Electrical & Electronics Engineering Department
Where Power Systems Meet Control, Precision, and Application
The Electrical & Electronics Engineering Department at Amrita Sai Institute of Science and Technology is designed to build strong foundations in electrical systems, power engineering, and control technologies. The department integrates core electrical principles with modern applications, preparing students to work across power systems, automation, and energy-driven industries.
With a focus on conceptual clarity, laboratory practice, and system-level understanding, students learn how electrical systems are generated, controlled, and distributed. The academic structure ensures they are equipped to work across both traditional electrical domains and emerging technological applications.
Academic Pathways in Electrical & Electronics Engineering
B.Tech in Electrical & Electronics Engineering
This programme builds strong foundations in electrical machines, power systems, control systems, and instrumentation. The academic structure ensures that students develop clarity in core electrical concepts before applying them through labs, simulations, and project work. With exposure to generation, transmission, and distribution systems, students are prepared for roles across power industries, automation systems, and electrical infrastructure development. read more.. read less..
M.Tech in Power Electronics
An advanced programme focused on power conversion systems, control techniques, and modern electrical applications. Students work with power electronic devices, drives, and control systems used in industrial and energy applications. The curriculum emphasises system design, efficiency, and real-world application through simulation tools and project-based learning. Graduates are prepared for roles in power systems, renewable energy, industrial automation, and advanced electrical engineering domains. read more.. read less..
Diploma in Electrical & Electronics Engineering
A foundational programme that introduces students to electrical circuits, machines, and basic power systems. The curriculum focuses on practical learning through lab sessions, enabling students to understand how electrical components and systems operate in real-world environments. Students develop technical confidence early and are prepared for lateral entry into engineering programmes or entry-level roles in electrical and maintenance sectors. read more.. read less..
How Learning Is Structured
Principles first.
Systems next.
Application throughout.
Related branches:
- Strong grounding in electrical circuits, machines, and power systems
- Progressive exposure to control systems, power electronics, and automation
- Continuous lab-based and simulation-driven learning s
- Project-based application of electrical concepts
- Curriculum aligned with industry practices and technological advancements
Learning Infrastructure
Well-equipped labs for Electrical Machines, Power Systems, and Control Systems
Power Electronics and Drives laboratories with simulation tools
Instrumentation and measurement labs for applied experimentation
High-capacity systems for simulation and analysis
Access to academic resources and technical learning platforms
Department Strengths
- Recognised Research Centre under JNTU Kakinada
- NAAC ‘A’ Grade accredited academic environment
- ISO 9001:2015 certified academic processes
- Strong computing infrastructure with dedicated systems and connectivity
- Structured placement training and industry preparation support
Beyond the Classroom
Learning that extends through exposure, experimentation and collaboration.
Students actively engage in:
- Electrical design projects and system simulations
- Workshops, seminars, and expert sessions
- Technical competitions and practical demonstrations
- Industry exposure and certification programmes
- Collaborative project work across domains
Where This Leads
Prepared for infrastructure. Ready for evolving energy systems.
