Bibliographic Metadata
Bibliographic Metadata
- TitleFPGA-Based Realization of Self-Optimizing Drive-Controllers
- Author
- Published
- LanguageEnglish
- Document typeConference Proceedings
- ISBN9781424446483
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- DOI
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- IIIF
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Abstract
An FPGA (Field Programmable Gate Array) implementation
and suitable power electronics can lead to a fast
torque response in motion drive applications. However, when
the controller parameters or its structure have to be adapted
to internal and external varying conditions, e.g., when a selfoptimizing
control system is pursued, a static implementation
might not lead to the best utilization of reconfigurable resources.
This contribution outlines the implementation of a self-optimizing
system composed of several possible hardware and software
realizations of controllers for a permanent magnet servo motor.
How well a specific controller realization is suited to the current
situation is evaluated based on control quality and realization
effort (i.e., CPU time, reconfigurable area). A System-on-Chip
architecture is presented, which enables an on-line exchange of
FPGA- and CPU-based realizations of controllers to optimize
resource utilization and control quality. It is shown that by
using dynamic hardware reconfiguration, such self-optimizing
controller can be implemented based on FPGA technology.
Furthermore, the design-flow including self-developed tools is
outlined. Experimental results show that the proposed scheme
works satisfactory.
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