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7. Review of hierarchical control strategies for DC microgrid

Author

Anand Abhishek, Aashish Ranjan, Subhash Kumar Ram, Sachin Devassy, Ajeet Kr. Dhakar, and Brijendra Kumar Verma

Subjects
Power management, Renewable Energy, Sustainability and the Environment, Computer science, Energy management, 020209 energy, 020208 electrical & electronic engineering, Control engineering, 02 engineering and technology, Optimal control, Power (physics), Scalability, 0202 electrical engineering, electronic engineering, information engineering, Microgrid, Voltage regulation, Robust control
Abstract

This work presents an extensive review of hierarchical control strategies that provide effective and robust control for a DC microgrid. DC microgrid is an efficient, scalable and reliable solution for electrification in remote areas and needs a reliable control scheme such as hierarchical control. The hierarchical control strategy is divided into three layers namely primary, secondary and tertiary based on their functionality. In this study, different methods of primary control for current and voltage regulation, secondary control for error-correction in voltage and current, power sharing in a microgrid and microgrid clusters and tertiary control for power and energy management with a primary focus on minimal power loss and operational cost in a DC microgrid system are reviewed in-depth. Along with this, the advantages and limitations of various control structures like centralised, decentralised, distributed are discussed in this study. After a comparative study of all control strategies, the optimum control schemes from the author's point of view are also presented.

Published
2020

8. Modified generalised integrator based control strategy for solar PV fed UPQC enabling power quality improvement

Author

Sachin Devassy, Sanjenbam Chandrakala Devi, and Bhim Singh

Subjects
Total harmonic distortion, Computer science, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, Energy Engineering and Power Technology, 02 engineering and technology, AC power, Control and Systems Engineering, Control theory, Integrator, Harmonics, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Active filter, DC bias, Voltage
Abstract

In this work, a modified generalised integrator with DC offset elimination capability is presented herein for the control of a unified power quality conditioner (UPQC) with solar photovoltaic array (SPVA) (UPQC-SPVA) system. Using this method, the fundamental element of load current is extracted, which is processed to generate reference currents for shunt active filter of the UPQC-SPVA system. This control algorithm improves power quality (PQ) such as grid currents balancing, harmonics elimination, compensation of reactive power, grid voltage sag and voltage swell mitigation. This system gives clean energy benefits along with PQ improvement by an integration of solar PV array at the DC link of UPQC. Simulation results are depicted to evaluate the performance of the UPQC in MATLAB/Simulink environment under presence of local non-linear load. The performance of UPQC-SPVA system is evaluated experimentally on a prototype in the laboratory and test results are found satisfactory for various disturbances like grid voltage sag/swell, load unbalancing, harmonics compensation and solar irradiation variation. The total harmonic distortion of the grid current is attained within limits of the IEEE-519 and IEEE-1159 standards.

Published
2020

9. Modular pulsed power supply for characterization of high-power microwave devices

Author

Subhash Kumar Ram, Brijendra Kumar Verma, Anand Abhishek, Sachin Devassy, and Sukumar Mishra

Subjects
Instrumentation
Abstract

Developing a robust and reliable high-voltage (HV) pulse power system (PPS) is essential for the characterization and testing of microwave tubes and industrial applications. This paper presents the design, simulation, and implementation of a modular and versatile high-voltage pulse power supply used in microwave device characterization and testing. A microcontroller-based digitally controlled pulse generation unit is also developed to generate the trigger pulses for high-voltage switching modules to control the turn-ON and turn-OFF of the switching devices. The digitally controlled pulse generation unit provides better resolution of pulse width, pulse repetition frequency, and system protection over the entire range of operations. The pulse generation and control circuit controls the pulse repetition frequency (PRF) and pulse wide (PW). The PRF and PW can be varied from 100 to 1000 Hz and 10 to 100 µs, respectively. The experimental prototype with ten series-connected high-voltage modules is connected to achieve a 25 kV pulsed output voltage. The experimental results of HV-PPS on a resistive dummy load and 5 GHz klystron tube are presented in this work.

Published
2022

10. Review on Renewable Energy Based EV Charging System with Grid Support Functionality

Author

S. A. Akbar, Subhash Kumar Ram, Sachin Devassy, Brijendra Kumar Verma, and Sukumar Mishra

Subjects
Service (systems architecture), business.product_category, Computer science, business.industry, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, 02 engineering and technology, Grid, Energy storage, Automotive engineering, Renewable energy, Reliability (semiconductor), Power electronics, Electric vehicle, 0202 electrical engineering, electronic engineering, information engineering, business
Abstract

This paper presents a comprehensive review on renewable energy based electric vehicle charging techniques, energy storage system with grid support functionality. The classification of electric vehicles charging based on standards, and charging techniques have been reviewed. Based on efficiency, feasibility and reliability, renewable energy like solar PV for electric vehicle charging are addressed. The energy storage system must be properly managed and safely maintained to improve the overall efficiency of electric vehicles for service longevity. A qualitative analysis of power electronics topologies along with its advantages and disadvantages are also discussed. Furthermore, a comprehensive analysis of Vehicle-Grid-Integration (VGI) infrastructure its capability, benefits/potential, challenges such as technological, environmental, economic etc. have also been highlighted. A comparative overview of power electronics topologies suitable for electric vehicle charging with VGI infrastructure is also exhibited.

Published
2021

11. Analysis of Dual Active Bridge Converter in Dual-Phase-Shift mode using Pulse-Width Modulation Technique

Author

Aashish Ranjan, Ajeet Kr. Dhakar, Brijendra Kr. Verma, Sachin Devassy, Subhash Kr. Ram, and Anand Abhishek

Subjects
Computer science, 020208 electrical & electronic engineering, 02 engineering and technology, Power (physics), Stress (mechanics), Control theory, Transfer (computing), Control system, 0202 electrical engineering, electronic engineering, information engineering, Maximum power transfer theorem, 020201 artificial intelligence & image processing, MATLAB, computer, Pulse-width modulation, computer.programming_language, Backflow
Abstract

In this paper, closed-loop control of isolated bidirectional dual-active bridge (DAB) DC-DC converter is proposed for dual-phase-shift (DPS) scheme using fixed frequency pulse-width-modulation (PWM) plus transmitted command power. DPS is a well-known control scheme to reduce backflow power, current stress, and losses, it also provides better power transfer flexibility under high frequency. However, the conventional DPS scheme has limited performance in light load conditions. The discussed control technique overcomes the instant variation of inner phase shift ratio (D 1 ) w.r.t outer phase shift ratio (D 2 ) during light load conditions. The theoretical concepts of the transmitted power in different modes of operation are presented in this paper along with a detailed analysis of MATLAB simulation results in dynamic conditions and both directions of power flow. The implemented control scheme leverages most of the improved features of the DPS scheme to transfer power from one end to another end.

Published
2020

12. Solar Photovoltaic Array Fed Unified Power Quality Conditioner System Enabling Alleviation of Asymmetrical Voltage Sag

Author

Sanjenbam Chandrakala Devi, Priyank Shah, Sachin Devassy, Hina Parveen, and Bhim Singh

Subjects
business.industry, Computer science, 05 social sciences, Photovoltaic system, Electrical engineering, 020207 software engineering, Topology (electrical circuits), 02 engineering and technology, Power factor, AC power, Harmonics, Voltage sag, 0202 electrical engineering, electronic engineering, information engineering, 0501 psychology and cognitive sciences, business, 050107 human factors, Voltage, DC bias
Abstract

A modified generalized integrator (GI) is presented for controlling a single stage topology of solar photovoltaic (PV) array tied unified power quality conditioner (SSSPVA-UPQC) system. This control is used to estimate the positive sequence fundamental components of unbalance grid voltages, and it effectively suppresses the DC bias from the input signal as well as mitigate asymmetrical voltages sag/swell. The series active power filter (APF) of the SSSPVA-UPQC system compensates all kinds of voltage related power quality (PQ) issues viz. symmetrical/ asymmetrical grid voltages variations and protects the sensitive loads. The shunt APF of the SSSPVA-UPQC system compensates for PQ issues like imbalanced loads, harmonics, power factor improvement etc. along with providing active power to the system from the solar PV array. The Simulink model for SSSPVA-UPQC system is developed in MATLAB/Simulink, for various PQ issues mitigation such as symmetrical/asymmetrical grid voltages swell, sag, imbalanced loads, solar insolation variation etc. Test results validate the efficiency and effectiveness of the presented control on a laboratory prototype.

Published
2020

13. Solar PV Array Integrated UPQC for Power Quality Improvement Based on Modified GI

Author

Bhim Singh, Priyank Shah, Sachin Devassy, and Sanjenbam Chandrakala Devi

Subjects
Total harmonic distortion, Computer science, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, 02 engineering and technology, AC power, Control theory, Integrator, Harmonics, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, DC bias, Voltage
Abstract

In this paper, a modified generalized integrator (GI) control technique with a reduced number of integrators, is presented for the control of grid interfaced single stage solar PV array integrating with unified power quality conditioner (SPVA-UPQC) system. This controller has a reduced number of integrators to estimate the fundamental active components of the distorted signals enabling DC offset elimination. Further, these fundamental signals are used to generate the reference signals for shunt compensator. The SPVA-UPQC helps to mitigate both current and voltage related power quality (PQ) problems such as it eliminates harmonics, load unbalancing, reactive power compensation, voltage sag-swell elimination, as well as it provides clean energy generation, by interfacing solar PV array at the common DC link of UPQC. In order to evaluate the performance of this system with presence of nonlinear load, simulation results are presented in environment of MATLAB/Simulink. The experimental performance of the SPVA-UPQC system is validated through developed prototype and the corresponding results are presented herein for various conditions like grid voltage sag, grid voltage swell, load unbalancing, solar irradiation variation and harmonics. The total harmonic distortion (THD) of the grid voltages and currents are attained within the limits as per the IEEE-519 and IEEE-1159 standards.

Published
2020

14. Control of a Multi-functional Solar PV-Battery System for Operation in a Microgrid Environment

Author

Ajeet Kumar Dhakar, Anand Abhishek, Subhash Kumar Ram, Sachin Devassy, and Brijendra Kumar Verma

Subjects
Harmonic analysis, Synchronization (alternating current), Computer science, Photovoltaic system, Battery (vacuum tube), Microgrid, Grid, Automotive engineering, Energy (signal processing), Power (physics)
Abstract

This work deals with the control and operation of a multi-functional PV-Battery Integrated System operating in a Micro-grid environment. The system consists of a three-phase three wire PV array and battery Integrated distribution static compensator (PV-B-DSTATCOM) which can not only compensate for current quality issues due to load current but also inject power from the PV array into the grid. A battery bank is also integrated with the PV system so as to enable its operation in standalone mode of operation when grid is not available or under faulty conditions. This system is critical in modern distribution systems which require clean source of energy along with continuous supply of power for sophisticated electronic loads for data centres, hospitals and electronic industries. The system performance is extensively evaluated under different scenarios found in microgrid environment such as irradiation variation, load unbalance and also operation in islanded and grid interactive operation.

Published
2019

15. Control of a Solar Photovoltaic Integrated Universal Active Power Filter Based on a Discrete Adaptive Filter

Author

Bhim Singh and Sachin Devassy

Subjects
Computer science, business.industry, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, Electronic filter topology, 02 engineering and technology, Zero crossing, DC-BUS, Computer Science Applications, Renewable energy, Adaptive filter, Active power filter, Control and Systems Engineering, Control theory, Voltage sag, Active component, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Power quality, Electrical and Electronic Engineering, business, Active filter, Information Systems, Voltage
Abstract

In this work, a novel technique based on adaptive filtering is proposed for the control of a three-phase universal active power filter with a solar photovoltaic array integrated into its dc bus. Two adaptive filters along with a zero crossing detection technique are used to extract the magnitude of a fundamental active component of distorted load currents, which is then used in estimation of a reference signal for the shunt active filter. This technique enables extraction of an active component of all three phases with reduced mathematical computation. The series active filter control is based on synchronous reference frame theory and it regulates load voltage and maintains it in-phase with voltage at point of common coupling under conditions of voltage sag and swell. The performance of the system is evaluated on an experimental prototype in the laboratory under various dynamic conditions such as sag and swell in voltage at point of common coupling, load unbalancing, and change in solar irradiation intensity.

Published
2018

16. Control of solar photovoltaic integrated UPQC operating in polluted utility conditions

Author

Bhim Singh and Sachin Devassy

Subjects
Computer science, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, Control engineering, 02 engineering and technology, Band-pass filter, Control theory, Integrator, Boost converter, 0202 electrical engineering, electronic engineering, information engineering, Point of common coupling, Electrical and Electronic Engineering, Shunt (electrical), Maximum power point tracking algorithm, Voltage
Abstract

This study proposes a control approach based on second-order generalised integrator (SOGI) and delayed signal cancellation (DSC) for improved control of single-phase two-stage solar photovoltaic array integrated unified power quality conditioner (UPQC-SPV). The SPV array is integrated to the DC link of UPQC-SPV through a simple boost converter. The boost converter is controlled using a maximum power point tracking algorithm to operate SPV array at its peak power point. The series compensator control is based on extraction of point of common coupling voltage template using two cascaded SOGI (CSOGI) band-pass filter. The shunt compensator control is based on extraction on fundamental load current. As the load current is highly non-linear, a combination of CSOGI and DSC is used to extract fundamental active component of load current, from which the reference signal for shunt compensator is generated. This approach allows good accuracy in extraction of fundamental component of load current without sacrificing the dynamic performance. The performance of UPQC-SPV is verified experimentally on a prototype developed in the laboratory under dynamic conditions such as load change, voltage sags/swells and irradiation variation.

Published
2017

17. Modified pq -Theory-Based Control of Solar-PV-Integrated UPQC-S

Author

Bhim Singh and Sachin Devassy

Subjects
Computer science, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, 02 engineering and technology, AC power, Grid, Industrial and Manufacturing Engineering, Active load, DC-BUS, Theory based, Nonlinear system, Control and Systems Engineering, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Voltage
Abstract

This paper proposes a modified pq-theory-based control of a solar photovoltaic (PV)-array-integrated unified power quality conditioner (PV-UPQC-S). The system incorporates clean energy generation along with power quality improvement, thus increasing functionality of the system. The fundamental-frequency positive-sequence components of voltages at the point of common coupling (PCC) are extracted using the generalized cascaded delay signal cancellation technique, which are then used in pq-theory-based control to estimate reference signals for the PV-UPQC-S. This modification in pq theory enables its application for PV-UPQC-S control under conditions of distorted PCC voltages. The series voltage-source converter (VSC) of the PV-UPQC-S operates such that it shares a part of the reactive power of the load even under nominal grid conditions. This increases the utilization of the series VSC while reducing the rating of shunt VSC. The PV array is integrated at the dc bus of the UPQC and provides a part of active load power, thus reducing demand on the supply system. The dynamic performance of the modified pq-theory-based PV-UPQC-S is verified by simulating the system in MATLAB-Simulink with a combination of linear and nonlinear loads. The steady-state and dynamic performances of the system are then experimentally validated through extensive testing on a scaled-down laboratory prototype.

Published
2017

18. Performance analysis of proportional resonant and ADALINE‐based solar photovoltaic‐integrated unified active power filter

Author

Bhim Singh and Sachin Devassy

Subjects
Recursive least squares filter, Renewable Energy, Sustainability and the Environment, business.industry, Computer science, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, 02 engineering and technology, Software, Control theory, Harmonics, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Voltage source, business, Shunt (electrical), Voltage, Diode
Abstract

In this work, a novel control of single-phase solar photovoltaic (PV) fed unified active power filter (PV-UAPF) is proposed for use in low-voltage distribution system. The shunt voltage source converter (VSC) of PV-UAPF mitigates current power quality issues such as current harmonics, reactive current etc. while the series VSC of PV-UAPF protects the sensitive load against point of common coupling (PCC) voltage disturbances. The shunt VSC control is based on extraction of fundamental load active current using recursive least squares with a variable forgetting factor. The proposed method improves the dynamic response of the system without sacrificing the steady-state performance. The series VSC is controlled using a proportional-resonant controller and it injects voltage in/out phase with PCC voltage during voltage sags/swells, respectively. The PV array which is integrated at the DC link of the PV-UAPF through a reverse blocking diode, provides the load power demand and also supplies remaining power into PCC. The system performance is evaluated using Matlab-Simulink software and is then experimentally verified on a prototype developed in the laboratory under steady-state and dynamic conditions such as irradiation variation, PCC voltage fluctuations and load disturbances to validate the performance of the system.

Published
2017

19. Performance Evaluation of Islanded and Grid Connected Operation of Solar PV-Battery Based Universal Active Power Filter

Author

Bhim Singh and Sachin Devassy

Subjects
Computer science, business.industry, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, Electrical engineering, 02 engineering and technology, Grid, Maximum power point tracking, Active power filter, Software, 0202 electrical engineering, electronic engineering, information engineering, Power quality, business, Shunt (electrical), Voltage
Abstract

This work presents the performance of solar PV-battery integrated universal active power filter (PV-B-UAPF) in both grid connected and islanded modes of operation. The system consists of a right shunt universal active power filter in which the PV array is linked at the DC-bus of the system. The battery is connected to the DC-link through a bi-directional converter. The BES enables operation of the system in islanded mode. The system is evaluated using Matlab-Simulink software. The system behavior is evaluated under both grid connected and standalone modes of operation along with transition between both the modes. The performance is further evaluated under PCC voltage sags/swells, irradiation variation and load removal conditions.

Published
2018

20. Simulation and Analysis of Pulse Power Supply for Mercury-free Plasma UV-lamp

Author

Brijendra Kumar Verma, Subhash Kumar Ram, Sachin Devassy, Ajeet Kumar Dhakar, Anand Abhishek, and Vivek Kumar Saini

Subjects
Pulse repetition frequency, Materials science, business.industry, Flyback converter, 020208 electrical & electronic engineering, Electrical engineering, Pulse duration, 02 engineering and technology, Power factor, Single-phase electric power, AC power, 01 natural sciences, 010305 fluids & plasmas, Pulse-amplitude modulation, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, business, Voltage
Abstract

This paper describes about the efficient design of pulse power supply for mercury-free plasma UV-lamp based applications. The single phase AC-DC Unity Power Factor (UPF) converter along with flyback converter is employed to design efficient and high voltage pulse power supply. The system has fixed Pulse Repetition Frequency (PRF), Pulse Duration (T on ) and pulse amplitude. Design and analysis of pulse power supply with output voltage of -5kV and output current of 2.5A with PRF (25 kHz) and T on (2 μs), fed from single phase AC voltage is presented. To verify the proposed design, the topology is simulated in MATLAB and simulation results on resistive load are presented in the paper.

Published
2018

21. Control of Renewable Energy Integrated Universal Active Filter for Modern Distribution Systems

Author

Bhim Singh and Sachin Devassy

Subjects
Nonlinear system, Steady state, Three-phase, Computer science, Control theory, 020209 energy, Component (UML), 0202 electrical engineering, electronic engineering, information engineering, Phase (waves), 02 engineering and technology, Active filter, Power (physics), Voltage
Abstract

This work proposes a novel control technique for the control of universal active power filter with distribution generation capabilities (UAPF-DG). The proposed technique uses a complex filter to estimate the per phase active component of load current in a three phase system. The methodology uses complex filter to obtain fundamental balanced positive sequence component of distorted load current. This is used in reference generation of shunt active filter of UAPF-DG. This technique is inherently a three phase technique and involves lower computational burden The UAPF-DG system regulates the voltage of sensitive loads while simultaneously compensating the nonlinear load currents, thus achieving unity power at point of common coupling (PCC). The performance of the proposed system is validated on an experimental setup and tested for its response under conditions of load unbalance, voltage rise/dip and variation in solar irradiation.

Published
2018

22. Study and Simulation of Single-Phase to Three-Phase UPF System for Agricultural Applications

Author

Ajeet Kumar Dhakar, Brijendra Kumar Verma, Subhash Kumar Ram, Anand Abhishek, and Sachin Devassy

Subjects
Total harmonic distortion, Computer science, 020208 electrical & electronic engineering, 020302 automobile design & engineering, 02 engineering and technology, Power factor, 0203 mechanical engineering, Three-phase, Control theory, Boost converter, 0202 electrical engineering, electronic engineering, information engineering, Inverter, Voltage source, Pulse-width modulation, Voltage
Abstract

This paper describes simulation and design of single-phase to three-phase UPF system for agricultural/household applications. The average current mode control (ACMC) technique is used for Unity Power Factor (UPF) correction of single phase AC-DC boost converter. A comprehensive study and analysis of single-phase to three-phase converter with UPF operation is presented. Closed loop control of single phase AC-DC UPF boost converter is designed. The three phase voltage source inverter with Sinusoidal Pulse Width Modulation (SPWM) technique has been used for dc to 3-phase ac conversion. The voltage mode control of three-phase voltage source SPWM inverter have been designed and simulated. The complete system with the integration of single-phase and three-phase converter has been simulated. The simulation results with their performance such as power factor (pf), Total Harmonic Distortion (THD) and efficiency have been analysed. The simulation results on resistive load is presented in this paper.

Published
2018

23. Performance Evaluation of PV Integrated DSTATCOM Based on Complex Variable Filter

Author

Anand Abhishek, Ajeet Kumar Dhakar, Brijendra Kumar Verma, Subhash Kumar Ram, and Sachin Devassy

Subjects
Computer science, 020208 electrical & electronic engineering, Photovoltaic system, 020206 networking & telecommunications, 02 engineering and technology, Maximum power point tracking, Power (physics), Control theory, Cascade, Filter (video), Integrator, Boost converter, 0202 electrical engineering, electronic engineering, information engineering, Inverter
Abstract

Extraction of fundamental active component of load current is the key for any distribution static compensator (DSTATCOM). In this study, a control technique based upon complex variable filter and second order generalized integrator (SOGI) has been used for single phase photovoltaic integrated distribution static compensator (PV-DSTATCOM). Active component of load current is extracted with the help of a filter and it is used to control the pulses of DSTATCOM. A two stage system consisting of a full bridge boost converter in cascade with an inverter is taken to model a DSTATCOM. Power is drawn maximally from the PV panel. Dynamic conditions like step load change and linear irradiation change have been employed to study the performance of the system for this control strategy.

Published
2018

24. Discrete SOGI based control of solar photovoltaic integrated unified power quality conditioner

Author

Sachin Devassy and Bhim Singh

Subjects
Engineering, business.industry, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, 02 engineering and technology, Grid, Maximum power point tracking, Band-pass filter, Control theory, Duty cycle, Integrator, 0202 electrical engineering, electronic engineering, information engineering, business, Shunt (electrical), Voltage
Abstract

A discrete second order generalized integrator (DSOGI) based control is presented in this work for control of solar photovoltaic integrated unified power quality conditioner (SPV-UPQC). Two DSOGI based band-pass filters are used to extract fundamental positive sequence component (FPSC) of unbalanced grid voltages. The shunt compensator of SPV-UPQC is controlled based on philosophy of drawing balanced positive sequence currents (BPSC) from the point of common coupling (PCC). The shunt compensator has the dual function of compensating for load power quality issues along with injecting power from solar photovoltaic (SPV) array. Sensitive loads are protected against grid voltage fluctuations such as voltage sags/swells etc with the help of the series compensator of SPV-UPQC. A step-up DC-DC converter is used for coupling SPV array to the DC-bus of SPV-UPQC. A Maximum power point tracking (MPPT) algorithm generates appropriate duty cycle for the dc-dc converter so that the SPV array is operated at its peak power. The performance of DSOGI based SPV-UPQC is simulated in Matlab-Simulink environment and tested under dynamic conditions of grid voltage disturbances, load disturbances and solar irradiation variation.

Published
2016

25. PLL-less d-q control of solar PV integrated UPQC

Author

Sachin Devassy and Bhim Singh

Subjects
Engineering, business.industry, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, 02 engineering and technology, AC power, Maximum power point tracking, Harmonic analysis, Phase-locked loop, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Voltage regulation, business, Active filter, Voltage
Abstract

A novel and computationally efficient method for d-q control of solar photovoltaic (SPV) integrated UPQC (PV-UPQC) is presented in this paper. A digital filter is used to extract fundamental positive sequence (FPS) component of distorted grid voltage which is used to generate the sine and cosine values necessary in d-q based control. The shunt compensator of PV-UPQC compensates for the load side power quality issues along with injecting active power from SPV array. The SPV array is integrated to the DC-bus of the PV-UPQC through a step up DC-DC converter. The step up converter is controlled by maximum power point tracking (MPPT) algorithm which extracts peak power available from the PV array. The control of series compensator of PV-UPQC which compensates for grid side power quality issues is such that the voltage is injected in-phase with grid voltage. The algorithm is implemented in a three-phase four-wire UPQC consisting of three leg series compensator and four leg shunt compensator. The system is simulated in Matlab-Simulink environment using a combination of nonlinear current fed load and a single phase linear load. The dynamic performance of the system is analyzed under conditions of grid voltage sag/swell, irradiation variation and load disturbances.

Published
2016

26. Discrete adaptive notch filter based single phase solar PV integrated UPQC

Author

Bhim Singh and Sachin Devassy

Subjects
Engineering, business.industry, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, 02 engineering and technology, AC power, Band-stop filter, Grid, Maximum power point tracking, Control theory, Harmonics, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, business, Shunt (electrical), Voltage
Abstract

In this paper, a digital adaptive notch filter (DANF) based control algorithm is presented for a solar photovoltaic integrated unified power quality conditioner (PV-UPQC). Two DANFs are used for extraction of fundamental active current amplitude and also fundamental grid voltage template. The PV array is integrated directly to the DC-link of PV-UPQC. The shunt compensator compensates for the load current harmonics and also supplies active power from PV array into the grid while maintaining DC-link voltage. The series compensator of PV-UPQC compensates for grid voltage sags and swells. The PV-UPQC system is modeled and its performance is simulated in Matlab-Simulink under dynamic conditions such as irradiation variation and grid voltage sag/swell.

Published
2016

27. Design and performance analysis of three-phase solar PV integrated UPQC

Author

Sachin Devassy and Bhim Singh

Subjects
Engineering, Switched-mode power supply, business.industry, 020209 energy, 020208 electrical & electronic engineering, Photovoltaic system, Static VAR compensator, Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, Power factor, AC power, Voltage optimisation, Industrial and Manufacturing Engineering, Maximum power point tracking, Solar micro-inverter, Control and Systems Engineering, Control theory, Harmonics, Distributed generation, 0202 electrical engineering, electronic engineering, information engineering, Grid-connected photovoltaic power system, Electronic engineering, Voltage regulation, Electrical and Electronic Engineering, business
Abstract

This paper deals with the design and performance analysis of a three-phase single stage solar photovoltaic integrated unified power quality conditioner (PV-UPQC). The PV-UPQC consists of a shunt and series-connected voltage compensators connected back-to-back with common dc-link. The shunt compensator performs the dual function of extracting power from PV array apart from compensating for load current harmonics. An improved synchronous reference frame control based on moving average filter is used for extraction of load active current component for improved performance of the PV-UPQC. The series compensator compensates for the grid side power quality problems such as grid voltage sags/swells. The compensator injects voltage in-phase/out of phase with point of common coupling (PCC) voltage during sag and swell conditions, respectively. The proposed system combines both the benefits of clean energy generation along with improving power quality. The steady state and dynamic performance of the system are evaluated by simulating in MATLAB-Simulink under a nonlinear load. The system performance is then verified using a scaled down laboratory prototype under a number of disturbances such as load unbalancing, PCC voltage sags/swells, and irradiation variation.

Published
2016

28. Enhancement of power quality using solar PV integrated UPQC

Author

Bhim Singh and Sachin Devassy

Subjects
Engineering, Switched-mode power supply, Control theory, business.industry, Boost converter, Photovoltaic system, Grid-connected photovoltaic power system, Voltage source, Voltage optimisation, AC power, business, Maximum power point tracking
Abstract

This paper deals with the mitigation of grid-side and load-side power quality problems using a single-phase solar PV integrated UPQC (PV-UPQC). The solar PV array (SPV) is interfaced with the DC-link of UPQC using a simple boost DC-DC converter. The shunt VSC of the UPQC compensates for the load power quality problems such as load current harmonics and reactive power. Apart from this, the shunt voltage source (VSC) supplies the active power from the SPV into the grid while maintaining the DC-link voltage at a preset voltage level. The series VSC compensates for the grid-side voltage power quality problems such as voltage sags/swells and harmonics so that the critical loads receive sinusoidal voltage supply. The boost converter operates the PV array at MPP to extract maximum power. The performance of PV-UPQC with a combination of linear and nonlinear loads is simulated at conditions of varying irradiation and grid voltage disturbances using Matlab-Simulink.

Published
2015

29. Dynamic performance of solar PV integrated UPQC-P for critical loads

Author

Sachin Devassy and Bhim Singh

Subjects
Engineering, business.industry, Control theory, Voltage divider, Boost converter, Photovoltaic system, Electrical engineering, Grid-connected photovoltaic power system, Voltage regulation, Voltage optimisation, business, Maximum power point tracking, Constant power circuit
Abstract

This paper deals with the dynamic performance of a solar PV array integrated UPQC-P (SPV-UPQC-P) for use along with critical loads. The shunt compensator of SPV-UPQC-P is connected across the load and compensates for reactive power along with supplying the power from PV array into the grid. The series converter of SPV-UPQC-P compensates for the sags and swells in utility grid voltage. A suitable voltage is injected in phase with the grid voltage which enables to compensate sag or swell with minimum voltage. Solar PV array is integrated with DC-link of the SPV-UPQC-P using a simple DC-DC boost converter. The operation of the system is demonstrated under under various conditions such as varying irradiation, voltage sags and swells and step change in load using Matlab-Simulink environment.

Published
2015

30. Robust stabilizing digital controller for soft-switching zero voltage turn-ON H-bridge boost converter

Author

Mummadi Veerachary and Sachin Devassy

Subjects
Engineering, Control theory, business.industry, Boost converter, Ćuk converter, Open-loop controller, Buck–boost converter, Electronic engineering, PID controller, Digital control, H bridge, business
Abstract

In this paper a digital PID controller is designed for an H-bridge soft-switching boost converter. The digital PID controller is designed analytically using the discrete-time transfer function of the converter. Using this method, the PID controller gain range is obtained as a set of inequalities in two variables for a fixed third variable. By plotting the region enclosed by the inequalities the controller stabilizing region is obtained. By sweeping the third variable over its entire range, the complete stabilizing sets are obtained. The closed loop performance of the converter with the designed digital PID controller is simulated in Matlab-Simulink. A 75 Watt, 24 to 42 V, 50 kHz laboratory prototype closed-loop converter has been developed and then tested to validate the proposed digital controller design of the zero voltage turn-ON soft-switching boost converter.

Published
2010

31. Digital voltage-mode controller for soft-switching ZVT-ON boost converter

Author

Mummadi Veerachary and Sachin Devassy

Subjects
Engineering, business.industry, Open-loop controller, Converters, Transfer function, Control theory, Boost converter, Electronic engineering, Digital control, Robust control, MATLAB, business, computer, computer.programming_language
Abstract

In this paper analysis and robust stabilizing digital controller design for a zero-voltage turn-ON boost converter (ZVTBC) is presented. The steady-state performance and zero-voltage switch-ON methodology has been analyzed and then its state-space models are formulated to obtain the small-signal models. These linearized models are then used in the design of digital voltage-mode controller. A loopgain is defined and then adapted while designing the digital controller. The digital controller is designed through redesign procedure and pole-zero placement technique. Closed-loop performance of the ZVTBC is analyzed. Firstly, the results of controller design and closed-loop analysis are illustrated through MATLAB computer simulations for 42 V applications and then verified using time-domain dynamic response analysis results. A 75 Watt, 24 to 42 V, 50 kHz laboratory prototype closed-loop converter has been and then tested to validate the proposed digital controller design of the ZVTBC.

Published
2010

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