Your search keyword '"090603 Industrial Electronics"' showing total 85 results

1. Figure of Merit for the Optimization of Wireless Power Transfer System Against Misalignment Tolerance

Author

D. Mahinda Vilathgamuwa, Arokiaswami Alphones, and Jayathurathnage Prasad K. Sampath

Subjects

Repeater, Engineering, business.industry, 090603 Industrial Electronics, 020208 electrical & electronic engineering, 020206 networking & telecommunications, 02 engineering and technology, Degrees of freedom (mechanics), Power (physics), Inductance, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Figure of merit, Maximum power transfer theorem, Equivalent circuit, Wireless power transfer, wireless power transfer (WPT), Figure of merit (FOM), misalignment tolerance, power transfer efficiency (PTE), probability of alignment, transferred power (TP), Electrical and Electronic Engineering, business

Abstract

Optimization of wireless power transfer (WPT) systems with high performance and misalignment tolerance is investigated in this paper. Key performance indices of WPT are power transfer efficiency (PTE), transferred power (TP), and misalignment tolerance. Misalignment can be radial, axial, or angular, depending on the WPT receiver's degrees of freedom (DoF). A figure of merit (FOM) is proposed to optimize PTE, TP, and six-DoF (6DoF) misalignment tolerances simultaneously. Misalignments in 6DoF are segmented into subregions, and performance within each region is prioritized based on probability of alignment in deriving the FOM. A WPT system with tri-spiral repeater is introduced with the use of proposed FOM as the optimization objective. Theoretical analysis is experimentally validated.

Published

2017

2. High step-up scalable voltage multiple cell based DC/DC converter for offshore wind farms

Author

Zhu, Binxin, Liu, Song, Vilathgamuwa, Mahinda, and Li, Yang

Subjects

090600 ELECTRICAL AND ELECTRONIC ENGINEERING, power electronics, voltage multiple cell, 090603 Industrial Electronics, dc-dc converter, 090608 Renewable Power and Energy Systems Engineering (excl. Solar Cells), wind power

Abstract

This paper presents a high step-up scalable voltage multiple cell (SVMC)-based DC/DC converter, which has the features of high gain, low and adjustable components stresses and automatic input-current sharing in each input-phase. In virtue of above features, the converter is applicable for the DC collection grids for offshore wind farms. In this paper, the converter in terms of working principle and property characteristics are analysed with 4 input-phases and 3 SVMCs. The converter has also been evaluated in terms of the component stress and voltage conversion ratio against some other converters for high power occasions. Moreover, a 2.5MW simulation model and a 1.2kW prototype were constructed for verification.

Published

2019

3. Non-isolated high-voltage gain dual-input DC/DC converter with a ZVT auxiliary circuit

Author

D.M. Vilathgamuwa, She Xiaoli, Yang Li, Binxin Zhu, and Zeng Qingdian

Subjects

photovoltaic power systems, business.industry, Computer science, 020209 energy, 090603 Industrial Electronics, 020208 electrical & electronic engineering, Photovoltaic system, Electrical engineering, High voltage, maximum power point trackers, 02 engineering and technology, Converters, Maximum power point tracking, power control, Dual (category theory), Auxiliary circuit, 090600 ELECTRICAL AND ELECTRONIC ENGINEERING, power electronics, zero voltage switching, Power electronics, 0202 electrical engineering, electronic engineering, information engineering, dc-dc converter, Electrical and Electronic Engineering, business, Power control

Abstract

A non-isolated high-voltage gain dual-input DC/DC converter with a zero voltage turn-off (ZVT) auxiliary circuit has been presented. Two photovoltaic (PV) modules can be connected to the proposed converter with separate maximum power point tracking (MPPT). The cost of whole PV power generation system can be decreased significantly as a single converter is employed instead of two converters. All switches can achieve ZVT by an auxiliary circuit, and turn-off switching losses can be decreased and the efficiency of the converter can be improved. Working principle and performance characteristics of the proposed converter are analysed in detail, a dual-input maximum power point tracking control algorithm has been designed for the proposed converter. An 800 W experimental prototype has been built to verify the theoretical analysis.

Published

2019

4. DC Arc-Fault Detection in PV Systems Using Multistage Morphological Fault Detection Algorithm

Author

Mahinda Vilathgamuwa, Moses Kavi, and Yateendra Mishra

Subjects

Sequence, Series (mathematics), Computer science, 090603 Industrial Electronics, 020208 electrical & electronic engineering, Photovoltaic system, Detector, Irradiance, DC Arc Fault Detection, 02 engineering and technology, 090607 Power and Energy Systems Engineering (excl. Renewable Power), Fault (power engineering), Fault detection and isolation, Electric arc, DC Power System Protection, 090609 Signal Processing, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Mathematical Morphology, 090608 Renewable Power and Energy Systems Engineering (excl. Solar Cells), Algorithm

Abstract

The series and parallel arc-faults on the DC-side have different characteristics than that of the AC-side of PV systems and hence require advanced detection strategies. This paper proposes a robust, reliable technique for the detection of different types of DC arc-faults. The method uses a fault detector algorithm called the Decomposed Open-Close Alternating Sequence (DOCAS) using morphological filters. The proposed method detects the existence of an arcing fault by generating spikes at its output. The proposed method is tested for different types of series and parallel DC arc-faults under different levels of irradiance. Simulation results demonstrate that the proposed method maintains the selectivity and distinguishes changes in irradiance and load levels from series and parallel faults effectively.

Published

2018

5. Current-balancing technique for paralleled interleaved inverters with magnetically coupled inductors

Author

Geoffrey R. Walker, Mark A. H. Broadmeadow, Gerard Ledwich, Dejan P. Jovanovic, and Houman Pezeshki

Subjects

business.industry, Computer science, 020209 energy, 090603 Industrial Electronics, 020208 electrical & electronic engineering, Bandwidth (signal processing), Electrical engineering, 02 engineering and technology, Inverters, Inductor, Inductive coupling, Power rating, Current sharing, Full state feedback, 0202 electrical engineering, electronic engineering, information engineering, Inverter, Effective method, Inductors, business, state feedback

Abstract

Coupled inductors can be used to connect cells in parallel in a voltage source inverter to increase both rated power and bandwidth. To successfully implement this strategy it is critical to achieve a balanced contribution to the output current by all paralleled cells. Circulating currents should also be controlled and minimized to prevent additional losses in the switching devices. This paper presents an effective method to achieve current sharing between inverter cells paralleled via magnetically coupled inductors, using a state feedback controller. Experimental results are presented validating the performance of the proposed balancing method.

Published

2017

6. A Statistical Evaluation of the Capability of Distributed Renewable Generator-Energy-Storage System in Providing Load Low-Voltage Ride-Through

Author

D. Mahinda Vilathgamuwa, San Shing Choi, and Nima Saadat

Subjects

Voltage fluctuations, Random variables, Capacitors, Generators, Power system stability, Joints, Engineering, business.industry, 090603 Industrial Electronics, Photovoltaic system, Electrical engineering, Energy Engineering and Power Technology, Energy storage, Automotive engineering, law.invention, Renewable energy, Generator (circuit theory), Capacitor, Power rating, law, Voltage regulation, Electrical and Electronic Engineering, Low voltage ride through, business

Abstract

The capability of a distributed renewable generator (DRG) in providing load low-voltage ride-through (LVRT) is examined. The harnessed renewable power, load demand, and the occurrences of low-voltage incidents are treated as random variables. The probability of successful load LVRT is assessed through the use of a copula function to quantify the stochastic dependency between the load and the renewable power. The analysis is then applied to the case of a series-connected photovoltaic DRG incorporated with capacitor energy storage, wherein the focus is to establish the analytical relationship between the probability of successful load LVRT and the rated power/energy capacities of the DRG capacitor. Determination of the optimal capacities of the DRG capacitor is achieved through maximization of the expected economic benefits obtained from the renewable energy harness and load LVRT minus the cost of the DRG capacitor.

Published

2015

7. Time domain reflectometry measurements of road basecourse moisture content

Author

Platt, IG, Woodhead, I, Richards, S, Tan, A, Hagedorn, M, Herrington, P, and Cook, S

8. Bacterial foraging-optimized PID control of a two-wheeled machine with a two-directional handling mechanism

Author

Goher, KM and Fadlallah, SO

9. Distributed control scheme for a 5-level modular multilevel STATCOM

Author

Mark A. H. Broadmeadow, Stephan C. Adams, Gerard Ledwich, and Geoffrey R. Walker

Subjects

Decentralized control, Sliding mode control, Computer science, 02 engineering and technology, Control theory, 0202 electrical engineering, electronic engineering, information engineering, 0501 psychology and cognitive sciences, Feedback linearization, 050107 human factors, Total harmonic distortion, Automatic voltage control, business.industry, 090603 Industrial Electronics, 020208 electrical & electronic engineering, 05 social sciences, 090000 ENGINEERING, anzsrc Australian and New Zealand Standard Research Class, Inverters, Modular design, Converters, Decentralised system, Bridge circuits, 090600 ELECTRICAL AND ELECTRONIC ENGINEERING, Cascade, business, Voltage

Abstract

Multilevel Modular Cascade Converters (MMCC) can be used to provide higher effective switching frequencies and reduce harmonic distortion in classical converter problems such as BESS and STATCOM. To successfully implement a MMCC in a STATCOM application it is necessary to balance dc-link voltages of the individual modules and track a reference output current. This work presents master and individual module controls utilizing feedback linearization and sliding mode control. Simulation results demonstrate that the control strategy presented in this paper can balance dc-link voltages of individual modules and provide output current tracking within the first cycle.

Published

2017

10. Ripple elimination for DC/AC DAB converter with phase shift and duty cycle control

Author

D.M. Vilathgamuwa, Negareh Ghasemi, Jiang You, and W. L. Malan

Subjects

Cycloconverter, Engineering, business.industry, 090603 Industrial Electronics, cycloconverter, dc/ac, dual active bridge, ripple current reduction, resonant converter, 020208 electrical & electronic engineering, Ripple, Electrical engineering, 02 engineering and technology, Multiplexing, law.invention, Capacitor, Modulation, law, Duty cycle, Frequency grid, 0202 electrical engineering, electronic engineering, information engineering, business, Electronic circuit

Abstract

Active ripple current reduction method is proposed for isolated DC/AC dual active bridge (DAB) converter to reduce the double grid frequency ripple in the DC current. Unlike those active methods that require extra switches to construct separate ripple reduction circuit, in this method, one or two branches of LC ripple steering circuits are used along with existing full bridge switches in a multiplexing manner. For the purpose of the ripple elimination, unsymmetrical phase shift modulation and duty cycle regulation methods are proposed and applied to both legs of the converter on the primary side of DAB converter. Also a current sharing (CS) scheme is presented to balance the current on both LC ripple steering circuits.

Published

2016

11. Modelling of DC arcs for photovoltaic system faults

Author

Madhawa Weerasekara, Yateendra Mishra, and Mahinda Vilathgamuwa

Subjects

Test bench, Maximum power principle, Computer science, business.industry, 090603 Industrial Electronics, 020208 electrical & electronic engineering, Photovoltaic system, Electrical engineering, 02 engineering and technology, Power (physics), Arc (geometry), Control theory, Mathematical model, Electrodes, Voltage measurement, Impedance, Integrated circuit modeling, Current measurement, Load modeling, Electrode, 0202 electrical engineering, electronic engineering, information engineering, Current (fluid), business, Electrical impedance

Abstract

Arc faults in a PV system are difficult to study using models developed for conventional power sources mainly due to non-linear behavior of PV current and its dependence on external factors such as irradiance, shading and maximum power tracking controls. This paper presents a unique model derived from fundamentals of Mayr and Cassie arc models and introducing a hyperbolic tangent function to approximate arc current at near zero gap. Arc impedance widely changes with heat dissipated through arcs periphery. Unique feature of the proposed model is that it takes into account this change of impedance with time which could be used to analyze arcs with changing lengths due to movements of current carrying elements. A test bench has been built with adjustable gap between two electrodes to conduct experiments. Both experimental results and simulation outcomes are presented to verify the proposed model.

Published

2016

12. Frequency modulation of a series resonant dual active bridge to minimize the circulating reactive currents in the high frequency link

Author

D. Mahinda Vilathgamuwa, Mark A. H. Broadmeadow, Geoffrey R. Walker, and W. L. Malan

Subjects

Imagination, Physics, Pulse-frequency modulation, Chemical substance, 090603 Industrial Electronics, 020209 energy, media_common.quotation_subject, 020208 electrical & electronic engineering, 02 engineering and technology, Topology, Capacitance, law.invention, Capacitor, Search engine, Hardware_GENERAL, Modulation, law, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Frequency modulation, media_common

Abstract

A frequency modulation scheme is proposed for a Capacitor-Inductor-Inductor-Capacitor (CLLC) Resonant Dual Active Bridge (RDAB) that relies on dynamic retuning of the resonant capacitors to the switching frequency as it is modulated. The proposed modulation scheme greatly reduces the circulating reactive currents in the High Frequency Link (HFL) by operating at a range of fixed discrete switching frequencies. A Triple Phase Shift (TPS) modulation scheme is used in between the discrete steps of switching frequencies and capacitances. In this paper, a mathematical analysis is presented of the RDAB and the proposed modulation scheme is compared to all of the existing modulation schemes. The CLLC RDAB is implemented in simulation and the simulation results demonstrate the effectiveness of the proposed modulation scheme at decreasing the circulating reactive currents, and therefore, greatly decreasing the conduction losses of the converter at light load, while maintaining its soft switching capability.

Published

2016

13. Sensor fault detection, isolation and system reconfiguration based on extended Kalman filter for induction motor drives

Author

Xinan Zhang, Bikramjit Singh Bhangu, King Jet Tseng, Gilbert Foo, Mahinda Vilathgamuwa, and Chandana Jayampathi Gajanayake

Subjects

Engineering, business.industry, 090603 Industrial Electronics, Control engineering, Kalman filter, Fault (power engineering), Soft sensor, Fault detection and isolation, machine control, electric sensing devices, fault diagnosis, induction motor drives, Kalman filters, Extended Kalman filter, Control theory, Control system, Electrical and Electronic Engineering, business, Induction motor, Position sensor

Abstract

Induction motors (IMs) have been extensively used in industrial applications because of their inexpensiveness, ruggedness and reliability. Generally, to improve the performance of IM drives, one position sensor, one DC-link voltage sensor and at least two AC current sensors are necessary. However, failure of any of these sensors can cause degraded system performance or even instability. Consequently, it is very important to develop a sensor fault resilient control system for IMs drives so that continuous and normal operation is maintained even in cases of sensor faults. This study proposes a compact and robust sensor fault detection, isolation and system reconfiguration algorithm based on extended Kalman filter and reduced number of adaptive observers. A comprehensive set of experimental results are provided to verify the effectiveness of the proposed algorithm.

Published

2013

14. An overview of power circuit topologies for inductive power transfer systems

Author

Wang Peng, D. Mahinda Vilathgamuwa, and Bac Xuan Nguyen

Subjects

Flexibility (engineering), Engineering, business.industry, 090603 Industrial Electronics, 020209 energy, 020208 electrical & electronic engineering, Electrical engineering, Topology (electrical circuits), 02 engineering and technology, Inductor, Network topology, Power (physics), 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, RLC circuit, Maximum power transfer theorem, Isolation (database systems), business

Abstract

Inductive Power Transfer (IPT) systems have been more and more popular as they offer numerous advantages over conventional wired power transfer systems in terms of convenience, safety, isolation, and flexibility. This paper presents an overview of power converter topologies as well as modulation strategies for IPT systems. Besides, a brief introduction to the overview of fundamental components in IPT systems will also be presented to give a better basic knowledge of IPT systems to the readers.

Published

2016

15. Wheel slip control based on traction force estimaton of electric locomotives

Author

Mahinda Vilathgamuwa, Pietro Borghesani, Tajrin Ishrat, and Gerard Ledwich

Subjects

0209 industrial biotechnology, Engineering, Tractive force, Traction control system, business.industry, 090603 Industrial Electronics, Traction (engineering), 020302 automobile design & engineering, Cornering force, 02 engineering and technology, Automotive engineering, Acceleration, 020901 industrial engineering & automation, 0203 mechanical engineering, Control theory, Torque, Slip angle, business, Induction motor

Abstract

In the development of control strategies for traction control in railway systems or locomotive applications, the dynamic interaction is known as traction force coefficient between the wheel and the rail must be carefully considered. Identification of the traction force coefficient between a railway wheel and rail track is a challenging task because of the difficulty in its measurement directly. Railway systems experiences wheel slip due to their acceleration and deceleration and also due to rail surfaces. Therefore, the traction force coefficient is an important factor in maintaining high acceleration and braking performance of railway. This study proposes a new approach to estimate the traction force coefficient using a Kalman Filter structured to included unknown input and then utilize the traction force between the wheel and rail where it reaches the maximum traction force level which is an adhesive force. For proper acceleration or braking of the wheel, the driving torque should be kept near to the adhesive level for the desired anti-slip control. Consequently, the motor drive system is required to make an instant and fast torque control to adjust the speed of a railway vehicle. The focus of this research project is to develop a dynamic model of the wheel slip controller that will be subsequently used to design a model for an induction motor driven locomotive.

Published

2016

16. Coil optimization against misalignment for wireless power transfer

Author

D.M. Vilathgamuwa, Arokiaswami Alphones, and J.P.K. Sampath

Subjects

010302 applied physics, Engineering, business.industry, 090603 Industrial Electronics, Misalignment, Wireless power, Coil optimization, Figure-of-merit, 020208 electrical & electronic engineering, 02 engineering and technology, 01 natural sciences, Maximum efficiency, Inductance, Electromagnetic coil, Q factor, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Figure of merit, Wireless power transfer, business, Spiral

Abstract

The improvement of misalignment tolerance is a key challenge for the optimization of wireless power transfer (WPT) systems. WPT coil design plays an imperative role in improving the misalignment tolerance. However, misalignment tolerance needs to be considered along with the dynamics of the receiving coil. This paper presents a coil optimization method to improve misalignment tolerance according to the receiver positioning behavior. A novel figure-of-merit (FOM) is introduced by incorporating maximum efficiency and the probability of alignment (PA). A case study for parameter optimization of circular spiral coils is presented with the use of the proposed FOM.

Published

2016

17. Capacitor-clamped inverter based transient suppression method for azimuth thruster drives

Author

Mahinda Vilathgamuwa, Viknash Shagar, Danyal Mohammadi, Shantha Gamini Jayasinghe, and Hossein Enshaei

Subjects

Electric motor, Engineering, Electronic speed control, business.industry, 090603 Industrial Electronics, 020208 electrical & electronic engineering, Electrical engineering, Drivetrain, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 02 engineering and technology, Propulsion, Electric power system, 020303 mechanical engineering & transports, Electric power transmission, 0203 mechanical engineering, Electrically powered spacecraft propulsion, Transient analysis, Inverters, Capacitors, Shafts, Propulsion, Pulse width modulation, 0202 electrical engineering, electronic engineering, information engineering, Inverter, business

Abstract

The more-electric trend is there in almost all the corners of the automotive industry. The same trend is followed by the maritime transportation industry as well and as a result, conventional mechanical transmission based propulsion systems are gradually being overtaken by electric power transmission based propulsion systems. An azimuth thruster driven by an electric motor is a common configuration found in modern electric propulsion systems. Due to the tight speed control and stiff drivetrain in these propulsion systems load transients easily get propagated into the dc-link of the motor drive and subsequently into the upstream power bus as well. These transients can cause disturbances to the other loads connected to the power system. In the worst case, stability of the shipboard power system gets affected by the transients. This paper proposes to use the capacitor-clamped inverter based motor drive itself to absorb such transients and thereby prevent the propagation into the power bus. The efficacy of the proposed concept is verified through computer simulations. Simulation results show that the capacitor-clamped inverter is capable of absorbing load transients without passing them to the upstream power bus.

Published

2016

18. Matlab simulation of lithium ion cell using electrochemical single particle model

Author

Troy W. Farrell, Mahinda Vilathgamuwa, San Shing Choi, and Ngoc Tham Tran

Subjects

Battery (electricity), Engineering, Partial differential equation, business.industry, 020209 energy, 090603 Industrial Electronics, chemistry.chemical_element, 02 engineering and technology, 021001 nanoscience & nanotechnology, Battery pack, Nonlinear system, chemistry, Component (UML), Electrode, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Lithium, 0210 nano-technology, business, Block (data storage)

Abstract

Battery modelling is a significant component of advanced Battery Management Systems (BMSs). The full electrochemical model of a battery can represent high precision battery behavior during its operation. However, the high computational requirement to solve the coupled nonlinear partial differential equations (PDEs) that define these models limits their applicability in an online BMS, especially for a battery pack containing hundreds of cells. Therefore, a reduced SPM-Three parameter model is proposed in this paper to efficiently model a lithium ion cell with high accuracy in a specific range of cell operation. The reduced model is implemented in a Simulink block for developing an advanced battery modelling tool that can be applied to a wide variety of battery applications.

Published

2016

19. Inductively Coupled Modular Battery System for Electric Vehicles

Author

Udaya K. Madawala, King Jet Tseng, Karthik Kandasamy, D.M. Vilathgamuwa, and School of Electrical and Electronic Engineering

Subjects

Battery (electricity), Engineering, business.product_category, business.industry, 090603 Industrial Electronics, 020209 energy, Interface (computing), 020208 electrical & electronic engineering, Electrical engineering, 02 engineering and technology, Modular design, Fault (power engineering), Battery pack, Electromagnetic induction, Electric vehicle, 0202 electrical engineering, electronic engineering, information engineering, Battery swapping, Maximum power transfer theorem, Electrical and Electronic Engineering, Unavailability, business, inductive power transmission, secondary cells, battery powered vehicles

Abstract

This study proposes two novel modularised battery systems capable of controlling the power of each module independently, and with inductive interface for convenient battery swapping. The proposed systems aid in overcoming the limitations such as unavailability of electric vehicle (EV) due to battery pack fault and lengthy battery recharging time which largely hampers the adoption of EVs for personal transportation. The proposed systems consist of a plurality of battery modules which are wirelessly coupled to the EV through inductive power transfer technology. The proposed systems are described in detail, and models are presented to analyse their steady-state behaviours. A design guideline for a 24 kWh 80 kW battery micro-pack system is discussed. Performances of the proposed topologies are investigated using simulations. To demonstrate the applicability, prototype systems of 1.5 kW are implemented and tested under various operating conditions. Results convincingly indicate that the proposed systems improve the vehicle's availability under fault condition. Published version

Published

2016

20. Repeater tuning against load variation for wireless power transfer

Author

Arokiaswami Alphones, D.M. Vilathgamuwa, and J.P.K. Sampath

Subjects

Repeater, Engineering, business.industry, 090603 Industrial Electronics, 020208 electrical & electronic engineering, Transmitter, Electrical engineering, 020206 networking & telecommunications, 02 engineering and technology, Variation (game tree), 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Figure of merit, Wireless power transfer, Equivalent circuit method, Performance improvement, business

Abstract

The incorporation of a repeater with a wireless power transfer (WPT) system for the performance improvement is investigated in this paper. Tuning of the self-resonance frequencies of transmitter, receiver and repeater coils is investigated as a promising approach to improve the performance against load variation. Theoretical analysis is presented using equivalent circuit method, and the 2-coil equivalent of WPT system with a repeaters is explored. Numerical results are presented along with experimental results to validate the proposed method.

Published

2016

21. Multilevel converter topologies based high power inductive power transfer systems

Author

Wang Peng, Bac Xuan Nguyen, and D. Mahinda Vilathgamuwa

Subjects

Engineering, business.industry, 090603 Industrial Electronics, 020208 electrical & electronic engineering, Electrical engineering, Topology (electrical circuits), 02 engineering and technology, Converters, law.invention, Power (physics), Capacitor, Three-phase, law, Inductive Power Transfer (IPT), Multilevel Converter, Multiphase, Neutral-point Clamped (NPC), Flying Capacitor, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Maximum power transfer theorem, RLC circuit, 020201 artificial intelligence & image processing, business, Phase modulation

Abstract

Several power converter topologies have been presented for Inductive Power Transfer (IPT) systems to generate high frequency current to cite the primary side inductive coils/tracks. This paper proposed the neutral point clamped (NPC) and flying capacitor (FC) multilevel converters based IPT systems which are suitable for high power IPT applications. The modulation strategies for single phase as well as three phase converters are carried out. The simulation results are presented to demonstrate the feasibility of the proposed system.

Published

2016

22. A new family of marx generators based on commutation circuits

Author

Gerard Ledwich, Hidenori Akiyama, Sasan Zabihi, Arindam Ghosh, and Firuz Zare

Subjects

Engineering, business.industry, 090603 Industrial Electronics, Pulse generator, Electrical engineering, High voltage, Topology (electrical circuits), resonant converter, Inductor, 020204 Plasma Physics, Fusion Plasmas, Electrical Discharges, Pulsed power, Marx generator, law.invention, Capacitor, high voltage, law, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, commutation, Commutation, Electrical and Electronic Engineering, business, positive buck boost converter, Electronic circuit

Abstract

This paper presents a novel topology for the generation of high voltage pulses that uses both slow and fast solid-state power switches. This topology includes diode-capacitor units in parallel with commutation circuits connected to a positive buck-boost converter. This enables the generation of a range of high output voltages with a given number of capacitors. The advantages of this topology are the use of slow switches and a reduced number of diodes in comparison with conventional Marx generator. Simulations performed for single and repetitive pulse generation and experimental tests of a prototype hardware verify the proposed topology.

Published

2011

23. A new family of multi‐output DC‐DC converter topologies to supply an asymmetrical four‐level diode‐clamped inverter

Author

Firuz Zare, Arindam Ghosh, and Arash A. Boora

Subjects

Engineering, business.industry, 090603 Industrial Electronics, DC-DC converters, Applied Mathematics, Photovoltaic system, Electrical engineering, Topology (electrical circuits), Converters, Computer Science Applications, law.invention, multi-level inverters, 090601 Circuits and Systems, Electric power system, Capacitor, Computational Theory and Mathematics, law, Control, Electronic engineering, Inverter, Voltage source, Electrical and Electronic Engineering, business, Voltage

Abstract

PurposeMulti‐level diode‐clamped inverters have the challenge of capacitor voltage balancing when the number of DC‐link capacitors is three or more. On the other hand, asymmetrical DC‐link voltage sources have been applied to increase the number of voltage levels without increasing the number of switches. The purpose of this paper is to show that an appropriate multi‐output DC‐DC converter can resolve the problem of capacitor voltage balancing and utilize the asymmetrical DC‐link voltages advantages.Design/methodology/approachA family of multi‐output DC‐DC converters is presented in this paper. The application of these converters is to convert the output voltage of a photovoltaic (PV) panel to regulate DC‐link voltages of an asymmetrical four‐level diode‐clamped inverter utilized for domestic applications. To verify the versatility of the presented topology, simulations have been directed for different situations and results are presented. Some related experiments have been developed to examine the capabilities of the proposed converters.FindingsThe three‐output voltage‐sharing converters presented in this paper have been mathematically analysed and proven to be appropriate to improve the quality of the residential application of PV by means of four‐level asymmetrical diode‐clamped inverter supplying highly resistive loads.Originality/valueThis paper shows that an appropriate multi‐output DC‐DC converter can resolve the problem of capacitor voltage balancing and utilize the asymmetrical DC‐link voltages advantages and that there is a possibility of operation at high‐modulation index despite reference voltage magnitude and power factor variations.

Published

2011

24. Asymmetrical DC Link Voltage Configuration for a Diode-Clamped Inverter

Author

Arindam Ghosh, Alireza Nami, and Firuz Zare

Subjects

Forward converter, Engineering, Asymmetrical DC link, Flyback converter, business.industry, 090603 Industrial Electronics, Ćuk converter, Adjacent vectors, Industrial and Manufacturing Engineering, law.invention, Diode-clmaped converter, Capacitor, Control theory, law, Boost converter, Hardware_INTEGRATEDCIRCUITS, Charge pump, Inverter, Electrical and Electronic Engineering, business, Voltage

Abstract

There is a trade off between a number of output voltage levels and the reliability and efficiency of a multilevel converter. A new configuration of diode-clamped multilevel inverters with a different combination of DC link capacitors voltage has been proposed in this paper. Two different symmetrical and asymmetrical unequal arrangements for a four-level diode-clamped inverter have been compared, in order to find an optimum arrangement with lower switching losses and optimised output voltage quality. The simulation and hardware results for a four-level inverter show that the asymmetrical configuration can obtain more output voltage levels with the same number of components compared with a conventional four-level inverter and this will lead to the reduction of the harmonic content of the output voltage. A new family of multi-output DC-DC converters with a simple control strategy has been utilised as a front-end converter to supply the DC link capacitor voltages for the optimised configuration.

Published

2010

25. Sensorless direct torque control of interior permanent magnet synchronous motor drives using the current derivative approach

Author

Douglas L. Maskell, D.M. Vilathgamuwa, Zhang Xinan, and Gilbert Hock Beng Foo

Subjects

Engineering, Vector control, Stator, business.industry, 090603 Industrial Electronics, Automatic frequency control, law.invention, Quantitative Biology::Subcellular Processes, Direct torque control, law, Position (vector), Electromagnetic coil, Control theory, Current (fluid), business, Voltage

Abstract

This paper presents a sensorless direct torque control (DTC) scheme for interior permanent magnet synchronous motors (IPMSMs) drives over a wide speed range including very low speeds. The stator flux observer comprises the voltage model augmented by the current model. The position information required by the current model is derived from the examination of the stator current response due to machine saliency. Unlike the signal injection method, the proposed method utilizes only the applied voltage vectors to the machine stator windings. The simulation results presented verify the effectiveness of the proposed approach.

Published

2015

26. Application of power electronics in improving power quality and supply efficiency of AC traction networks

Author

Geoffrey R. Walker, Umberto M Cella, Igor Perin, Peter F Nussey, and Truc Tran

Subjects

Engineering, Switched-mode power supply, business.industry, 090603 Industrial Electronics, Electrical engineering, 090607 Power and Energy Systems Engineering (excl. Renewable Power), Energy storage, Automotive engineering, power electronics, power supply quality, railway electrification, traction power supplies, AC railway networks, AC traction networks, ESS solutions, HVDC, RPC, SFC, electric rail supply systems, energy storage systems, high voltage direct current, po, Electric power system, Electrification, Power conditioner, Traction substation, Power electronics, High-voltage direct current, business

Abstract

Major advances in power electronics during recent years have prompted considerable interest within the traction community. The capability of new technologies to reduce the AC railway networks' effect on power quality and improve their supply efficiency is expected to significantly decrease the cost of electric rail supply systems. Of particular interest are Static Frequency Converter (SFC), Rail Power Conditioner (RPC), High Voltage Direct Current (HVDC) and Energy Storage Systems (ESS) solutions. Substantial impacts on future feasibility of railway electrification are anticipated. Aurizon, Australia's largest heavy haul railway operator, has recently commissioned the world's first 50Hz/50Hz SFC installation and is currently investigating SFC, RPC, HVDC and ESS solutions. This paper presents a summary of current and emerging technologies with a particular focus on the potential techno-economic benefits.

Published

2015

27. A LIN inspired optical bus for signal isolation in multilevel or modular power electronic converters

Author

Mark A. H. Broadmeadow and Geoffrey R. Walker

Subjects

Engineering, multilevel converters, business.industry, 090603 Industrial Electronics, Optical communication, Modular design, Converters, 090607 Power and Energy Systems Engineering (excl. Renewable Power), LIN, Signal, IEBus, Local Interconnect Network, Microcontroller, 090601 Circuits and Systems, Electronic engineering, IrDA, business, isolation, System bus

Abstract

Proposed in this paper is a low-cost, half-duplex optical communication bus for control signal isolation in modular or multilevel power electronic converters. The concept is inspired by the Local Interconnect Network (LIN) serial network protocol as used in the automotive industry. The proposed communications bus utilises readily available optical transceivers and is suitable for use with low-cost microcontrollers for distributed control of multilevel converters. As a signal isolation concept, the proposed optical bus enables very high cell count modular multilevel cascaded converters (MMCCs) for high-bandwidth, high-voltage and high-power applications. Prototype hardware is developed and the optical bus concept is validated experimentally in a 33-level MMCC converter operating at 120 Vrms and 60 Hz.

Published

2015

28. Tunable metamaterials for optimization of wireless power transfer systems

Author

D.M. Vilathgamuwa, Arokiaswami Alphones, and J.P.K. Sampath

Subjects

Computer science, business.industry, 090603 Industrial Electronics, Transmitter, Electrical engineering, Metamaterial, Optimization, Metamaterials, Coils, Equivalent circuits, Mathematical model, Magnetic materials, Power (physics), Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Equivalent circuit, Figure of merit, Maximum power transfer theorem, Wireless power transfer, Performance improvement, business

Abstract

Metamaterials (MMs) have been proposed to improve the performance of wireless power transfer (WPT) systems. The performance of identical unit cells having the same transmitter and receiver self-resonance is presented in the literature. This paper presents the optimization of tunable MM for performance improvement in WPT systems. Furthermore, a figure of merit (FOM) is proposed for the optimization of WPT systems with MMs. It is found that both transferred power and power transfer efficiency can be improved significantly by using the proposed FOM and tunable MM, particularly under misaligned conditions.

Published

2015

29. A Class B switch-mode assisted linear amplifier

Author

Geoffrey R. Walker

Subjects

Engineering, Topology, Half-bridge current, law.invention, Class B amplifier, SMALA, law, Electronic engineering, Linear amplifier, Electrical and Electronic Engineering, Multistage amplifier, Direct-coupled amplifier, Hysteretic controlled, Current-feedback operational amplifier, business.industry, 090603 Industrial Electronics, RF power amplifier, Distortion, 090600 ELECTRICAL AND ELECTRONIC ENGINEERING, class D amplifier, Dead-band, Class-D amplifier, Operational transconductance amplifier, Operational amplifier, Parallel buck converter, business

Abstract

A switch-mode assisted linear amplifier (SMALA) combining a linear (Class B) and a switch-mode (Class D) amplifier is presented. The usual single hysteretic controlled half-bridge current dumping stage is replaced by two parallel buck converter stages, in a parallel voltage controlled topology. These operate independently: one buck converter sources current to assist the upper Class B output device, and a complementary converter sinks current to assist the lower device. This topology lends itself to a novel control approach of a dead-band at low power levels where neither class D amplifier assists, allowing the class B amplifier to supply the load without interference, ensuring high fidelity. A 20 W implementation demonstrates 85% efficiency, with distortion below 0.08% measured across the full audio bandwidth at 15 W. The class D amplifier begins assisting at 2 W, and below this value, the distortion was below 0.03%. Complete circuitry is given, showing the simplicity of the additional class D amplifier and its corresponding control circuitry.

Published

2003

30. Bandwidth considerations for multilevel converters

Author

Geoffrey R. Walker and Gerard Ledwich

Subjects

carrier frequency, multilevel power converters, Frequency response, ripple reduction, harmonic content, Capacitors, slew-rate limited input, 090607 Power and Energy Systems Engineering (excl. Renewable Power), Frequency conversion, sideband harmonics, Pulse width modulation, Transfer function, switching circuits, Bandwidth, modulating frequency, Electronic engineering, Electrical and Electronic Engineering, Switching frequency, Mathematics, power conversion harmonics, Total harmonic distortion, Sideband, 090603 Industrial Electronics, input signal harmonics, Bandwidth (signal processing), bessel function, Converters, Switching converters, Pulse width modulation inverters, harmonic distortion, lowest order switch frequency, sampling process, switch frequency multiplication, Harmonics, PWM power convertors, switch frequency, transfer functions, frequency response, bandwidth considerations, transfer function, 090608 Renewable Power and Energy Systems Engineering (excl. Solar Cells), Pulse width modulation converters, Switches, Pulse-width modulation

Abstract

Multilevel converters can achieve an overall effective switch frequency multiplication and consequent ripple reduction through the cancellation of the lowest order switch frequency terms. This paper investigates the harmonic content and the frequency response of these multimodulator converters. It is shown that the transfer function of uniformly sampled modulators is a bessel function associated with the inherent sampling process. Naturally sampled modulators have a flat transfer function, but multiple switchings per switch cycle will occur unless the input is slew-rate limited. Lower sideband harmonics of the effective carrier frequency and, in uniform converters, harmonics of the input signal also limit the useful bandwidth. Observations about the effect of the number of converters, their type (naturally or uniformly sampled), and the ratio of modulating frequency and switch frequency are made.

Published

1999

31. High-frequency-link micro-inverter with front-end current-fed half-bridge boost converter and half-wave cycloconverter

Author

D.M. Vilathgamuwa, Douglas L. Maskell, and D. R. Nayanasiri

Subjects

Cycloconverter, Engineering, business.industry, 090603 Industrial Electronics, Photovoltaic system, Maximum power point tracking, law.invention, Solar micro-inverter, Capacitor, law, Boost converter, Electronic engineering, Inverter, business, Resonant inverter

Abstract

A high-frequency-link micro-inverter is proposed for integrating a single photovoltaic panel to a local load or utility grid. The number of power switches is minimized in addition to reduced magnetic components in order to design a low cost, light weight, compact and efficient inverter. A front-end current-fed isolated boost converter is used to integrate the photovoltaic panel to the rest of micro-inverter that consists of a half-wave cycloconverter and half-bridge inverter. The two basic building modules are interconnected via a high voltage DC-link capacitor. A series resonant tank is used to implement soft-switching in the half-bridge inverter and in the half-wave cycloconverter at the grid side. A highly optimized switching scheme is proposed to have soft-switching in all possible power conversion stages. The proposed micro-inverter is simulated using the MATLAB/Simulink Simpower block-set and with PSIM in order to verify the feasibility of the proposed converter and the effectiveness of the proposed switching control scheme.

Published

2013

32. Current-controlled resonant circuit based photovoltaic micro-inverter with half- wave cycloconverter

Author

D.M. Vilathgamuwa, Douglas L. Maskell, and D. R. Nayanasiri

Subjects

Cycloconverter, Engineering, business.industry, 090603 Industrial Electronics, Electrical engineering, LC circuit, Inductor, law.invention, Solar micro-inverter, law, Electronic engineering, RLC circuit, Inverter, series resonant circuit, Current-controlled inductor, full-bridge inverter, half-wave cycloconverter, business, Transformer, Resonant inverter

Abstract

An electronically-controlled series resonant circuit based micro-inverter with a full-bridge inverter and a half-wave cycloconverter is proposed for single phase distributed photovoltaic (PV) systems rated up to 400W. A series resonant circuit and a high frequency transformer are used to couple the full-bridge inverter and the half-wave cycloconverter. Inductor of the series resonant circuit is used to control output current of the micro-inverter. The proposed current control strategy of the micro-inverter is mathematically analyzed. The proposed micro-inverter is simulated using the MATLAB/PLECS block set in order to verify feasibility of the proposed current control method in series resonant circuit based DC-AC converters. Experimental results are obtained to further validate the proposed current control method.

Published

2013

33. Photovoltaic micro-inverter with front-end DC-DC converter and half-wave cycloconverter

Author

D.M. Vilathgamuwa, Douglas L. Maskell, and D. R. Nayanasiri

Subjects

Cycloconverter, Engineering, business.industry, 090603 Industrial Electronics, Photovoltaic system, Switches, Buildings, Reliability, MATLAB, Maximum power point tracking, Solar micro-inverter, Boost converter, Electronic engineering, RLC circuit, Inverter, business, Pulse-width modulation

Abstract

A photovoltaic micro-inverter with a half-bridge inverter, half-wave cycloconverter and front-end boost converter is proposed with a series resonant circuit. A PV panel is connected to the micro-inverter via the front-end DC-DC converter. The micro-inverter is integrated to the grid by using the half-wave cycloconverter. The Half-wave cycloconverter and the half-bridge inverter are interfaced by using the series resonant tank. The series resonant tank is used to obtain soft switching at turn-on of the half-bridge and the half-wave cycloconverter switches. The front-end DC-DC converter is controlled by using pulse width modulation and it is used to track the maximum power point of the PV panel. Phase shift power modulation is used to obtain grid synchronized 50Hz current. The proposed micro-inverter is analyzed to obtain an expression for average output power over one switching cycle and to identify possible control variables. The micro-inverter is simulated by using the MATLAB/Simulink and PLECS toolboxes. Soft switching behavior of the power switches is analyzed by using the obtained switching wave-forms from the simulation.

Published

2013

34. Assessment of real-time networks and timing for process bus applications

Author

Ingram, David M.E., Schaub, Pascal, Campbell, Duncan A., and Taylor, Richard R.

Subjects

IEEE 1588, IEC 61850, industrial networks, 090603 Industrial Electronics, protective relaying, process bus, 090607 Power and Energy Systems Engineering (excl. Renewable Power), smart grid, Ethernet networks, performance evaluation, substation automation

Abstract

Widespread adoption by electricity utilities of Non-Conventional Instrument Transformers, such as optical or capacitive transducers, has been limited due to the lack of a standardised interface and multi-vendor interoperability. Low power analogue interfaces are being replaced by IEC 61850 9 2 and IEC 61869 9 digital interfaces that use Ethernet networks for communication. These ‘process bus’ connections achieve significant cost savings by simplifying connections between switchyard and control rooms; however the in-service performance when these standards are employed is largely unknown. The performance of real-time Ethernet networks and time synchronisation was assessed using a scale model of a substation automation system. The test bed was constructed from commercially available timing and protection equipment supplied by a range of vendors. Test protocols have been developed to thoroughly evaluate the performance of Ethernet networks and network based time synchronisation. The suitability of IEEE Std 1588 Precision Time Protocol (PTP) as a synchronising system for sampled values was tested in the steady state and under transient conditions. Similarly, the performance of hardened Ethernet switches designed for substation use was assessed under a range of network operating conditions. This paper presents test methods that use a precision Ethernet capture card to accurately measure PTP and network performance. These methods can be used for product selection and to assess ongoing system performance as substations age. Key findings on the behaviour of multi-function process bus networks are presented. System level tests were performed using a Real Time Digital Simulator and transformer protection relay with sampled value and Generic Object Oriented Substation Events (GOOSE) capability. These include the interactions between sampled values, PTP and GOOSE messages. Our research has demonstrated that several protocols can be used on a shared process bus, even with very high network loads. This should provide confidence that this technology is suitable for transmission substations.

Published

2013

35. System level tests of transformer differential protection using an IEC 61850 process bus

Author

David Ingram, Richard R. Taylor, Pascal Schaub, Duncan Campbell, Ingram, David ME, Schaub, Pascal, Taylor, Richard R, and Campbell, Duncan A

Subjects

Ethernet, Engineering, IEC 61850, protective relaying, Energy Engineering and Power Technology, 090607 Power and Energy Systems Engineering (excl. Renewable Power), law.invention, Bus network, IEEE 1588, Relay, law, industrial networks, process bus, Electronic engineering, Electrical and Electronic Engineering, smart grid, Circuit breaker, Ethernet networks, business.industry, 090603 Industrial Electronics, Protective relay, Engineering, Electrical & Electronic, Reliability engineering, performance evaluation, substation automation, 080503 Networking and Communications, ethernet networks, Real Time Digital Simulator, business, Precision Time Protocol

Abstract

The IEC 61850 family of standards for substation communication systems was released in the early 2000s and includes IEC 61850-8-1 and IEC 61850-9-2 that enable Ethernet to be used for process-level connections between transmission substation switchyards and control rooms. This paper presents an investigation of process bus protection performance, since the inservice behavior of multifunction process buses is largely unknown. An experimental approach was adopted that used a Real Time Digital Simulator and "live" substation automation devices. The effect of sampling synchronization error and network traffic on transformer differential protection performance was assessed and compared to conventional hard-wired connections. Ethernet was used for all sampled value measurements, circuit breaker tripping, transformer tap-changer position reports, and precision time protocol synchronization of sampled value merging unit sampling. Test results showed that the protection relay under investigation operated correctly with process bus network traffic approaching 100% capacity. The protection system was not adversely affected by synchronizing errors significantly larger than the standards permit, suggesting that these requirements may be overly conservative. This "closed loop" approach, using substation automation hardware, validated the operation of protection relays under extreme conditions. Digital connections using a single shared Ethernet network outperformed conventional hard-wired solutions. Refereed/Peer-reviewed

Published

2013

36. Cascaded sliding mode control for global stability of three phase AC/DC PWM rectifier with rapidly varying power electronic loads

Author

Gajanayake Chandana, D.M. Vilathgamuwa, Amit K. Gupta, Gilbert Foo, King Jet Tseng, Xinan Zhang, and Karthik Kandasamy

Subjects

Engineering, business.industry, 090603 Industrial Electronics, Power factor, PWM rectifier, sliding mode control, More electric aircraft, electric ship, zonal DC bus, global stability, load power observation, Sliding mode control, DC-BUS, Electric power system, Three-phase, Control theory, Voltage regulation, Power engineering, business

Abstract

It can be seen presently widespread electrification of high power vehicular systems such as more electric aircrafts and electric ships. To further improve the efficiency, flexibility and reliability of such systems, zonal DC electric distribution technology is proposed. In most cases, the zonal DC bus is fed by front-end AC/DC voltage source rectifiers and is responsible for supporting many onboard loads with complex dynamic characteristics. Due to the small-signal constant power nature of tightly regulated power electronic loads and the large-signal load variations, stability of the zonal DC bus becomes a major concern. It is clear that conventional PI controllers stabilize the system in a small-signal sense. However, they are ineffective under some large-signal disturbances and load changes. Passivity based control method is known to provides global stability under passive loads, such as resistive loads. Nonetheless, the global stability of voltage regulation with nonlinear loads has not been discussed. This paper proposes a cascaded sliding mode control method with global stability and online observation of load power. Moreover, system stability limit constrained by catastrophic bifurcation is also discussed. Simulation results are provided to verify the proposed method.

Published

2013

37. A simple and efficient hybrid maximum power point tracking method for PV systems under partially shaded condition

Author

Lian Lian Jiang, Douglas L. Maskell, D.M. Vilathgamuwa, and D. R. Nayanasiri

Subjects

Engineering, Artificial neural network, Maximum power principle, business.industry, Control theory, Duty cycle, Simple (abstract algebra), 090603 Industrial Electronics, Photovoltaic system, Power output, business, Maximum power point tracking, Power (physics)

Abstract

Maximum power point tracking (MPPT) is considered as an important strategy to increase the power output from photovoltaic (PV) systems. The presence of multiple maximum power points (MPPs) under partially shaded conditions (PSC) means that traditional MPPT algorithms, such as perturb and observe (P&O) and incremental conductance (IncCond), are unable to effectively track the global MPP. Other existing MPPT methods are either too complex or need additional equipment. In this paper, we propose a simple and efficient hybrid MPPT algorithm for PV systems working under PSC. It combines the advantages of P&O (or IncCond) and artificial neural network (ANN)-based MPPT methods, and features a relatively lower cost, fast response, and simple structure. In this hybrid MPPT, the ANN is used to initially categorize the power based on the irradiance pattern. Based on the classified category, an initial reference duty ratio is determined. Subsequently, a conventional MPPT algorithm (such as P&O or IncCond) is used to search near the global MPP. Finally, the system is able to accurately determine the global MPP which consequently increases the power output from the PV array. The effectiveness of the proposed hybrid MPPT, under various shading patterns, is verified using both simulations and an experimental setup.

Published

2013

38. A technique for improving grid side harmonic distortion of matrix converter based bi-directional IPT systems

Author

D. S. B. Weerasinghe, D.M. Vilathgamuwa, Udaya K. Madawala, and Duleepa J. Thrimawithana

Subjects

Total harmonic distortion, Engineering, business.product_category, business.industry, 090603 Industrial Electronics, Matrix converters, Power factor, Grid, 090607 Power and Energy Systems Engineering (excl. Renewable Power), Maximum power point tracking, Harmonics, Electric vehicle, Electronic engineering, Maximum power transfer theorem, business

Abstract

Matrix converter (MC) based grid connected bi-directional inductive power transfer (BD-IPT) systems are preferable for numerous applications such as electric vehicle (EV) charging and vehicle-to-grid (V2G) systems due to their single-stage grid integration as opposed to two-stage grid integration of conventional BD-IPT systems. However MC based BD-IPT systems essentially produce harmonics which can have adverse effects on power quality of the utility grid. This paper presents a new control technique, through which the grid side harmonic distortion of MC based BD-IPT systems can be improved. A theoretical analysis is presented with simulations to show that the proposed approach is viable, and results suggest that the presented technique improves the power quality of the system significantly by minimizing the grid side harmonic distortion.

Published

2013

39. Improved control of rotor- and load-side converters of stand-alone DFIGs under nonlinear loads conditions

Author

Xinan Zhang, D. Mahinda Vilathgamuwa, San Shing Choi, and Feng Wei

Subjects

Engineering, Stator, Rotor (electric), business.industry, 090603 Industrial Electronics, Induction generator, Repetitive control, Converters, slators, law.invention, Compensation (engineering), law, Control theory, Harmonic, business, Machine control

Abstract

This paper proposes an improved control of rotor side and load side converters with repetitive control in order to compensate the harmonic components in the stator voltage and current of the doubly-fed induction generator (DFIG) when connected with non-linear loads. The non-linear loads results in distorted stator voltage and current with subsequent power quality degradation and electromagnetic torque pulsations of DFIGs. The distorted stator voltage and current are compensated by the proposed hybrid control scheme with repetitive control (RC) based PI controller (PIRC). The harmonic components of different orders and negative sequence component of the stator voltage can be rejected using a single PIRC while most of the other alternative harmonic compensators require separate controllers for damping these components. The PIRC is applied in rotor side converter (RSC) for the purpose of stator voltage compensation and in line side converter (LSC) for stator current compensation, respectively. The simulation results are given and they show that the PIRC control scheme can eliminate stator voltage and current harmonic of stand-alone DFIG effectively.

Published

2013

40. Inter-module SoC balancing control for CHB based BESS using multi-dimensional modulation

Author

D.M. Vilathgamuwa, Gilbert Foo, and Karthik Kandasamy

Subjects

Battery (electricity), Engineering, business.industry, 090603 Industrial Electronics, Control (management), High capacity, State of charge, Control theory, Modulation, Electronic engineering, Multi dimensional, Inverter, Faulty cell, business

Abstract

State of Charge (SoC) imbalance between battery modules is unavoidable in high capacity Battery Energy Storage Systems (BESS). This paper investigates a module level SoC balancing control in cascaded H-bridge inverter (CHB) based BESS using multi-dimensional modulation technique. Multi-dimensional modulation is a generalized modulation strategy for cascaded H-bridge inverters. With the proposed control strategy, SoC can be equalized between the battery modules in a phase leg of CHB. The performance of the proposed control strategy under faulty cell operation is also studied. The multi-dimensional modulation strategy and the SoC balancing control are explained and the simulation results are given in this paper.

Published

2013

41. Identification and control of induction machines using artificial neural networks

Author

Michael Wishart and Ronald G. Harley

Subjects

Engineering, Adaptive control, vector control scheme, adaptive control, rotor speed, Industrial and Manufacturing Engineering, asynchronous machines, Control theory, dynamics identification, induction machines, Electrical and Electronic Engineering, Machine control, control system analysis, velocity control, Vector control, Artificial neural network, business.industry, 090603 Industrial Electronics, machine theory, stator currents, Induction generator, Control engineering, machine control, rotors, Control and Systems Engineering, Control system, neurocontrollers, control system synthesis, parameter estimation, business, artificial neural networks, electric current control, performance, Induction motor

Abstract

The use of artificial neural networks (ANNs) to identify and control induction machines is proposed. Two systems are presented: a system to adaptively control the stator currents via identification of the electrical dynamics, and a system to adaptively control the rotor speed via identification of the mechanical and current-fed system dynamics. Both systems are inherently adaptive as well as self-commissioning. The current controller is a completely general nonlinear controller which can be used together with any drive algorithm. Various advantages of these control schemes over conventional schemes are cited, and the combined speed and current control scheme is compared with the standard vector control scheme. >

Published

1995

42. A novel CDVM based high-voltage converter using low power solid-state switches and a tuned resonant circuit designed for pulsed power applications

Author

Zeynab Zabihi, Sasan Zabihi, Gerard Ledwich, Firuz Zare, and Arindam Ghosh

Subjects

LC Resonant Circuit, Engineering, High voltage power supply, business.industry, 090603 Industrial Electronics, Voltage divider, Electrical engineering, Capacitor-diode voltage multiplier, High voltage, Hardware_PERFORMANCEANDRELIABILITY, Pulsed Power, LC circuit, 020204 Plasma Physics, Fusion Plasmas, Electrical Discharges, law.invention, Capacitor, Hardware_GENERAL, law, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Tune, Voltage multiplier, RLC circuit, Voltage regulation, business, Resonant inverter

Abstract

A novel concept of producing high dc voltage for pulsed-power applications is proposed in this paper. The topology consists of an LC resonant circuit supplied through a tuned alternating waveform that is produced by an inverter. The control scheme is based on the detection of variations in the resonant frequency and adjustment of the switching signal patterns for the inverter to produce a square waveform with exactly the same frequencies. Therefore the capacitor voltage oscillates divergently with an increasing amplitude. A simple one-stage capacitor-diode voltage multiplier (CDVM) connected to the resonant capacitor then rectifies the alternating voltage and gives a dc level equal to twice the input voltage amplitude. The produced high voltage appears then in the form of high-voltage pulses across the load. A basic model is simulated by Simulink platform of MATLAB and the results are included in the paper.

Published

2012

43. Development of a dragline in-bucket bulk density monitor

Author

Bewley, Alex, Shekhar, Rajiv, Upcroft, Ben, and Lever, Paul

Subjects

Monitoring, 090603 Industrial Electronics, Bulk Density, Perception, Dragline, 090602 Control Systems Robotics and Automation, Mining

Abstract

This paper details the implementation and trialling of a prototype in-bucket bulk density monitor on a production dragline. Bulk density information can provide feedback to mine planning and scheduling to improve blasting and consequently facilitating optimal bucket sizing. The bulk density measurement builds upon outcomes presented in the AMTC2009 paper titled ‘Automatic In-Bucket Volume Estimation for Dragline Operations’ and utilises payload information from a commercial dragline monitor. While the previous paper explains the algorithms and theoretical basis for the system design and scaled model testing this paper will focus on the full scale implementation and the challenges involved.

Published

2011

44. Multicast traffic filtering for sampled value process bus networks

Author

David Ingram, Duncan Campbell, Pascal Schaub, Fang, John, Cao, Zhenwei, IECON 2011: 37th Annual Conference of the IEEE Industrial Electronics Society Melbourne, Australia 7-10 November 2011, Ingram, David ME, Schaub, Pascal, and Campbell, Duncan A

Subjects

Ethernet, IEEE standards, Engineering, IEC 61850, Virtual LAN, protocols, 100503 Computer Communications Networks, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 090607 Power and Energy Systems Engineering (excl. Renewable Power), Smart Grids, law.invention, IEEE 1588, Ethernet Networks, law, VLAN, Power Transmission, IEC standards, Carrier Ethernet, substations, Multicast, business.industry, 090603 Industrial Electronics, Multicast Filtering, Ethernet flow control, Protective relay, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Local area network, current transformers, Protective Relaying, business, Computer network

Abstract

Ethernet is a key component of the standards used for digital process buses in transmission substations, namely IEC 61850 and IEEE Std 1588-2008 (PTPv2). These standards use multicast Ethernet frames that can be processed by more than one device. This presents some significant engineering challenges when implementing a sampled value process bus due to the large amount of network traffic. A system of network traffic segregation using a combination of Virtual LAN (VLAN) and multicast address filtering using managed Ethernet switches is presented. This includes VLAN prioritisation of traffic classes such as the IEC 61850 protocols GOOSE, MMS and sampled values (SV), and other protocols like PTPv2. Multicast address filtering is used to limit SV/GOOSE traffic to defined subsets of subscribers. A method to map substation plant reference designations to multicast address ranges is proposed that enables engineers to determine the type of traffic and location of the source by inspecting the destination address. This method and the proposed filtering strategy simplifies future changes to the prioritisation of network traffic, and is applicable to both process bus and station bus applications. © 2011 IEEE. Refereed/Peer-reviewed

Published

2011

45. Test and evaluation system for multi-protocol sampled value protection schemes

Author

Gerard Ledwich, Duncan Campbell, David Ingram, Pascal Schaub, 2011 IEEE PES Trondheim: PowerTech Trondheim, Norway 19-23 June 2011, Ingram, David ME, Campbell, Duncan, Schaub, Pascal, and Ledwich, Gerard

Subjects

Ethernet, Engineering, IEC 61850, clocks, protective relaying, Interoperability, time measurement, instrument transformersa, 090607 Power and Energy Systems Engineering (excl. Renewable Power), IEEE 1588, smart grids, power transmission, IEC standards, Ethernet networks, substations, business.industry, 090603 Industrial Electronics, Protective relay, relays, Automation, performance evaluation, 080503 Networking and Communications, Smart grid, power system simulation, Embedded system, NIST, Precision Time Protocol, business, synchronization

Abstract

Proposed transmission smart grids will use a digital platform for the automation of substations operating at voltage levels of 110 kV and above. The IEC 61850 series of standards, released in parts over the last ten years, provide a specification for substation communications networks and systems. These standards, along with IEEE Std 1588-2008 Precision Time Protocol version 2 (PTPv2) for precision timing, are recommended by the both IEC Smart Grid Strategy Group and the NIST Framework and Roadmap for Smart Grid Interoperability Standards for substation automation. IEC 61850-8-1 and IEC 61850-9-2 provide an inter-operable solution to support multi-vendor digital process bus solutions, allowing for the removal of potentially lethal voltages and damaging currents from substation control rooms, a reduction in the amount of cabling required in substations, and facilitates the adoption of non-conventional instrument transformers (NCITs). IEC 61850, PTPv2 and Ethernet are three complementary protocol families that together define the future of sampled value digital process connections for smart substation automation. This paper describes a specific test and evaluation system that uses real time simulation, protection relays, PTPv2 time clocks and artificial network impairment that is being used to investigate technical impediments to the adoption of SV process bus systems by transmission utilities. Knowing the limits of a digital process bus, especially when sampled values and NCITs are included, will enable utilities to make informed decisions regarding the adoption of this technology.

Published

2011

46. Use of IEEE 1588-2008 for a sampled value process bus in transmission substations

Author

Ingram, David M.E., Campbell, Duncan, and Schaub, Pascal

Subjects

IEEE 1588, ethernet networks, IEC 61850, power system simulation, 090603 Industrial Electronics, protective relaying, smart grids, time measurement, power transmission, 090607 Power and Energy Systems Engineering (excl. Renewable Power), 090602 Control Systems Robotics and Automation, performance evaluation

Abstract

IEC Technical Committee 57 (TC57) published a series of standards and technical reports for “Communication networks and systems for power utility automation” as the IEC 61850 series. Sampled value (SV) process buses allow for the removal of potentially lethal voltages and damaging currents inside substation control rooms and marshalling kiosks, reduce the amount of cabling required in substations, and facilitate the adoption of non-conventional instrument transformers. IEC 61850-9-2 provides an inter-operable solution to support multi-vendor process bus solutions. A time synchronisation system is required for a SV process bus, however the details are not defined in IEC 61850-9-2. IEEE Std 1588-2008, Precision Time Protocol version 2 (PTPv2), provides the greatest accuracy of network based time transfer systems, with timing errors of less than 100 ns achievable. PTPv2 is proposed by the IEC Smart Grid Strategy Group to synchronise IEC 61850 based substation automation systems. IEC 61850-9-2, PTPv2 and Ethernet are three complementary protocols that together define the future of sampled value digital process connections in substations. The suitability of PTPv2 for use with SV is evaluated, with preliminary results indicating that steady state performance is acceptable (jitter < 300 ns), and that extremely stable grandmaster oscillators are required to ensure SV timing requirements are met when recovering from loss of external synchronisation (such as GPS).

Published

2011

47. A Hybrid Cascade Converter Topology With Series-Connected Symmetrical and Asymmetrical Diode-Clamped H-Bridge Cells

Author

Frede Blaabjerg, Firuz Zare, Arindam Ghosh, and A. Nami

Subjects

Forward converter, Engineering, Low-dropout regulator, business.industry, 090603 Industrial Electronics, Voltage divider, Asymmetrical diode-clamped inverter, Ćuk converter, Predictive current control, Asymmetrical Multilevel converter, H bridge, Topology, Series and parallel circuits, 090607 Power and Energy Systems Engineering (excl. Renewable Power), Cascade converter, Control theory, Asymmetrical DC link arrangement, Boost converter, Electrical and Electronic Engineering, business, Hybrid cascade converter, Hybrid converter

Abstract

A novel H-bridge multilevel pulsewidth modulation converter topology based on a series connection of a high-voltage diode-clamped inverter and a low-voltage conventional inverter is proposed in this paper. A dc link voltage arrangement for the new hybrid and asymmetric solution is presented to have a maximum number of output voltage levels by preserving the adjacent switching vectors between voltage levels. Hence, a 15-level hybrid converter can be attained with a minimum number of power components. A comparative study has been carried out to present high performance of the proposed configuration to approach a very low total harmonic distortion of voltage and current, which leads to the possible elimination of the output filter. Regarding the proposed configuration, a new cascade inverter is verified by cascading an asymmetrical diode-clamped inverter, in which 19 levels can be synthesized in output voltage with the same number of components. To balance the dc link capacitor voltages for the maximum output voltage resolution as well as synthesize asymmetrical dc link combination, a new multi-output boost converter is utilized at the dc link voltage of a seven-level H-bridge diode-clamped inverter. Simulation and hardware results based on different modulations are presented to confirm the validity of the proposed approach to achieve a high-quality output voltage.

Published

2011

48. A novel high voltage pulsed power supply based on low voltage switch-capacitor units

Author

Hidenori Akiyama, Gerard Ledwich, Sasan Zabihi, Firuz Zare, and Arindam Ghosh

Subjects

Nuclear and High Energy Physics, business.industry, Computer science, Switch-Capacitor units, 090603 Industrial Electronics, Electrical engineering, High voltage, Current source, Condensed Matter Physics, Inductor, 020204 Plasma Physics, Fusion Plasmas, Electrical Discharges, law.invention, Capacitor, Plasma, Pulsed power supply, law, Voltage source, Resistor, business, Low voltage, High voltage stress, Voltage

Abstract

This paper presents a high-voltage pulsed-power system based on low-voltage switch-capacitor units that are connected to a current source for several applications such as plasma systems. A modified positive buck-boost converter topology is used to utilize the current source concept, and a series of low-voltage switch-capacitor units is connected to the current source in order to provide a high voltage with a high voltage stress (dv/dt) as demanded by the loads. This pulsed-power converter is flexible in terms of energy control because the stored energy in the current source can be adjusted by changing the current magnitude to significantly improve the efficiency of various systems with different requirements. The output-voltage magnitude and stress (dv/dt) can be controlled by a proper selection of components and control algorithm to turn on and off the switching devices.

Published

2010

49. A new family of Marx generator based on resonant converter

Author

Hidenori Akiyama, Arindam Ghosh, Sasan Zabihi, Firuz Zare, and Gerard Ledwich

Subjects

Engineering, LC resonant tank, Commutation, Topology (electrical circuits), Hardware_PERFORMANCEANDRELIABILITY, Pulsed Power, Inductor, Marx generator, law.invention, High Voltage Generation, Resonant converter, Computer Science::Hardware Architecture, Hardware_GENERAL, law, Hardware_INTEGRATEDCIRCUITS, Electronic circuit, Marx Generator, business.industry, 090603 Industrial Electronics, Pulse generator, Electrical engineering, High voltage, Computer Science::Other, Capacitor, RLC circuit, Positive buck boost converter, business

Abstract

This paper presents a novel topology to generate high voltage with utilization of slow and fast power switches. New concepts used in this topology include numbers of diode-capacitor units in parallel with resonant circuits which are connected to a positive buck-boost converter. The resonant circuit reverses the voltage polarity of the capacitors. This configuration has capability of generating a flexible high voltage with certain number of capacitors. The advantage of this topology is to use slow switches, less number of diodes and capacitors compare to Marx generator. Simulations have been performed to verify the proposed topology.

Published

2010

50. A new configuration for planar magnetic elements to reduce capacitive couplings

Author

Firuz Zare, Gerard Ledwich, Neda Shahabi, Arindam Ghosh, and Mircevski, S

Subjects

Capacitive coupling, Engineering, Planar, Electromagnetic coil, business.industry, 090603 Industrial Electronics, Capacitive sensing, Electronic engineering, Solid modeling, Planar Magnetic Elements, Capacitive Coupling, Finite Element, business, Topology, Finite element method

Abstract

This paper presents an analysis of planar magnetic element configurations in order to reduce capacitive couplings between the windings. The investigation and simulation results, both 2D and 3D Finite Element (FE) show the effect of shifting the planar layers in reduce the capacitive couplings. The simulation results are compared with test results to validate the proposition.

Published

2010