On analytical frequency domain compensator design

On analytical frequency domain compensator design

An algorithm for generating discrete and continuous time forward path compensator coefficients is presented. The servo loop configuration considers a compensator, G/sub c/, and plant, G/sub p/, in the forward path with unity gain feedback. This structure is basic to many controller designs incorpora...

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Bibliographic Details
Published in:Proceedings of 1994 33rd IEEE Conference on Decision and Control Vol. 3; pp. 2056 - 2058 vol.3
Main Author: Kennedy, P.J.
Format: Conference Proceeding
Language:English
Published: IEEE 1994
Subjects:
Error correction
Feedback loop
Frequency domain analysis
Open loop systems
Optical control
Optical design
Optical feedback
Optical sensors
Servomechanisms
Signal design
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Summary:An algorithm for generating discrete and continuous time forward path compensator coefficients is presented. The servo loop configuration considers a compensator, G/sub c/, and plant, G/sub p/, in the forward path with unity gain feedback. This structure is basic to many controller designs incorporating sensors that directly detect an error signal (i.e. optical tracker pointing error, gyro attitude error). Although limited in flexibility, since the open loop zeros are included in the closed loop servo response, the configuration is common to many applications employing off-the-shelf control processors. Forward path compensator design is typically performed via Bode or root locus techniques. The algorithm presented is derived for a general linear time-invariant plant structure and provides an analytical procedure for determining the compensator coefficients. It is applicable to the initial stages of the design process and can be readily tuned as the design progresses.< >
ISBN:0780319680
9780780319684
DOI:10.1109/CDC.1994.411435