Course information
- 156 Credit Hours
- 6 Credit Hours of Thesis
- 6 Credit Hours of Practicum
- 12 Semesters Over 4 Years
Student Support Services
- Student advising and counselling
- Course wise consultation hours
- TA support
- Hands on practice in labs and fields
- Career development training
- Workshops and seminars
- Grooming
Extra Curricular Activities
- Physical and recreational facilities
- Indoor and outdoor sports.
- Students Society .
- Students engagement in various festivals and competitions.
Counseling & Guidance
- The facilities of counseling and guidance are available to students under the leadership of qualified Clinical psychologist.
- This service is provided under the Counseling and Guidance Centre of IUBAT.
Alumni and Placement Services
- Alumni and graduates assistance regarding career planning and employment.
- Assistance in placement to students in their final semester for practicum work in real life organizations
- Assistance in placement to graduate students in securing career employment.
Debates
- English debates on contemporary issues.
Incubation Center
We have an incubation center for both alumni and current students where entrepreneurs capable of harnessing emerging technologies to create innovative products, solutions, or services.
About
The Department of Electrical and Electronic Engineering offers a degree program leading to Bachelor of Science in Electrical and Electronic Engineering (BSEEE). The department strives to produce professional graduates capable of meeting future challenges of production and application of electric energy and devices through offering ample opportunity of theory, laboratory and research based specialized learning in the areas of electrical, control, power and electronics and microelectronics engineering, computer science and telecommunication engineering. Participants are given an opportunity to be trained and broaden their abilities to analyze and solve complex troubles and design new uses of technology to serve today’s civilization.
Program Educational Objectives (PEOs)
PEO1: Graduates will excel as professionals in electrical and electronic engineering fields, public and private organizations or academia, by building analytical and problem-solving skills through the application of mathematical and EE engineering principles.
PEO 2: Graduates will be able to work in diverse teams in a multidisciplinary environment, possess leadership skills and apply communication skills acquired through the program.
PEO 3: Graduates will demonstrate professionalism upholding ethical and societal values with an emphasis on sustainable development through personal and professional contributions to the society.
PEO 4: Graduates will be engaged in lifelong learning activities in pursuit of advanced knowledge both for personal and professional needs through continuous studies, research and professional trainings.
Program Outcomes (POs):
a) Apply knowledge of mathematics, natural science, engineering fundamentals and an engineering specialization as specified in K1 to K4 respectively to the solution of complex engineering problems.
b) Identify, formulate, research literature and analyse complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences and engineering sciences. (K1 to K4)
c) Design solutions for complex engineering problems and design systems, components or processes that meet specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations. (K5)
d) Conduct investigations of complex problems using research-based knowledge (K8) and research methods including design of experiments, analysis and interpretation of data, and synthesis of information to provide valid conclusions.
e) Create, select and apply appropriate techniques, resources, and modern engineering and IT tools, including prediction and modelling, to complex engineering problems, with an understanding of the limitations. (K6)
f) Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to professional engineering practice and solutions to complex engineering problems. (K7)
g) Understand and evaluate the sustainability and impact of professional engineering work in the solution of complex engineering problems in societal and environmental contexts. (K7)
h) Apply ethical principles and commit to professional ethics and responsibilities and norms of engineering practice. (K7)
i) Function effectively as an individual, and as a member or leader in diverse teams and in multi-disciplinary settings.
j) Communicate effectively on complex engineering activities with the engineering community and with society at large, such as being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
k) Demonstrate knowledge and understanding of engineering management principles and economic decision-making and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
l) Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.
Duration of Study
The minimum requirement for BSEEE degree is completion of 156 credit hours plus such courses as recommended by the college after reviewing individual background. A semester is of 16 weeks duration, there are three semesters in a year and duration of the program is four years.
Lab Facilities
Department of Electrical and Electronic Engineering (DEEE) of CEAT have well equipped laboratories for practice and research. Adequate number of measuring instruments such as Oscilloscope, LCR meter, variable power supply (AC. & DC), signal generator, frequency counter, trainer boards, tachometers, ammeters (AC.& DC), voltmeters (AC.& DC), microprocessor trainer kits, watt-meters, energy meter, digital multimeters, ICs, bread boards, inductors, capacitors, universal machine trainer kit, resistors and supporting accessories are available to conduct practical classes. The Electrical and Electronics Engineering Department has the following full-fledged laboratories to conduct practical classes and research.
Electrical Engineering Laboratory
| Engineering Field | Number of Experiments conducted |
|---|---|
| Direct Current(DC) | 12 Experiments |
| Alternating Current(AC) | 13 Experiments |
| Electrical Magnetism | 11 Experiments |
| Total Experiments | 36 |
Some Major Experiments in each of the fields are summarized as follows
Direct Current
DC Voltage Measurement, Ohm’s Law, Power in DC Circuit Measurement, Series -Parallel Network and Kirchhoff’s Law ,Superposition Theorem, Thevinin’s Theorem, Norton’s Theorem, Maximum Power transfer Theorem, DC- RC Circuit and Transient Phenomena.
Alternating Current
AC Voltage Measurement, AC Current Measurement, AC RC Circuit operation, AC RL Circuit operation, AC RLC Circuit Series operation, Power in AC Circuit Measurement, Series-Resonant Circuit, Parallel-Resonant Circuit, LC Filter Circuit, Verification of Ohm’s Law of an AC Circuit contains resistance only, Determination of unknown parameters of an RLC parallel AC Circuit, .Measurement of three phase power of a three phase star connected balanced load by wattmeter method
Electrical Magnetism
Determination of Magnetic Device, Identification of Magnetic Field ,Drawing Magnetic Curve, Magnetic Field strength, Lenz’s Law, Faraday’s Law of Electromagnetic Induction, Ampere’s, Fleming’s Rule, Self Induction, Mutual Induction, Magnetic Flux Detection
Electronics Engineering Laboratory
| Engineering Field | Number of Experiments conducted |
|---|---|
| Basic Electronic Circuit | 10 Experiments |
| Simple Electronics Device | 09 Experiments |
| Industrial Control System | 05 Experiments |
| Oscillator Circuit Device | 05 Experiments |
| Diode Applications Circuits | 09 Experiments |
| Rectifier Circuit Operation | 05 Experiments |
| Differential &Integral Circuit | 06 Experiments |
| Transistor Operation | 07 Experiments |
| FET Operation | 08 Experiments |
| Multi Stage Amplifier Operation | 07 Experiments |
| Transistor Feedback Circuit | 15 Experiments |
| Voltage Regulator &Constant Current Circuit Operation | 06 Experiments |
| Modulation &Demodulation | 04 Experiments |
| Operational Amplifier Circuits | 38 Experiments |
| Total Experiments | 134 Experiments |
Some Major Experiments in each of the fields are summarized as follows
Basic Electronic Circuit Experiments:
Diode Characteristics, Rectifier Circuit, Filter Circuit Zener diode and it’s Characteristics, LED Characteristics, Transistor Characteristics, Multi-meter Functions, FET Characteristics, SCR (Silicon Controlled Rectifier) Characteristics, UJT Characteristics
Simple Electronics Device Experiments:
Simple Amplifier Circuit, Complementary Amplifier Circuit, Voltage Regulator Circuit, Push-Pull Amplifier Circuit, Wheatstone bridge Circuit, Dimmer Circuit, Multistage Cascading Amplifier Circuit, Relay and It’s Characteristics, Touch- Controlled Switch
Industrial Control System Experiments:
CDS Characteristics Experiment, Light -Controlled Circuit Experiment, Thermistor and its Characteristics Experiment, Temperature Control Circuit Experiment, Sound Control Circuit Experiment
Operational Amplifier Circuits Experiments:
Characteristics of OP Amp, Input Impedance Measurement, Output Impedance Measurement, Bandwidth Measurement, Slew Rate Measurement, Offset Voltage Measurement, Inverse Amplification Characteristics] Non-Inverse Amplification Characteristics, Voltage -Follower Circuit Characteristics, Difference Amplification Characteristics
Sum Amplification (Adder) Characteristics
Clipping Circuit Characteristics Constant Voltage Circuit Characteristics, Constant Current Circuit Characteristics, Differentiator Circuit Characteristics
Integrator Circuit Characteristics Comparator Circuit Characteristics, Schmitt Trigger Circuit Characteristics, Monostable Multivibrator Circuit Characteristics ,Astable Multivibrator Circuit Characteristics, Sine Wave RC Oscillator Circuit Characteristics, Sine Wave Wine’s Oscillator Circuit Characteristics, High Pass Amplification Circuit, Low Pass Amplification Circuit, Band Pass Amplification Circuit, Tone Controller Circuit, Single Power Supply Inverse Amplification Circuit
Oscillator Circuit Device Experiments:
Blocking Oscillator Device, Electronic Bridcall Circuit, Astable Multivibrator Circuit, LED Flasher Circuit, LC Resonant Circuit
Diode Applications and Operations Experiments:
Silicon Diode, Germanium Diode, Zener Diode, Light Emitting Diode, Optical Diode, Diode Clipping Circuit, Diode Clamping Circuit
Rectifier Circuit Operation:
Half Wave, Full Wave, Bridge Rectifier, Dual power supply Rectifier, Voltage Magnifying Rectifier
Transistor Operation Experiments:
PNP Transistor, NPN Transistor, Common Emitter Transistor Amplification, Common Base Transistor Amplification, Common Collector Transistor Amplification, Switch Type Transistor Amplification, Darlington’s Circuit
FET Circuit Operation Experiments:
JFET, MOSFET, Self Biased JFET Common Source, Voltage Divider Biased JFET Common Source, Voltage Divider Biased JFET Common Drain, Self Biased JFET Common Drain, MOSFET Biased
Multi Stage Amplifier Operation Experiments:
RC Coupled Amplification, Direct Coupled Amplification, Transformer Coupled Amplification, Push-Pull Amplification, OLT Amplification, OCL Amplification, IC Amplification.
Transistor Feedback Circuit Experiments:
Serial Voltage Negative Feedback, Parallel Voltage Negative Feedback, Serial Current Negative Feedback, Parallel Current Negative Feedback, RC Phase- Shift Oscillator,Wine’s Bridge Oscillator, Hartley’s Oscillator, Colpitt’s Oscillator, Crystal Oscillator, Astable Oscillator, Bistable Oscillator, Intermittent Oscillator, Schmitt’s Oscillator, Sawtooth Oscillator
Voltage Regulator &Constant Current Circuit Operation Experiments:
Regulated Voltage Circuit, Regulated Adjustable Voltage Circuit, Current-Limiting Regulated Voltage Circuit, Regulated Voltage circuit with IC Operation, Constant Current Circuit
Digital Electronics Engineering Laboratory
| Engineering Field | Number of Experiments conducted |
|---|---|
| Basic Logic Gates | 21 Experiments |
| Combinational Logic Circuits | 31 Experiments |
| Clock Generator Circuit | 11 Experiments |
| Sequential Logic Circuit | 17 Experiments |
| Memory Circuit | 06 Experiments |
| Converter Circuit | 04 Experiments |
| Circuit Application Experiments | 14 Experiments |
| Total Experiments | 104 Experiments |
Some Major Experiments in each of the fields are summarized as follows
Basic Logic Gates Circuit Experiments:
Introduction to Logics and Switches, Diode Logic (DL) Gate, Resistor -Transistor Logic (RTL) Gate, Diode -Transistor Logic (DTL) Gate, CMOS Circuit, TTL Threshold Voltage and Current Measurement, CMOS Threshold Voltage and Current Measurement, TTL Gate Delay Time Measurement, Schmitt Gate Delay Time Measurement, CMOS Delay Time Measurement, AND Gate, OR Gate, INVERTER/NOT Gate, NAND Gate, NOR Gate, XOR Gate, TTL to CMOS Interface
Combinational Logic Circuits Experiments
Constructing XOR Gate with NAND Gate, Constructing XOR Gate with Basic Gate, Comparator Constructed with Basic Logic Gate, Comparator Constructed with TTL IC, Schmitt Gate Circuit, Truth Table Measurement, Constructing an AND Gate with Tristate Gate, Bidirectional Transmission Circuit, Constructing HA (Half Adder), Full Adder Circuit with an IC, High Speed Adder Carry Generator, BCD Code Adder Circuit, Subs tractor Circuit, Inverter Circuit, Arithmetic Logic Unit (ALU) Circuit, Bit Parity Generator, Construction of 4-to-2 Encoder, Construction of 10-to-4 Encoder, Construction of 2-to-4 Decoder, Construction of 10-to-4 Decoder, BCD-to-7 Segment Decoder, Construction of 2-to-1 Multiplexer, Construction of 8-to-1 Multiplexer, Construction of 2-output Demultiplexer, Analog Switch Characteristics, Bidirectional Transmission with CMOS.
Clock Generator Circuit Experiments:
Construction of Oscillator circuit with Basic Logic Gate, Oscillator circuit with Schmitt Gate, Voltage Controlled Oscillator (VCO), 555 IC Oscillator Circuit, 555 IC Voltage Controlled Oscillator, Low -speed Mono stable Multi vibrator, High-speed Mono stable Multi vibrator, Mono stable Multi vibrator with 555 IC, Non-Retrigger able Circuit with TTL IC, Retrigger able Circuit with TTL IC, Constructing a Variable Duty Cycle Oscillator
Sequential Logic Circuit Experiments:
Construction of R-S Flip-Flop Circuit, Construction of D Flip-Flop Circuit with R-S Flip-Flop, Construction of T Flip-Flop Circuit with D Flip-Flop, Construction of J Flip-Flop Circuit with R-S Flip-Flop, Shift Register Circuit with D Flip-Flop, Preset Left/Right Circuit, Construction of Noise Elimination Circuit with R-S Flip-Flop, Asynchronous Binary Up-counter, Asynchronous Decade Up-counter, Asynchronous Divide-by-N Up-counter, Synchronous Binary Up/Down-counter Presentable Binary Up/Down counters, Presentable Decimal Up/Down counters, Ring Counter, Johnson’s Counter
Memory Circuit Experiments:
Constructing Read Only Memory (ROM) with Diode Circuit, Constructing Random Access Memory (RAM) with D Flip-Flop, Constructing 64-Bit RAM circuit, Erasable Programmable Read Only Memory (EPROM), Electronic EPROM (EEPROM) Circuit, Construction of Dynamic Scanning Counter with Single-Chip Microprocessor
Converter Circuit Experiments:
Unipolar DAC Circuit, Bipolar DAC Circuit, 8-Bit Converter Circuit, 3 1/2-Digit Converter Circuit
Communication Engineering Laboratory
| Engineering Field | Number of Experiments conducted |
|---|---|
| Basic Communication System | 45 Experiments |
| Fiber Optic Communication | 15 Experiments |
| FM Transmitter and Receiver | 11 Experiments |
| AM Transmitter and Receiver | 10 Experiments |
| Memory Circuit | 06 Experiments |
| Total Experiments | 81 Experiments |
Some Major Experiments in each of the fields are summarized as follows
Basic Communication System Experiments:
Operation and Characteristics of Radio-Frequency (RF) Oscillator, Second Order Low -pass Filter Circuit, Second Order High -pass Filter Circuit, DSB-SC and SSB Modulators Circuit, FM Demodulator Circuit Experiment, LM565 PLL Characteristics Measurement, LM565 V-F Characteristics, PLL Frequency Demodulator, FM to AM Frequency Demodulator, A/D (Analoge to Digital)Converter Circuit, D/A ( Digital to Analoge )Converter Circuit, PWM Modulators Circuit, PWM Demodulator Circuit, FSK Modulators, FSK Demodulators , Frequency Synthesizer, CVSD Modulator, CVSD Demodulator, Low pass Filter, CVSD System with various Clock rates, Manchester Encoder, Manchester Decoder, Manchester CVSD, ASK Modulator, ASK Demodulator, PSK/QPSK Modulator, PSK/QPSK Demodulator, Time Division Multiplexing (TDM), Pulse Amplitude Modulation(PAM), Frequency up and Frequency Down Circuit, Carrier Frequency Recovery, Frequency Converter, Manchester Clock Regeneration
Fiber Optic Communication Experiments:
Fiber Optics, Application of Fiber Optics, Light sources of Fiber Optics, Light and Optical Fiber Interaction, Fiber Optic Transmitter, Fiber Optic Receiver, Fiber Optic Network, Fiber Optic Connectors and Fiber Polishing, Data Transmission -One Module, Data Transmission Module to Module, Data Transmission PC to Module, Data Transmission Module to PC, ASK Data Transmission, PSK/QPSK Data Transmission.
FM Transmitter and Receiver Experiments:
Function and Basic Operation of FM, Phase Modulation Circuit, Frequency Multipliers, Experimental FM Transmitter, Test and Measurements of FM Transmitter, FM Stereo Radio, Monophonic FM Receiving System, Stereophonic FM Receiving System, FM Subsystem, Integrated Circuit of FM Receiver, FM Radio Experimentations
Electrical Machines Laboratory
| Engineering Field | Number of Experiments conducted |
|---|---|
| Electrical Transformer | 07 Experiments |
| DC Motor | 04 Experiments |
| DC Generator | 03 Experiments |
| AC Motor | 05 Experiments |
| AC Generator/Alternator | 05 Experiments |
| Total Experiments | 24 Experiments |
Some Major Experiments in each of the fields are summarized as follows
Electrical Transformer Experiments:
Using Single phase transformer as step up and step down and Ideal, Determination of transformer turn Ratio Test, No Load(Open Circuit) Characteristics Test, Resistive Load Characteristics Test, Inductive Load Characteristics Test, Capacitive Load Characteristics Test, Short Circuit Characteristics Test
DC Motor Experiments:
Speed Control of DC Shunt Motor by flux control, Speed Control of DC Shunt Motor by armature Control, Torque Armature current Characteristics of DC series motor, Speed Control of DC Shunt Motor and Observation of Back emf
DC Generator Experiments:
Characteristics of Self excited DC Shunt Generator, Open Circuit Characteristics of DC Shunt Generator, and External Characteristics of DC shunt Generator with Load, Speed Controll of DC Shunt Motor and Observation of Back emf
AC Motor Experiments:
Running Torque of a Single Phase Induction Motor, no load test of an Induction Motor, Induction Motor by Block Rotor Test, Characteristics of Synchronous Motor
AC Generator/Alternator Experiments:
No Load Characteristics, .Parallel Operation, Resistive Load, Inductive Load, Capacitive Load Characteristics of Three Phase Alternator.
Measurement and Instrumentation Laboratory
| Engineering Field | Number of Experiments conducted |
|---|---|
| Measurement | 13 Experiments |
| Instrumentation | 12 Experiments |
| Total Experiments | 25 Experiments |
Some Major Experiments in each of the fields are summarized as follows
Measurements Experiments:
Measuring voltage (DC &AC), measuring Current (DC &AC), measuring Resistance, measuring Power, measuring rpm and rps, measuring Frequency and amplitude, measuring diode value, conducting short circuit test, Measuring Capacitance value, measuring torque.
Instrumentation Experiments:
Identification of Electrical and Electronics Measuring Instruments and Function Analysis, Operation and connections of a digital and analog Ameter , Ohm Meter, Wattmeter ,RLC Meter, Tachometer, Oscilloscope, Electrodynamometer
Power System Laboratory
| Engineering Field | Number of Experiments conducted |
|---|---|
| Power System | 8 Experiments |
| Total Experiments | 8 Experiments |
Switchgear and Protective Relay Laboratory
| Engineering Field | Number of Experiments conducted |
|---|---|
| Switchgear and Protective | 11 Experiments |
| Total Experiments | 81 Experiments |
IUBAT University department of EEE has well equipped with high speed computers with power backup system to conduct feedback analysis practice. By using (matlab) software experiments expand the partial fraction, transient response analysis, root-Locus plot, plotting Bode diagram, drawing Nyquist plots, transformation of system models, solving pole-placement problems, design of state observers and solving quadratic optimal control problems.
Career & Placement Services
The Placement Office of the university provides the students and graduates assistance regarding career planning and employment. This basically takes two forms viz. assistance in placement to students in their final semester for practicum work in real life organizations and assistance in placement to graduate students in securing career employment. Student placement takes the form of providing assistance to students in short listed organizations that may be available for practicum work, providing support for placement of practicum and then ensuring smooth attachment of the student in the organization for successful completion of the practicum work.
Assistance in career placement takes various forms of services ranging from on campus interviewing with the employers to resume referral to employers seeking graduates for employment. Most services are available for current students, but seniors or graduates can also register with this office prior to their graduation for assistance in career placement. The university offers a course on career planning and guidance in which the students are trained in resume writing and critiquing, job search techniques and interviewing skills. This course prepares the student to plan and approach career exploration. Besides, the placement office provides individualized counseling on a limited basis on preparing job applications.