Title :
Improving the velocity sensing resolution of pulse encoders by FIR prediction
Author :
Ovaska, Seppo J.
Author_Institution :
KONE Elevators, Hyvinkaa, Finland
fDate :
6/1/1991 12:00:00 AM
Abstract :
An FIR (finite impulse response) predictor based approach is presented to increase the highest possible velocity sampling rate of a cycle-length measuring based velocity feedback system. The proposed method improves the slow-speed characteristics of optical pulse encoders in applications where the angular velocities down to about 0.5 RPM are of interest. The proposed principle works well in elevator control applications where the approximate shape of the low-speed curve is a second order polynomial. However, the same principle with an appropriate set of predictor coefficients can be applied to more general velocity sensing applications, as well
Keywords :
encoding; lifts; polynomials; predictive control; velocity control; velocity measurement; FIR prediction; angular velocities; cycle-length measuring based velocity feedback; elevator control; finite impulse response; lift; low-speed curve; optical pulse encoders; predictor coefficients; pulse encoders; second order polynomial; velocity control; velocity sampling rate; velocity sensing resolution; AC motors; Elevators; Finite impulse response filter; Length measurement; Optical feedback; Optical pulses; Pulse measurements; Sampling methods; Velocity control; Velocity measurement;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
