
Chaitanya Bharathi Institute of Technology
Recognised by UGC Under the section 2(f) & 12(B) of UGC Act, 1956
Accredited by NAAC & NBA, Civil, EEE, ECE & CSE
Approved by AICTE, New Delhi, Affiliated to JNTUA, Anantapuramu,
Approved by S.B.T.E.T Andhra Pradesh
Vidya Nagar, Proddatur-516360, Kadapa (dist.) P.H. 08564-278000, Fax: 08564-278444
Department of Electrical and Electronics Engineering
The department of Electrical and Electronics Engineering was started in the year 2008. Known all along for its high quality of experienced faculty, The faculty maintains close relation with the students and pays individual attention. Students are given deep exposure in their field of study with a career orientation. The department, in keeping with the objectives of the institute, emphasizes discipline, encourages the involvement of the faculty in the development of the laboratories, and takes active interest in the student counseling.
Vision
- To impart knowledge in ever-changing Electrical and Electronics Engineering to promote highly competent, innovative and ethical computer professionals through excellence in teaching, training and research.
Mission
- To provide opportunities for students to work on the different kinds of hardware and software platforms prevalent in industry, with the objective of being responsive to industries’ needs, the programme goes beyond the curriculum prescribed by the University.
Programme Educational Objectives (PEO's)
PEO No. | Programme Educational Objectives |
---|---|
PEO1 | CBIT Graduates shall have strong foundation in Electrical and Electronics Engineering along with advance knowledge on contemporary technologies and devise solutions for realistic and social issues in the society. |
PEO2 | Graduates shall be employed in software and hardware industries or pursue higher studies or research or become entrepreneurs. |
PEO3 | Graduates shall overcome cultural differences through teamwork, good communication and high patterns of discipline. |
Program Specific Outcomes (PSO's)
PSO No. | Program Specific Outcomes |
---|---|
PSO1 | Ability to analyze, design and implement electrical systems. |
PSO2 | Ability to apply project management techniques to electrical/electronic systems. |
PSO3 | Take up administrative responsibilities involving project and financial management. |
Program Outcomes (PO's)
PO No. | Program Outcomes |
---|---|
PO1 | Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems. |
PO2 | Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principlesof mathematics, natural sciences, and engineering sciences. |
PO3 | Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations. |
PO4 | Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions. |
PO5 | Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations. |
PO6 | The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice. |
PO7 | Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development. |
PO8 | Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice. |
PO9 | Individual and team work: Function effectively as an individual, and as a member or leader in diverseteams, and in multidisciplinary settings. |
PO10 | Communication: 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. |
PO11 | Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments. |
PO12 | Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest on text of technological change. |
Faculty Details
With pride and commitment to excel deep within the institution by building values through flawless execution. Well Qualified, experienced and dedicated senior faculty members and technical supporting staff are here to mould the students to strive and excel in all spheres of life. Not only they motivate the students to participate in Seminars / Conferences / Workshops, but also encourage them in Research and Development Programmes. Our non-teaching staff members serve the needs of the students.
S.No | Name of the faculty | Qualification | Designation |
---|---|---|---|
1 | Dr.R.SARAVANAN(HOD) | Ph.D. | Professor |
2 | Dr.K.C.BALAJI | Ph.D. | Professor |
3 | Dr.J.POORNACHANDRAN | Ph.D. | Professor |
4 | Dr.A.SWATHI GUPTA | Ph.D. | Professor |
5 | Mr. N. VARA PRASAD | M.Tech.,(Ph.D.) | Assoc. Professor |
6 | Dr.A.V.SUDHAKAR REDDY | Ph.D. | Assoc. Professor |
7 | Mrs. S.SOORIYA PRABHA | M.Tech.,(Ph.D.) | Assoc. Professor |
8 | Mr. Y.PRAVEEN KUMAR REDDY | M.Tech. | Assoc. Professor |
9 | Mr.K.R. SIVA PRASAD | M.Tech. | Asst. Professor |
10 | Mr.P.NAGARJUNA | M.Tech. | Asst. Professor |
11 | Mr.K.R SIVA PRASAD | M.Tech. | Asst. Professor |
12 | Mr. G. CHOUSAIN BASHA | M.Tech. | Asst. Professor |
13 | Mr.B.S. MAHMED SHAHEER | M.Tech. | Asst. Professor |
14 | Mr. B. BHARGAVA REDDY | M.Tech. | Asst. Professor |
15 | Mrs.B.LAKSHMI DEVI | M.Tech. | Asst. Professor |
16 | Ms.B.SINDHUJA | M.Tech. | Asst. Professor |
17 | Mrs.MALLIKA | M.Tech. | Asst. Professor |
18 | Ms. P.NIVEDITHA | M.Tech. | Asst. Professor |
19 | Mr. K. VENKATA ASHOK KUMAR | M.Tech. | Asst. Professor |
20 | Mr.B.ANJAN KUMAR | M.Tech. | Asst. Professor |
21 | Ms. P.PADMAVATHI | M.Tech. | Asst. Professor |
22 | Ms.MYNA | M.Tech. | Asst. Professor |
23 | Mr.G.NAGARJUNA | M.Tech. | Asst. Professor |
24 | Mr.M.SURESH KUMAR | M.Tech. | Asst. Professor |
Lab Facility
List of Laboratories
- Electrical Machines Lab
- Control Systems Lab
- Electrical Measurements Lab
- Electrical Circuits Lab
- Power Electronics Lab
- Simulation Lab
Infrastructure Facilities
Electrical Machines Lab
The machinery in the lab includes, Control Panel Board and Rectifier.
DC Machines | |
---|---|
Shunt motor | 3 |
Compound motor | 1 |
Motor – Generator sets | 6 |
AC Machines | |
Alternators | 2 |
Synchronous Motors | 1 |
3 Phase induction Motor | 1 |
1 Phase induction Motor | 1 |
Transformers (1 phase) | 7 |
Auto transformers (1 phase) | 4 |
Auto transformers (3phase) | 2 |
Apparatus includes Rheostats (15 no), Measuring Instruments (Voltmeter + ammeter + wattmeter) |
70 |
Resistive Loads (1 Phase) | 3 |
Resistive Loads (3 Phase) | 3 |
Control Systems Lab
The control systems lab includes,
Synchro Characteristics
Time Response of First Order System and Second Order System
PID Response of Second Order System
Lead –Lag Networks
Transfer function of DC Generator
Effect of Feedback on DC servomotor
Torque Speed Characteristics of AC Servomotor
Temperature Controller using PID
Magnetic Amplifier
CRO-3 no Function Generators -2
Power Electronics Lab
The Power Electronics Lab includes,
Study of characteristics of SCR, MOSFET, IGBT
Gate firing circuits for SCR s
Single Phase AC Voltage Controller with R and RL loads
Forced Commutation circuits (Class A, Class B, Class C, Class D & Class E)
Single Phase fully controlled bridge converter with R and RL Load
DC Jones Chopper with R and RL Loads
Single Phase series inverter with R and RL Loads
Single Phase Cyclo Converter with R and RL Loads
Single Phase AC Voltage Controller using PSPICE Simulation
Buck Chopper using PSPICE Simulation
CRO-6 no Tapping Transformers – 6 nos
Electrical Machines Lab – II
OC and SC tests on Single Phase transformer
Sumpners test on a pair of Single Phase transformers
Scott connection of transformers
Regulation of a three Phase Alternator by Synchronous Impedance and mmf method
V and inverted V curves of a three phase synchronous motor
Equivalent circuit of a Single Phase Induction motor
Determination of Xd and Xq of a salient pole synchronous machine
Parallel operation of Single Phasr transformers
Separation of core losses of a Single phase transformer
Brake test on Three Phase Induction motor
Electrical Measurements Lab
The Electrical Measurements Lab includes,
Calibration and Testing of single phase energy Meter
Crompton D.C. Potentiometer – Calibration of PMMC ammeter and PMMC voltmeter
Kelvin’s double Bridge – Measurement of resistance – Determination of Tolerance.
Schering Bridge & Anderson Bridge.
Measurements of 3 phase reactive power with single-phase wattmeter.
Measurement of parameters of a choke coil using 3 voltmeter and 3 ammeter methods.
Measurements of 3 phase power with Two watt meter method (Balanced & Un balanced).
LVDT and capacitance pickup – characteristics and Calibration
Resistance strain gauge – strain measurements and Calibration
Electrical Circuits Lab
The Electrical Circuits Lab includes,
Bread Board – 22
Multimeters – 22
Decade Resistance Boxes – 5
Decade Capacitance Boxes – 1
Decade Inductance Boxes – 1
Function Generators – 6 CRO – 4 no Various Resistors Transformer – (Coupled Circuits) – 1
The Experiments Executed in this Lab are, Verification of Theorems – Theremins, Norton, Maximum Power Transfer, Reciprocity, Superposition, Millmans Series and Parallel Resonance
Locus Diagrams
Determination Of Coupling Coefficient
Computer Simulation Lab
The computer simulation Lab Includes,
36 systems with Dual core Processor, 2GB RAM, LED Monitors
Installed with MATLAB, PSPICE, AUTOCAD, MYPOWER
To simulate various models in Control Systems, Power Electronics, Electrical Circuits