EE-210 BASIC ELECTRICAL AND ELECTRONICS ENGINEERING
CREDIT HOURS
Theory = 2
Practical = 1
COURSE LEARNING OUTCOMES (CLOs)
| S. No. | CLOs | PLO | Taxonomy |
| 1 | Describe the construction, operation, and applications of key electronic components and systems such as diodes, op-amps, MOSFETs, sensors, motors, transformers, and generators. | PLO-1 Engineering Knowledge |
Cognitive |
| 2 | Analyze DC and AC electrical circuits, including RL and RC networks, using Circuits analysis laws and theorems. | PLO-2 Problem Analysis |
Cognitive Level 4* |
| 3 | Solve problems related to digital logic simplification, power factor calculations in three-phase systems, and basic op-amp configurations for signals processing. | PLO-2 Problem Analysis |
Cognitive Level 3* |
| 4 | Have ability to manipulate various electrical circuits under guidance and are able to study and verify different network theorem and electric machines experimentally. | PLO-2 Problem Analysis |
Psychomotor Level 3* |
COURSE CONTENT
- Introduction to Electrical Engineering: Overview of electrical engineering and its applications, Fundamental electrical quantities
- Basic Circuit Concepts: Ohm’s Law, Series and parallel circuits, Kirchhoff's Current Law (KCL) and Kirchhoff's Voltage Law (KVL), Superposition principle, Maximum Power Transfer Theorem, Input and output resistance
- DC and AC Circuit Analysis: RC and RL circuits with DC supply, AC vs. DC, Average and RMS quantities
- Digital Logic and Boolean Algebra: Introduction to Boolean logic and logic gates, Boolean equations: Sum of Products (SOP) and Product of Sums (POS), Karnaugh mapping (K-map), Digital control using combinational logic
- Sensors and Signal Characteristics: Principle of sensor construction, Electrical signal properties, Sensor characteristics: input resistance, output resistance, sensitivity, and linearity
- Operational Amplifiers (Op-Amps): Introduction, advantages, and applications, Op-amp characteristics and basic configurations, Inverting and non-inverting amplifiers, Difference amplifier, weighted summer, and use cases, Integrator and differentiator circuits
- Semiconductor Devices and Applications: Diodes and rectifiers, Zener diode and shunt regulation, MOSFET: modes of operation and biasing, MOSFET as a switch
- Electromagnetism and Electromechanical Energy Conversion: Principles of electromagnetism and electromagnetic induction, Construction and working of DC motors, Construction and working of AC induction motors and BLDC motors, Advantages and applications of different types of motors
- Power Systems and Three-Phase Circuits: Polyphase circuits: line-to-neutral and line-to-line voltages, Power calculations: kW, kVA, kVAr, and power factor, Y (wye) and Δ (delta) connections
RECOMMENDED BOOKS
Text Book(s)
- Engineering Circuit Analysis by William H. Hayt, Jack E. Kemmerly, and Steven M. Durbin
- Microelectronic Circuits by Adel S. Sedra and Kenneth C. Smith
*For details of Taxonomy Levels CLICK HERE
