The Diploma in Electrical Engineering is a 3-year program that provides students with fundamental knowledge in electrical circuits, power systems, control systems, electronics, and electrical machines. The curriculum focuses on both theoretical concepts and practical skills, including hands-on laboratory work and industry-based projects. Graduates are equipped to work in sectors like power generation, transmission, electronics, and automation. Admission typically requires a 10th-grade pass with a minimum percentage.
The Diploma in Electrical Engineering is a 3-year program designed to provide students with foundational knowledge and practical skills in the field of electrical engineering. The curriculum covers a wide range of topics such as electrical circuits, power systems, control systems, electrical machines, and electronics. Students learn both theoretical concepts and practical applications through hands-on laboratory work and industry-based projects. The program prepares students to work in industries such as power generation, electrical maintenance, automation, and electronics.
3 Years (6 Semesters)
10th Standard (Secondary School Certificate) pass with a minimum of 35% to 50% marks.
Some institutions may require an entrance exam or admit students based on merit.
To impart knowledge in electrical engineering principles and their applications in real-world scenarios.
To develop skills in the design, analysis, and maintenance of electrical systems and machines.
To offer hands-on training through lab work, workshops, and industrial projects.
To prepare graduates to work in industries such as power generation, transmission, automation, and control systems.
To enhance students' problem-solving, analytical, and technical skills.
The curriculum of the Diploma in Electrical Engineering typically includes the following core subjects:
Basic Electrical Engineering – Introduction to electrical circuits, Ohm's law, Kirchhoff’s laws, and electrical components.
Electrical Circuits and Networks – Analysis of AC and DC circuits, network theorems, and circuit design.
Electrical Machines – Study of electric motors, generators, transformers, and their working principles.
Power Systems – Generation, transmission, and distribution of electrical power, along with power grid systems.
Control Systems – Study of control theory, feedback systems, and automation in electrical systems.
Electronics – Basic electronics components, semiconductor devices, and their applications in electrical engineering.
Instrumentation – Measurement and control of electrical parameters like voltage, current, and resistance.
Electrical Measurements – Study of instruments used for measuring electrical quantities, including voltmeters, ammeters, and oscilloscopes.
Power Electronics – Conversion of electrical power from one form to another using electronic devices like rectifiers, inverters, and converters.
Digital Electronics – Logic gates, flip-flops, and digital circuits used in electronic devices.
Renewable Energy – Introduction to solar, wind, and other renewable energy sources.
Electrical Wiring and Installations – Techniques for wiring and installation of electrical systems in residential and industrial settings.
Industrial Electronics – Automation systems, PLC (Programmable Logic Controllers), SCADA systems, and their applications in industry.
The Diploma in Electrical Engineering program places a strong emphasis on practical learning through laboratory work. Key laboratories include:
Electrical Machines Lab – Practical experience with electrical motors, transformers, and generators.
Circuit Theory Lab – Hands-on experimentation with electrical circuits, including circuit assembly, analysis, and testing.
Control Systems Lab – Practical applications of control systems using PLCs and automation equipment.
Power Systems Lab – Simulations and practical exposure to electrical power systems, including generation and distribution.
Electronics Lab – Testing and analysis of electronic components like diodes, transistors, and integrated circuits.
Instrumentation and Measurement Lab – Hands-on training with measuring instruments such as multimeters, oscilloscopes, and signal generators.
Renewable Energy Lab – Demonstration of renewable energy systems, including solar panels and wind turbines.
Graduates of the Diploma in Electrical Engineering program can pursue a variety of careers in both private and public sectors. Some of the career paths include:
Power Generation and Transmission – Work in power plants, electrical grids, and energy distribution systems.
Industrial Automation – Design, develop, and maintain automation systems in industries using PLCs, SCADA, and robotics.
Maintenance Engineer – Involved in maintaining and troubleshooting electrical systems, machines, and equipment in various industries.
Renewable Energy – Work with companies involved in renewable energy generation, such as solar, wind, and hydroelectric power.
Electronics – Work in the design and maintenance of electronic systems and devices.
Electrical Installation – Involvement in the installation and maintenance of electrical wiring systems in residential, commercial, and industrial buildings.
Construction – Work in electrical design and installation for large-scale construction projects.
Telecommunications – Manage the electrical and electronic components of communication systems.
Some of the job roles available to graduates include:
Electrical Engineer – Designing, analyzing, and troubleshooting electrical systems and equipment.
Electrical Maintenance Engineer – Responsible for maintaining electrical systems and machines in factories, plants, and industries.
Control Systems Engineer – Designing and implementing control systems for industrial automation.
Power Plant Engineer – Managing the operations and maintenance of power plants and electrical power generation systems.
Renewable Energy Engineer – Designing and implementing renewable energy systems like solar, wind, and bioenergy.
Instrumentation Engineer – Working with instruments and devices for measuring electrical parameters.
Industrial Automation Engineer – Designing and maintaining automated systems used in industries.
Electrical Technician – Installing, maintaining, and repairing electrical systems and equipment in various industries.
Graduates of the Diploma in Electrical Engineering program can find employment with leading companies and organizations such as:
Power Companies (e.g., NTPC, Tata Power, Adani Power)
Electronics and Electrical Equipment Manufacturers (e.g., Siemens, ABB, Schneider Electric)
Automotive Industry (e.g., Bosch, Tata Motors)
Renewable Energy Companies (e.g., Suzlon Energy, First Solar)
Automation and Control Companies (e.g., Honeywell, Rockwell Automation)
Telecommunications Companies (e.g., Airtel, Jio, Vodafone)
Construction and Engineering Firms (e.g., L&T, Shapoorji Pallonji)
After completing the diploma, students can pursue higher studies in the field of electrical engineering, including:
B.Tech/B.E. in Electrical Engineering through lateral entry after completing 3 years of the diploma program.
B.Sc. in Electronics or Telecommunication Engineering.
Postgraduate programs like M.Tech or M.S. in specialized fields such as Power Systems, Control Systems, or Renewable Energy.
Certifications in areas like Industrial Automation, Power Electronics, PLC programming, and Smart Grid technologies.
Hands-on Training: Extensive practical experience in electrical systems, machines, circuits, and automation systems.
Industry-Relevant Skills: Graduates are equipped with skills needed in power generation, automation, maintenance, and electronics.
Diverse Career Paths: Opportunities across various industries including power, manufacturing, electronics, automation, and renewable energy.
Lateral Entry to Higher Education: Graduates can pursue higher studies in Electrical Engineering through lateral entry into B.Tech programs.
