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Power Electronics Lab 12 - CEP
Discuss and Perform the Simulation of UPS using semiconductor devices in Multisim.
Objectives:
Students will practice individually and in groups to complete CEP project. The objectives of this lab are:
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Discuss and Perform the Simulation of UPS using semiconductor devices in Multisim.
Objectives:
Students will practice individually and in groups to complete CEP project. The objectives of this lab are:
- To Perform the Simulation of UPS using semiconductor devices in Multisim.
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Power Electronics Lab 11 - CEP
Discuss and Perform the Hardware/Simulation of Cuk Converter for DC motor speed conntrol in Bicycle using semiconductor devices in Multisim.
Objectives:
Students will practice individually and in groups to complete CEP project. The objectives of this lab are:
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Discuss and Perform the Hardware/Simulation of Cuk Converter for DC motor speed conntrol in Bicycle using semiconductor devices in Multisim.
Objectives:
Students will practice individually and in groups to complete CEP project. The objectives of this lab are:
- To Perform the Hardware/Simulation of Cuk Converter for DC motor speed conntrol in Bicycle using semiconductor devices in Multisim.
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Power Electronics Lab 10 - CEP
Discuss and Perform the Simulation of Cuk Converter for DC motor speed conntrol in Bicycle using semiconductor devices in Multisim.
Objectives:
Students will practice individually and in groups to complete CEP project. The objectives of this lab are:
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Discuss and Perform the Simulation of Cuk Converter for DC motor speed conntrol in Bicycle using semiconductor devices in Multisim.
Objectives:
Students will practice individually and in groups to complete CEP project. The objectives of this lab are:
- To Perform the Simulation of Cuk Converter for DC motor speed conntrol in Bicycle using semiconductor devices in Multisim.
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Complex Engineering Problem (CEP)
Design, simulation and hardware implementation of power converters.
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Design, simulation and hardware implementation of power converters.
Download CEP details
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Power Electronics Lab 9 - To discuss and Perform Cuk Converters in Multisim
Discuss and Perform the Simulation of Cuk Converter using semiconductor devices in Multisim.
Objectives:
The objectives of this lab are:
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Discuss and Perform the Simulation of Cuk Converter using semiconductor devices in Multisim.
Objectives:
The objectives of this lab are:
- To Perform the Simulation of Cuk Converter using semiconductor devices in Multisim.
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Power Electronics Lab 8 - To discuss and Perform Simulation of Buck and Boost Converters in Multisim
Discuss and Perform the Simulation of Buck Converter and Boost converter using semiconductor devices.
Objectives:
The objectives of this lab are:
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Discuss and Perform the Simulation of Buck Converter and Boost converter using semiconductor devices.
Objectives:
The objectives of this lab are:
- To Perform the Simulation of Boost Converter in Multisim by designing the Boost converters with given input data and find ripple voltage and ripple currents etc.
- To Perform the Simulation of Buck Converter in Multisim by designing the Boost converters with given input data and find ripple voltage and ripple currents etc.
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Power Electronics Lab 7 - To discuss and Perform Power Thyristor in Multisim
Discuss and Perform the characteristic of power Thyristor: Its conduction loss, characteristic curves, conduction loss, potential applications, device limitations using Multisim.
Objectives:
The objectives of this lab are:
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Discuss and Perform the characteristic of power Thyristor: Its conduction loss, characteristic curves, conduction loss, potential applications, device limitations using Multisim.
Objectives:
The objectives of this lab are:
- To Perform the characteristic of power Thyristor: Its conduction loss, characteristic curves, Fan dimmer circuit, potential applications, device limitations using Multisim.
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Power Electronics Lab 6 - To discuss and Perform IGBT Characteristics, conduction & switching loss in Multisim
Discuss and Perform the characteristic of power IGBT: Its conduction loss, characteristic curves, identifying device operation modes, safe operating area (SOA), switching speed (rise time/fall time), conduction and switching losses, potential applications, device limitations.
Objectives:
The objectives of this lab are:
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Discuss and Perform the characteristic of power IGBT: Its conduction loss, characteristic curves, identifying device operation modes, safe operating area (SOA), switching speed (rise time/fall time), conduction and switching losses, potential applications, device limitations.
Objectives:
The objectives of this lab are:
- To Perform input and output Characteristic curves, define SOA, and modes of operation.
- To Perform comparison for switching speed (rise time/fall time), conduction & switching losses and general applications of IGBT with BJT and MOSFET using Multisim.
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Power Electronics Lab 5 - To discuss and Perform BJT Characteristics, conduction & switching loss in Multisim
Discuss and Perform the characteristic of power BJT: Its conduction loss, characteristic curves, identifying device operating modes, safe operating area (SOA), conduction and switching losses, potential applications, device limitations.
Objectives:
The objectives of this lab are:
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Discuss and Perform the characteristic of power BJT: Its conduction loss, characteristic curves, identifying device operating modes, safe operating area (SOA), conduction and switching losses, potential applications, device limitations.
Objectives:
The objectives of this lab are:
- To Perform input and output Characteristic curves, define SOA, and modes of operation..
- To Perform comparison for conduction & switching losses and general applications of BJT and MOSFET using Multisim.
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Power Electronics Lab 4 - To discuss and Perform SPDT Boost Converter for Inductor volt balance and capacitor charge balance in Multisim
Discuss and Perform Inductor volt balance and capacitor charge balance for SPDT Boost Converter.
Objectives:
The objectives of this lab are:
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Discuss and Perform Inductor volt balance and capacitor charge balance for SPDT Boost Converter.
Objectives:
The objectives of this lab are:
- To discuss and Perform boost converter design.
- To Perform Observation of the effect of the changing switching frequency and the values of capacitor/inductor on ripple voltage and ripple current in boost converter.
- To Perform Verification of the concept of inductor volt balance and capacitor charge balance on DC-to-DC boost converter (using SPDT).
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Power Electronics Lab 3 - To discuss and Perform characteristic curves, conduction and switching loss of MOSFET in Multisim
Discuss and Perform the characteristic of power MOSFET: Its conduction loss, characteristic curves, identifying device operating modes, safe operating area (SOA), conduction and switching losses, potential applications, device limitations.
Objectives:
The objectives of this lab are:
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Discuss and Perform the characteristic of power MOSFET: Its conduction loss, characteristic curves, identifying device operating modes, safe operating area (SOA), conduction and switching losses, potential applications, device limitations.
Objectives:
The objectives of this lab are:
- To Perform the characteristic curve of MOSFET and its safe operating area (SOA).
- To Perform the conduction and switching losses of MOSFET.
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Power Electronics Lab 2 - To Perform comparative analysis of general-purpose, fast switching and Schottky Barrier Diodes in Multisim
Perform comparative analysis of general-purpose, fast switching and Schottky Barrier Diodes: Their characteristics curves, switching speed (reverse recovery time), leakage current and conduction/switching losses.
Objectives:
The objectives of this lab are:
Download Attendance/Evaluation Report: (Note: Keep on visiting your attendance to avoid any short attendance issue)
Perform comparative analysis of general-purpose, fast switching and Schottky Barrier Diodes: Their characteristics curves, switching speed (reverse recovery time), leakage current and conduction/switching losses.
Objectives:
The objectives of this lab are:
- To Perform power comparison between conventional and Schottky diode
- To Perform the reverse recovery time of conventional and Schottky diode at high frequency.
- To Perform the power loss of conventional and Schottky diode.
- To Perform the reverse leakage current of conventional and Schottky diode.
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Power Electronics Lab 1 - To perform and follow the simulation guidelines during introduction to Multisim
Objectives:
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Objectives:
- Introduction to Multisim.
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Power Electronics Lab 13 - Unipolar modulation for full bridge inverter
Objectives: Implementation of unipolar modulation scheme for full bridge DC-AC inverter.
1. To Simulate and analyze full bridge DC-AC inverter in Multisim.
2. To Simulate and analyze full bridge DC-AC inverter in Matlab/Simulink.
Download Multisim Models
Download Matlab Models
Download Lab Evaluation
1. To Simulate and analyze full bridge DC-AC inverter in Multisim.
2. To Simulate and analyze full bridge DC-AC inverter in Matlab/Simulink.
Download Multisim Models
Download Matlab Models
Download Lab Evaluation
Power Electronics Lab 12 - Boost converter using feedback network
Objectives: Regulated output of boost converter using feedback network.
1. To Simulate and analyze closed loop boost converter in Multisim.
2. To Simulate and analyze closed loop boost converter in Matlab/Simulink.
Download Multisim Models
Download Matlab Models
1. To Simulate and analyze closed loop boost converter in Multisim.
2. To Simulate and analyze closed loop boost converter in Matlab/Simulink.
Download Multisim Models
Download Matlab Models
Power Electronics Lab 11 - Synchronous rectification in DC-to-DC buck converter
Objectives: Application and advantages of synchronous rectification in DC-to-DC buck converter.
1. To Simulate and analyze synchronous rectification in Multisim.
2. To Simulate and analyze single-phase normal vs Active or synchronous rectification in Matlab/Simulink.
3. To Simulate and analyze three-phase Active or synchronous rectification in Matlab/Simulink.
Download Multisim Models
Download Matlab Models (Single Phase)
Download Matlab Models (Three Phase)
1. To Simulate and analyze synchronous rectification in Multisim.
2. To Simulate and analyze single-phase normal vs Active or synchronous rectification in Matlab/Simulink.
3. To Simulate and analyze three-phase Active or synchronous rectification in Matlab/Simulink.
Download Multisim Models
Download Matlab Models (Single Phase)
Download Matlab Models (Three Phase)
Updated/Revised CLOs
Power Electronics Lab 10 - Inverter Design in Multisim and Matlab Simulink
Upload Lab Task Here
Objectives: Implementation of inverter circuit using current bi-directional two-quadrant switches.
1. To Simulate and analyze half-bridge inverter in Multisim.
2. To Simulate and analyze Single-phase Half-Bridge Inverter, Single Phase Full Bridge Inverter, and Three-phase Grid-Connected Inverter in Matlab/Simulink.
3. To design an LC filter.
4. To Simulate and analyze Open Loop vs Closed Loop Simulation of inverter in MATLAB/Simulink.
Download Multisim Models
Download Matlab Models
Download Multisim Models Part2
Download Sample Lab Report2
Objectives: Implementation of inverter circuit using current bi-directional two-quadrant switches.
1. To Simulate and analyze half-bridge inverter in Multisim.
2. To Simulate and analyze Single-phase Half-Bridge Inverter, Single Phase Full Bridge Inverter, and Three-phase Grid-Connected Inverter in Matlab/Simulink.
3. To design an LC filter.
4. To Simulate and analyze Open Loop vs Closed Loop Simulation of inverter in MATLAB/Simulink.
Download Multisim Models
Download Matlab Models
Download Multisim Models Part2
Download Sample Lab Report2
Complex Engineering Problem (CEP)
Power Electronics Lab 9 - Cuk converters in Multisim and Matlab
Objectives: Simulation and analysis of Cuk Converter using semiconductor devices.
1. To Simulate and analyze Boost Converter in Multisim. To design Boost converters with given input data. To find ripple voltage and ripple currents etc.
2. To Simulate and analyze Boost Converter in Matlab/Simulink. To design Boost converters with given input data. To find ripple voltage and ripple currents etc.
3. To Simulate and analyze Buck Converter in Multisim. To design Buck converters with given input data. To find ripple voltage and ripple currents etc.
4. To Simulate and analyze Buck Converter in Matlab/Simulink. To design Buck converters with given input data. To find ripple voltage and ripple currents etc.
5. Open Loop and Closed Loop Simulation of BUCK Converter in MATLAB.
6. Open Loop and Closed Loop Simulation of BOOST Converter in MATLAB.
Download Multisim Models
Download Matlab Models
Download Tasks
Download Lab Evaluation
1. To Simulate and analyze Boost Converter in Multisim. To design Boost converters with given input data. To find ripple voltage and ripple currents etc.
2. To Simulate and analyze Boost Converter in Matlab/Simulink. To design Boost converters with given input data. To find ripple voltage and ripple currents etc.
3. To Simulate and analyze Buck Converter in Multisim. To design Buck converters with given input data. To find ripple voltage and ripple currents etc.
4. To Simulate and analyze Buck Converter in Matlab/Simulink. To design Buck converters with given input data. To find ripple voltage and ripple currents etc.
5. Open Loop and Closed Loop Simulation of BUCK Converter in MATLAB.
6. Open Loop and Closed Loop Simulation of BOOST Converter in MATLAB.
Download Multisim Models
Download Matlab Models
Download Tasks
Download Lab Evaluation
Power Electronics Lab 8 - Simulation of Buck and Boost converters in Multisim and Matlab
Objectives: Simulation and analysis of Buck Converter and Boost converter using semiconductor devices.
1. To Simulate and analyze Boost Converter in Multisim. To design Boost converters with given input data. To find ripple voltage and ripple currents etc.
2. To Simulate and analyze Boost Converter in Matlab/Simulink. To design Boost converters with given input data. To find ripple voltage and ripple currents etc.
3. To Simulate and analyze Buck Converter in Multisim. To design Buck converters with given input data. To find ripple voltage and ripple currents etc.
4. To Simulate and analyze Buck Converter in Matlab/Simulink. To design Buck converters with given input data. To find ripple voltage and ripple currents etc.
5. Open Loop and Closed Loop Simulation of BUCK Converter in MATLAB.
6. Open Loop and Closed Loop Simulation of BOOST Converter in MATLAB.
Download Multisim Models
Download Matlab Models
Download Additional Tasks
Download Sample Lab Report
Download Sample Lab Report2
Download Sample Lab Report2 Part2
Objectives: Simulation and analysis of Buck Converter and Boost converter using semiconductor devices.
1. To Simulate and analyze Boost Converter in Multisim. To design Boost converters with given input data. To find ripple voltage and ripple currents etc.
2. To Simulate and analyze Boost Converter in Matlab/Simulink. To design Boost converters with given input data. To find ripple voltage and ripple currents etc.
3. To Simulate and analyze Buck Converter in Multisim. To design Buck converters with given input data. To find ripple voltage and ripple currents etc.
4. To Simulate and analyze Buck Converter in Matlab/Simulink. To design Buck converters with given input data. To find ripple voltage and ripple currents etc.
5. Open Loop and Closed Loop Simulation of BUCK Converter in MATLAB.
6. Open Loop and Closed Loop Simulation of BOOST Converter in MATLAB.
Download Multisim Models
Download Matlab Models
Download Additional Tasks
Download Sample Lab Report
Download Sample Lab Report2
Download Sample Lab Report2 Part2
Power Electronics Lab 7 - Inductor volt balance and capacitor charge balance
Objectives:
- Verifying the concept of inductor volt balance and capacitor charge balance on DC-to-DC boost converter (using SPDT).
- Observing the effect of the changing switching frequency and the values of capacitor/inductor on ripple voltage and ripple current in boost converter.
Download Multisim Models
Download Sample Lab Report
Download Sample Lab Report2
Power Electronics Lab 6 - Power Thyristor in Multisim and MATLAB Simulink
Objectives:
- Analyze the characteristic of power Thyristor: Its conduction loss, characteristic curves, conduction loss, potential applications, device limitations using Multisim.
- Modelling of single phase half & full-wave Controlled (Thyristor) Rectifiers in Matlab/Simulink.
Download Multisim Models1
Download Multisim Models2
Download Matlab Models
Download Sample Lab Report2
Power Electronics Lab 5 - IGBT Characteristic in Multisim
Objectives: Analyze the characteristic of power IGBT: Its conduction loss, characteristic curves, identifying device operation modes, safe operating area (SOA), switching speed (rise time/fall time), conduction and switching losses, potential applications, device limitations.
- Draw input and output Characteristic curves, define SOA, and modes of operation.
- Compare , switching speed (rise time/fall time), conduction & switching losses and general applications of IGBT with BJT and MOSFET using Multisim.
Download Multisim Models
Download Sample Lab Report
Download Sample Lab Report2
Power Electronics Lab 4 - BJT Characteristics, conduction & switching loss using Multisim and Matlab
Objectives: Analyze the characteristic of power BJT: Its conduction loss, characteristic curves, identifying device operating modes, safe operating area (SOA), conduction and switching losses, potential applications, device limitations; Single & Three Phase (Diode) Rectifiers.
- Draw input and output Characteristic curves, define SOA, and modes of operation.
- Compare conduction & switching losses and general applications of BJT with MOSFET using Multisim.
- Modeling of single/three phase uncontrolled rectifiers in Matlab/Simulink.
Download Multisim Models
Download Matlab Models
Download Sample Lab Report
Download Sample Lab Report2
Power Electronics Lab 3 - Characteristic curves, conduction and switching loss in MOSFET
Objectives: Analyze the characteristic of power MOSFET: Its conduction loss, characteristic curves, identifying device operating modes, safe operating area (SOA), conduction and switching losses, potential applications, device limitations.
- Draw input and output X-tics curves, define SOA and modes of operation.
- Compare conduction losses and switching losses
Download Multisim Models
Download Sample Lab Report
Download Sample Lab Report
Power Electronics Lab 2 - Comparative analysis of Rectifier VS Schottky Barrier Diodes
Objectives: Comparative analysis of general-purpose, fast switching and Schottky Barrier Diodes: Their characteristics curves, switching speed (reverse recovery time), leakage current and conduction/switching losses.
- Draw IV input and output characteristics curves
- Compare reverse recovery time (RRT)
- Compare reverse saturation current
- Compare power/wattage loss
- General applications
- Attach datasheet of each diode
Download Multisim Models
Download Sample Lab Report
Download Sample Lab Report2
Power Electronics Lab 1 - Introduction to Multisim
Objectives:
- Introduction to Multisim.
Download Multisim Models
Download Sample Lab Report