A high efficiency non isolated buck-boost converter based on zeta converterAsoka Technologies
In this paper, a new transformerless buck-boost converter based on ZETA converter is introduced. The proposed converter has the ZETA converter advantages such as, buck-boost capability, input to output DC insulation and continuous output current. The suggested converter voltage gain is higher than the classic ZETA converter. In the presented converter, only one main switch is utilized. The proposed converter offers low voltage stress of the switch; therefore, the low on-state resistance of the main switch can be selected to decrease losses of the switch. The presented converter topology is simple; hence, the control of the converter is simple. The converter has the continuous output current. The mathematical analyses of the presented converter are given. The experimental results confirm the correctness of the analysis.
A high efficiency non isolated buck-boost converter based on zeta converterAsoka Technologies
In this paper, a new transformerless buck-boost converter based on ZETA converter is introduced. The proposed converter has the ZETA converter advantages such as, buck-boost capability, input to output DC insulation and continuous output current. The suggested converter voltage gain is higher than the classic ZETA converter. In the presented converter, only one main switch is utilized. The proposed converter offers low voltage stress of the switch; therefore, the low on-state resistance of the main switch can be selected to decrease losses of the switch. The presented converter topology is simple; hence, the control of the converter is simple. The converter has the continuous output current. The mathematical analyses of the presented converter are given. The experimental results confirm the correctness of the analysis.
Hybrid topology of asymmetric cascaded multilevel inverter with renewable ene...Asoka Technologies
This paper presents a binary topology of Multimodule level inverters produce a staircase output voltage from renewable DC voltage sources. The MLI (Multi Level Inverter) Requires many number of semiconductor switches is main drawback of multilevel inverters. The MLI can be classified as two method, one is symmetric and another asymmetric converters. In symmetrical multilevel inverter can apply same voltage level to all cascaded circuit, in asymmetric multilevel inverters can be vary input source voltage at each cascaded H-bridge by using binary algorithm. In this paper, a discrete binary topology for multilevel converters is proposed using cascaded sub-multilevel Cells. This sub-multilevel converter can produce sixty three levels of voltage from five discrete DC source. The Total Harmonic Distortions (THD) is minimized by discrete binary topology. The working operation and performance of the proposed multilevel inverters studies has been verified by simulation of using SIMULINK / MA TLAB results.
Abstract This paper deals with the operation of the separately excited dc-drive in each of the four quadrants which is fed by symmetrical multi pulse modulated signal, leads to improved power quality by using single-phase, dual AC-DC buck converter. Here the armature control of the dc drive with constant load torque is considered in both forward and reverse directions in the motoring and generating actions. When a variable load condition occur the load voltage get changed, simultaneously other parameters such as torque, speed at load side and voltage, current profiles at source side get affected. Due to which there is lot of distortion in the sending end parameters. To overcome these drawbacks the essential variables are analyzed by feeding these variables back to the converter switches, which regulates the output voltage, fed to separately excited DC-Drive, which indicates that, at the ac interface the harmonic profile of the separately excited dc drive fed by the improved power quality dual converter is achieved using closed loop system. Keywords: AC-DC Buck Converter, Power Quality, Closed Loop, PI Controller, Symmetrical Multipulse Modulation (SMM) etc.
A Prototype model of Field Programmable Gate Array (FPGA) Based Nine Level Cascaded Multilevel Inverter is to be designed and Implemented to produce AC output voltage of desired magnitude and frequency.
Power point of automatic power factor controllerSatyapal Singh
Green Dot Electric Limited has developed a Variac Based Power Factor Panel. A Motorised
Variable Transformer ( the Motorised Dimmer Dot ) is used a source of Variable Voltage
that is applied to the required value of Capacitance rated for 440 Volts or so.
Comparative analysis of multilevel inverter topologies for induction motor dr...eSAT Journals
Abstract Induction motors are widely used in industries, because they are rugged, reliable and economical and hence they are called as work horse power of industry. Induction motor drive requires suitable converters to get the required speed and torque without or negligible ripples. Multilevel inverters can do this job. But the conventional MLIs such as Diode Clamped MLIs requires extra diodes in conjunction with the active switches, Flying capacitor MLIs requires extra Capacitors and control also difficult if the levels increases and the Cascaded H-bridge MLIs requires separate dc sources which limits its use. This paper proposes a new type of multi level Inverter which converts the dc into ac using less number of switches when compared to conventional multilevel Inverters. The proposed Inverter uses only seven switches to get 13-level output voltage compared conventional cascaded H-bridge uses twelve switches. The comparison between the conventional MLIs and proposed inverter is presented in this paper. Finally the induction motor using proposed inverter with thirteen level is simulated using Matlab/Simulink environment and the corresponding results are presented in this paper. Keywords- Grid interconnection, PV system, MLI, Renewable energy sources (RES).
Power Quality Improvement Using A DVR (Dynamic Voltage Restorer)
ABSTRACT
Power quality is one of major problems in the today’s scenario. It has become important with the introduction of complex devices, whose performance is very sensitive to the quality of power supply. Power quality problem is an occurrence developed as a nonstandard voltage, current or frequency that results in a failure of end use equipment. Some of the major problems dealt here is the power sag and swell. This paper describes the effectiveness of using dynamic voltage restorer (DVR) in order to mitigate voltage sags and swells in low voltage distribution systems. Dynamic Voltage Restorer can provide the most cost effective solution to mitigate voltage sags and swells that is required by customer. The Dynamic Voltage Restorer (DVR) is a rapid, flexible and resourceful solution to power quality problems.
Analysis of Power Factor Improvement Techniques in case of Non Linear System ...Kaustubh Nande
The presentation provides a brief overview of the technology employed to eliminate the power factor reduction caused by non linear loads in the network.
Hybrid topology of asymmetric cascaded multilevel inverter with renewable ene...Asoka Technologies
This paper presents a binary topology of Multimodule level inverters produce a staircase output voltage from renewable DC voltage sources. The MLI (Multi Level Inverter) Requires many number of semiconductor switches is main drawback of multilevel inverters. The MLI can be classified as two method, one is symmetric and another asymmetric converters. In symmetrical multilevel inverter can apply same voltage level to all cascaded circuit, in asymmetric multilevel inverters can be vary input source voltage at each cascaded H-bridge by using binary algorithm. In this paper, a discrete binary topology for multilevel converters is proposed using cascaded sub-multilevel Cells. This sub-multilevel converter can produce sixty three levels of voltage from five discrete DC source. The Total Harmonic Distortions (THD) is minimized by discrete binary topology. The working operation and performance of the proposed multilevel inverters studies has been verified by simulation of using SIMULINK / MA TLAB results.
Abstract This paper deals with the operation of the separately excited dc-drive in each of the four quadrants which is fed by symmetrical multi pulse modulated signal, leads to improved power quality by using single-phase, dual AC-DC buck converter. Here the armature control of the dc drive with constant load torque is considered in both forward and reverse directions in the motoring and generating actions. When a variable load condition occur the load voltage get changed, simultaneously other parameters such as torque, speed at load side and voltage, current profiles at source side get affected. Due to which there is lot of distortion in the sending end parameters. To overcome these drawbacks the essential variables are analyzed by feeding these variables back to the converter switches, which regulates the output voltage, fed to separately excited DC-Drive, which indicates that, at the ac interface the harmonic profile of the separately excited dc drive fed by the improved power quality dual converter is achieved using closed loop system. Keywords: AC-DC Buck Converter, Power Quality, Closed Loop, PI Controller, Symmetrical Multipulse Modulation (SMM) etc.
A Prototype model of Field Programmable Gate Array (FPGA) Based Nine Level Cascaded Multilevel Inverter is to be designed and Implemented to produce AC output voltage of desired magnitude and frequency.
Power point of automatic power factor controllerSatyapal Singh
Green Dot Electric Limited has developed a Variac Based Power Factor Panel. A Motorised
Variable Transformer ( the Motorised Dimmer Dot ) is used a source of Variable Voltage
that is applied to the required value of Capacitance rated for 440 Volts or so.
Comparative analysis of multilevel inverter topologies for induction motor dr...eSAT Journals
Abstract Induction motors are widely used in industries, because they are rugged, reliable and economical and hence they are called as work horse power of industry. Induction motor drive requires suitable converters to get the required speed and torque without or negligible ripples. Multilevel inverters can do this job. But the conventional MLIs such as Diode Clamped MLIs requires extra diodes in conjunction with the active switches, Flying capacitor MLIs requires extra Capacitors and control also difficult if the levels increases and the Cascaded H-bridge MLIs requires separate dc sources which limits its use. This paper proposes a new type of multi level Inverter which converts the dc into ac using less number of switches when compared to conventional multilevel Inverters. The proposed Inverter uses only seven switches to get 13-level output voltage compared conventional cascaded H-bridge uses twelve switches. The comparison between the conventional MLIs and proposed inverter is presented in this paper. Finally the induction motor using proposed inverter with thirteen level is simulated using Matlab/Simulink environment and the corresponding results are presented in this paper. Keywords- Grid interconnection, PV system, MLI, Renewable energy sources (RES).
Power Quality Improvement Using A DVR (Dynamic Voltage Restorer)
ABSTRACT
Power quality is one of major problems in the today’s scenario. It has become important with the introduction of complex devices, whose performance is very sensitive to the quality of power supply. Power quality problem is an occurrence developed as a nonstandard voltage, current or frequency that results in a failure of end use equipment. Some of the major problems dealt here is the power sag and swell. This paper describes the effectiveness of using dynamic voltage restorer (DVR) in order to mitigate voltage sags and swells in low voltage distribution systems. Dynamic Voltage Restorer can provide the most cost effective solution to mitigate voltage sags and swells that is required by customer. The Dynamic Voltage Restorer (DVR) is a rapid, flexible and resourceful solution to power quality problems.
Analysis of Power Factor Improvement Techniques in case of Non Linear System ...Kaustubh Nande
The presentation provides a brief overview of the technology employed to eliminate the power factor reduction caused by non linear loads in the network.
Analysis of symmetrical & asymmetrical pwm based three phase ac to ac con...eSAT Journals
Abstract
A Three phase bidirectional AC to AC buck converter circuit using power MOSFET operating in high frequency chopping mode is simulated and analyzed for electrical parameters such as output phase voltage, input line current, input power factor, harmonic profile and efficiency using MATLAB/simulink software package. The various PWM techniques such as symmetrical ramp-DC PWM (SRDPWM), asymmetrical ramp-triangular PWM (ARTPWM), asymmetrical sinusoidal PWM type-1 [ASPWM1] and asymmetrical sinusoidal PWM type-2 [ASPWM2] techniques are adopted to analyze the harmonic profile, input power factor and efficiency of the converter. The rms value of the output phase voltage, output line current and source current can be significantly increased by varying the duty ratio K in case of symmetrical PWM control strategy and modulation index MI in case of asymmetrical PWM control strategies independent of variation in switching frequency. It is observed from the simulation results that the ASPWM1 switching strategy gives more output phase voltage, input power factor, efficiency by increasing modulation index MI and reduced low order harmonics of output voltage and source current by increasing the number of pulses per half cycle P compared to other PWM techniques rendering easy and economical filteration.
Keywords: Three phase AC chopper, symmetrical ramp-DC PWM, asymmetrical ramp-triangular PWM, asymmetrical sinusoidal PWM technique, harmonic profile, power factor, efficiency
Analysis of symmetrical & asymmetrical pwm based three phase ac to ac con...eSAT Journals
Abstract
A Three phase bidirectional AC to AC buck converter circuit using power MOSFET operating in high frequency chopping mode is simulated and analyzed for electrical parameters such as output phase voltage, input line current, input power factor, harmonic profile and efficiency using MATLAB/simulink software package. The various PWM techniques such as symmetrical ramp-DC PWM (SRDPWM), asymmetrical ramp-triangular PWM (ARTPWM), asymmetrical sinusoidal PWM type-1 [ASPWM1] and asymmetrical sinusoidal PWM type-2 [ASPWM2] techniques are adopted to analyze the harmonic profile, input power factor and efficiency of the converter. The rms value of the output phase voltage, output line current and source current can be significantly increased by varying the duty ratio K in case of symmetrical PWM control strategy and modulation index MI in case of asymmetrical PWM control strategies independent of variation in switching frequency. It is observed from the simulation results that the ASPWM1 switching strategy gives more output phase voltage, input power factor, efficiency by increasing modulation index MI and reduced low order harmonics of output voltage and source current by increasing the number of pulses per half cycle P compared to other PWM techniques rendering easy and economical filteration.
Keywords: Three phase AC chopper, symmetrical ramp-DC PWM, asymmetrical ramp-triangular PWM, asymmetrical sinusoidal PWM technique, harmonic profile, power factor, efficiency
In present days of electrical industries, adjustable speed controlled induction
motor drives are very common due to its versatile features. For the speed control of induction
motor, variable frequency sources are the heart of such drives. To attain variable frequency
and variable voltage supply a power electronics device; single phase matrix converter is
proposed.
In this paper, the single phase matrix converter is modeled in MATLAB Simulink
environment; controlled with sinusoidal pulse width modulation technique, control scheme is
implemented in a Xilinx system generator environment and interfaced with power circuit in
MATLAB Simulink. Analyses this SPMC with different type of loads in both frequency step
up and step down modes. Based on simulation results, this converter is suitable for variable
frequency power supplies, varying load conditions and variable speed electrical drives.
FPGA control is best suitable for controlling a circuit like SPMC, consists of more
controlled elements to attain fast operation.
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Report On diode clamp three level inverterVinay Singh
three level diode clamp inverter. that converts any type of DC ( rectified, PV cell, battery etc.) to AC supply. we made by mosfet and ardiuno . in this ppt we present the Simulink model of a three-level inverter and the hardware reort of the inverter.
also discuss about other level inverter and there THD analysis, simulink model and detail. compression between another inverter.
DOTNET/JAVA/MATLAB/VLSI/NS2/EMBEDDED IEEE 2014 PROJECTS FOR ME/BE/B.TECH STUDENTS. FINAL YEAR 2014 PROJECTS FOR CSE/IT/ECE/EEE/ STUDENTS IN CHENNAI (S3 INFOTECH : 09884848198).
Final year IEEE 2014 projects for BE, BTech, ME, MTech &PHD Students (09884848198 : S3 Infotech)
Dear Students,
Greetings from S3 INFOTECH (0988 48 48 198). We are doing Final year (IEEE & APPLICATION) projects in DOTNET, JAVA, MATLAB, ANDROID, VLSI, NS2, EMBEDDED SYSTEMS and POWER ELECTRONICS.
For B.E, M.E, B.Tech, M.Tech, MCA, M.Sc, & PHD Students.
We implement your own IEEE concepts also in ALL Technologies. We are giving support for Journal Arrangement & Publication also.
Send your IEEE base paper to yes3info@gmail.com (or) info@s3computers.com.
To Register your project: www.s3computers.com
We are providing Projects in
• DOT NET
• JAVA / J2EE / J2ME
• EMBEDDED & POWER ELECTRONICS
• MATLAB
• NS2
• VLSI
• NETWORKING
• HADOOP / Bigdata
• Android
• PHP
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
05 9236 it landsman converter based particle edit putriIAESIJEECS
This paper proposes a novel control technique for landsman converter using particle swarm
optimization. The controller parameters are optimized by pso algorithm, the proposed algorithm is
compared with PID controller and the comparative results are presented. Simulation results shows the
dynamic performance of pso controller. Landsman converter reduction in output voltage ripple in the order
of mV along with reduced settling time as compared to the conventional PID controller. The simulated
results are executed in MATLAB/SIMULINK.
Bridgeless CUK Power Factor Corrector with Regulated Output Voltagepaperpublications3
Abstract:A single-phase, bridgeless Cuk AC/DC power factor correction (PFC) rectifier with regulated positive output voltage is proposed in this work. For low output voltage product applications, the rectifier is designed to convert high input voltage to low output voltage. This work presents bridgeless single-phase AC-DC power factor correction (PFC) rectifier based on Cuk topology. The topology does not possess input diode bridge and have only single semiconductor switches in the current owing path during each interval of the switching cycle, which resulting in less conduction losses and better thermal management. This topology is designed to work in discontinuous conduction mode (DCM). The advantages of Cuk converter are also available when bridgeless circuit topology is introduced. The operation is symmetrical in two half-line cycles of input voltage. In conventional, output voltage varies according to input voltage. A closed loop control technique is designed to regulate the output voltage in the desired level. Performance and applicability of this converter is presented on the basis of simulation in MATLAB/SIMULINK.
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Soft Switching Power Electronics Projects Research Assistance
1. S O F T S W I T C H I N G P O W E R
E L E C T R O N I C S P R O J E C T S
www.matlabsimulation.com/soft-switching-power-electronics-projects/
2. Categories of Soft-Switching
These are the types which uses soft switching power electronics projects below,
On-demand time
estimation
Load
Current and voltage offset Input – Voltage
Current Defined time for transistor
3. Application of Circuit Project - Soft Switching
This application of circuit design devices which are listed below,
PV with grid inverters
CMOS drivers and also MOSFETs
PWM full bridge DC-DC converter
3-phase active power filter
Non-inverting Buck boost
converter
4. Approaches of Soft Switching - Power Electronics
These are the approaches which uses soft switching power electronics projects below,
Optimal frequency critic
Single and two stage switching
Bidirectional and parallel
Passive compensation
method
Chaotic soft
switching