Università di Pavia - Offerta formativa

ELECTRICAL DRIVES FOR INDUSTRIAL APPLICATIONS

Anno immatricolazione

2018/2019

Anno offerta

2019/2020

Normativa

DM270

SSD

ING-IND/32 (CONVERTITORI, MACCHINE E AZIONAMENTI ELETTRICI)

Dipartimento

DIPARTIMENTO DI INGEGNERIA INDUSTRIALE E DELL'INFORMAZIONE

Corso di studio

INDUSTRIAL AUTOMATION ENGINEERING - INGEGNERIA DELL'AUTOMAZIONE INDUSTRIALE

Curriculum

PERCORSO COMUNE

Anno di corso

2°

Periodo didattico

Primo Semestre (30/09/2019 - 20/01/2020)

Crediti

12

Ore

116 ore di attività frontale

Lingua insegnamento

English

Tipo esame

SCRITTO E ORALE CONGIUNTI

Docente

BASSI EZIO (titolare) - 12 CFU

Prerequisiti

Principles of electrical engineering and mechanics, analysis of periodic waveforms, vector diagrams, basic elements of electrical machines and power electronics.

Obiettivi formativi

The first half of this course reviews the basic concepts concerning functional characteristics, design and applications of electrical variable speed drives at steady state, with a few hints on their control and transient behavior. In the second part are addressed items concerning the dynamical behavior of electrical drives: various regulation schemes are introduced, principally with induction and brushless motors, with different solutions as to the controlled variables and the regulation algorithms.

Programma e contenuti

This course is attended by the 2nd year students of the Laurea Magistrale degree in Ingegneria Elettrica-curriculum Sistemi Elettrici. Industrial Automation Engineering and Computer Engineering (Embedded Systems).

In the following are resumed the main topics of this course (the list is not in cronological order, but grouped according to the argument).

Dynamic Mechanical equation: reflected torque and inertias, torque/speed load and actuators curves, stability of an operating point, jerk, optimal transmission ratio, motor-load elastic coupling, constant torque/power operating regions.

Inverter-fed Induction machine

Dynamic model of the IM and instantaneous torque; different reference system and transformation matrices; vector representation of three-phase variables; Field Oriented Control: direct and indirect implementaion, reconstruction of flux and torque variables, field weakening operation.

Doubly Fed Induction Machine: rotor current limit and torque control.

Direct Torque Control: selection of the inverter configuration & modulation strategies; Direct Self Control: hexagonal stator flux path.

A.C. current control

Control of the currents of a three-phase system (i.e. motor) in different reference systems (abc, αβ, dq); PI regulators; Hysteresis regulators; predictive control; compensation of dq coupling terms.

Control of an Induction machine fed from Current Source Inverter.

Space Vector PWM and a.c. current control

Inverter configurations, voltage reference and basic principles of the method, limit voltage exagon and overmodulation, optimal sequence of inverter states, switching frequency and current ripple; effect of dead-times and common mode voltage.

Active Front-End Converter: block diagram and basic operation.

Open- and closed-loop control; current control on different reference frames with linear (PI) and hystereisi regulators, voltage saturation, decoupled current control.

Electrical Drives with dc machines fed from SCR rectifiers and choppers; voltage and current waveforms, continuous and discontinuous operation, transfer functions, steady-state and dynamic

behavior.

Brushless Drives

Use of Permanent magnets, different types of rotor design and rotor saliency, elctromagnetic force induced on the stator windings (d.c. and a.c. BL), effect of saliency on torque; cogging; regulation schemes; steady-state operation and geometrical loci in the field-weakening region.

BL with prapezoidal cemf: current waveforms and torque ripple.

In the following are resumed the main topics of this course (the list is not in cronological order, but grouped according to the argument).

Dynamic Mechanical equation: reflected torque and inertias, torque/speed load and actuators curves, stability of an operating point, jerk, optimal transmission ratio, motor-load elastic coupling, constant torque/power operating regions.

Inverter-fed Induction machine

Dynamic model of the IM and instantaneous torque; different reference system and transformation matrices; vector representation of three-phase variables; Field Oriented Control: direct and indirect implementaion, reconstruction of flux and torque variables, field weakening operation.

Doubly Fed Induction Machine: rotor current limit and torque control.

Direct Torque Control: selection of the inverter configuration & modulation strategies; Direct Self Control: hexagonal stator flux path.

A.C. current control

Control of the currents of a three-phase system (i.e. motor) in different reference systems (abc, αβ, dq); PI regulators; Hysteresis regulators; predictive control; compensation of dq coupling terms.

Control of an Induction machine fed from Current Source Inverter.

Space Vector PWM and a.c. current control

Inverter configurations, voltage reference and basic principles of the method, limit voltage exagon and overmodulation, optimal sequence of inverter states, switching frequency and current ripple; effect of dead-times and common mode voltage.

Active Front-End Converter: block diagram and basic operation.

Open- and closed-loop control; current control on different reference frames with linear (PI) and hystereisi regulators, voltage saturation, decoupled current control.

Electrical Drives with dc machines fed from SCR rectifiers and choppers; voltage and current waveforms, continuous and discontinuous operation, transfer functions, steady-state and dynamic

behavior.

Brushless Drives

Use of Permanent magnets, different types of rotor design and rotor saliency, elctromagnetic force induced on the stator windings (d.c. and a.c. BL), effect of saliency on torque; cogging; regulation schemes; steady-state operation and geometrical loci in the field-weakening region.

BL with prapezoidal cemf: current waveforms and torque ripple.

Metodi didattici

Lectures (hours/year in lecture theatre): 62

Practical class (hours/year in lecture theatre): 48

Practicals / Workshops /Seminars (hours/year in lecture theatre): 4

Practical class (hours/year in lecture theatre): 48

Practicals / Workshops /Seminars (hours/year in lecture theatre): 4

Testi di riferimento

In the following a list of taxtbooks free downloadable and related to EDs is presented. Additional material (notes, books, links, technical papers, hanbooks and so on) will be given during lectures; please also refer to KIRO Portal.

N. Mohan, T.M. Undeland, W.P. Robbins – Power Electronics: Converters, Applications and Design – John Wiley &Sons, 2003

Bimal K. BOSE – Power Electronics & Motor Drives – Elsevier, 2006

Austin HUGHES – Electric Motors and Drives – Elsevier, 2006

T.J.E. MILLER - Brushless Permanent-Magnet and Reluctance Motor Drives-Clarendon Press, 1989

P.C. SEN – Principles of Electric Machines and Power Electronics – Wiley, 2014

Piotr WACH – Dynamics and Control of Electrical Drives – Springer, 2011

Murphy, Turnbull. A.C. current control. Pergamon Press,1988

(NOT downloadable).

W. Leonhard. Control of Electrical Drives. Springer Verlag, 2003.

N. Mohan, T.M. Undeland, W.P. Robbins – Power Electronics: Converters, Applications and Design – John Wiley &Sons, 2003

Bimal K. BOSE – Power Electronics & Motor Drives – Elsevier, 2006

Austin HUGHES – Electric Motors and Drives – Elsevier, 2006

T.J.E. MILLER - Brushless Permanent-Magnet and Reluctance Motor Drives-Clarendon Press, 1989

P.C. SEN – Principles of Electric Machines and Power Electronics – Wiley, 2014

Piotr WACH – Dynamics and Control of Electrical Drives – Springer, 2011

Murphy, Turnbull. A.C. current control. Pergamon Press,1988

(NOT downloadable).

W. Leonhard. Control of Electrical Drives. Springer Verlag, 2003.

Modalità verifica apprendimento

Oral exam during which the students can be required to solve a simple written exercise on the very basic contents of the course. A written report on specific topics could be required; the interest displayed during the lectures can contribute to the evaluation.

Altre informazioni

Obiettivi Agenda 2030 per lo sviluppo sostenibile