Advanced Industrial Crane Controller Based on AC Wound Motor. Kolonic, F, Poljugan, A, & Slutej, A INTERNATIONAL REVIEW OF ELECTRICAL ENGINEERING-IREE, 4(3):447–460, PRAISE WORTHY PRIZE SRL, PIAZZA G D ANNUNZIO, NAPOLI, 15-I80125, ITALY, 2009.
abstract   bibtex   
Developed speed crane control system which is based on a wound AC motor is an advanced system for heavy duty tasks especially in the field of industrial cranes and other heavy duty material handling systems. In order to avoid problems with a mechanical feedback device (coupling, vibration, no space for build in, etc.), actual speed information is calculated from a rotor voltage frequency estimation unit. The controller is developed as a modular system capable to deal with control, communication, protection and other specific industrial demands. It is a multiprocessor system in stand-alone version realized with microcontroller MC68332 (application program running), two SAB 82532 microcontrollers (distributing control system), two MC68302 (process I/O communication) and two DSP ADMC300 (speed and electromagnetic torque estimation). Speed and torque estimation algorithms are realized on the separate hardware modules and integrated with other components in the control system via fast communication link Investigation of sensorless speed and torque control as well as fully automatic control of the rotor resistor switching, was the crucial point in the design process of a new industrial drive controller aimed mostly for the revitalization of industrial cranes. Performance of the speed and torque sensorless crane controller is evaluated on the laboratory testbed and in different real industrial environment. Copyright (C) 2009 Praise Worthy Prize S.r.l. - All rights reserved
@article{WOS:000268889600014,
abstract = {Developed speed crane control system which is based on a wound AC motor
is an advanced system for heavy duty tasks especially in the field of
industrial cranes and other heavy duty material handling systems. In
order to avoid problems with a mechanical feedback device (coupling,
vibration, no space for build in, etc.), actual speed information is
calculated from a rotor voltage frequency estimation unit. The
controller is developed as a modular system capable to deal with
control, communication, protection and other specific industrial
demands. It is a multiprocessor system in stand-alone version realized
with microcontroller MC68332 (application program running), two SAB
82532 microcontrollers (distributing control system), two MC68302
(process I/O communication) and two DSP ADMC300 (speed and
electromagnetic torque estimation). Speed and torque estimation
algorithms are realized on the separate hardware modules and integrated
with other components in the control system via fast communication link
Investigation of sensorless speed and torque control as well as fully
automatic control of the rotor resistor switching, was the crucial point
in the design process of a new industrial drive controller aimed mostly
for the revitalization of industrial cranes. Performance of the speed
and torque sensorless crane controller is evaluated on the laboratory
testbed and in different real industrial environment. Copyright (C) 2009
Praise Worthy Prize S.r.l. - All rights reserved},
address = {PIAZZA G D ANNUNZIO, NAPOLI, 15-I80125, ITALY},
author = {Kolonic, F and Poljugan, A and Slutej, A},
issn = {1827-6660},
journal = {INTERNATIONAL REVIEW OF ELECTRICAL ENGINEERING-IREE},
keywords = {Crane control; Revitalization; Rotor frequency mea},
number = {3},
pages = {447--460},
publisher = {PRAISE WORTHY PRIZE SRL},
title = {{Advanced Industrial Crane Controller Based on AC Wound Motor}},
type = {Article},
volume = {4},
year = {2009}
}
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