Measurement and Instrumentation-EEE421 (3 credit course, with 3 sections)
Measurement and Instrumentation Sessional -EEE 422 (1 credit course, with 6 sections)
Optical Fiber Communication-EEE461 (3 credit course, with 4 sections)
Power Plant Engineering-EEE449 (3 credit course, with 1 section)
Digital Electronics-EEE311 (3 credit course, with 1 section)
Industrial Electronics Laboratory-EEE412 (1 credit course, with 5 sections)
Control Systems Laboratory-EEE332 (1 credit course, with 2 sections)
Measurement and Instrumentation-EEE421 (3 credit course, with 1 section)
Circuit Simulation Laboratory-EEE214 (1 credit course, with 2 sections)
Energy Conversion I-EEE213 (3 credit course, with 3 sections)
Electrical Installations in Buildings-ELECT301 ( 2 credit course, with 1 section of Architecture Department)
Basic Electrical and Electronic Engineering-EEE101 (3 credit course, with 2 sections)
Basic Electrical and Electronics Engineering Sessional-EEE102 (1 credit course, with 3 sections)
Some important terminologies of measurement systems; Applications of measurement systems; Functional elements of a generalized measurement system; Classifications of instruments
Measurement of electrical quantities; Galvanometer: D’Arsonval type, Its construction, Torque equation, Dynamic behavior and Equation of motion underdamped, undamped, the critically damped, and overdamped motion of galvanometer
Damping mechanisms, Sensitivities
Analog meter types, PMMC meter, Temperature compensation, DC ammeter, and voltmeter
Rectifier-based AC meters, Electro-dynamometer type meter
Electronic analog meters.
Power measurement: Electro-dynamometer type, Energy measurement: Induction type
Instrument transformers: Introduction, uses, advantages, design considerations, the effect of a secondary open circuit in a CT
Transducers: Introduction, Electric transducers, and their advantages and types, Strain gauges
Resistance thermometers, thermistors, Variable inductance type transducers: variation of self-inductance
Transducers working on a variation of mutual inductance and production of eddy current; linear variable differential transformer
Capacitive transducers, change in overlapping area and change in distance between plates, differential arrangement; Variation of dielectric constant for measurement of distance and liquid level, advantages, disadvantages, and uses of capacitive transducers
Optical transducers: photo-multiplier tubes, photodiodes, and photovoltaic cell
Vector Algebra: Scalar and vector field, Unit vector, position and distance-vector, vector addition, subtraction, and multiplications.
Coordinate Systems: Concepts of Cartesian, Cylindrical, and Spherical system, Conversion from one system to another.
Vector Calculus: Line, surface and volume integration, Gradient, Divergence and Curl of a vector, Divergence and Stokes theorem.
Electrostatic Field: Coulomb's Law and applications, Electric field intensity and flux density, Gauss's law and applications, Electric potential, Maxwell's equation, and applications.
Electric Field in Material Space: Current and Current Density, Convection and Conduction current, Polarization and dipoles, Continuity equation, Boundary condition in electrostatics for the various time-varying system.
Electrostatic Boundary Value Problem: Poisson's and Laplace equation, Examples of solutions of Poisson's and Laplace equation, Resistors and Capacitors and their calculations.
Magnetostatic Fields: Biot-Savart's law, Ampere's Circuit law and application, Magnetic flux and flux density, Maxwell's equation for a magnetic field, Displacement current.
Ohm's Law, Series and Parallel Circuits
Kirchhoff's Voltage and Current Laws
Mesh Analysis and Nodal Analysis
Wye-Delta Conversion
Source Transformation, Superposition Theorem
Thevenin's Theorem and Maximum Power Transfer Theorem
Multi-range Voltmeter and Ammeter
Watt-meter and energy meter
Average and RMS values of alternating current and voltage
Phasor Algebra
RLC Circuits
AC Power Analysis
Balanced Three-phase circuits
Electrical Wiring for residential and commercial loads
Transformers, Motors, Generators
Power Plants
Basic Electronics
Experiment 1: Study of a single-phase transformer and determination of turn ratio.
Experiment 2: Determining voltage regulation and efficiency.
Experiment 3: Study of open circuit test and short circuit test of a single-phase transformer.
Experiment 4: Determination of polarity and parallel operation of a single-phase transformer.
Experiment 5: Determination of circuit parameters of a 3 phase Induction Motor.
Experiment 6: Study of Speed Control of a Three Phase Induction Motor by using Variable Frequency Drive (VFD).
Experiment 7: Determination of starting torque and loading characteristics of a capacitor start motor.
Experiment 8: No-load and loading characteristics of the three-phase alternator.
Experiment 9: Alternator Synchronization with an infinite bus.
Experiment 10: Determination of Voltage Regulation of Synchronous Generator with Different Power Factor.
Experiment 11: Determination of V Curve of a Synchronous Motor.
Experiment 12: No-load and loading Characteristics of a self-excited DC Shunt Generator.
Experiment 13: Speed control of a DC shunt motor and observation of the existence of back EMF.
Experiment 1: Verification of KCL and Current Divider Rule.
Experiment 2: Verification of KVL and Voltage Divider Rule.
Experiment 3: Use of Galvanometer as Ammeter and Voltmeter.
Experiment 4: Verification of superposition theorem.
Experiment 5: Verification of Thevenin’s Theorem.
Experiment 6: Verification of Maximum Power Transfer Theorem.
Experiment 7: Familiarization with alternating current (AC) waves.
Experiment 8: Verification of KVL and KCL in ac Circuits.
Experiment 9: Study of Series Resonance.
Experiment 10: Study the frequency response of RC filters.
Experiment 11: Measurement of AC Power using watt-meter.
Experiment 12: Power factor correction
Experiment 13: Study of three-phase system with a balanced load.
Experiment 14: Measurement of three-phase power by the two-watt-meter method.
Experiment 1: Drawing Pentagon, Hexagon, and Heptagon using semi-circle method.
Experiment 2: Projections.
Experiment 3: Building Drawing.
Experiment 4: Conduit Layout.
Experiment 5: Basic Electrical Appliances and Earthing.
Experiment 6: Protective Devices.
Experiment 7: Residential and Industrial Security System.
Ohm's Law, Series and Parallel Circuits
Kirchhoff's Voltage and Current Laws
Mesh Analysis and Nodal Analysis
Wye-Delta Conversion
Source Transformation, Superposition Theorem
Thevenin's Theorem and Maximum Power Transfer Theorem
Multi-range Voltmeter and Ammeter
Watt-meter and energy meter
Average and RMS values of alternating current and voltage
Phasor Algebra
RLC Circuits
AC Power Analysis
Balanced Three-phase circuits
Electrical Wiring for residential and commercial loads
Transformers, Motors, Generators
Power Plants
Basic Electronics
Experiment 1: Introduction to a compiler (CODE BLOCKS)
Experiment 2: Getting familiarized with Data type and Variable
Experiment 3: Getting familiarized with Input, Output Functions
Experiment 4: Conditional Statements
Experiment 5: 'For' Loops
Experiment 6: Nested 'For' Loops
Experiment 7: 'While' Loops
Experiment 8: Single dimension array
Experiment 9: 2D array