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JNTUK R23 B.Tech EEE III Year II Semester (3-2) Syllabus & Subject-wise Topics

# Category Subject L-T-P Credits
1 Professional Core Electrical Measurements and Instrumentation 3-0-0 3
2 Professional Core Microprocessors and Microcontrollers 3-0-0 3
3 Professional Core Power System Analysis 3-0-0 3
4 Professional Elective-II Switchgear and Protection / Advanced Control Systems / Renewable and Distributed Energy Technologies 3-0-0 3
5 Professional Elective-III Electric Drives / Digital Signal Processing / High Voltage Engineering 3-0-0 3
6 Open Elective-II Fundamentals of Electric Vehicles / Electrical Wiring Estimation and Costing 3-0-0 3
7 Professional Core Electrical Measurements and Instrumentation Lab 0-0-3 1.5
8 Professional Core Microprocessors and Microcontrollers Lab 0-0-3 1.5
9 Skill Enhancement Course IoT Applications of Electrical Engineering Lab 0-1-2 2
10 Audit Course Research Methodology & IPR 2-0-0

Electrical Measurements and Instrumentation

covers the construction and working principles of analog and digital measuring instruments, bridges and transducers used to measure electrical quantities accurately.

Microprocessors and Microcontrollers

introduces microprocessor and microcontroller architecture and programming, from the 8086 through the 8051 and PIC families, the embedded-computing foundation used in later automation and IoT subjects.

Power System Analysis

develops the network modelling and fault-analysis techniques (Ybus/Zbus formation, load flow, symmetrical components) used to plan and operate large power systems reliably.

Professional Elective-II: Switchgear and Protection

covers circuit breakers, protective relays and grounding schemes that detect faults and isolate them before they damage equipment or destabilize the grid.

Professional Elective-II: Advanced Control Systems

extends classical control into state-space and nonlinear methods (controllability, Lyapunov stability, optimal control) for engineers who need to design controllers beyond simple transfer-function techniques.

Professional Elective-II: Renewable and Distributed Energy Technologies

looks at how wind, solar and small-hydro sources are modelled, controlled and combined into hybrid systems for grid-connected or standalone use.

Professional Elective-III: Electric Drives

covers how power electronic converters control the speed and torque of DC, induction and synchronous motors in industrial drive applications.

Professional Elective-III: Digital Signal Processing

builds discrete-time signal processing skills (DFT/FFT, filter design, multirate processing) essential for anyone working with sampled electrical signals.

Professional Elective-III: High Voltage Engineering

explains how insulation breaks down under high-voltage stress and how engineers generate and measure the extreme voltages used to test power equipment.

Open Elective-II: Fundamentals of Electric Vehicles

introduces the components, motors and energy storage systems that make up electric and hybrid vehicles, a fast-growing application area for EEE graduates.

Open Elective-II: Electrical Wiring Estimation and Costing

covers the practical skills of designing, estimating and costing electrical wiring installations for buildings, small industries and substations.

Electrical Measurements and Instrumentation Lab

bench experiments in calibration, bridge measurements and transducer characterization that complement the Electrical Measurements theory course.

Microprocessors and Microcontrollers Lab

assembly-language programming on 8086 and 8051 platforms to reinforce microprocessor architecture and interfacing concepts with hands-on coding.

IoT Applications of Electrical Engineering Lab

introduces Arduino and Raspberry Pi programming, sensor/display interfacing and wireless communication, the practical IoT skillset increasingly used in smart electrical systems.

Research Methodology & IPR

a mandatory audit course introducing research problem formulation, technical writing, and the fundamentals of intellectual property rights that every engineering researcher needs to know.

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