"This work presents a rapid motor control prototyping technique based on the development of a real-time simulation environment structured on a DSP architecture. The considered case study refers to an Interior Permanent Magnet synchronous motor (IPM) drive arranging a field oriented speed control with the optimization of the torque-to-current ratio and the decoupling of the feeding voltages. The main topics of this work are related with the construction of the real-time simulation platform and with the implementation issues coming from the use of a hardware DSP-based setup. In particular it will be shown how such a kind of simulation architecture can model very closely the real behaviour of a controlled IPM drive and consequently how it can be used to properly tune the control algorithm without the needing of using the real motor drive saving this way a lot of deployment time."

This work presents a rapid motor control prototyping technique based on the development of a real-time simulation environment structured on a DSP architecture. The considered case study refers to an Interior Permanent Magnet synchronous motor (IPM) drive arranging a field oriented speed control with the optimization of the torque-to-current ratio and the decoupling of the feeding voltages. The main topics of this work are related with the construction of the real-time simulation platform and with the implementation issues coming from the use of a hardware DSP-based setup. In particular it will be shown how such a kind of simulation architecture can model very closely the real behaviour of a controlled IPM drive and consequently how it can be used to properly tune the control algorithm without the needing of using the real motor drive saving this way a lot of deployment time. © 2012 IEEE.

A DSP-based real-time simulation equipment for fast motor control development

Di Leonardo L.
;
Fabri G.;
2012-01-01

Abstract

This work presents a rapid motor control prototyping technique based on the development of a real-time simulation environment structured on a DSP architecture. The considered case study refers to an Interior Permanent Magnet synchronous motor (IPM) drive arranging a field oriented speed control with the optimization of the torque-to-current ratio and the decoupling of the feeding voltages. The main topics of this work are related with the construction of the real-time simulation platform and with the implementation issues coming from the use of a hardware DSP-based setup. In particular it will be shown how such a kind of simulation architecture can model very closely the real behaviour of a controlled IPM drive and consequently how it can be used to properly tune the control algorithm without the needing of using the real motor drive saving this way a lot of deployment time. © 2012 IEEE.
2012
978-1-4673-4595-8
978-1-4673-4597-2
"This work presents a rapid motor control prototyping technique based on the development of a real-time simulation environment structured on a DSP architecture. The considered case study refers to an Interior Permanent Magnet synchronous motor (IPM) drive arranging a field oriented speed control with the optimization of the torque-to-current ratio and the decoupling of the feeding voltages. The main topics of this work are related with the construction of the real-time simulation platform and with the implementation issues coming from the use of a hardware DSP-based setup. In particular it will be shown how such a kind of simulation architecture can model very closely the real behaviour of a controlled IPM drive and consequently how it can be used to properly tune the control algorithm without the needing of using the real motor drive saving this way a lot of deployment time."
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11697/206240
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