Open AccessStudy of the impact of the incremental optical encoder sensor on the dynamic performance of velocity servosystems
Author(s) -
VazquezGutierrez Yeny,
O'Sullivan Dara L.,
Kavanagh Richard C.
Publication year - 2019
Publication title -
the journal of engineering
Language(s) - English
Resource type - Journals
ISSN - 2051-3305
DOI - 10.1049/joe.2018.8255
Subject(s) - encoder , rotary encoder , computer science , margin (machine learning) , control theory (sociology) , signal (programming language) , phase margin , telecommunications , artificial intelligence , control (management) , operating system , amplifier , operational amplifier , bandwidth (computing) , machine learning , programming language
This study focuses on the impact of the dynamics of the incremental optical encoder, particularly, at low speed, when the phase margin of the closed‐loop system is reduced. This study presents an encoder simulation model, as well as a novel technique to measure experimentally the frequency response of the incremental optical encoder. Both the simulation model and the experimental technique rely on the similarities of an optical incremental encoder and a voltage‐controlled oscillator. The experimental and simulation results are compared with the small‐signal dynamics models of the encoder presented in the literature for the pulse count and elapsed time methods. The impact of the delay at low speed, on a realistic closed‐loop motor system, is experimentally demonstrated.