Řízení BLDC motoru v oblasti nízkých otáček / Control algorithms for BLDC motor for low speeds

Kozáček, Peter

January 2015

The diploma work concerns on an issue of data collection of speed and electrical angle based on informations from Hall sensor with the necessary resolution for control of BLDC motor. Specifically, concenred on a section with low speed. Most of moors use Hall sensor for detecting speed and position of the rotor. At low speed section, becomes the situation when we can not determine the position of the rotor with (the) required (sufficient) resolution, this situation creates a „wince“ in the control (ripple torque). The task is to design and evaluate the possibilities of the algorithm for control and acquisition speed and rotor position with the required accuracy.

Mikrokontrolery pro BLDC motory / Microcontrollers for BLDC Motors

Úlehla, Martin

January 2008

Master thesis deals with solutions of BLDC motors (brushless DC motors) control. It analyses microcontrollers and electronic components suitable for BLDC motor controllers under conditions of serial production. It mentions some common problems in practical aplication like dynamic motor braking, synchronization, recuperation and constant revolutions.

Acionamento e controle sensorless para motores brushless DC aplicados a compressores herméticos para refrigeração doméstica / Drive and sensorless control for brushless DC motors applied to hermetic compressors for household refrigeration

Gonella, Mário Celso

18 August 2006

O objetivo deste trabalho é desenvolver a simulação de um sistema de controle de velocidade para compressores herméticos domésticos utilizando motores brushless DC controlados por uma estratégia do tipo sensorless. O ponto central é o desenvolvimento da simulação global de controle a partir de um modelo adequado do motor BLDC com base no programa Matlab/Simulink. São abordadas algumas estratégias de controle sensorless além de alguns métodos de partida para este tipo de máquina. As estratégias de controle e partida propostas para o trabalho são analisadas detalhadamente e simuladas através do Matlab em ambiente Simulink utilizando as ferramentas do power system blockset (PSB). Os resultados destas simulações são apresentados e discutidos no final deste trabalho. / The aim of this work is to develop the simulation of a speed control system for household hermetic compressors using brushless DC motors controlled by a sensorless strategy. The main point of the work is the development of the control global simulation from a suitable BLDC motor model based on Matlab/Simulink program. Some sensorless control strategies and even some starting methods for this type of machine are approached. The control and starting strategies proposed for this work are analyzed in detail and simulated by Matlab in Simulink program using power system blockset (PSB) tools. The simulation results are presented and discussed at the end of this work.

BLDC motors model

brushless DC motor

machines simulation

modelo de motores BLDC

motor brushless DC

sensorless strategy

simulação de máquinas

técnica sensorless

Acionamento e controle sensorless para motores brushless DC aplicados a compressores herméticos para refrigeração doméstica / Drive and sensorless control for brushless DC motors applied to hermetic compressors for household refrigeration

Mário Celso Gonella

18 August 2006

O objetivo deste trabalho é desenvolver a simulação de um sistema de controle de velocidade para compressores herméticos domésticos utilizando motores brushless DC controlados por uma estratégia do tipo sensorless. O ponto central é o desenvolvimento da simulação global de controle a partir de um modelo adequado do motor BLDC com base no programa Matlab/Simulink. São abordadas algumas estratégias de controle sensorless além de alguns métodos de partida para este tipo de máquina. As estratégias de controle e partida propostas para o trabalho são analisadas detalhadamente e simuladas através do Matlab em ambiente Simulink utilizando as ferramentas do power system blockset (PSB). Os resultados destas simulações são apresentados e discutidos no final deste trabalho. / The aim of this work is to develop the simulation of a speed control system for household hermetic compressors using brushless DC motors controlled by a sensorless strategy. The main point of the work is the development of the control global simulation from a suitable BLDC motor model based on Matlab/Simulink program. Some sensorless control strategies and even some starting methods for this type of machine are approached. The control and starting strategies proposed for this work are analyzed in detail and simulated by Matlab in Simulink program using power system blockset (PSB) tools. The simulation results are presented and discussed at the end of this work.

modelo de motores BLDC

motor brushless DC

simulação de máquinas

técnica sensorless

BLDC motors model

brushless DC motor

machines simulation

sensorless strategy

Μελέτη και κατασκευή του ηλεκτροκινητήριου συστήματος ηλεκτρικού δικύκλου

Παπαθανασόπουλος, Δημήτριος

01 August 2014

Η παρούσα διπλωματική εργασία, η οποία εκπονήθηκε στο Εργαστήριο Ηλεκτρομηχανικής Μετατροπής Ενέργειας του Τμήματος Ηλεκτρολόγων Μηχανικών και Τεχνολογίας Υπολογιστών της Πολυτεχνικής Σχολής του Πανεπιστημίου Πατρών, πραγματεύεται την κατασκευή ενός ηλεκτρικού δικύκλου. Σκοπός είναι η κατασκευή και ο έλεγχος ενός ηλεκτρικού ποδηλάτου και συγκεκριμένα ο σχεδιασμός και η εγκατάσταση ενός κατάλληλου ηλεκτροκινητήριου συστήματος σε ένα συμβατικό ποδήλατο. Αρχικά γίνεται μια σύντομη περιγραφή των συμβατικών και των ηλεκτρικών ποδηλάτων, η οποία περιλαμβάνει την ιστορική εξέλιξή τους, τα μέρη από τα οποία αποτελούνται, τους τύπους στους οποίους διακρίνονται και τα νομικά πλαίσια που διέπουν τη λειτουργία τους. Στη συνέχεια, περιγράφεται το ηλεκτροκινητήριο σύστημα, το οποίο εγκαταστάθηκε στο πλαίσιο του ποδηλάτου που παραχωρήθηκε για το σκοπό αυτό από την εταιρεία Ideal Bikes Μανιατόπουλος Α.Ε., τα κριτήρια επιλογής του κινητήρα, των ηλεκτροχημικών συσσωρευτών και των επιμέρους στοιχείων που το απαρτίζουν. Ακολουθεί η ανάλυση των Brushless μηχανών, τα κατασκευαστικά χαρακτηριστικά και η αρχή λειτουργίας τους. Το επόμενο βήμα είναι η θεωρητική μελέτη του τριφασικού αντιστροφέα τάσης που απαιτείται για την οδήγηση του κινητήρα. Παρατίθενται τα αποτελέσματα που προέκυψαν από την προσομοίωση της λειτουργίας του ηλεκτροκινητήριου συστήματος μέσω του προγράμματος Matlab/Simulink. Κατόπιν, περιγράφεται η κατασκευή του τριφασικού αντιστροφέα τάσης, τα στοιχεία που τον απαρτίζουν και ο λόγος για τον οποίο επιλέχθηκαν. Δίνεται μια σύντομη περιγραφή του μικροελεγκτή που χρησιμοποιήθηκε, των δυνατοτήτων που παρέχει αλλά και η λογική του ελέγχου που υλοποιεί. Τέλος, ακολουθούν οι πειραματικές μετρήσεις και τα συμπεράσματα που προέκυψαν από τη λειτουργία της κατασκευής. / The purpose of this thesis is the construction of an electric two-wheeled vehicle. The work was conducted in the Laboratory of Electromechanical Energy Conversion, in the Department of Electrical and Computer Engineering at University of Patras. The main aim is the study, the construction and the control of an electric bike. In order to achieve this, it is necessary to design and install a suitable electric motor system to a conventional bicycle. Initially, there is a brief overview of the conventional and the electric bicycles, along with their history, their main parts, the types in which they are divided and the legal frameworks that govern their operation. Secondly, the electric motor system, which was installed in the bicycle frame granted for this purpose by the company Ideal Bikes, Nikos Maniatopoulos S.A., the criteria for the selection of the motor and the batteries are described. In addition, there is a short description of Brushless motors, their types and the principle of their operation. Furthermore, the theoretical study of the three phase inverter required for driving the motor is given. Moreover, the results obtained from the simulation of the operation of the motor system through the Matlab / Simulink are provided. The construction of the three phase inverter, the constituent elements and the reason for their selection are also analyzed. Last but not least, there is a short description of the microcontroller which is used and its capabilities, in order to facilitate the study and design of the structure. Finally, the experimental measurements and the conclusions that derive from the construction and the operation of the electric bike are presented and future improvements concerning the construction are proposed.

Ποδήλατα

Ηλεκτρικά ποδήλατα

629.227 5

Bicycles

Electric bikes

E-bikes

Permanent magnet synchronous motors

BLDC motors

LiFePO4 batteries

Three phase inverters

Rectifier And Inverter System For Driving Axial Flux BLDC Motors In More Electric Aircraft Application

De, Sukumar

01 1900

In the past two decades the core aircraft technology is going through a drastic change. The traditional technologies that is almost half a century old, is going through a complete revamp. In the new “More Electric Aircraft” technology many mechanical, pneumatic and hydraulic systems are being replaced by electrical and power electronic systems. Airbus-A380, Boeing B-787 are the pioneers in the family of these new breed of aircrafts. As the aircraft technology is moving towards “More Electric”, more and more electric motors and motor controllers are being used in new aircrafts. Number of electric motor drive systems has increased by about ten times in more electric aircrafts compared to traditional aircrafts. Weight of any electric component that goes into aircraft needs to be low to reduce the overall weight of aircraft so as to improve the fuel efficiency of the aircraft. Hence there is an increased need to reduce weight of motors and motor controllers in commercial aircraft. High speed ironless axial flux permanent magnet brushless dc motors are becoming popular in the new more-electric aircrafts because of their ability to meet the demand of light weight, high power density, high efficiency and high reliability. However, these motors come with very low inductance, which poses a big challenge to the motor controllers in controlling the ripple current in motor windings. Multilevel inverters can solve this problem. Three-level inverters are proposed in this thesis for driving axial flux BLDC motors in aircraft. Majority of the motors in new more electric aircrafts are in the power range of 2kW to 20kW, while a few motor applications being in the range of 100kW to 150kW. Motor controllers in these applications run from 270Vdc or 540Vdc bus which is the standard in new more electric aircraft architecture. Multilevel Inverter is popular in the industry for high power and high voltage applications, where high-voltage power switching devices like IGBT, GTO are popularly used. However multilevel inverters have not been tried in the low power range which is appropriate for aircraft applications. A detail analysis of practical feasibility of constructing three-level inverter in lower power and voltage level is presented in this thesis. Analysis is presented that verify the advantages of driving low voltage and low power (300Vdc to 600Vdc and less than 100kW) motors with multilevel inverters. Practical considerations for design of MOSFET based three-level inverter are investigated and topological modifications are suggested. The effect of clamping diodes in the diode clamped multilevel inverters play an important role in determining its efficiency. SiC diodes are proposed to be used as clamping diodes. Further, it is realised that power loss introduced by reverse recovery of MOSFET body diode prohibits use of MOSFET in hard switched inverter legs. Hence, a technique of avoiding the reverse recovery losses of MOSFET body diode in three-level NPC inverter is conceived. The use of proposed multilevel inverter topology enables operation at high switching frequency without sacrificing efficiency. High switching frequency of operation reduces the output filter requirement, which in turn helps reducing size of the inverter. In this research work elaborate trade-off analysis is done to quantify the suitability of multilevel inverters in the low power applications. For successful operation of three-level NPC inverter in aircraft electrical system, it is important for the DC bus structure in aircraft electric primary distribution system to be compatible to drive NPC inverters. Hence a detail study of AC to DC power conversion system as applied to commercial aircraft electrical system is done. Multi-pulse rectifiers using autotransformers are used in aircrafts. Investigation is done to improve these rectifiers for future aircrafts, such that they can support new technologies of future generation motor controllers. A new 24-pulse isolated transformer rectifier topology is proposed. From two 15º displaced 6-phase systems feeding two 12-pulse rectifiers that are series connected, a 24-pulse rectifier topology is obtained. Though, windings of each 12-pulse rectifiers are isolated from primary, the 6-phase generation is done without any isolation of the transformer windings. The new 24-pulse transformer topology has lower VA rating compared to standard 12-pulse rectifiers. Though the new 24-pulse transformer-rectifier solution is robust and simple, it adds to the weight of the overall system, as compared to the present architecture as the proposed topology uses isolated transformer. Non-isolated autotransformer cannot provide split voltage at the dc-link that creates a stable mid-point voltage as required by the three-level NPC inverter. Hence, a new front-end AC-DC power conversion system with switched capacitor is conceived that can support motor controllers driven by three-level inverters. Laboratory experimental results are presented to validate the new proposed topology. In this proposed topology, the inverter dc-link voltage is double the input dc-link voltage. An intense research work is performed to understand the operation of Trapezoidal Back EMF BLDC motor driven by three-Level NPC inverter. Operation of BLDC motor from three-Level inverter is primarily advantageous for low inductance motors, like ironless axial flux motors. For low inductance BLDC motor, very high switching frequency is required to limit the magnitude of ripple current in motor winding. Three-level inverters help limiting the magnitude of motor ripple current without increasing the switching frequency to very high value. Further, it is analysed that dc link mid-point current in three-level NPC inverter for driving trapezoidal BLDC motor has a zero average current with fundamental frequency same as switching frequency. Because of this, trapezoidal BLDC motors can easily be operated from three-level NPC inverter without any special attention given to mid-point voltage unbalance. One non-ideal condition arrives in practical implementation of the inverter that leads to non-zero average mid point current. Unequal gate drive dead time delays from one leg to other leg of inverter introduce dc-link mid-point voltage unbalance. For the motoring mode operation of trapezoidal BLDC motor drive, simple gate drive logic is researched that eliminates need of the gate drive dead-time, and hence solves the mid-point voltage unbalance issue. Simple closed loop control scheme for mid-point voltage balancing also is also proposed. This control scheme may be used in applications where very precise control of speed and torque ripple is warranted. All the investigations reported in this thesis are simulated extensively on MATHCAD and MATLAB platform using SIMULINK toolbox. A laboratory experimental set-up of three-Level inverter driving axial flux BLDC motor is built. The three-level inverter, operating from 300Vdc bus is built using 500V MOSFETs and 600V SiC diodes. All the control schemes are implemented digitally on digital signal processor TMS320F2812 DSP platform and GAL22V10B platforms. Experimental results are collected to validate the theoretical propositions made in the present research work. At the end, in chapter 5, some future works are proposed. A new external voltage balance circuit is proposed where the inverter dc-link voltage is same as the input dc-link voltage. This topology is based on the resonant converter principle and uses a lighter resonant inductor than prior arts available in literature. Detail simulation and experimentation of this topology may be carried out to validate the industrial benefits of this circuit. It is also thought that current source inverters may work as an alternative to voltage source inverters for driving BLDC motors. Current source inverters eliminate use of bulky DC-link capacitors. Long term reliability of current source inverters is higher than voltage source inverters due to the absence of possibility of shoot-through. Further, in voltage source inverters, the voltage at the motor terminal is limited by the source voltage (dc-link voltage). This issue is eliminated in current source inverters. An interface circuit is conceived to reduce the size of dc-link inductors in current source inverters, pending detail analysis and experimental verification. The interface circuit bases its fundamentals on the principles of operation of multilevel inverters for BLDC motors that is presented in this thesis.

Airplanes - Electric Motors

Multilevel Voltage Source Inverters

Airplanes - Controllers

Axial Flux Brushless DC (BLDC) Motors

Electric Aircraft

Neutral Point Clamped (NPC) Inverters

Aircraft Power Electronics Converters

More Electric Aircraft

Rectifier

Inverter

Power Electronics