporate it in digital signal processor-based permanent magnet synchronous motor drive system. Experimental tests under different conditions are carried out to verify the effectiveness for the proposed method. The obtained maximum error is about 0.0014° over 0°–360°, which can usually be ignored in most industrial applications.
Year
DOI
Venue
2019
10.1109/TIE.2018.2884209
IEEE Transactions on Industrial Electronics
Keywords
Field
DocType
Signal resolution,Windings,Hardware,Software,Table lookup,Mathematical model
Resolver,Polynomial,Control theory,Digital signal processor,Third order,Algebraic fraction,Electromagnetic coil,Software,Engineering,Polynomial least squares
Journal
Volume
Issue
ISSN
66
8
0278-0046
Citations 
PageRank 
References 
0
0.34
0
Authors
4
Name
Order
Citations
PageRank
Shuo Wang100.34
Jinsong Kang210.71
Michele Degano3116.81
Giampaolo Buticchi45722.36