This paper deals with investigation on non purely sinusoidal input supply analysis of line-start PMM using finite element analysis (FEA), in the present times a greater awareness is generated by the problems of harmonic voltages and currents produced by non-linear loads like the power electronic converters. These combine with non-linear nature of PMM core and produce severe distortions in voltages and currents and increase the power loss, additional copper losses due to harmonic currents, increased core losses, electromagnetic interference with communication circuits, efficiency reduction, increased in motors temperature and torque oscillations. In addition to the operation of PMM on the sinusoidal supplies, the harmonic behavior becomes important as the size and rating of the PMM increases. Thus the study of harmonics is of great practical significance in the operation of PMM.
International Refereed Journal of Engineering and Science (IRJES)irjes
a leading international journal for publication of new ideas, the state of the art research results and fundamental advances in all aspects of Engineering and Science. IRJES is a open access, peer reviewed international journal with a primary objective to provide the academic community and industry for the submission of half of original research and applications.
Bearingless Permanent Magnet Synchronous Motor using Independent ControlIJPEDS-IAES
Bearingless permanent magnet synchronous motor (BPMSM) combines the
characteristic of the conventional permanent magent synchronous motor and
magnetic bearing in one electric motor. BPMSM is a kind of high
performance motor due to having both advantages of PMSM and magnetic
bearing with simple structure, high efficiency, and reasonable cost. The
research on BPMSM is to design and analyse BPMSM by using Maxwell 2-
Dimensional of ANSYS Finite Element Method (FEM). Independent
suspension force model and bearingless PMSM model are developed by
using the method of suspension force. Then, the mathematical model of
electromagnetic torque and radial suspension force has been developed by
using Matlab/Simulink. The relation between force, current, distance and
other parameter are determined. This research covered the principle of
suspension force, the mathematical model, FEM analysis and digital control
system of bearingless PMSM. This kind of motor is widely used in high
speed application such as compressors, pumps and turbines.
Design and Experimental Verification of Linear Switched Reluctance Motor with...IAES-IJPEDS
This paper presents the realization and design of a linear switched reluctance motor (LSRM) with a new stator structure. One of the setbacks in the LSRM family is the presence of high force ripple leads to vibration and acoustic noise. The proposed structure provides a smooth force profile with reduced force ripple. Finite element analysis (FEA) is used to predict the force and other relevant parameters.A frequency spectrum analysis of the force profile using the fast Fourier transform (FFT) is presented.The FEA and experimental results of this paper prove that LSRMs are one of the strong candidates for linear propulsion drives.
Mathematical Model of Linear Switched Reluctance Motor with Mutual Inductance...IJPEDS-IAES
This paper presents developing an mathematical model for linear switched
reluctance motor (LSRM) with account of the mutual inductance between the
phases. Mutual interaction between the phases of LSRM gives the positive
effect, as a rule the power of the machine is increased by 5-15%.
A Novel Hybrid Approach for Stability Analysis of SMIB using GA and PSOINFOGAIN PUBLICATION
This document presents a hybrid approach for stability analysis of a single machine infinite bus system (SMIB) using a generic power system stabilizer (GPSS), proportional-integral-derivative (PID) controller, and genetic algorithm (GA) or particle swarm optimization (PSO). It first describes the mathematical models and equations for modeling an SMIB system. It then discusses GPSS and PID controllers for stabilizing an SMIB. A hybrid approach is proposed that uses both GPSS and PID to reduce spikes in the GPSS output. Simulation results show the rotor and phase angle deviations for different controllers, and compare the proposed hybrid GA and PSO approaches to other methods.
Permanent magnet flux switching machine (PMFSM) is a joint venture of switch reluctance machine (SRM) and permanent magnet synchronous machine (PMSM). It has become a prominent research topic for various applications because of robust rotor structure, high torque and power densities but few were developed for downhole applications mainly due to harsh environmental conditions. Formerly, most of developed PMFSMs for downhole applications were mainly concentrated on inner-rotor type design, and difficult to find research work on outer-rotor configuration. Therefore, this paper introduces the design and investigation of PMFSM with outer-rotor configuration for downhole application. Primarily, the geometric topology of proposed design is described in detail. Then, the no load and load analysis are implemented in order to investigate the initial performance of the proposed design.
Simulation of 3 Phase to 3 Phase Power Conversion Using Matrix Converter with...IJERA Editor
This paper proposes a new approach of design and implementation of 3 phase to 3 phase conversion using
matrix converter. It includes the design, modeling and implementation. The entire matrix converter circuits are
developed by mathematical model so as to reduce computational time and performances of the converter are
evaluated using MATLAB/SIMULINK for RL Load. The mathematical expressions relating the input and
output of the three phase matrix converter are implemented by using simulink block set. The duty cycles of the
matrix converter bidirectional switches are calculated using modified venturini algorithm for maximum (0.866)
and minimum (0.5) voltage transfer ratio.
Multiphase Transformer Modelling using Finite Element MethodIAES-IJPEDS
In the year of 1970 saw the starting invention of the five-phase motor as the milestone in advanced electric motor. Through the years, there are many researchers, which passionately worked towards developing for multiphase drive system. They developed a static transformation system to obtain a multiphase supply from the available three-phase supply. This idea gives an influence for further development in electric machines as an example; an efficient solution for bulk power transfer. This paper highlighted the detail descriptions that lead to five-phase supply with fixed voltage and frequency by using Finite-Element Method (FEM). Identifying of specification on a real transformer had been done before applied into software modeling. Therefore, Finite-Element Method provides clearly understandable in terms of visualize the geometry modeling, connection scheme and output waveform.
International Refereed Journal of Engineering and Science (IRJES)irjes
a leading international journal for publication of new ideas, the state of the art research results and fundamental advances in all aspects of Engineering and Science. IRJES is a open access, peer reviewed international journal with a primary objective to provide the academic community and industry for the submission of half of original research and applications.
Bearingless Permanent Magnet Synchronous Motor using Independent ControlIJPEDS-IAES
Bearingless permanent magnet synchronous motor (BPMSM) combines the
characteristic of the conventional permanent magent synchronous motor and
magnetic bearing in one electric motor. BPMSM is a kind of high
performance motor due to having both advantages of PMSM and magnetic
bearing with simple structure, high efficiency, and reasonable cost. The
research on BPMSM is to design and analyse BPMSM by using Maxwell 2-
Dimensional of ANSYS Finite Element Method (FEM). Independent
suspension force model and bearingless PMSM model are developed by
using the method of suspension force. Then, the mathematical model of
electromagnetic torque and radial suspension force has been developed by
using Matlab/Simulink. The relation between force, current, distance and
other parameter are determined. This research covered the principle of
suspension force, the mathematical model, FEM analysis and digital control
system of bearingless PMSM. This kind of motor is widely used in high
speed application such as compressors, pumps and turbines.
Design and Experimental Verification of Linear Switched Reluctance Motor with...IAES-IJPEDS
This paper presents the realization and design of a linear switched reluctance motor (LSRM) with a new stator structure. One of the setbacks in the LSRM family is the presence of high force ripple leads to vibration and acoustic noise. The proposed structure provides a smooth force profile with reduced force ripple. Finite element analysis (FEA) is used to predict the force and other relevant parameters.A frequency spectrum analysis of the force profile using the fast Fourier transform (FFT) is presented.The FEA and experimental results of this paper prove that LSRMs are one of the strong candidates for linear propulsion drives.
Mathematical Model of Linear Switched Reluctance Motor with Mutual Inductance...IJPEDS-IAES
This paper presents developing an mathematical model for linear switched
reluctance motor (LSRM) with account of the mutual inductance between the
phases. Mutual interaction between the phases of LSRM gives the positive
effect, as a rule the power of the machine is increased by 5-15%.
A Novel Hybrid Approach for Stability Analysis of SMIB using GA and PSOINFOGAIN PUBLICATION
This document presents a hybrid approach for stability analysis of a single machine infinite bus system (SMIB) using a generic power system stabilizer (GPSS), proportional-integral-derivative (PID) controller, and genetic algorithm (GA) or particle swarm optimization (PSO). It first describes the mathematical models and equations for modeling an SMIB system. It then discusses GPSS and PID controllers for stabilizing an SMIB. A hybrid approach is proposed that uses both GPSS and PID to reduce spikes in the GPSS output. Simulation results show the rotor and phase angle deviations for different controllers, and compare the proposed hybrid GA and PSO approaches to other methods.
Permanent magnet flux switching machine (PMFSM) is a joint venture of switch reluctance machine (SRM) and permanent magnet synchronous machine (PMSM). It has become a prominent research topic for various applications because of robust rotor structure, high torque and power densities but few were developed for downhole applications mainly due to harsh environmental conditions. Formerly, most of developed PMFSMs for downhole applications were mainly concentrated on inner-rotor type design, and difficult to find research work on outer-rotor configuration. Therefore, this paper introduces the design and investigation of PMFSM with outer-rotor configuration for downhole application. Primarily, the geometric topology of proposed design is described in detail. Then, the no load and load analysis are implemented in order to investigate the initial performance of the proposed design.
Simulation of 3 Phase to 3 Phase Power Conversion Using Matrix Converter with...IJERA Editor
This paper proposes a new approach of design and implementation of 3 phase to 3 phase conversion using
matrix converter. It includes the design, modeling and implementation. The entire matrix converter circuits are
developed by mathematical model so as to reduce computational time and performances of the converter are
evaluated using MATLAB/SIMULINK for RL Load. The mathematical expressions relating the input and
output of the three phase matrix converter are implemented by using simulink block set. The duty cycles of the
matrix converter bidirectional switches are calculated using modified venturini algorithm for maximum (0.866)
and minimum (0.5) voltage transfer ratio.
Multiphase Transformer Modelling using Finite Element MethodIAES-IJPEDS
In the year of 1970 saw the starting invention of the five-phase motor as the milestone in advanced electric motor. Through the years, there are many researchers, which passionately worked towards developing for multiphase drive system. They developed a static transformation system to obtain a multiphase supply from the available three-phase supply. This idea gives an influence for further development in electric machines as an example; an efficient solution for bulk power transfer. This paper highlighted the detail descriptions that lead to five-phase supply with fixed voltage and frequency by using Finite-Element Method (FEM). Identifying of specification on a real transformer had been done before applied into software modeling. Therefore, Finite-Element Method provides clearly understandable in terms of visualize the geometry modeling, connection scheme and output waveform.
The paper proposes a complete modeling and control technique of variable speed wind turbine system (WTS) based on the doubly fed induction generator (DFIG). Two levels back-to-back converter is used to ensure the energy transfer between the DFIG rotor and the grid. The wind turbine to operate efficiently, a maximum power point tracking (MPPT) algorithm is implemented. Then, direct power control (DPC) strategy has been combined with the MPPT technique in order to guarantee the selection of the appropriate rotor voltage vectors and to minimize the active and reactive power errors. Finally, the simulation is performed by using MATLAB/simulink platform basing on 7.5KW DFIG wind generation system, and the results prove the effectiveness of our proposed control technique.
Ring Spinning - flexible shaft couplings for energy management - POLAND 2016Debashish Banerjee
The document discusses ring spinning shaft engineering and proposes using flexible rubber couplings to improve energy management. Flexible couplings absorb kinetic energy from angular deflection in the shafts, minimizing transmission speed losses. This allows spindle speeds over 20,000 rpm with 45% lower energy consumption. Flexible couplings compensate for shaft torsion at coupling points by creating a mirror image of shaft displacement. This lowers the amplitude of shaft distortion and reduces entropy in the system, improving energy efficiency.
Support at the choice of solutions to the phase of preliminary design basedIAEME Publication
This document discusses using reliability analysis to help designers choose between direct-drive and geared-drive wind turbine concepts during preliminary design. It proposes:
1) Modeling the reliability of both concepts using Markov modeling by decomposing the systems into detailed components and defining failure and repair rates.
2) Qualifying the overall reliability models based on an assessment criterion like total cost that relates to the user needs driving the design.
3) Providing designers a tool to compare the concepts from a reliability perspective to inform preliminary design decisions. Vestas and Enercon wind turbines are used as examples for the geared and direct-drive technologies.
Polarization insensitive switchable metamaterial absorber/reflector for X-ban...journalBEEI
A unit cell of squared shaped polarization-insensitive switchable metamaterial absorber/reflector is presented. The structure operates at 10.20 GHz under both absorber mode and reflector mode configurations. Copper wire bridging the gaps to form a circular shape structure were used as switches for operation mode selections. The structure was designed on an FR4 substrate, and the incidental wave angles were varied from 0 to 50 degrees. The structure demonstrated almost 100% absorption at resonance, 3.314 GHz percentage bandwidth at 80% as an absorber. On the other hand, as reflector, it demonstrated almost a 90% reflection and a usable bandwidth of 3.327 GHz.
In this work, we are interested in improving the performance of a doubly-fed induction generator (DFIG)-based wind system, by applying a sliding mode control strategy. The objective is the regulation of the active and reactive power, also the voltage and the frequency of the signal injected into the distribution network. The model proposed for the control is based on the sliding mode technique with performance estimators. The proposed model was validated by a simulation on MATLAB/Simulink.
This document describes the design of a wind power generation system using a permanent magnet synchronous machine, boost regulator, and transformer-less step down circuit. The system consists of a wind turbine connected to a permanent magnet synchronous generator. The output is rectified and boosted to the desired voltage level. An H-bridge inverter then converts the DC to AC. A novel control method uses both sinusoidal pulse width modulation and a square wave to reduce switching losses. Simulation results show this transformer-less design reduces harmonics to less than 0.1%.
Generally, the Permanent Magnet Tubular Generators (PMTG) are employed in the free-piston generator systems. In this paper, the PMTG with the core made of Soft Magnetic Composite (SMC) is employed, and then, the PMTG with the solid SMC core has cylindrical symmetry and also the outer diameter of the machine reduces in comparison to the ones with multipart laminated steel cores in which each part is radially placed along the air-gap and there is unexploited space between them. Here, a Finite Element Method (FEM) is developed in which the reciprocating motion of the translator is considered by moving mesh techniques and moreover, the Jiles-Atherton (JA) scalar hysteresis model is incorporated in the FE model to take into account the hysteresis losses. Then, the copper and core losses are computed and the equivalent circuit of the generator is derived. The calculated losses are compared with the ones obtained from the analytical methods.
Design of Two Two-Way Out-of-Phase Slotline Power Divider in C-BandIJTET Journal
Abstract— Power divider is one of the major components of radio frequency circuits. In this paper two two-way out-of-phase slotline power dividers designed was presented in a microstrip platform. The power dividing circuit, low profile is designed at compact size structure. To provide better isolation at the two output ports microstripline is bent and a slotline is provided. The design is simulated using ADS, results substantiate low insertion loss, better isolation and amplitude balancing at the output ports.
Recently there is growing interest in a new technol
ogy, substrate integrated waveguide (SIW), it
has been applied successfully to the conception of
planar compact components for the
microwave and millimeter waves applications. In thi
s study, a V-band substrate integrated
waveguide power divider, circulator and coupler are
conceived and optimized by Ansoft HFSS
code. Thus, through this modeling, design considera
tions and results are discussed and
presented. Attractive features including compact si
ze and planar form make these devices
structure easily integrated in planar circuits.
A direct torque control using a classical switching- table ST-DTC can be used to control the torque and thus the speed of Dual Three-Phase Permanent Magnet Synchronous Motor (DTP-PMSM). The principle is based on direct application of control sequence by using two hysteresis regulators and a switching table. A large stator current containing low order harmonics is produced during the application of the classic ST-DTC technique, this leads to higher losses affecting the efficiency of the machine. To allow a reduction of these harmonics a modified switching-table approach based DTC technique is examined. Indeed, an improved ST-DTC strategy, which consist of replacing the vectors of the classical table with synthetic vectors, is discussed. The simulation results confirm the validity of the selected strategy.
In this paper VLSI design have been introduce decrease the area and power CMOS 90 nm technology is used for designing nor gate. The power consumption and area of nor gate compared in this paper. The proposed design reduces the power consumption and area. The nor gate reduces power consumption by 46% and area by 67% .two design flow are implement, fully automatic and semicustom .the semicustom design better than fully automatic because in this design flow modification is done to minimize the power and area.
This document summarizes a study that models and implements a closed loop PI controller for a 3 phase to 3 phase power conversion using a matrix converter. The key points are:
1) A mathematical model of the 3 phase matrix converter circuit is developed in MATLAB/Simulink to achieve less computational time and evaluate the performance of the PI controller.
2) The PI controller is used to achieve real-time control of the 3 phase to 3 phase matrix converter.
3) Duty cycles of the bidirectional switches in the matrix converter are calculated using a modified Venturini algorithm to achieve maximum voltage transfer ratios.
The given paper presents a hybrid electromagnetic suspension designed for high-speed vacuum transport, where the main levitation force is generated by permanent magnets, while the electromagnet controls the air gap. The computer model is designed by means of MATLAB/Simulink software package, which allows us to simulate the dynamic operational modes of the system. The calculated studies are carried out when the vehicle accelerating to 1000 km/h with account of track irregularities. Permanent magnets incorporated in the system of electromagnetic suspension make it possible to reduce the energy consumption needed for levitation force generation.
IRJET - Comparison of Different Third Harmonic Injected PWM Strategies for 5-...IRJET Journal
This document compares three third harmonic injected PWM strategies for controlling a 5-level diode clamped inverter: THI-IPD, THI-APOD, and THI-POD. It discusses the inverter topology, describes how a third harmonic is added to the reference signal to increase the fundamental component, and outlines the three modulation strategies. Simulation and experimental results are presented to compare the performance of the strategies in terms of output voltage quality.
This paper aims to implement a new contribution for sliding mode control (SMC) of permanent magnet synchronous generator (PMSG) for wind systems conversion with track the maximum power point tracking (MPPT) power. The SMC is a very popular approach due to its robustness in dealing with the non-linear electrical power systems. In this work, the application of the SMC control is by using the non lineare model of the PMSG. The objective of this work is to control stator active and stator reactive power, and the voltage-frequency for a better injection into the network. The results obtained show better robustness.
A Novel 4WD Permanent Magnet Synchronous Motor for an Electrical Vehicle Cont...IRJET Journal
This document presents a novel 4WD permanent magnet synchronous motor control strategy for an electric vehicle based on direct torque control space vector modulation techniques. The control strategy uses DTC-SVM to independently control each of the four in-wheel motors. MATLAB/Simulink simulations were conducted to analyze the performance of the proposed controller under different speeds and topologies. The results show that the DTC-SVM controller has better dynamic performance than traditional DTC, with reduced torque and flux ripple. The control strategy could be successfully implemented in the traction drive of modern 4WD electric vehicles.
The two five-phase Induction Motor (IM) drive system that is serially connected is available in literature. The power supply of such system is considered as a matrix converter (a direct AC to AC converter system) by three and five-phases outputs. The main benefit from the drive topology is the sinusoidal source as a side current with a controllable input side power factor. The decoupled control is achieved similarly to the inverter based drive system. In this paper; the decoupled control of two five-phase induction machines serially connected and powered by a five-phase matrix converter as well as analytical and simulation results are presented.
Simulation and Analysis of Modified DTC of PMSMIJECEIAES
This research paper describes the simulation and analysis of the modified DTC for Surface mounted Permanent Magnet Synchronous Motor (SPMSM) using PI controller. Among all of the various drive systems,PMSM is widely used for accurate speed and torque control, with greater efficiency, superior torque to inertia and high power density.The Conventional DTC secheme widely used for this purpose but it is failed to achieve desirable performance of the system for which the modified DTC secheme is propsed.The modified DTC algorithm controls the voltage vectors, directly from a simple look up table depending on outcome of the torque and indirectly flux controllers.The overall drive system can be implemented in SIMULINK/MATLAB environment.The modified DTC is validated with loading conditions.The simulated results are focused on the speed, settling time at loaded conditions, torque and flux linkages ripple and THD in the phase current for modified DTC applied to SPMSM.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology.
This document summarizes research on a device design for vertically coupling an active waveguide and a passive waveguide. It describes using a tapered transition region to efficiently transfer power between the waveguides. Beam propagation method simulations show over 200% increased power output when using a three waveguide structure with an intermediate waveguide, compared to a two waveguide structure. Future work will involve testing a proposed pinip doping structure and fabricating a prototype device.
This document summarizes the design, control, and testing of a flux switching permanent magnet machine that uses non-rare earth magnets. Key points include:
1) A 12/10 segmented stator FSPM machine was designed using finite element analysis to minimize cogging torque, noise, and vibration through pole shaping techniques.
2) A nonlinear model accounting for saturation and mutual coupling was developed to identify machine parameters for vector control.
3) Experimental results validated the control performance matches simulations, with torque ripple minimized to 5% and noise reduced by 7-8 dB at rated speed.
4) A 500W prototype was built and tested using the controller, showing good agreement between simulated and experimental
This document discusses multiphysics modeling and simulation of induction machines using various software packages. It describes ANSYS, Flux2D/Flux-Portunus co-simulation, Motor-CAD co-simulation with SpeedLab, and Maxwell co-simulation with Ephysics software. It focuses on Maxwell software for finite element analysis modeling of an induction machine and presents simulation results for magnetic field, speed, torque, and losses using Maxwell. The results are then commented on.
The paper proposes a complete modeling and control technique of variable speed wind turbine system (WTS) based on the doubly fed induction generator (DFIG). Two levels back-to-back converter is used to ensure the energy transfer between the DFIG rotor and the grid. The wind turbine to operate efficiently, a maximum power point tracking (MPPT) algorithm is implemented. Then, direct power control (DPC) strategy has been combined with the MPPT technique in order to guarantee the selection of the appropriate rotor voltage vectors and to minimize the active and reactive power errors. Finally, the simulation is performed by using MATLAB/simulink platform basing on 7.5KW DFIG wind generation system, and the results prove the effectiveness of our proposed control technique.
Ring Spinning - flexible shaft couplings for energy management - POLAND 2016Debashish Banerjee
The document discusses ring spinning shaft engineering and proposes using flexible rubber couplings to improve energy management. Flexible couplings absorb kinetic energy from angular deflection in the shafts, minimizing transmission speed losses. This allows spindle speeds over 20,000 rpm with 45% lower energy consumption. Flexible couplings compensate for shaft torsion at coupling points by creating a mirror image of shaft displacement. This lowers the amplitude of shaft distortion and reduces entropy in the system, improving energy efficiency.
Support at the choice of solutions to the phase of preliminary design basedIAEME Publication
This document discusses using reliability analysis to help designers choose between direct-drive and geared-drive wind turbine concepts during preliminary design. It proposes:
1) Modeling the reliability of both concepts using Markov modeling by decomposing the systems into detailed components and defining failure and repair rates.
2) Qualifying the overall reliability models based on an assessment criterion like total cost that relates to the user needs driving the design.
3) Providing designers a tool to compare the concepts from a reliability perspective to inform preliminary design decisions. Vestas and Enercon wind turbines are used as examples for the geared and direct-drive technologies.
Polarization insensitive switchable metamaterial absorber/reflector for X-ban...journalBEEI
A unit cell of squared shaped polarization-insensitive switchable metamaterial absorber/reflector is presented. The structure operates at 10.20 GHz under both absorber mode and reflector mode configurations. Copper wire bridging the gaps to form a circular shape structure were used as switches for operation mode selections. The structure was designed on an FR4 substrate, and the incidental wave angles were varied from 0 to 50 degrees. The structure demonstrated almost 100% absorption at resonance, 3.314 GHz percentage bandwidth at 80% as an absorber. On the other hand, as reflector, it demonstrated almost a 90% reflection and a usable bandwidth of 3.327 GHz.
In this work, we are interested in improving the performance of a doubly-fed induction generator (DFIG)-based wind system, by applying a sliding mode control strategy. The objective is the regulation of the active and reactive power, also the voltage and the frequency of the signal injected into the distribution network. The model proposed for the control is based on the sliding mode technique with performance estimators. The proposed model was validated by a simulation on MATLAB/Simulink.
This document describes the design of a wind power generation system using a permanent magnet synchronous machine, boost regulator, and transformer-less step down circuit. The system consists of a wind turbine connected to a permanent magnet synchronous generator. The output is rectified and boosted to the desired voltage level. An H-bridge inverter then converts the DC to AC. A novel control method uses both sinusoidal pulse width modulation and a square wave to reduce switching losses. Simulation results show this transformer-less design reduces harmonics to less than 0.1%.
Generally, the Permanent Magnet Tubular Generators (PMTG) are employed in the free-piston generator systems. In this paper, the PMTG with the core made of Soft Magnetic Composite (SMC) is employed, and then, the PMTG with the solid SMC core has cylindrical symmetry and also the outer diameter of the machine reduces in comparison to the ones with multipart laminated steel cores in which each part is radially placed along the air-gap and there is unexploited space between them. Here, a Finite Element Method (FEM) is developed in which the reciprocating motion of the translator is considered by moving mesh techniques and moreover, the Jiles-Atherton (JA) scalar hysteresis model is incorporated in the FE model to take into account the hysteresis losses. Then, the copper and core losses are computed and the equivalent circuit of the generator is derived. The calculated losses are compared with the ones obtained from the analytical methods.
Design of Two Two-Way Out-of-Phase Slotline Power Divider in C-BandIJTET Journal
Abstract— Power divider is one of the major components of radio frequency circuits. In this paper two two-way out-of-phase slotline power dividers designed was presented in a microstrip platform. The power dividing circuit, low profile is designed at compact size structure. To provide better isolation at the two output ports microstripline is bent and a slotline is provided. The design is simulated using ADS, results substantiate low insertion loss, better isolation and amplitude balancing at the output ports.
Recently there is growing interest in a new technol
ogy, substrate integrated waveguide (SIW), it
has been applied successfully to the conception of
planar compact components for the
microwave and millimeter waves applications. In thi
s study, a V-band substrate integrated
waveguide power divider, circulator and coupler are
conceived and optimized by Ansoft HFSS
code. Thus, through this modeling, design considera
tions and results are discussed and
presented. Attractive features including compact si
ze and planar form make these devices
structure easily integrated in planar circuits.
A direct torque control using a classical switching- table ST-DTC can be used to control the torque and thus the speed of Dual Three-Phase Permanent Magnet Synchronous Motor (DTP-PMSM). The principle is based on direct application of control sequence by using two hysteresis regulators and a switching table. A large stator current containing low order harmonics is produced during the application of the classic ST-DTC technique, this leads to higher losses affecting the efficiency of the machine. To allow a reduction of these harmonics a modified switching-table approach based DTC technique is examined. Indeed, an improved ST-DTC strategy, which consist of replacing the vectors of the classical table with synthetic vectors, is discussed. The simulation results confirm the validity of the selected strategy.
In this paper VLSI design have been introduce decrease the area and power CMOS 90 nm technology is used for designing nor gate. The power consumption and area of nor gate compared in this paper. The proposed design reduces the power consumption and area. The nor gate reduces power consumption by 46% and area by 67% .two design flow are implement, fully automatic and semicustom .the semicustom design better than fully automatic because in this design flow modification is done to minimize the power and area.
This document summarizes a study that models and implements a closed loop PI controller for a 3 phase to 3 phase power conversion using a matrix converter. The key points are:
1) A mathematical model of the 3 phase matrix converter circuit is developed in MATLAB/Simulink to achieve less computational time and evaluate the performance of the PI controller.
2) The PI controller is used to achieve real-time control of the 3 phase to 3 phase matrix converter.
3) Duty cycles of the bidirectional switches in the matrix converter are calculated using a modified Venturini algorithm to achieve maximum voltage transfer ratios.
The given paper presents a hybrid electromagnetic suspension designed for high-speed vacuum transport, where the main levitation force is generated by permanent magnets, while the electromagnet controls the air gap. The computer model is designed by means of MATLAB/Simulink software package, which allows us to simulate the dynamic operational modes of the system. The calculated studies are carried out when the vehicle accelerating to 1000 km/h with account of track irregularities. Permanent magnets incorporated in the system of electromagnetic suspension make it possible to reduce the energy consumption needed for levitation force generation.
IRJET - Comparison of Different Third Harmonic Injected PWM Strategies for 5-...IRJET Journal
This document compares three third harmonic injected PWM strategies for controlling a 5-level diode clamped inverter: THI-IPD, THI-APOD, and THI-POD. It discusses the inverter topology, describes how a third harmonic is added to the reference signal to increase the fundamental component, and outlines the three modulation strategies. Simulation and experimental results are presented to compare the performance of the strategies in terms of output voltage quality.
This paper aims to implement a new contribution for sliding mode control (SMC) of permanent magnet synchronous generator (PMSG) for wind systems conversion with track the maximum power point tracking (MPPT) power. The SMC is a very popular approach due to its robustness in dealing with the non-linear electrical power systems. In this work, the application of the SMC control is by using the non lineare model of the PMSG. The objective of this work is to control stator active and stator reactive power, and the voltage-frequency for a better injection into the network. The results obtained show better robustness.
A Novel 4WD Permanent Magnet Synchronous Motor for an Electrical Vehicle Cont...IRJET Journal
This document presents a novel 4WD permanent magnet synchronous motor control strategy for an electric vehicle based on direct torque control space vector modulation techniques. The control strategy uses DTC-SVM to independently control each of the four in-wheel motors. MATLAB/Simulink simulations were conducted to analyze the performance of the proposed controller under different speeds and topologies. The results show that the DTC-SVM controller has better dynamic performance than traditional DTC, with reduced torque and flux ripple. The control strategy could be successfully implemented in the traction drive of modern 4WD electric vehicles.
The two five-phase Induction Motor (IM) drive system that is serially connected is available in literature. The power supply of such system is considered as a matrix converter (a direct AC to AC converter system) by three and five-phases outputs. The main benefit from the drive topology is the sinusoidal source as a side current with a controllable input side power factor. The decoupled control is achieved similarly to the inverter based drive system. In this paper; the decoupled control of two five-phase induction machines serially connected and powered by a five-phase matrix converter as well as analytical and simulation results are presented.
Simulation and Analysis of Modified DTC of PMSMIJECEIAES
This research paper describes the simulation and analysis of the modified DTC for Surface mounted Permanent Magnet Synchronous Motor (SPMSM) using PI controller. Among all of the various drive systems,PMSM is widely used for accurate speed and torque control, with greater efficiency, superior torque to inertia and high power density.The Conventional DTC secheme widely used for this purpose but it is failed to achieve desirable performance of the system for which the modified DTC secheme is propsed.The modified DTC algorithm controls the voltage vectors, directly from a simple look up table depending on outcome of the torque and indirectly flux controllers.The overall drive system can be implemented in SIMULINK/MATLAB environment.The modified DTC is validated with loading conditions.The simulated results are focused on the speed, settling time at loaded conditions, torque and flux linkages ripple and THD in the phase current for modified DTC applied to SPMSM.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology.
This document summarizes research on a device design for vertically coupling an active waveguide and a passive waveguide. It describes using a tapered transition region to efficiently transfer power between the waveguides. Beam propagation method simulations show over 200% increased power output when using a three waveguide structure with an intermediate waveguide, compared to a two waveguide structure. Future work will involve testing a proposed pinip doping structure and fabricating a prototype device.
This document summarizes the design, control, and testing of a flux switching permanent magnet machine that uses non-rare earth magnets. Key points include:
1) A 12/10 segmented stator FSPM machine was designed using finite element analysis to minimize cogging torque, noise, and vibration through pole shaping techniques.
2) A nonlinear model accounting for saturation and mutual coupling was developed to identify machine parameters for vector control.
3) Experimental results validated the control performance matches simulations, with torque ripple minimized to 5% and noise reduced by 7-8 dB at rated speed.
4) A 500W prototype was built and tested using the controller, showing good agreement between simulated and experimental
This document discusses multiphysics modeling and simulation of induction machines using various software packages. It describes ANSYS, Flux2D/Flux-Portunus co-simulation, Motor-CAD co-simulation with SpeedLab, and Maxwell co-simulation with Ephysics software. It focuses on Maxwell software for finite element analysis modeling of an induction machine and presents simulation results for magnetic field, speed, torque, and losses using Maxwell. The results are then commented on.
The group worked on reproducing a life-sized pocket bike using CAD software. Each member created various parts and assemblies. Dimos created 15 parts including the frame and engine block. Chris created 10 parts like the impeller and front forks assembly. Vinicius created 30 parts and 4 assemblies such as the wheel assembly. Nathan created 23 parts and 5 assemblies, modeling the complex chain assembly with over 400 kinematic elements. The group overcame challenges in part fitting and measurements. Overall, the project provided an opportunity for the members to develop new CAD skills while applying knowledge from class and collaborating as a team.
ElectroMagneticWorks Inc. (EMW) is a electronic design automation (EDA) company. EMW focuses on the development, marketing and support of Computer Aided Engineering (CAE) and Computer Aided Design (CAD) tools based on electromagnetic principles and phenomena. With products covering frequencies ranging from DC to millimeter waves, EMW aims to meet the needs of its clients with the highest quality products.
EMW has a long track record of successful collaboration with SolidWorks Corporation and its analysis division COSMOSM. Today, EMW is the only company offering a complete electromagnetic analysis software suite that is fully embedded in SolidWorks. EMW\'s products meet SolidWorks\'s highest quality standards and are certified Gold products by SolidWorks.
Study of Permanent Magnent Synchronous MacnineRajeev Kumar
With respect of designing a PMSG, the permanent magnetic pole lies on the rotor and armature winding are in the inner part of stator that is electrically connected to the load. Armature winding consists of the set of three conductors which has phase difference 120 derg apart to each other and providing a uniform force or torque on the generator’s rotor. To operate PMGS, it is connected to wind turbine through a shaft without gear box and rotate at slow speed. This uniform torque produced by the resultant magnetic flux which induces current in the armature winding. The stator magnetic field combined spatially with rotor magnetic flux and rotates as the same speed of the rotor. So the two magnetic fields synchronously rotate in PGSM to maintain the relative motion of rotor and stator.
Thus the permanent magnets rotates at constant speed without any DC excitation system, which means it has not required any slip rings and contact brushes to make it more reliability or efficient.
This document summarizes brushless DC motors (BLDCM). It describes that BLDCMs have permanent magnets on the rotor and electronically-controlled windings on the stator. Hall sensors detect rotor position for electronic commutation of the winding currents. BLDCMs have advantages over brushed DC motors like higher efficiency, longer lifetime, and less noise, making them suitable for a wide range of applications from small devices to large industrial systems. The document provides details on the construction, working principle, speed-torque characteristics, and pros and cons of BLDCMs.
BLDC motors have evolved from conventional DC motors to permanent magnet DC motors to brushless permanent magnet DC motors. A BLDC motor consists of a stator and a rotor, with the rotor containing permanent magnets and the stator containing coil windings. BLDCs improve reliability and efficiency over brushed DC motors by replacing the brush and commutator assembly with electronic commutation, which controls the sequence of energizing the stator windings. This electronic control allows BLDCs to have higher speed and torque characteristics than conventional DC motors.
In recent years, Permanent Magnet Synchronous Machines (PMSMs) are increasing
applied in several areas such as generation, traction, automobiles, robotics and aerospace
technology. Basically PMSG topology has been beneficial for slow speed and variable speed
operation and steady state output power produced in operation. PMSG is a part of
synchronous machine family, so its construction features almost equivalent to synchronous
machine.
With respect of designing a PMSG, the permanent magnetic pole lies on the rotor and
armature winding are in the inner part of stator that is electrically connected to the load.
Armature winding consists of the set of three conductors which has phase difference 1200
apart to each other and providing a uniform force or torque on the generator’s rotor. To
operate PMGS, it is connected to wind turbine through a shaft without gear box and rotate at
slow speed. This uniform torque produced by the resultant magnetic flux which induces
current in the armature winding. The stator magnetic field combined spatially with rotor
magnetic flux and rotates as the same speed of the rotor. So the two magnetic fields
synchronously rotate in PGSM to maintain the relative motion of rotor and stator.
Thus the permanent magnets rotates at constant speed without any DC excitation system,
which means it has not required any slip rings and contact brushes to make it more reliability
or efficient.
CAD based modeling of flywheel motor with multiple operatorIOSR Journals
Abstract : The Human powered flywheel motor (HPFM) is the integral part of the various manually energized
machines such as brick making machine, chaff cutter, pedal operated flour mill etc .Since its invention
continuous efforts are being made for its optimization with objective of the efficient energy utilization of human
energy. In an attempt this paper presents the development of flywheel motor for multiple rider as till now only
single rider system is developed. Further the CAD modeling of this system is developed by using the CAD
software SOLID EGDE.
Keywords - CAD modeling, HPFM, Solid edge.
IRJET - Modelling and Analysis of Permanent Magnet Synchronous Generator for ...IRJET Journal
1) The document describes the modeling and analysis of a permanent magnet synchronous generator (PMSG) for standalone renewable energy generation.
2) A PMSG was designed, built, and tested to operate at low speeds for a small wind turbine without a gearbox.
3) Finite element analysis was performed using ANSYS software to simulate the PMSG performance. The results from the hardware tests showed that the generator operates satisfactorily.
This document presents an online efficiency optimization method for an interior permanent magnet synchronous motor (IPMSM) drive system in an electric vehicle. A finite element analysis is used to build an accurate machine model that considers magnetic saturation, spatial harmonics, and iron loss effects. The proposed method calculates the total system losses, including fundamental copper and iron losses, harmonic copper and iron losses, magnet loss, and inverter losses. An online algorithm is developed to determine the optimal current angle for maximum efficiency per ampere control over the entire speed range. Simulation results demonstrate the superior performance of the proposed online method over conventional offline efficiency optimization techniques.
The document presents an electromagnetic and thermal analysis of an internal permanent magnet synchronous machine (IPMSM) design. It describes the initial design process including calculating dimensions, winding arrangement, and material selection. Finite element analysis was used to optimize the design by varying parameters like number of turns, magnet size, and flux barrier placement. This improved the torque from 5.25Nm to 12.94Nm. A lumped thermal network model was developed and losses were simulated. Temperature distribution was calculated and found to be within safe limits. Case studies on efficiency and load characteristics validated the machine configuration.
This paper addresses the irreversible permanent magnet (PM) demagnetization analysis of hybrid excitation flux switching motor (HEFSM) with outer-rotor configuration. PM demagnetization cause the PM strength used in the motor significantly reduces and hence contributes less torque performance. The study is focused on thermal analysis and conducted at various temperature up to as high as 180 degrees Celsius which has a tendency to be demagnetized. Therefore, PM demagnetization is among a critical issue and influences the choice of the applied motor. The analysis is carried out based on finite element method (FEM) and percentage of PM demagnetization is then calculated. Finally, based on simulated and calculated results the final design outer-rotor HEFSM has only 0.85 percent PM demagnetization at very high temperature and obviously the is no PM demagnetization at normal operating conditions.
International Journal of Engineering Research and Development (IJERD)IJERD Editor
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On the Performances Investigation of Different Surface Mounted Permanent Magn...IAES-IJPEDS
In recent years, permanent magnet machines have become a common choice
in many industrial applications. Therefore, several structures have been
developed, and the choice of a topology designed for a specified application
requires the knowledge of the advantages and disadvantages of different
topologies. The present work deals with the evaluation of the performances
of different radial flux surface-mounted permanent magnet motors designed
for an electric vehicle motor application. The objective of this survey is to
show the effect of the rotor position (inner or outer) and the magnets
segmentation on the machine output torque and iron losses. In this context,
four machines with: (i) inner rotor, (ii) inner rotor segmented magnets, (iii)
outer rotor and (iv) outer rotor segmented magnets have been designed and
studied. All these machines have the same geometrical dimensions and
current loading. The main idea is to develop a machine with smoothness
torque, lower torque ondulation, lower iron losses, and which is mechanically
robust. Firstly, the output torque of the different structure is computed.
Secondly, by means of an improved analytical model coupled with 2
dimensional transient finite element analysis (FEA), the machines iron losses
are predicted.
PAPER Electromagnetic Design of a PM Synchronous Generator for a 20 kW Ultra-...Diogo Gonçalves Oliveira
This document discusses the design of a permanent magnet synchronous generator for a 20 kW ultra-low head tidal turbine. It aims to optimize the design of such a generator to surpass the performance of an existing commercial option, the Ginlong PMG-20K generator, in terms of higher efficiency, smaller volume, or lower material costs. The project involves using modeling and simulation software to calculate the optimal winding arrangement and dimensions to maximize torque and efficiency while minimizing losses and costs. Electromagnetic principles and analytical models are described for simulating the generator's performance during optimization. The document outlines the objectives to first optimize the design and then verify the optimal design through electromagnetic simulation.
Detection of Broken Bars in Three Phase Squirrel Cage Induction Motor using F...Dr.NAGARAJAN. S
Finite element method is more precise than the winding function approach, as it is based on the actual geometry of the machine and the machine model can easily be modified in order to study the effect of faults on the machine’s performance. Accurate models of the machine under healthy and faulty conditions are developed. This paper presents simulations of broken bars detection in a three phase squirrel cage induction motor under no load, half load and full load conditions for two and eight broken bars. The analysis is done using MagNet.
Design and Simulation of a Fractal Micro-TransformerIJERA Editor
This document summarizes the design and simulation of a fractal micro-transformer. The researchers designed an air-core fractal micro-transformer using finite element modeling software. Simulation results showed improved performance parameters compared to macro transformers, including higher voltage gain. Electric displacement and magnetic energy density within the micro-transformer were determined to be 2 x 10-11 C/m2 and 100 J/m3 respectively. Losses within the air-core design were minimal at 3 W/m3. The micro-transformer was concluded to be suitable for integration in MEMS and VLSI applications due to its small size, high impedance, and isolation capabilities.
Study of Wind Turbine based Variable Reluctance Generator using Hybrid FEMM-M...Yayah Zakaria
Based on exhaustive review of the state of the art of the electric generators fitted to Wind Energy Conversion System (WECS), this study is focused on an innovative machine that is a Variable Reluctance Generator (VRG). Indeed, its simple and rugged structure (low cost), its high torque at low speed (gearless), its fault-tolerance (lowest maintenance), allow it to be a potential candidate for a small wind power application at variable wind
speed. For better accuracy, a finite element model of a studied doubly salient VRG is developed using open source software FEMM to identify the electromagnetic characteristics such as linkage flux, torque or inductance versus rotor position and stator excitation. The obtained data are then transferred into look-up tables of MATLAB/Simulink to perform various simulations. Performance of the proposed wind power system is analyzed for several parameters and results are discussed.
Study of Wind Turbine based Variable Reluctance Generator using Hybrid FEMM-M...IJECEIAES
Based on exhaustive review of the state of the art of the electric generators fitted to Wind Energy Conversion System (WECS), this study is focused on an innovative machine that is a Variable Reluctance Generator (VRG). Indeed, its simple and rugged structure (low cost), its high torque at low speed (gearless), its fault-tolerance (lowest maintenance), allow it to be a potential candidate for a small wind power application at variable wind speed. For better accuracy, a finite element model of a studied doubly salient VRG is developed using open source software FEMM to identify the electromagnetic characteristics such as linkage flux, torque or inductance versus rotor position and stator excitation. The obtained data are then transferred into look-up tables of MATLAB/Simulink to perform various simulations. Performance of the proposed wind power system is analyzed for several parameters and results are discussed.
This document discusses modeling and field oriented control (FOC) of a permanent magnet synchronous motor (PMSM) using MATLAB/Simulink. It first introduces PMSM drives and their components. It then presents the mathematical modeling of a PMSM in the d-q reference frame. This includes developing the voltage and flux linkage equations. It also discusses Parks transformation and the equivalent circuit model. Next, it covers PMSM control strategies like FOC which allows controlling the motor like a DC motor. It provides the details of FOC implementation including constant torque control. Finally, it discusses establishing the FOC simulation model in MATLAB/Simulink to simulate the control system.
Improving the delivered power quality from WECS to the grid based on PMSG con...IJECEIAES
Renewable energy has become one of the most energy resources nowadays, especially, wind energy. It is important to implement more analysis and develop new control algorithms due to the rapid changes in the wind generators size and the power electronics development in wind energy applications. This paper proposes a grid-connected wind energy conversion system (WECS) control scheme using permanent magnet synchronous generator (PMSG). The model works to improve the delivered power quality and maximize its value. The system contained one controller on the grid side converter (GSC) and two simulation packages used to simulate this model, which were PSIM software package for simulating power circuit and power electronics converters, and MATLAB software package for simulating the controller on Simulink. It employed a meta-heuristic technique to fulfil this target effectively. Mine-blast algorithm (MBA) and harmony search optimization technique (HSO) were applied to the proposed method to get the best controller coefficient to ensure maximum power to the grid and minimize the overshoot and the steady state error for the different control signals. The comparison between the results of the MBA and the HSO showed that the MBA gave better results with the proposed system.
This document summarizes a research paper that proposes a new method called rotor pole shaping to reduce cogging torque in flux-switching permanent magnet machines (FSPMs). Cogging torque is relatively high in FSPMs due to their doubly salient structure and high flux density. The proposed method introduces flanges in the rotor teeth as a way to modify the rotor dimensions and reduce cogging torque without changing the stator. Finite element analysis is used to examine the impact of flange geometry on cogging torque. The effects on back-EMF, average torque, and torque ripple are also investigated. The results suggest rotor pole shaping is an effective method for cogging torque reduction in FSPMs.
Comparative performances analysis of different rotor types for pmsg used in w...Mellah Hacene
PMSG provides a high performance, compact size, light weight, and low noise, without forgetting its simple structure, high thrust, and ease of maintenance, allow replacing steam catapults in the future. Most turbine generators at low wind speed are presented PMSGs, These it has advantages of high efficiency and reliability, since there is no need of external excitation and loss of drivers are removed from the rotor. In this paper, a comparative PMSG performance study's with several rotor topology is presented, each topology rotor has its own permanent magnet structure that is width, thickness and angle. These results are obtained by finite element method (FEM); this approach is a powerful and useful tool to study and design PMSGs, as represented in this paper.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
This document discusses the calculation of total current harmonic distortion for permanent magnet synchronous motors (PMSM) using pulse width modulation (PWM) methods. It involves modeling and simulating a PMSM drive system in MATLAB/Simulink to analyze the effects on current harmonics. Field oriented control is used to control the rotor current and regulate speed. Simulation results show that PWM control produces lower total harmonic distortion compared to hysteresis control. Vector control methods produce even lower harmonics compared to PWM inverters alone. The document analyzes the harmonic spectra from the simulations to evaluate the performance of different control schemes.
Fea of pcb multilayer stack up high voltage planar transformer for aerospace...elelijjournal
High voltage planar transformer is a technology which can replace conventional transformer with its distinct advantages of saturation and cost efficiency. This paper includes, study and solution methods for PCB winding configuration in planar magnetic elements with multilayer
stack up of PCB Cu-tracks, producing High voltage power supply for aerospace application.With finite element analysis (FEA) simulations, different simulation outcomes are discussed for inspecting flux intensity and current density distribution with computing Electric field strength
and Magnetic fields. In principal conclusion of study, complete analysis and some practical design guidelines for
multilayer PCB stack up are discussed in this paper.
This document proposes a novel method for calculating and optimizing the electromechanical characteristics of switched reluctance motors (SRMs). The method combines electric circuit theory and electromagnetic field theory approaches. It establishes a relationship between stator coil inductance and rotor angle that is incorporated into differential equations describing the electromechanical process in SRMs. Simulation results using MATLAB/Simulink software validate the accuracy of the proposed model for an 8/6 SRM. The method provides a way to simultaneously calculate varying magnetic field characteristics and electrical circuit properties during simulation, overcoming a key challenge for SRM modeling.
Modeling Under MATLAB by ANFIS of Three-Phase Tetrahedral Transformer Using i...TELKOMNIKA JOURNAL
This work deals with the modeling of a new three-phase tetrahedral transformer of HV power
supply, which feeds three magnetrons per phase. The design of this new power supply is composed of
three single-phase with magnetic shunt transformers coupling in star; each one is size to feed voltagedoubling
cells, thereby feeds a magnetron. In order to validate the functionality of this power supply, we
simulate it under Matlab-Simulink environment. Thus, we modeled nonlinear inductance using a new
approach of neuro-fuzzy (ANFIS); this method based on the interpolation of the curve B(H) of
ferromagnetic material, the results obtained gives forms of both voltages and currents, which shows that
they are in accordance with those of experimental tests, respecting the conditions recommended by the
magnetron manufacturer
Similar to Dynamic design and simulation analysis of permanent magnet motor in different scenario of fed alimentation (20)
This document proposes a sensorless estimator for speed, armature temperature, and resistance in brushed DC machines using a cascade-forward neural network (CFNN) and quasi-Newton BFGS backpropagation. A thermal model is used to estimate temperature without a thermal sensor. Simulation results show the CFNN estimates match the model outputs, estimating speed with less than 2% error. This approach provides sensorless simultaneous estimation of multiple parameters without some limitations of prior methods like the extended Kalman filter.
Commande par gradins d'un convertisseur multiniveau asymétrique à structure c...Mellah Hacene
Commande par gradins d'un convertisseur multiniveau asymétrique à structure cascade pour l'entraînement d'une machine asynchrone
Cet article consiste à étudier la commande des onduleurs multi-niveaux asymétrique appliquée à la conduite d’une machine asynchrone triphasée. On a étudié ce type d’onduleurs parce qu’il est susceptible de générer des tensions quasi sinusoïdale ayant un nombre de niveau impair largement qui peuvent atteindre entre 2K+1 et 3K niveaux (K: cellules à pont complet). L’utilisation de la structure multi-niveaux cascade afin d’améliorer beaucoup plus la qualité de tension de sortie sans augmenter à priori le nombre de cellules d’onduleurs à pont complet ainsi que cette structure est un intérêt certain car elle contient un nombre réduit d’interrupteurs en comparaison avec les autres. Pour l’entraînement à la vitesse variable pour cette machine, la commande vectorielle avec des correcteurs classiques est appliquée ensuite. Les résultats de simulation confirment la validité et l’efficacité de ce type d’onduleur.
This document presents an implementation of space vector modulation (SVM) for a two-level three-phase inverter using a dSPACE DS1104 controller. It describes the principles of SVM, including voltage vector modeling, sector detection, and pulse generation. Hardware experiments were conducted to validate a SVM control algorithm developed in Simulink. Results showed line voltages from the real hardware matched simulation. THD comparisons confirmed SVM provides lower distortion and higher fundamental output than sinusoidal PWM. The dSPACE system allows real-time testing of control algorithms on actual hardware.
Passivity Based Control for PV Applications by Using a Buck Power Converter
The use of power converters for everyday applications is becoming more and more important. Current technological applications simultaneously demand a high level of precision and performance, so DC-DC converters have a very important role in systems requiring energy level conversion and adaptation. As part of the work of this paper, we are interested in an analysis of modeling and control law synthesis approaches to ensure stability and a certain level of performance in the entire operating domain. The objective of our research work is therefore to propose a control law whose synthesis is based on a formalized (modeling & control) approach with a view to obtaining a control law adapted to the operating point. The principles used are based on the control and observation by the theory of passivity for the synthesis of control law of buck power converter for PV Applications.
Cascade forward neural network based on resilient backpropagation for simulta...Mellah Hacene
Cascade-Forward Neural Network Based on Resilient Backpropagation for Simultaneous Parameters and State Space Estimations of Brushed DC Machines
Advances in Modelling and Analysis B
This document lists the names, organizations, and countries of over 80 reviewers for the 2021 International Mobile, Intelligent, and Ubiquitous Computing Conference (MIUCC). The reviewers are from a variety of universities, research institutes, and other organizations located around the world, including Egypt, India, Bangladesh, South Korea, Saudi Arabia, Algeria, Morocco, Italy, Czech Republic, Malaysia, and others.
The document lists the 2021 committees for the International Mobile, Intelligent, and Ubiquitous Computing Conference (MIUCC). It provides the names and affiliations of the conference chair, co-chairs, secretary general, publications chair, local organization chair, conference operations team, publication committee, technical program committee, and additional committee members. The committees are organizing and overseeing the planning and operations of the 2021 MIUCC conference.
Power transformer faults diagnosis using undestructive methods and ann for dg...Mellah Hacene
Power transformer faults diagnosis using undestructive methods (Roger and IEC) and artificial neural network for dissolved gas analysis applied on the functional transformer in the Algerian north-eastern: a comparative study
Bouchaoui Lahcene, Kamel Eddine Hemsas, Hacene Mellah, saad eddine benlahneche
Nowadays, power transformer aging and failures are viewed with great attention in power transmission industry. Dissolved gas analysis (DGA) is classified among the biggest widely used methods used within the context of asset management policy to detect the incipient faults in their earlier stage in power transformers. Up to now, several procedures have been employed for the lecture of DGA results. Among these useful means, we find Key Gases, Rogers Ratios, IEC Ratios, the historical technique less used today Doernenburg Ratios, the two types of Duval Pentagons methods, several versions of the Duval Triangles method and Logarithmic Nomograph. Problem. DGA data extracted from different units in service served to verify the ability and reliability of these methods in assessing the state of health of the power transformer. Aim. An improving the quality of diagnostics of electrical power transformer by artificial neural network tools based on two conventional methods in the case of a functional power transformer at Sétif province in East North of Algeria. Methodology. Design an inelegant tool for power transformer diagnosis using neural networks based on traditional methods IEC and Rogers, which allows to early detection faults, to increase the reliability, of the entire electrical energy system from transport to consumers and improve a continuity and quality of service. Results. The solution of the problem was carried out by using feed-forward back-propagation neural networks implemented in MATLAB-Simulink environment. Four real power transformers working under different environment and climate conditions such as: desert, humid, cold were taken into account. The practical results of the diagnosis of these power transformers by the DGA are presented. Practical value.....
Adaptive maximum power point tracking using neural networks for a photovoltai...Mellah Hacene
Adaptive Maximum Power Point Tracking Using Neural Networks for a Photovoltaic Systems According Grid
Electrical Engineering & Electromechanics, (5), 57–66, 2021. https://doi.org/10.20998/2074-272X.2021.5.08
International conference on mechanical engineering and applied mechanics[icme...Mellah Hacene
The document summarizes the 2021 International Conference on Mechanical Engineering and Applied Mechanics (ICMEAM 2021) that was organized by Yaseen Academy and originally planned to be held in Sanya, China but was changed to an online format due to COVID-19 restrictions. It provides details on the conference organization, topics, presenters and keynote speakers. The conference included presentations on mechanical engineering, structural mechanics and materials science. It featured two keynote speeches from researchers at Innowledgement GmbH on developing the world's smallest and fastest mechanical nano-tools.
MATHEMATICAL MODEL OF WIND TURBINE IN GRID-OFF SYSTEM Mellah Hacene
Abstract
This paper deals with the construction of a mathematical model of a wind turbine, which is one of the sources in the Grid-Off
system.
Keywords: mathematical model, wind turbine, Grid-Off system, electric generator, wind conditions.
1 Introduction
As one of the power sources of the Grid-Off system is a wind turbine. It is advantageous to work with a
mathematical model for the need of experimental research. In Fig. 1 is a schematic connection of a wind turbine
to a container, which is a Grid-Off system. [1-4]
SIMULATION OF A MATHEMATICAL MODEL OF A WIND TURBINE Mellah Hacene
Abstract
This paper presents a mathematical model of a wind turbine and its simulation. This is one of the main resources available to
the island system (Grid-Off system).
Keywords: wind turbine, island system, Grid-Off system, renewable energy source.
1 Introduction to wind turbine
A wind turbine is basically a converter, or in other words a device that transforms one type of energy into
another. In this case, it is the transformation of mechanical energy into electrical energy.
The source of mechanical energy is the flow (flow) of air, which acts on the turbine blades. The blades are
located on a shaft which is coupled to a permanent magnet (magnet). The magnets are a rotating part, which is
named the rotor. The stator consists of a coil (coils) of wound copper conductor. Due to the changing magnetic
field (PM - permanent magnets), an electrical voltage is induced at the terminals (terminals) of the coil / coils. In
essence, it is a synchronous generator, since the variable electric field is coupled (synchronized) with the speed
of the changing and magnetic fields. [1-5]
A schematic block diagram of a wind turbine as a synchronous generator is shown in Fig. 1.
Multiphysics Modeling of Induction Machines_Jd'12 presMellah Hacene
in this paper we interest to how we can validate simultaneously a thermal model and estimated variable of induction motor. This approach is possible by using special simulation package frequently exploited bout in university and industry. A simple description of each one of this famous software is presented.
According to our needs and means; I took a justified choice of the used software in this validation context. In this moment, I make
only the modeling of an induction machine without takes into account the heating effects. Same simulation results of induction
motor model by Maxwell software is given and commented.
4th INTERNATIONAL CONFERENCE ON ELECTRICAL ENGINEERING.,Icee'12 Mellah Hacene
Compared with electrically excited machines, PMSG have a number of economical and technical advantages, so that they are becoming more attractive for direct-drive wind turbines, these advantages can be summarised as follows according to literatures:
Higher efficiency and energy yield,
No additional power supply for the magnet field excitation,
Improvement in the thermal characteristics of the pm machine due to the absence of the field losses,
Higher reliability due to the absence of mechanical components such as slip rings,
Lighter and therefore higher power to weight ratio.
7th International Conference on Electrical Engineering 8- 10 October 2012, Ce...Mellah Hacene
There is now general acceptance that the burning of fossil fuel is having a significant influence on the global climate. Effective mitigation of climate change will require deep reductions in greenhouse gas emissions, with UK estimates of a 60–80% cut being necessary by 2050.
Still purer with the nuclear power, this last leaves behind dangerous wastes for thousands of years and risks contamination of land, air, and water.
Stochastic Estimation Methods for Induction Motor Transient Thermal Monitorin...Mellah Hacene
The induction machine, because of its robustness and low-cost, is commonly
used in the industry. Nevertheless, as every type of electrical machine, this
machine suffers of some limitations. The most important one is the working
temperature which is the dimensioning parameter for the definition of the
nominal working point and the machine lifetime. Due to a strong demand
concerning thermal monitoring methods appeared in the industry sector. In
this context, the adding of temperature sensors is not acceptable and the
studied methods tend to use sensorless approaches such as observators or
parameters estimators like the extended Kalman Filter (EKF). Then the
important criteria are reliability, computational cost ad real time
implementation.
Design and analysis of an external rotor internal-stator doubly fed induction...Mellah Hacene
In this paper, a time stepping 2D and 3D FEM is performed for modeling and analysis external rotor DFIG .The finite element method currently represents the state-of-the-art in the numerical magnetic field computation relating to electrical machines. FEM is a numerical method to solve the partial differential equations (PDE) that expresses the physical quantities of interest, in this case Maxwell’s equations. This will result in a more accurate result compared to analytical modeling, which can be regarded as a simplification of the PDE. FEM analysis is used for transient mode, magnetic field calculation, the magnetic flux density and vector potential of machine is obtained. In this model we including, non linear material characteristics, eddy current effect, torque-speed characteristics, ambient temperature effect and magnetic analysis are investigated using MAXWELL program. With this program, the components of the DFIG can be calculated with high accuracy.
Application of statcom to increase transient stability of wind farmMellah Hacene
This document summarizes a study on using STATCOM (Static Synchronous Compensator) to improve the transient stability of a wind farm connected to a power grid. The study first models the wind turbine system and simulates the grid's transient stability with and without STATCOM. Results show STATCOM improves stability by injecting reactive power. It then examines the relationship between STATCOM's reactive power injection and the critical clearing time - the maximum time allowed for fault clearing before losing stability. STATCOM increases the critical clearing time, allowing more time for faults to be cleared before instability occurs. The study concludes STATCOM effectively improves the wind farm's transient stability during faults.
Advanced control scheme of doubly fed induction generator for wind turbine us...IJECEIAES
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.
CHINA’S GEO-ECONOMIC OUTREACH IN CENTRAL ASIAN COUNTRIES AND FUTURE PROSPECTjpsjournal1
The rivalry between prominent international actors for dominance over Central Asia's hydrocarbon
reserves and the ancient silk trade route, along with China's diplomatic endeavours in the area, has been
referred to as the "New Great Game." This research centres on the power struggle, considering
geopolitical, geostrategic, and geoeconomic variables. Topics including trade, political hegemony, oil
politics, and conventional and nontraditional security are all explored and explained by the researcher.
Using Mackinder's Heartland, Spykman Rimland, and Hegemonic Stability theories, examines China's role
in Central Asia. This study adheres to the empirical epistemological method and has taken care of
objectivity. This study analyze primary and secondary research documents critically to elaborate role of
china’s geo economic outreach in central Asian countries and its future prospect. China is thriving in trade,
pipeline politics, and winning states, according to this study, thanks to important instruments like the
Shanghai Cooperation Organisation and the Belt and Road Economic Initiative. According to this study,
China is seeing significant success in commerce, pipeline politics, and gaining influence on other
governments. This success may be attributed to the effective utilisation of key tools such as the Shanghai
Cooperation Organisation and the Belt and Road Economic Initiative.
Optimizing Gradle Builds - Gradle DPE Tour Berlin 2024Sinan KOZAK
Sinan from the Delivery Hero mobile infrastructure engineering team shares a deep dive into performance acceleration with Gradle build cache optimizations. Sinan shares their journey into solving complex build-cache problems that affect Gradle builds. By understanding the challenges and solutions found in our journey, we aim to demonstrate the possibilities for faster builds. The case study reveals how overlapping outputs and cache misconfigurations led to significant increases in build times, especially as the project scaled up with numerous modules using Paparazzi tests. The journey from diagnosing to defeating cache issues offers invaluable lessons on maintaining cache integrity without sacrificing functionality.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
Batteries -Introduction – Types of Batteries – discharging and charging of battery - characteristics of battery –battery rating- various tests on battery- – Primary battery: silver button cell- Secondary battery :Ni-Cd battery-modern battery: lithium ion battery-maintenance of batteries-choices of batteries for electric vehicle applications.
Fuel Cells: Introduction- importance and classification of fuel cells - description, principle, components, applications of fuel cells: H2-O2 fuel cell, alkaline fuel cell, molten carbonate fuel cell and direct methanol fuel cells.
International Conference on NLP, Artificial Intelligence, Machine Learning an...gerogepatton
International Conference on NLP, Artificial Intelligence, Machine Learning and Applications (NLAIM 2024) offers a premier global platform for exchanging insights and findings in the theory, methodology, and applications of NLP, Artificial Intelligence, Machine Learning, and their applications. The conference seeks substantial contributions across all key domains of NLP, Artificial Intelligence, Machine Learning, and their practical applications, aiming to foster both theoretical advancements and real-world implementations. With a focus on facilitating collaboration between researchers and practitioners from academia and industry, the conference serves as a nexus for sharing the latest developments in the field.
Comparative analysis between traditional aquaponics and reconstructed aquapon...bijceesjournal
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
KuberTENes Birthday Bash Guadalajara - K8sGPT first impressionsVictor Morales
K8sGPT is a tool that analyzes and diagnoses Kubernetes clusters. This presentation was used to share the requirements and dependencies to deploy K8sGPT in a local environment.