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Postgraduation Program

M.Tech – Power Electronics

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OverView

The M.Tech program in Power Electronics at Amrita Sai Institute of Science and Technology focuses on advanced study of power conversion, control techniques, and modern power electronic systems. The curriculum covers semiconductor devices, converters, inverters, motor drives, control systems, and power quality. Through rigorous coursework, simulation-based analysis, and laboratory-oriented learning, students develop technical depth and system-level understanding required for roles in power systems, renewable energy, automation, and advanced industrial applications.

Academic Outcomes

Program Educational Objectives (PEOs)
  • PEO 1
    Graduates will apply advanced power electronics principles to analyse, design, and optimise power conversion systems.
  • PEO 2
    Graduates will pursue professional careers in power electronics, energy systems, automation, or advanced research and doctoral studies.
  • PEO 3
    Graduates will demonstrate ethical responsibility, technical leadership, and continuous professional development in engineering practice.
  • PO1 – Advanced Engineering Knowledge
    Apply advanced mathematics and power electronics concepts to solve complex engineering problems.
  • PO2 – System Analysis
    Analyse power electronic circuits and systems using analytical and computational methods.
  • PO3 – System Design
    Design power converters, drives, and control systems considering efficiency, reliability, and safety.
  • PO4 – Research and Investigation
    Conduct investigations using simulations, experimentation, and analytical techniques.
  • PO5 – Modern Tool Usage
    Apply advanced simulation and design tools with understanding of assumptions and limitations.
  • PO6 – Engineering and Society
    Assess societal, environmental, and safety implications of power electronic solutions.
  • PO7 – Sustainability Awareness
    Incorporate energy efficiency and sustainability principles into power system design.
  • PO8 – Professional Ethics
    Demonstrate ethical responsibility and professional integrity in engineering practice.
  • PO9 – Communication Skills
    Communicate technical concepts effectively through reports, documentation, and presentations.
  • PO10 – Project and Engineering Management
    Apply engineering management principles to plan and execute power electronics projects.
  • PO11 – Independent Learning
    Engage in independent learning to adapt to evolving technologies and standards.
  • PO12 – Technical Leadership
    Demonstrate leadership and decision-making capability in professional engineering environments.
  • PSO 1
    Analyse and design power electronic converters and motor drive systems using advanced techniques.
  • PSO 2
    Apply power electronics principles to renewable energy systems, industrial automation, and energy management applications.

Curriculum Design

A curriculum structured to deepen expertise in power conversion and control systems.
  • Advanced focus on power semiconductor devices, converters, and motor drives
  • Integration of simulations, hardware-based labs, and case studies
  • Emphasis on energy efficiency, control strategies, and real-world applications
View Syllabus

Program Strengths

  • Advanced laboratories supporting power electronics experimentation
  • Strong emphasis on simulation and hardware-based system analysis
  • Research-oriented teaching and guided project work
  • Exposure to renewable energy and industrial power applications
  • Preparation for advanced professional and research roles

Advanced Power Conversion Skills

In-depth focus on converters, drives, and control systems beyond undergraduate-level study.

Industry-Relevant System Design

Curriculum aligned to modern power electronics and energy-sector applications.

Research-Oriented Learning Approach

Emphasis on simulations, experimentation, and analytical project work.

Career and Academic Progression

Prepares graduates for specialist roles, consultancy, and doctoral research pathways.

Overview

The M.Tech program in Power Electronics at Amrita Sai Institute of Science and Technology focuses on advanced study of power conversion, control techniques, and modern power electronic systems. The curriculum covers semiconductor devices, converters, inverters, motor drives, control systems, and power quality. Through rigorous coursework, simulation-based analysis, and laboratory-oriented learning, students develop technical depth and system-level understanding required for roles in power systems, renewable energy, automation, and advanced industrial applications.

Academic Outcomes

Program Educational Objectives (PEOs)
  • PEO 1
    Graduates will apply advanced power electronics principles to analyse, design, and optimise power conversion systems.
  • PEO 2
    Graduates will pursue professional careers in power electronics, energy systems, automation, or advanced research and doctoral studies.
  • PEO 3
    Graduates will demonstrate ethical responsibility, technical leadership, and continuous professional development in engineering practice.
  • PO1 – Advanced Engineering Knowledge
    Apply advanced mathematics and power electronics concepts to solve complex engineering problems.
  • PO2 – System Analysis
    Analyse power electronic circuits and systems using analytical and computational methods.
  • PO3 – System Design
    Design power converters, drives, and control systems considering efficiency, reliability, and safety.
  • PO4 – Research and Investigation
    Conduct investigations using simulations, experimentation, and analytical techniques.
  • PO5 – Modern Tool Usage
    Apply advanced simulation and design tools with understanding of assumptions and limitations.
  • PO6 – Engineering and Society
    Assess societal, environmental, and safety implications of power electronic solutions.
  • PO7 – Sustainability Awareness
    Incorporate energy efficiency and sustainability principles into power system design.
  • PO8 – Professional Ethics
    Demonstrate ethical responsibility and professional integrity in engineering practice.
  • PO9 – Communication Skills
    Communicate technical concepts effectively through reports, documentation, and presentations.
  • PO10 – Project and Engineering Management
    Apply engineering management principles to plan and execute power electronics projects.
  • PO11 – Independent Learning
    Engage in independent learning to adapt to evolving technologies and standards.
  • PO12 – Technical Leadership
    Demonstrate leadership and decision-making capability in professional engineering environments.
  • PSO 1
    Analyse and design power electronic converters and motor drive systems using advanced techniques.
  • PSO 2
    Apply power electronics principles to renewable energy systems, industrial automation, and energy management applications.

Curriculum Design

A curriculum structured to deepen expertise in power conversion and control systems.
  • Advanced focus on power semiconductor devices, converters, and motor drives
  • Integration of simulations, hardware-based labs, and case studies
  • Emphasis on energy efficiency, control strategies, and real-world applications
View Syllabus

Program Strengths

  • Advanced laboratories supporting power electronics experimentation
  • Strong emphasis on simulation and hardware-based system analysis
  • Research-oriented teaching and guided project work
  • Exposure to renewable energy and industrial power applications
  • Preparation for advanced professional and research roles

Why This Program Works

Advanced Power Conversion Skills

In-depth focus on converters, drives, and control systems beyond undergraduate-level study.

Industry-Relevant System Design

Curriculum aligned to modern power electronics and energy-sector applications.

Research-Oriented Learning Approach

Emphasis on simulations, experimentation, and analytical project work.

Career and Academic Progression

Prepares graduates for specialist roles, consultancy, and doctoral research pathways.