Řídicí modul BLDC motoru / BLDC Motor Control Module

Morávek, Lukáš

January 2016

Diploma thesis describes design and realization of hardware and software for controlling and regulation of the high-speed drive with BLDC motor, which will serve as a spindle for CNC milling machine. The thesis described in detail the schematic design and the design of printed circuit board of the power part, control part and power supply part of the three-phase transistor inverter controlled by DSP processor. It is also described in detail program of DSP processor for controlling and regulation of the BLDC motors, which the function is verified by the final measurements. The result of Diploma thesis is functional high-speed drive with BLDC motor.

Návrh a implementácia systému kontroly plazmy pre tokamak COMPASS / Design and implementation of the plasma control system for the COMPASS tokamak

Janky, Filip

January 2016

Design and implementation of the plasma control system Mgr. Filip Janky The COMPASS tokamak was recommissioned in 2007 and it needed new digital controllers for its experimental research. This thesis presents the design and imple- mentation of control of main plasma parameters such as plasma current, plasma position, plasma shape and electron density. Improved plasma current control with resetting set points suppresses overshooting and thus increases the length of the flat top phase. A method for estimating the plasma position, gain tuning for the controller and decreasing latencies and delays to obtain robust position control are presented. Lower delays improve plasma stability and decrease the frequency of disruptions. The plasma shape controller is a feedforward controller with a method to suppress oscillations which are coming from mutual inductance between power supplies controlling plasma horizontal position, plasma shape and plasma current, which all use the same coil. Averaged electron density is corrected in real-time according to the interferometer line of sight and a non-linearity of measurement. Controllers and their improvements described here, played a major role in achiev- ing H-mode scenario and fulfilling the experimental program. Keywords: tokamak, plasma current control, plasma position...

Design of Resonant Filters for AC Current Magnification : Heating of Li-ion Batteries by Using AC Currents

Djekanovic, Nikolina

January 2018

Using alternating current in order to heat batteries at sub-zero temperatures is a method,which is investigated in-depth by an increasing number of study groups. The thesis considersthe resonance phenomenon with the intention to use alternating current amplificationand battery’s impedance in order to induce power dissipation inside the battery, and in thisway increase its temperature. A battery cell is thereby modelled as an impedance transferfunction, estimated from electrochemical impedance spectroscopy measurements, whichare taken for a LiNi 13Mn13Co13O2 cell. Note that at 1 kHz and room temperature (20 ◦C),the ohmic resistance of the selected cell amounts to only 0.76m. Five resonant circuitsare investigated and one of them is selected for further investigation, and as a basis for afilter design. The chosen resonant circuit lead to an LCL filter with current magnification.The experimental setup used for conducting practical experiments, offers the possibilityof operating the voltage source converter both as a Full-bridge and as a Half-bridge, withand without current control. For each possible configuration, an LCL filter and a currentcontroller are designed, taking into account the corresponding limitations in frequency,current and controller voltage. The filter design is based on a multiobjective optimizationmethod used to determine filter components that yield the highest gain value for everyconfiguration. The method minimizes two objective functions in order to find an optimalsolution. The first objective is the reversed absolute value of the gain, whereas thesecond one is the absolute impedance of the circuit, consisting of the filter and batterycells. The gain is thereby defined as the ratio between the induced cell current and thecurrent entering the circuit. The obtained results of the proposed method are experimentallyvalidated. Depending on how the filters were physically designed and taking intoaccount the corresponding voltage source converter configuration, gains of 16 were experimentallyachieved. Finally, the three investigated configurations are compared againstthe reference case (Half-bridge voltage source converter with current control and a singleinductor) regarding their power efficiencies. The power measurements showed that despitehigh obtained gains, the overall filter power losses remained approximately in thesame range, compared to the power losses of the reference case. This is due to the factthat stray resistances of the designed LCL filters easily reached values of around 40m,which hindered an efficient power transfer with the chosen voltage source converter andthe used battery cells. This further indicates the importance of building filters with lowstray resistances and in this thesis, it represents a primary source of improvement. / Användandet av växelströ m fö r att värma upp batterier är en metod som fö r närvarande undersö ks av ett flertal forskargupper. Detta examensarbete fokuserar kring hur resonans kan nyttjas fö r att ö ka strö mfö rstärkningen och, pådetta sätt, ö ka effektutvecklingen i batteriet (av LiNi1/3Mn1/3Co1/3O2-typ). Battericellens impedans modelleras som en ö verfö ringsfunktion vars parametrar estimerats från tidigare genomfö rda impedansspektroskopimätningar. Vid 1 kHz och rumstemperatur är den cellens ohmska resistansen endast 0.76 mΩ. Fem mö jliga resonanta kretsar har undersö kts och en av dem valts ut fö r vidare undersö kningar. The utvalda kretsen är ett LCL-filter med vilken strö mfö rstärkning åstadkoms. Den experimentella uppställningen, i vilken praktiska test har genomfö rts, medger mö jligheten att nyttja den tillhö rande omriktaren både som en helbrygga och en halvbrygga, med och utan strö mreglering. Fö r varje mö jlig omriktarkonfiguration har ett LCL-filter och en strö mreglering tagits fram, med hänsyn tagen till uppställningens begränsningar i termer av frekvens, strö moch dc-spänningsnivå. Filtren är framtagna med hjälp av en multiobjektiv optimering vilken åstadkommer hö gsta strö mfö rstärkning mö jlig fö r varje omriktare och strö mregleringsval. Metoden minimerar tvåfunktioner fö r att finna en optimal lö sning. Den fö rsta funktionen beskriver inversen påströ mfö rstärkningen och den andra lastens (bestående av filter och tillhö rande battericell) impedans absolutbelopp. Den resulterande ö har validerats experimentellt och en strö mfö rstärkningsnivåpå 16 uppnåddes. Slutligen har de olika konfigurationerna jämfö rts i termer av verknings-grad. De genomfö rda effektmätningarna visar att trots att hö ga strö mfö rstärkningsnivåer var mö jliga såresulterade de associerade filterfö rlusterna till liknande verkningsgrader fö r alla studerade konfigurationer. Resultaten understryker fö rdelarna med hö geffektiva filtervilka representerar en mö jlig väg fö r vidare undersö kningar.

Current control

injection of alternating current

internal heat dissipation

LCL filter

Lithium-ion batteries

power efficiency

resonance phenomenon

Engineering and Technology

Teknik och teknologier

Subsystem Design in Aircraft Power Distribution Systems using Optimization

Chandrasekaran, Sriram

26 June 2000

The research reported in this dissertation focuses on the development of optimization tools for the design of subsystems in a modern aircraft power distribution system. The baseline power distribution system is built around a 270V DC bus. One of the distinguishing features of this power distribution system is the presence of regenerative power from the electrically driven flight control actuators and structurally integrated smart actuators back to the DC bus. The key electrical components of the power distribution system are bidirectional switching power converters, which convert, control and condition electrical power between the sources and the loads. The dissertation is divided into three parts. Part I deals with the formulation of an optimization problem for a sample system consisting of a regulated DC-DC buck converter preceded by an input filter. The individual subsystems are optimized first followed by the integrated optimization of the sample system. It is shown that the integrated optimization provides better results than that obtained by integrating the individually optimized systems. Part II presents a detailed study of piezoelectric actuators. This study includes modeling, optimization of the drive amplifier and the development of a current control law for piezoelectric actuators coupled to a simple mechanical structure. Linear and nonlinear methods to study subsystem interaction and stability are studied in Part III. A multivariable impedance ratio criterion applicable to three phase systems is proposed. Bifurcation methods are used to obtain global stability characteristics of interconnected systems. The application of a nonlinear design methodology, widely used in power systems, to incrementally improve the robustness of a system to Hopf bifurcation instability is discussed. / Ph. D.

current control

regenerative power

Optimization

aircraft power distribution systems

stability analysis

active damping

subsystem interaction

bifurcation

piezoelectric actuators

more electric aircraft

A Study of Field-Oriented Control of a Permanent Magnet Synchronous Generator and Hysteresis Current Control for Wind Turbine Application

Baktiono, Surya

27 June 2012

No description available.

Alternative Energy

Energy

Engineering

Wind Energy

Wind Turbine

PMSG: FOC

HCC

Field oriented control

Hysteresis current control

Permanent magnet synchronous generator

Design and Control of A Ropeless Elevator with Linear Switched Reluctance Motor Drive Actuation Systems

Lim, Hong Sun

03 May 2007

Linear switched reluctance motor (LSRM) drives are investigated and proved as an alternative actuator for vertical linear transportation applications such as a linear elevator. A one-tenth scaled prototype elevator focused on a home elevator with LSRMs is designed and extensive experimental correlation is presented for the first time. The proposed LSRM has twin stators and a set of translator poles without back-iron. The translators are placed between the two stators. The design procedures and features of the LSRM and the prototype elevator are described. The designed LSRM is validated through a finite element analysis (FEA) and experimental measurements. Furthermore, a control strategy for the prototype elevator is introduced consisting of four control loops, viz., current, force, velocity, and position feedback control loops. For force control, a novel force distribution function (FDF) is proposed and compared with conventional FDFs. A trapezoidal velocity profile is introduced to control vertical travel position smoothly during the elevator's ascent, descent, and halt operations. Conventional proportional plus integral (PI) controller is used for the current and velocity control loops and their designs are described. The proposed control strategy is dynamically simulated and experimentally correlated. Analytical and experimental results of this research prove that LSRMs are one of the strong candidates for ropeless linear elevator applications. However, the proposed FDF is assuming that the feedback current signals are ideal currents indicating actual phase currents without any measurement disturbances mainly arising from sensor noise, DC-link voltage ripple, measurement offset, and variations in the plant model. Meanwhile, real control systems in industry have measurement disturbance problems. Phase current corrupted by measurement disturbances increases torque or force ripple, acoustic noise and EMI. Therefore, this dissertation also presents a novel current control method to suppress measurement disturbances without extra hardware. The controller is based on an extended state observer (ESO) and a nonlinear P controller (NLP). The proposed method does not require an accurate mathematical model of system and can be implemented on a low-cost DSP controller. The proposed ESO is exploited to estimate the measurement disturbances on measured phase currents, and the proposed NLP compensates for the measurement disturbances estimated by the ESO. The performance of the proposed current control is validated through extensive dynamic simulations and experiments. Moreover, this rejection of measurement disturbances results in a reduction of force ripple and acoustic noise. Due to superior and robust current control performance, it is believed that the proposed method can be successfully applied into other motor drive systems to suppress measurement disturbances with the same promising results without extra hardware. / Ph. D.

Elevator

Linear Switched Reluctance Motor

Nonlinear Controller

Extended State Observer

Disturbance State Observer

Measurement Disturbance

EMI

Acoustic Noise

Force Distribution Function

Force Control

Current Control

Aplikace ultrakapacitorů v dopravních systémech / Application of Ultracapacitors in Traffic Systems

Kalina, Emil

January 2008

The work deals with relatively new components allowing electric energy accumulation – ultracapacitors. It focuses on their application in traffic systems – in independent electric vehicles. Design and verification of a system with ultracapacitor and DC/DC adaptive converter was done. Control of the adaptive converter modifies very positively the time wafeform of the traction accumulator current during the drive cycle. The designed connection of ultracapacitor and DC/DC converter implemented in the drive structure of experimental electric vehicle with induction machine contributes to increment the action radius of the vehicle by 16% (determined by experimental verification). This result was achived particularly by limitation of traction accumulator current peaks, And by more effective storage of energy gained by recuperative braking of the vehicle as well. The core of the system is a control of the adaptive converter in order to provide an active filtration of the accumulator’s current to its long-period mean value, i.e. elimination of current (power) peaks. These are caused by acceleration from non-zero initial vehicle speed or by recuperative braking. This is done by a subsidiary current loop. The converter has a superior voltage regulation loop, which sets in long-time period the voltage of ultracapacitors to the proper value – indirectly dependent on the speed of the vehicle. This ensures the appropriate energy management of the ultracapacitor. In the following, properties of test set of ultracapacitors were verified. Finally, methods of suppression of capacity variability influence in series connection of these components were compiled and critically reviewed.

On Power-system Benefits, Main-circuit Design, and Control of StatComs with Energy Storage

Xie, Hailian

January 2009

Static synchronous compensation (StatCom) is an application that utilizes a voltage source converter (VSC) to provide instantaneous reactive power support to the connected power system. Conventionally, StatComs are employed for reactive power support only. However, with the integration of energy storage (ES) into a StatCom, it can provide active power support in addition to the reactive power support. This thesis deals with the integration of ES into StatComs. The investigation involves the following aspects: possible benefits for power systems, main circuit design, and control strategies. As the basis of the investigation, a control scheme is proposed for two-level VSCs. It is a novel flux modulation scheme combined with the well-known deadbeat current control. The current controller is capable of controlling the positive sequence, the negative sequence, and the offset components of the converter current. With flux modulation, all the three above-mentioned components of the bus flux are controllable. This differs from the conventional voltage modulation scheme, in which only the positive and negative sequence components of the bus voltage are controllable. The difference between the proposed flux modulation scheme and the voltage modulation scheme is investigated regarding saturation of transformers in the connected system during fault recovery. The investigation shows that by controlling the offset component of the bus flux, the transformer saturation problem can be mitigated to a certain extent. The possible benefits of the additional active power support of StatComs are investigated through several case studies. Different active power compensation schemes are proposed. First, active power compensation for sudden load changes in weak systems is investigated. The proposed control strategies are verified through computer simulations and through experiments in a real-time simulator. It is shown that with active power compensation, both the phase jumps and magnitude variations in the voltage at the PCC can be reduced significantly. Secondly, the power compensation of cyclic loads is investigated. The results show that the power quality at the connection point can be improved regarding both phase jumps and magnitude variations. In the third case study, the fault-recovery performance of an example system is investigated, showing that improved performance can be achieved by the additional active power support. ES devices such as capacitors, supercapacitors, and batteries exhibit considerable variation in the terminal voltage during a charging/discharging cycle. A direct connection of ES devices to the dc side of a VSC requires a higher voltage rating of the VSC. Thus, the cost of the VSC has to be increased. In this thesis, a dual thyristor converter topology is proposed to interface ES devices with the dc side of the VSC. First, a cost comparison is performed to compare the total cost of the whole system with and without the proposed interface topology. A cost comparison between various types of ES is also presented, providing a guideline for the choice of ES at energy levels where several alternatives exist. Then, the dynamics of systems with the proposed interface topology are investigated. Control strategies are proposed and verified by computer simulations. Two different control methods for the dual-thyristor converter are compared. / QC 20100819

Energy storage

Voltage source converter

VSC

Static synchronous compensation

StatCom

Active power compensation

Phase jump

Voltage dip

Weak network

Flux modulation

Deadbeat current control

Transformer saturation

Dual thyristor converter

dc interface

Electrical engineering

Elektroteknik

Electric power engineering

Elkraftteknik

Controle de corrente aplicado a conversores PWM conectados à rede elétrica sem sensor de tensão CA utilizando observadores de corrente por modos deslizantes / Sliding mode observer for a voltage sensorless current control of grid connected PWM converters

Tonin, Rodrigo Gehrke

22 August 2014

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This master thesis presents a current sliding mode observer for voltage sensorless grid connected converters. To perform the grid synchronization a sliding mode current observer in stationary axes αβ is proposed. Aiming its implementation in digital signal processors or microcontroller both the synchronism and control are developed in discrete time domain. Firstly the line currents are measured, then the transformation to stationary axes is carried out and the sliding mode current observer is proposed. Based on a Fortescue discrete component theory an algorithm to separation of sequence positive phase is proposed aiming to obtained the positive grid angular position to realized the synchronous coordinates axes transformation. The current control is carried out by two PI controllers designed in a discrete time domain. The good performance of the proposed method is proven through the simulation and experimental results. / Esta dissertação apresenta o controle de corrente em eixos síncronos de conversores conectados a rede de energia elétrica sem o uso de sensores de tensão de linha. Para realizar o sincronismo com a rede elétrica é proposto um observador de corrente por modos deslizantes em eixos de coordenadas estacionárias αβ. Tanto o controle como o sincronismo são desenvolvidos em tempo discreto visando sua implementação em processador digital de sinais ou microcontrolador. Primeiramente são medidas as correntes de duas fases do sistema, então é realizada a transformação para eixos estacionários e proposto o observador de corrente por modos deslizantes. Com o auxílio de um algoritmo baseado na teoria das componentes discretas de Fortescue para a separação de sequência de fase positiva, é obtida posição angular elétrica da rede visando a transformação para eixos de coordenadas síncronas. O controle das correntes é realizado através de dois controladores PI projetados em tempo discreto. Através de resultados de simulação e experimentais obtidos é comprovado o bom desempenho do método proposto.

Controle de corrente sensorless

Sliding mode current observer

Sensorless current control

Grid voltage sensorless synchornism

Positive sequence separator

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

CONTROLE POR MODOS DESLIZANTES E OBSERVADOR DE DISTÚRBIOS APLICADOS AO MOTOR SÍNCRONO DE ÍMÃS PERMANENTES / CURRENT CONTROL PERMANENT MAGNET SYNCHRONOUS MOTOR

Gabbi, Thieli Smidt

20 August 2015

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This master thesis proposes a current control technique based on sliding mode strategy and disturbance observer for high-performance drive applied to permanent magnet synchronous motors and can be extended to other systems. The combination of sliding mode control and disturbance observer applied to the current control presents the characteristics necessary to minimize the coupling between the axes, rejection of external disturbances and parametric variations. A continuous time control scheme is developed, the stability proofs are performed from the Lyapunov analysis. The performance of the propose technique is evaluates through simulation results. Moreover, this master thesis presents a discrete-time sliding mode controller combined with a discrete-time disturbance observer. The development in discrete-time enables the implementation in digital processors. The conditions of reach of the proposed controller considering the transport delay of digital implementation are still evaluated. The stability proofs of the proposed scheme are presented. Simulation results are shown. In addition, it is developed an experimental platform for drive and control of the permanent magnet synchronous motor in which the experimental results are obtained. / Esta dissertação propõe uma técnica de controle de corrente baseada na estratégia por modos deslizantes e observador de distúrbios para acionamento de alto desempenho aplicada a motores síncronos de ímãs permanentes, podendo ser estendida a outros sistemas. A combinação do controle por modos deslizantes e do observador de distúrbio aplicada ao controle de corrente apresenta as características necessárias para minimização do acoplamento existente entre os eixos, rejeição a distúrbios externos e variações paramétricas. É desenvolvido um esquema de controle em tempo contínuo, são apresentadas as provas de estabilidade a partir de critério de Lyapunov. O desempenho da técnica proposta é avaliado através de resultados de simulação. Além disso, é apresentado um controlador por modos deslizantes associado ao observador de distúrbio em tempo discreto. O desenvolvimento em tempo discreto possibilita a implementação em processadores digitais de sinais. Ainda são avaliadas as condições de alcance do controlador proposto considerando o atraso de transporte da implementação digital. Provas de estabilidade do esquema proposto e resultados de simulação são apresentados. Este trabalho faz o desenvolvimento de uma bancada experimental para o acionamento e controle do motor síncrono de ímãs permanentes na qual são obtidos os resultados experimentais apresentados.

Motor síncrono de ímãs permanentes

Desacoplamento de correntes

Rejeição de distúrbios

Observador de distúrbio

Permanent magnet synchronous motor

Sliding mode current control

Current decoupled

Disturbance rejection

Disturbance observer

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA