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10. Torque Ripple Reduction in Brushless Wound Rotor Vernier Machine Using Third-Harmonic Multi-Layer Winding.

Author

Zulqarnain, Muhammad, Hammad, Sheikh Yasir, Ikram, Junaid, Bukhari, Syed Sabir Hussain, and Khan, Laiq

Subjects
PERMANENT magnets, ELECTRIC current rectifiers, TORQUE, VERNIERS, BRUSHLESS electric motors, MACHINING, ROTORS, ELECTROMAGNETIC interactions, ELECTRIC inverters
Abstract

This article aims to realize the brushless operation of a wound rotor vernier machine (WRVM) by a third-harmonic field produced through stator auxiliary winding (X). In the conventional model, a third-harmonic current is generated by connecting a 4-pole armature and 12-pole excitation windings serially with a three-phase diode rectifier to develop a pulsating field in the airgap of a machine. However, in the proposed model, the ABC winding is supplied by a three-phase current source inverter, whereas the auxiliary winding (X) carries no current due to an open circuit. The fundamental MMF component developed in the machine airgap creates a four-pole stator field, while the third-harmonic MMF induces the harmonic current in the specialized rotor harmonic winding. The rotor on the other side contains the harmonic and the field windings connected through a full-bridge rectifier. The electromagnetic interaction of the stator and rotor fields generates torque. Due to the open-circuited winding pattern, the proposed machine results in a low torque ripple. A 2D model is designed using JMAG-Designer, and 2D field element analysis (FEA) is carried out to determine the output torque and machine's efficiency. A comparative performance analysis of both the conventional and proposed topologies is discussed graphically. The quantitative analysis of the proposed topology shows better performance as compared to the recently developed third-harmonic-based brushless WRVM topology in terms of output torque and torque ripples. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Novel Double Mode Dual-Stator Wound Rotor Synchronous Machine for Variable Speed Applications.

Author

Hussain, Asif, Arif, Arsalan, Bukhari, Syed Sabir Hussain, Baig, Zafar, Yazdan, Tanveer, and Shoaib, Muhammad

Subjects
FINITE element method, STATORS, BRUSHLESS electric motors, MACHINERY, ROTORS, SPEED
Abstract

This paper offers a novel dual-mode double stator wound rotor synchronous machine for variable speed applications. The proposed motor integrates the benefits of both the traditional wound rotor synchronous machine (WRSM) and brushless wound rotor synchronous machine (BL-WRSM). A constant torque can be attained in the maximum torque per ampere region by operating the proposed machine as a traditional WRSM in Mode I, and a constant power can be attained in the field-weakening region by operating it as a BL-WRSM in Mode II. Moreover, due to the dual-stator structure, the proposed machine exhibits improved performance in terms of high torque density as compared to the existing single stator BL-WRSM. By using a special stator winding arrangement to achieve the sub-harmonic component of the stator magnetomotive force, the brushless operation of the proposed machine is achieved. The additional sub-harmonic component induces a voltage in the harmonic winding placed on the rotor, which is then rectified and provided a DC current to field winding for brushless excitation. In order to validate the effectiveness of the proposed machine, a two-dimensional finite element analysis (FEA) is carried out. [ABSTRACT FROM AUTHOR]

Published
2023
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12. Design, Analysis and Optimization of Electrical Machines and Drives for Electric Vehicles.

Author

Bukhari, Syed Sabir Hussain

Subjects
ELECTRIC machinery, ELECTRIC machines, ELECTRIC metal-cutting, SYNCHRONOUS electric motors, ANT algorithms, PERMANENT magnet motors
Abstract

A capacitor voltage offset suppression method based on reference voltage self-correction for a three-phase four-switch (TPFS) inverter-fed permanent magnet synchronous motor (PMSM) drive system to improve motor control performance was proposed in [[7]]. Electrical machines are the key components in the ongoing energy transition and electrification and will be an integral part of people's lives in a future low-carbon society. In [[11]], the back electromotive force (EMF) waveforms of a flux-switching permanent magnet (FSPM) machine and a variable flux memory permanent magnet (VFMPM) machine with the same main dimension were researched. In this method, firstly, the -axis reference voltage deviation caused by the capacitor voltage offset was analyzed, and the relationship between the voltage to be compensated and the offset was obtained. [Extracted from the article]

Published
2023
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13. Sub-harmonic-based Cost-effective Brushless Wound Rotor Synchronous Machine Topology.

Author

Bukhari, Syed Sabir Hussain and Jong-Suk Ro

Subjects
*FINITE element method, *ROTORS, *TOPOLOGY, *MACHINERY, *MAGNETIC fields
Abstract

This paper proposes a sub-harmonic-based brushless wound rotor synchronous machine (WRSM) topology. The proposed topology involves two threephase stator windings with a different number of turns. Both windings are linked in parallel and are provided with current from a single inverter. One of these windings is a four-pole winding while the second winding is a two-pole winding. This arrangement generates a magneto-motive force (MMF) in the air-gap of the machine comprising of two components: a regular fundamental MMF and a sub-harmonic MMF. The fundamental component produces the main stator field whereas the sub-harmonic component generates a subharmonic field that is utilized to produce a harmonic current in a two-pole rotor harmonic winding. The induced harmonic current is rectified to inject direct current (DC) to the field winding and produce a four-pole rotor magnetic field. The four-pole rotor magnetic field when magnetically interacts with the same number of the main stator field poles producing torque. Finite element analysis (FEA) is carried out to confirm the operation and achieve the electromagnetic behavior of the proposed topology. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Integration of Wind Systems with SVC and STATCOM during Various Events to Achieve FRT Capability and Voltage Stability: Towards the Reliability of Modern Power Systems.

Author

Mahmoud, Mohamed Metwally, Salama, Hossam S., Bajaj, Mohit, Aly, Mohamed M., Vokony, Istvan, Bukhari, Syed Sabir Hussain, Wapet, Daniel Eutyche Mbadjoun, and Abdel-Rahim, Abdel-Moamen M.

Subjects
VOLTAGE regulators, SYSTEM integration, WIND power, STATIC VAR compensators, SYNCHRONOUS capacitors, WIND speed, REACTIVE power
Abstract

FACTS tools in modern power systems provide a vital solution to the problems of voltage deviation and fault ride-through (FRT) capability in electrical power systems especially during the integration of wind power. Many distinct journals highlight that the wind-driven squirrel cage generator (SCIG) still accounts for around 15% of operating wind generators so far. To enhance voltage stability and FRT capacity, this paper recommends a cost-effective static VAR compensator (SVC) which has a size rating of six MVAR, and this improves the efficiency of the electrical power system. Different events are considered in this study such as high turbulent wind speed, low turbulent wind speed, unsymmetrical faults, and symmetrical faults to validate the suggested option. Moreover, the suggested solution is compared with the static synchronous compensator (STATCOM) and a fixed capacitor to ensure that during the studied wind speed profiles and faults, voltage stability, reactive power consumption, and FRT capability are realized. An overall comparison among them is performed under all studied scenarios to summarize their benefits and impacts. The simulated results show the effectiveness and superiority of SVC in improving the operation of an integrated wind system based on a grid-linked SCIG and the performance of the power system. The modeling of SCIG, SVC, and STATCOM is designed by MATLAB/Simulink toolbox. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Recent Challenges and Methodologies in Smart Grid Demand Side Management: State-of-the-Art Literature Review

Author

Nasir, Tehreem, Bukhari, Syed Sabir Hussain, Raza, Safdar, Munir, Hafiz Mudassir, Abrar, Muhammad, Muqeet, Hafiz Abd ul, Bhatti, Kamran Liaquat, Ro, Jong-Suk, and Masroor, Rooha

Subjects
Article Subject
Abstract

The concept of smart grid was introduced a decade ago. Demand side management (DSM) is one of the crucial aspects of smart grid that provides users with the opportunity to optimize their load usage pattern to fill the gap between energy supply and demand and reduce the peak to average ratio (PAR), thus resulting in energy and economic efficiency ultimately. The application of DSM programs is lucrative for both utility and consumers. Utilities can implement DSM programs to improve the system power quality, power reliability, system efficiency, and energy efficiency, while consumers can experience energy savings, reduction in peak demand, and improvement of system load profile, and they can also maximize usage of renewable energy resources (RERs). In this paper, some of the strategies of DSM including peak shaving and load scheduling are highlighted. Furthermore, the implementation of numerous optimization techniques on DSM is reviewed.

Published
2021
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16. Effectively Predicting the Presence of Coronary Heart Disease Using Machine Learning Classifiers.

Author

Hassan, Ch. Anwar ul, Iqbal, Jawaid, Irfan, Rizwana, Hussain, Saddam, Algarni, Abeer D., Bukhari, Syed Sabir Hussain, Alturki, Nazik, and Ullah, Syed Sajid

Subjects
CORONARY disease, MULTILAYER perceptrons, HEART diseases, CLASSIFICATION algorithms, RANDOM forest algorithms, DECISION making, MACHINE learning
Abstract

Coronary heart disease is one of the major causes of deaths around the globe. Predicating a heart disease is one of the most challenging tasks in the field of clinical data analysis. Machine learning (ML) is useful in diagnostic assistance in terms of decision making and prediction on the basis of the data produced by healthcare sector globally. We have also perceived ML techniques employed in the medical field of disease prediction. In this regard, numerous research studies have been shown on heart disease prediction using an ML classifier. In this paper, we used eleven ML classifiers to identify key features, which improved the predictability of heart disease. To introduce the prediction model, various feature combinations and well-known classification algorithms were used. We achieved 95% accuracy with gradient boosted trees and multilayer perceptron in the heart disease prediction model. The Random Forest gives a better performance level in heart disease prediction, with an accuracy level of 96%. [ABSTRACT FROM AUTHOR]

Published
2022
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17. Performance Improvement of Axial Flux Permanent Magnet Machine with Phase Group Concentrated Coil Winding.

Author

Zakir, Muhammad Ramiz, Ikram, Junaid, Shah, Saleem Iqbal, Bukhari, Syed Sabir Hussain, Ali, Salman, and Marignetti, Fabrizio

Subjects
PERMANENT magnets, ELECTRIC power plants, WIND power plants, FINITE element method, MACHINE performance
Abstract

This paper suggests a method to improve the performances of the Dual Stator Axial Flux Spoke-type Permanent Magnet (DSAFSPM) machines with phase group concentrated coil (PGCC) windings, by incorporating continuous and discrete step-skewing along with a special winding connection. The purpose of the study is to mitigate the cogging torque and torque ripples while increasing the output torque so it ameliorates the machine performance at minimum cost for various applications such as wind power plants and electric vehicles (EVs). Cogging torque produces noise and vibrations which degrade the machine's performance and reduces its life span. The proposed winding sequence enhances the output torque by improving its distribution factor along with the use of continuous skew and step-skew magnets. This research work improved the cogging torque and torque ripples with the help of skew techniques while output torque is increased by the proposed winding sequence. Further harmonics and ripples are also mitigated by the proposed winding sequence. The overall machine volume is kept constant along with the magnet size and the design parameters for fair performance analysis. Comparative analysis of these machines is performed using three-dimensional (3-D) time-stepped finite element analysis (FEA). Proposed model I and proposed model II reduce the harmonics by 42% and 23%, respectively. By using continuous skew and discrete step-skew magnets, cogging torque is reduced up to 81.5% and 75%, respectively. This reduction in cogging torque reduces the noise and vibration in machines which assists the machines to perform a smooth operation. The reduction in output torque ripples in proposed model I is 60.8% while that of proposed model II is 59.3%. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Minimization of Torque Ripples in Multi-Stack Slotted Stator Axial-Flux Synchronous Machine by Modifying Magnet Shape.

Author

Mahmood, Zia, Ikram, Junaid, Badar, Rabiah, Bukhari, Syed Sabir Hussain, Ali Shah, Madad, Memon, Ali Asghar, and Huba, Mikulas

Subjects
TORQUE control, PERMANENT magnets, TORQUE, MAGNETS, STATORS, FINITE element method, GENETIC algorithms
Abstract

This paper presents a proposed model of a multi-stack slotted stator axial-flux type permanent magnet synchronous machine (AFPMSM) specifically for reducing torque ripple. The proposed AFPMSM model uses pentagon-shaped permanent magnets (PMs). It has a low value of cogging torque and torque ripples compared to the conventional model with a trapezoidal magnet shape. Additionally, it has increased internal generated voltage (Ef) as compared to the conventional model. To further enhance Ef phases and minimize cogging torque of the proposed model, the proposed AFPMSM model was optimized by varying different sides of PMs using a genetic algorithm (GA). A time-stepped three-dimensional (3D) finite element analysis (FEA) was performed for the comparative analysis of conventional, proposed, and optimized AFPMSM models. From this comparative performance analysis, it is observed that torque ripples and cogging torque of the optimized AFPMSM are significantly decreased, while output average torque is appreciably increased. Ef and output power are also enhanced. [ABSTRACT FROM AUTHOR]

Published
2022
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19. Novel Passive Islanding Detection Technique by Monitoring Reverse Power at PCC.

Author

Usman, Muhammad, Raza, Safdar, Munir, Hafiz Mudassir, Riaz, Mughees, Bukhari, Syed Sabir Hussain, and Ro, Jong-Suk

Subjects
POWER resources, SIGNAL processing, MICROGRIDS
Abstract

Power System of the age has included remarkable contribution of distributed energy resources (DERs). This inclusion has opened new era of research and studies. Islanding detection has become one of the important events in power system that is to be detected precisely. This study introduces a single-parameter-based passive technique for islanding detection which has zero nondetection zone without involvement of any signal processing tool. The proposed technique is tested for various islanding and nonislanding events. The simulation results prove that the suggested technique detects islanding event accurately and it is capable of distinguishing islanding and nonislanding events by an economical and simpler method. [ABSTRACT FROM AUTHOR]

Published
2022
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20. Experimental Determination of Equivalent Iron Loss Resistance for Prediction of Iron Losses in a Switched Reluctance Machine.

Author

Memon, Ali Asghar, Bukhari, Syed Sabir Hussain, and Ro, Jong-Suk

Subjects
*SWITCHED reluctance motors, *IRON, *MACHINERY, *RELUCTANCE motors, *FORECASTING
Abstract

Switched reluctance machine (SRM) has progressed as a suitable contender in the family of electrical machines for its high starting torque and better performance in different operating conditions. The need for accurate modeling of this machine is, therefore, dependent on the accurate determination of losses of which iron loss is exigent. This article aims to determine iron loss from the equivalent circuit parameters of the machine based on the input data tables that are directly obtained from the experiments carried out on an existing four-phase, bifilar wound SRM. The procedure and necessary steps for the loss separation method are well defined and supported by the theoretical and practical results. The experimental determination of the iron losses has been compared with the predicted results under the same operating conditions. [ABSTRACT FROM AUTHOR]

Published
2022
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21. Cost-Effective Scheme for a Brushless Wound Rotor Synchronous Machine.

Author

Sirewal, Ghulam Jawad and Bukhari, Syed Sabir Hussain

Subjects
BRUSHLESS electric motors, DIRECT currents, ELECTRIC potential measurement, AIR gap flux, FINITE element method
Abstract

This paper proposes a new scheme for a brushless wound rotor synchronous machine (WRSM) by generating an additional, two-pole component of magneto-motive force (MMF) with a series-connected additional three-phase winding with the armature three-phase winding. Unlike existing brushless excitation schemes, which use the inverter to inject harmonic currents in the stator windings, the proposed scheme uses series-connected additional winding on the stator with the armature winding in a two-pole configuration. Consequently, as the current flows in the armature winding, it creates a fundamental rotating air gap flux to interact with the field flux. At the same time, additional rotating flux is created from the additional three-phase winding, which cannot synchronize with the field winding. This additional flux can cause the induction of a voltage in a winding with exactly the same number of poles. For this purpose, a harmonic winding is installed in the rotor along with the field winding connected through a diode bridge rectifier, in order to feed the direct current (DC) to the field winding for rotor excitation without an input current from the brush-slip-ring assembly. The 2D finite-element analysis (FEA) was performed to validate the brushless operation of the proposed machine system. [ABSTRACT FROM AUTHOR]

Published
2021
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22. Islanding Detection Strategy for Wind Farm Based on Performance Analysis of Passive Indices Having Negligible NDZ.

Author

Shafique, Nouman, Raza, Safdar, Munir, Hafiz Mudassir, Bukhari, Syed Sabir Hussain, and Ro, Jong-Suk

Subjects
DISTRIBUTED power generation, SYSTEM integration, POWER resources, ALGORITHMS, TEST systems, WIND power plants, OFFSHORE wind power plants
Abstract

Distributed generation (DG) resources integration into power system results in environmental and economic benefits. However, technical challenges may create many problems for the distribution system. Islanding detection is the topmost technical perspective regarding distribution system protection. This paper devised a passive islanding detection strategy that employed voltage phase angle (VPA). The VPA is selected after the performance assessment of 6 passive indices. Comparative study proves that VPA has the best accuracy and sensitivity compared to other indices parameters. The proposed technique is employed on a generic system that easily distinguished islanding situations from non-islanding cases such as load increment, load decrement, capacitor energization, capacitor de-energization, motor starting, motor unloading and various types of faults switching scenarios. The protective method is simple and has a quick interpretation algorithm as compared to other existing methods. The study is carried out on IEEE 1547 general test system in MATLAB/SIMULINK environment. The proposed strategy has nearly zero non-detection zone. [ABSTRACT FROM AUTHOR]

Published
2021
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23. Brushless field‐excitation method for wound‐rotor synchronous machines.

Author

Bukhari, Syed Sabir Hussain, Ahmad, Hamza, Akhtar, Faheem, and Ro, Jong‐Suk

Subjects
*FINITE element method, *ELECTROMOTIVE force, *WINDING machines, *MACHINERY, *ELECTRIC power
Abstract

Summary: This paper proposes a simplified harmonic field‐excitation scheme for the brushless operation of wound‐rotor synchronous machines (WRSMs). The proposed scheme involves two inverters that are operating at different frequencies to provide an input current to the armature winding of the machine. One of these two inverters works at a frequency of 60 Hz and provides the regular three‐phase fundamental current, whereas the second inverter works at 180 Hz frequency to supply the single‐phase third‐harmonic to the common point of the start‐connected stator winding of the machine. The proposed method has the advantage that a conventional single‐phase inverter can be used for generating the third‐harmonic current which only needs to be operated at three times the frequency of the first inverter supplying the three‐phase fundamental current. The fundamental three‐phase current generates the main armature field, and the single‐phase third‐harmonic current produces a pulsating magnetomotive force, that induces electromotive force (EMF) in the harmonic winding of the rotor. The induced EMF is rectified to supply field current to the rotor and generates the rotor field. This field, when interacts with the main armature field, produces torque. The proposed brushless field‐excitation scheme for WRSMs is implemented in JMAG‐Designer version 19.1 using 2‐D finite element analysis to realize its operation and analyze its performance. [ABSTRACT FROM AUTHOR]

Published
2021
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24. A New Small-Scale Self-Excited Wound Rotor Synchronous Motor Topology.

Author

Bukhari, Syed Sabir Hussain, Sirewal, Ghulam Jawad, Ayub, Muhammad, and Ro, Jong-Suk

Subjects
*PERMANENT magnet motors, *BRUSHLESS direct current electric motors, *BRUSHLESS electric motors, *AIR gap flux, *SYNCHRONOUS electric motors, *TOPOLOGY, *ROTORS
Abstract

In this article, a new low-cost small-scale three-phase brushless motor topology is proposed. This is a new topology for self-excitation of brushless wound rotor synchronous motor investigated initially for rated speed. For brushless excitation, the stator is designed to contain two windings, namely, three-phase armature winding and exciter winding. The rotor consists of two windings, that is, harmonic winding and field winding, and a diode rectifier. An inverter feeds the three-phase armature winding which is connected in series through an uncontrolled three-phase rectifier to a single exciter winding. When the current is supplied from the inverter, both the armature and exciter windings are energized eventually producing a flux in the air gap. Since the flux produced by the exciter winding is not synchronized with the field winding, it produces a harmonic to be intercepted by the harmonic winding on the rotor. Eventually, the voltage produced in the harmonic winding is used to feed dc current to the field winding for brushless operation. The results obtained by 2-D finite-element analysis (FEA) validate the brushless operation of the motor. The proposed motor is analyzed basically for topology verification with the FEA results. Since the topology can be verified, further effort can be put to investigate such low-cost topologies for brushless wound rotor synchronous motor. It can be an alternative to a costly permanent magnet synchronous motor for specific applications. [ABSTRACT FROM AUTHOR]

Published
2021
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25. Real-Time Controller Design Test Bench for High-Voltage Direct Current Modular Multilevel Converters.

Author

Ali, Saddaqat, Badar, Jahangir, Akhter, Faheem, Bukhari, Syed Sabir Hussain, and Ro, Jong-Suk

Subjects
TEST design, REAL-time control, GATE array circuits, ALGORITHMS, SIMULATION software, REAL-time computing
Abstract

Modular multilevel converters (MMCs), with their inherent features and advantages over other conventional converters, have gained popularity and remain an ongoing topic of research. Many scholars have solved issues related to the operation, control, protection, and reliability of MMCs using simulation software and small hardware prototypes. We propose a novel approach for an MMC controller design with real-time systems. By utilizing a key benefit of LabVIEW Multisim co-simulation, an MMC control algorithm that can be deployed on a field-programmable gate array (FPGA) was developed in LabVIEW. The complete circuit was designed in Multisim, and a co-simulation was performed to drive an MMC model. The benefit of this topology is that control algorithms can be designed in a LabVIEW FPGA and tested with the Multisim co-simulation circuit to obtain simulation results. Once the controller works and provides satisfactory results, the same algorithm can be deployed in any NI (National Instruments) FPGA-based controller, like a compact remote input/output (RIO), to control real-time MMCs designed in an NI PCI eXtensions for Instrumentation (PXI) system. This method saves time and provides flexibility for effectively designing control algorithms and implementing them in an FPGA for real-time model implementation. [ABSTRACT FROM AUTHOR]

Published
2020
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26. Brushless Field Excitation Scheme for Wound Field Synchronous Machines.

Author

Bukhari, Syed Sabir Hussain, Sirewal, Ghulam Jawad, Chachar, Faheem Akhtar, and Ro, Jong-Suk

Subjects
FINITE element method, MACHINERY, ELECTRIC power, WOUNDS & injuries
Abstract

A new harmonic field excitation technique for the brushless operation of wound field synchronous machines (WFSMs) is proposed in this paper. The proposed scheme involves conventional three-phase and single-phase inverters operating at different frequencies and supply input current to the armature winding simultaneously. This results in a composite output current of the inverters, which contains fundamental as well as the third harmonic current components. The fundamental is utilized to develop the stator field, on the other hand, the third harmonic is used for developing the pulsating magnetomotive force (MMF) in the airgap. This MMF produces a harmonic current in the harmonic winding of the rotor which is later rectified to inject field current to the rotor field winding. The theoretical analysis of the proposed technique is supported using 2-D finite element analysis (FEA). [ABSTRACT FROM AUTHOR]

Published
2020
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27. An Online UPS System That Eliminates the Inrush Current Phenomenon While Feeding Multiple Load Transformers.

Author

Bukhari, Syed Sabir Hussain, Lipo, Thomas A., and Kwon, Byung-il

Subjects
*ELECTRIC transformers, *ELECTRIC current regulators, *UNINTERRUPTIBLE power supply, *VOLTAGE regulators, *ELECTRIC power
Abstract

Numerous industrial facilities involve the installation of load transformers with their respective loads. As these loads are engaged and disengaged, their transformers are also energized and de-energized, respectively. An inrush current, which typically occurs when a transformer is energized, can easily be observed for an online uninterruptible power supply (UPS) system feeding such loads. This paper proposes an online UPS system that eliminates the inrush current phenomenon caused by the switching-in of the load transformers. The UPS inverter specifically utilizes a fast acting current control scheme which enables it to regulate the load current during all energizing conditions of the load transformer connected to the UPS system. Experimental results are provided to validate the effectiveness of the proposed UPS system. [ABSTRACT FROM PUBLISHER]

Published
2017
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28. Line-interactive Uninterruptible Power Supply System Eliminating the Inrush Current Phenomenon.

Author

Bukhari, Syed Sabir Hussain, Atiq, Shahid, Lipo, Thomas A., and Kwon, Byung-il

Subjects
*UNINTERRUPTIBLE power supply, *POWER resources, *ELECTRIC transformers, *ELECTRICITY, *ELECTRIC power
Abstract

Numerous critical load applications rely upon a line-interactive uninterruptible power supply system to maintain power during outages as well as during under- and over-voltage utility conditions. When any disturbance occurs at the utility side, the line-interactive uninterruptible power supply system takes over the load within a few milliseconds to avoid interruption. However, during this transition of load, a significant inrush current occurs due to the magnetic saturation of the load transformer. The inrush current phenomenon causes reduced line voltages and sometimes activates the over-current protection of the uninterruptible power supply system. This article proposes a new line-interactive uninterruptible power supply system that eliminates the inrush current phenomenon by connecting a standard current-regulated voltage source inverter to the secondary of the load transformer. During any transient condition at the utility side, the load current is monitored and regulated to achieve a seamless compensation or transition of load. Experimental results are obtained for a prototype during a number of possible irregular utility power conditions to endorse the performance of the proposed uninterruptible power supply system. [ABSTRACT FROM PUBLISHER]

Published
2016
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29. Asymmetrical Fault Correction for the Sensitive Loads Using a Current Regulated Voltage Source Inverter.

Author

Bukhari, Syed Sabir Hussain, Atiq, Shahid, Lipo, Thomas A., and Kwon, Byung-il

Subjects
*ELECTRIC potential, *ELECTRIC inverters, *PROTOTYPES, *ENGINEERING design, *ENGINEERING models
Abstract

Numerous industrial applications involve loads that are very sensitive to electrical supply instabilities. These instances involve various types of voltage imbalances as well as more serious disturbances such as symmetrical and asymmetrical faults. This paper proposes a cost-effective voltage imbalance and asymmetrical fault correction solution for the three phase sensitive loads utilizing an industry-standard current regulated voltage source inverter by connecting it in parallel to the grid mains powering to the sensitive load. The inverter regulates the current for the load and never permits it to go beyond a prescribed value under any type of asymmetrical fault condition, which ensures high power regulating and conditioning capacities. Experimental results are obtained from a small laboratory size prototype to validate the operation of the proposed technique. [ABSTRACT FROM AUTHOR]

Published
2016
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32. Sustainable Solutions for Advanced Energy Management System of Campus Microgrids: Model Opportunities and Future Challenges.

Author

Muqeet, Hafiz Abdul, Javed, Haseeb, Akhter, Muhammad Naveed, Shahzad, Muhammad, Munir, Hafiz Mudassir, Nadeem, Muhammad Usama, Bukhari, Syed Sabir Hussain, and Huba, Mikulas

Abstract

Distributed generation connected with AC, DC, or hybrid loads and energy storage systems is known as a microgrid. Campus microgrids are an important load type. A university campus microgrids, usually, contains distributed generation resources, energy storage, and electric vehicles. The main aim of the microgrid is to provide sustainable, economical energy, and a reliable system. The advanced energy management system (AEMS) provides a smooth energy flow to the microgrid. Over the last few years, many studies were carried out to review various aspects such as energy sustainability, demand response strategies, control systems, energy management systems with different types of optimization techniques that are used to optimize the microgrid system. In this paper, a comprehensive review of the energy management system of campus microgrids is presented. In this survey, the existing literature review of different objective functions, renewable energy resources and solution tools are also reviewed. Furthermore, the research directions and related issues to be considered in future microgrid scheduling studies are also presented. [ABSTRACT FROM AUTHOR]

Published
2022
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34. Reconfigurable Power Quality Analyzer Applied to Hardware-in-Loop Test Bench.

Author

Badar, Jahangir, Ali, Saddaqat, Munir, Hafiz Mudassir, Bhan, Veer, Bukhari, Syed Sabir Hussain, and Ro, Jong-Suk

Subjects
RENEWABLE energy sources, FIELD programmable gate arrays, ELECTRIC power factor, PHASOR measurement
Abstract

Integration of renewable energy resources and conventional grids leads to an increase in power quality issues. These power quality issues require different standards to be followed for accurate measurement and monitoring of various parameters of the power system. Conventional power quality analyzers (PQAs) are programmed to a particular standard and cannot be reconfigured by the end user. Therefore, conventional PQAs cannot meet the challenges of a rapidly changing grid. In this regard, a Compact RIO-based (CRIO-based) PQA was proposed, that can be easily reprogrammed and cope with the challenges faced by conventional PQAs. The salient features of the proposed PQA are a high processing speed, interactive interface, and high-quality data-storage capacity. Moreover, unlike conventional PQAs, the proposed PQA can be monitored remotely via the internet. In this research, a hardware-in-loop (HIL) simulation is used for performing the power-quality assessment in a systematic manner. Power quality indices such as apparent power, power factor, harmonics, frequency disturbance, inrush current, voltage sag and voltage swell are considered for validating the performance of the proposed PQA against the Fluke's PQA 43-B. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Novel Single Inverter-Controlled Brushless Wound Field Synchronous Machine Topology.

Author

Bukhari, Syed Sabir Hussain, Memon, Ali Asghar, Madanzadeh, Sadjad, Sirewal, Ghulam Jawad, Doval-Gandoy, Jesús, and Ro, Jong-Suk

Subjects
*AIR gap flux, *TOPOLOGY, *ELECTRIC inverters, *IDEAL sources (Electric circuits), *MACHINERY, *BRUSHLESS electric motors
Abstract

This paper proposes a novel brushless excitation topology for a three-phase synchronous machine based on a customary current-controlled voltage source inverter (VSI). The inverter employs a simple hysteresis-controller-based current control scheme that enables it to inject a three-phase armature current to the stator winding which contains a dc offset. This dc offset generates an additional air gap magneto-motive force (MMF). On the rotor side, an additional harmonic winding is mounted to harness the harmonic power from the air gap flux. Since a third harmonic flux is generated in this type of topology, the machine structure is also modified to accommodate the third harmonic rotor winding to have a voltage induced as the rotor rotates at synchronous speed. Specifically, four-pole armature and field winding patterns are used, whereas the harmonic winding is configured for a twelve-pole pattern. A diode rectifier is also mounted on the rotor between the harmonic and field windings. Therefore, the generated voltage on the harmonic winding feeds the current to the field winding for excitation. A 2D-finite element analysis (FEA) in JMAG-Designer was carried out for performance evaluation and verification of the topology. The simulation results are consistent with the proposed theory. The topology could reduce the cost and stator winding volume compared to a conventional brushless machine, with good potential for various applications. [ABSTRACT FROM AUTHOR]

Published
2021
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36. High-Harmonic Injection-Based Brushless Wound Field Synchronous Machine Topology.

Author

Bukhari, Syed Sabir Hussain, Mangi, Fareed Hussain, Sami, Irfan, Ali, Qasim, and Ro, Jong-Suk

Subjects
*FINITE element method, *TOPOLOGY, *MACHINERY, *ARMATURES
Abstract

This paper discusses the design and analysis of a high-harmonic injection-based field excitation scheme for the brushless operation of wound field synchronous machines (WFSMs) in order to achieve a higher efficiency. The proposed scheme involves two inverters. One of these inverters provides the three-phase fundamental-harmonic current to the armature winding, whereas the second inverter injects the single-phase high-harmonic i.e., 6th harmonic current in this case, to the neutral-point of the Y-connected armature winding. The injection of the high-harmonic current in the armature winding develops the high-harmonic magnetomotive force (MMF) in the air gap of the machine beside the fundamental. The high-harmonic MMF induces the harmonic current in the excitation winding of the rotor, whereas the fundamental MMF develops the main armature field. The harmonic current is rectified to inject the direct current (DC) into the main rotor field winding. The main armature and rotor fields, when interacting with each other, produce torque. Finite element analysis (FEA) is carried out in order to develop a 4-pole 24-slot machine and investigate it using a 6th harmonic current injection for the rotor field excitation to both attain a brushless operation and analyze its electromagnetic performance. Later on, the performance of the proposed topology is compared with the typical brushless WFSM topology employing the 3rd harmonic current injection-based field excitation scheme. [ABSTRACT FROM AUTHOR]

Published
2021
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37. High-Efficient Brushless Wound Rotor Synchronous Machine Topology Based on Sub-Harmonic Field-Excitation Technique.

Author

Bukhari, Syed Sabir Hussain, Ali, Qasim, Doval-Gandoy, Jesús, and Ro, Jong-Suk

Subjects
*WINDING machines, *BRUSHLESS direct current electric motors, *FINITE element method, *TOPOLOGY, *ROTORS, *ELECTRIC power, *ARMATURES
Abstract

This paper presents a new high-efficient three-phase brushless wound rotor synchronous machine (BL-WRSM) based on a sub-harmonic field excitation technique. In the proposed machine topology, the stator is equipped with two different three-phase windings: (1) main armature winding, and (2) additional armature winding. The main armature winding is based on a 4-pole winding configuration, whereas the additional armature winding is based on a 2-pole winding configuration. Both windings are supplied current from two different inverters, i.e., inverter-1, inverter-2, and simultaneously. Inverter-1 provides the regular input current to the main armature winding, whereas inverter-2 provides a three-phase current of low magnitude to the 2-pole additional armature winding. This generates an additional sub-harmonic component of MMF in the airgap beside the fundamental MMF. On the other side, the rotor is equipped with (1) harmonic, and (2) field windings. These windings are electrically coupled via a rectifier. The fundamental component of MMF produces the main rotating magnetic field, whereas the sub-harmonic MMF gets induced in the harmonic winding to produce harmonic current. This current is rectified to give DC to the rotor field winding to attain brushless operation. To authenticate the operation and analyze its performance, the proposed BL-WRSM topology is supported using 2-D finite element analysis (FEA) in JMAG-Designer. Later on, the performance of the proposed brushless topology is compared with the customary BL-WRSM topology to verify its high efficiency, high output torque, low torque ripple, and low unbalanced radial force on the rotor. [ABSTRACT FROM AUTHOR]

Published
2021
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38. Analysis and Optimization of Axial Flux Permanent Magnet Machine for Cogging Torque Reduction.

Author

Usman, Hina, Ikram, Junaid, Alimgeer, Khurram Saleem, Yousuf, Muhammad, Bukhari, Syed Sabir Hussain, and Ro, Jong-Suk

Subjects
PERMANENT magnets, AIR gap flux, LATIN hypercube sampling, TORQUE, FINITE element method, FLUX (Energy)
Abstract

In this paper, a hexagonal magnet shape is proposed to have an arc profile capable of reducing torque ripples resulting from cogging torque in a single-sided axial flux permanent magnet (AFPM) machine. The arc-shaped permanent magnet increases the air-gap length effectively and makes the flux of the air-gap more sinusoidal, which decreases air-gap flux density and hence causes a reduction in cogging torque. Cogging torque is the basic source of vibration, along with the noise in PM machines, since it is the main cause of torque ripples. Cogging torque is independent of the load current and is proportional to the air-gap flux and the reluctance variation. Three-dimensional finite element analysis (FEA) is used in the JMAG-Designer to analyze the performance of the conventional and proposed hexagonal-shaped PM AFPM machines. The proposed shape is designed to reduce cogging torque, and the voltage remains the same as compared to the conventional hexagonal-shaped PM machine. Further, optimization is performed by utilizing an asymmetric overhang. Latin hypercube sampling (LHS) is used to create samples, the kriging method is applied to approximate the model, and a genetic algorithm is applied to obtain the optimum parameters of the machine. [ABSTRACT FROM AUTHOR]

Published
2021
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39. Adaptive Data Length Method for GPS Signal Acquisition in Weak to Strong Fading Conditions.

Author

Hussain, Arif, Ahmed, Arslan, Magsi, Hina, Soomro, Jahangeer Badar, Bukhari, Syed Sabir Hussain, and Ro, Jong-Suk

Subjects
GLOBAL Positioning System, FAST Fourier transforms, CELL phones, SIGNAL processing
Abstract

Satellite-based navigation is an essential part of all the technology-dependent applications, such as road transport, cell phones, the medical field, aviation or the shipping industry, etc. The performance of the navigation systems depends upon how quickly they can acquire and process the received signals for positioning solutions. However, in dense urban or indoor environments, signal acquisition can be a challenging task due to fading as a result of multipath and/or interference. This paper presents post-processing acquisition results on Global Positioning System (GPS) signals to study the relationship between data lengths used for signal acquisition and the achieved signal power using a Fast Fourier Transform (FFT)-based circular correlation method. Based on this study, the detection performance of the FFT-based method has also been analyzed by intentionally degrading the signal power levels. A new Adaptive Data length (ADL) method for acquisition has been proposed in this paper, which can be used for speeding up the acquisition process and uses adaptive data lengths rather than fixed data lengths. The ADL method works by estimating the threshold level based on the noise present in the signal and then comparing it with the signal power levels. Less difference between the threshold level and signal power level means less data length will be used while more difference means that more data length will be used for acquisition. The proposed algorithm can be used in commercially available receivers for adopting to an adaptive acquisition process for increased efficiency. [ABSTRACT FROM AUTHOR]

Published
2021
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40. Dual-Inverter-Controlled Brushless Operation of Wound Rotor Synchronous Machines Based on an Open-Winding Pattern.

Author

Bukhari, Syed Sabir Hussain, Sirewal, Ghulam Jawad, Chachar, Faheem Akhtar, and Ro, Jong-Suk

Subjects
*BRUSHLESS direct current electric motors, *ELECTRIC current rectifiers, *SYNCHRONOUS electric motors, *ELECTRIC inverters, *FINITE element method, *ROTORS, *ELECTRIC power, *MACHINERY
Abstract

In an open-winding machine, three-phase stator currents can be controlled such that the input armature currents may contain the third-harmonic current component in addition to the fundamental. Considering this attribute of open-winding patterns, a harmonic current field excitation technique for a wound rotor synchronous machine (WRSM) is proposed in this paper based on the control of time-harmonic magneto-motive force. Two inverters connected to both terminals of the stator winding are controlled so that the input armature current generates an additional third-harmonic current component. This third-harmonic component generates a vibrating magnetic field that induces a current in the specially designed rotor harmonic winding. The current is supplied as DC current to the rotor excitation winding to generate a rotor field by using a full-bridge diode rectifier in order to achieve brushless operation. The proposed dual-inverter-controlled brushless operation for a WRSM is executed in ANSYS Maxwell using 2-D finite element analysis to validate its operation and electromagnetic performance. [ABSTRACT FROM AUTHOR]

Published
2020
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41. Erratum to ?An Online UPS System That Eliminates the Inrush Current Phenomenon While Feeding Multiple Load Transformers?

Author

Bukhari, Syed Sabir Hussain, Lipo, Thomas A., and Kwon, Byung-Il

Subjects
*UNINTERRUPTIBLE power supply, *ELECTRIC currents
Abstract

Presents corrections to author names and affiliations in the paper, ?An online UPS system that eliminates the in rush current phenomenon while feeding multiple load transformer,? (Bukhari, S.S.H.),IEEE Trans. Ind. Appl., vol. 53, no. 2, pp. 1149?1156, Mar./Apr. 2017. [ABSTRACT FROM PUBLISHER]

Published
2017
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