ELECTRICAL & ELECTRONICS
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Program Overview
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HOD's Desk
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Vision & Mission
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PEO's
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PO's
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CO's
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Teaching Faculty
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Non-Teaching faculty
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Lab Details
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Publications
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Students List
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Question Paper
Electrical energy is an essential gradient for the industrial and all-round development of any nation.
Electrical engineering is a discipline concerned with the study, design, and application of equipment, devices, and systems related to electricity, electronics, and electromagnetism.
Electrical Engineering degree teaches excellent problem-solving skills and logical thinking. The courses are structured in ways that encourage analytical thinking and ensure students are technically proficient.
This department is one of the conventional and major branches of any engineering institution.
- The department is having qualified and dedicated staff members available for the students at all the time.
- The department conducts regular seminars and workshops on the recent technologies under the department forum.
- The resource persons are invited from the various reputed industries and institutions.
- The department laboratories are spacious and facilitated with modern equipment to carry out all the experiments as per the university curriculum.
- Additional design-based experiments are conducted to enhance the technical skills of the students.
Dr. Sharana Reddy
Professor & HOD
Department of EEE
Mobile: 9980121044
Email: sharanreddy@bitm.edu.in
Warm greetings
With the ever-growing demand for Electrical and Electronics Engineers in all sectors, the Department's focus is to train our students to get strong academic knowledge in the frontier areas including electrical, electronics, and IT-related engineering, and also to make the students ready to face real-world challenges.
The Department has highly experienced faculty members. The faculty members display a high level of dedication and enthusiasm toward both teaching and state-of-the-art research. The Department faculty have sound knowledge in emerging research areas like Adaptive & Robust control schemes for power electronic applications, Power systems, Electrical machines and drives, Control of Electric vehicles and energy management, Power system optimization and Active distribution networks, Home energy management, and Smart grid technologies. Our faculty members are continuing their respective research projects and publishing their research articles in reputed national and international journals.
The department is proactive in organizing various workshops, technical talks, industrial visits, and seminars through the departmental forum, Circuit Riders, to enhance the knowledge and skills of both faculty and students in cutting-edge technologies. Students in our department are highly encouraged to implement their innovative research ideas with the guidance of expert faculty members and the available standard research lab facilities.
At present, the department offers a four-year undergraduate program, a B.E. (Electrical and Electronics Engineering), and a Ph.D. program in Electrical and Electronics Engineering specializations. The curriculum is designed to align with current and upcoming industry requirements, especially in the context of Industry 4.0.
Graduates of the Electrical and Electronics Engineering program have a wide range of career opportunities in Power industries, Government PSUs, R&D Units, IT industries, Electricity Boards/Utility companies, Telecommunications industries, Manufacturing industries, Private industrial firms, and Startup companies.
VISION AND MISSION OF THE DEPARTMENT
Vision:
To create a center of excellence in teaching, learning, and research that meets technological challenges.
Mission:
- To provide quality teaching and learning environment to produce competent graduates.
- To impart knowledge relevant to industry and research.
- To develop the students with professional, leadership qualities and lifelong learning skills.
Programme Educational Objectives (PEOs):
PEO 1: To prepare graduates to excel in their professional careers by acquiring a broad knowledge of electrical engineering.
PEO 2: To develop graduates to engage in lifelong learning, professional development, and career-enhancing activities.
PEO 3: To prepare graduates with leadership qualities, ethics, and skills necessary to be successful in their careers.
Program outcomes (POs):
| 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 principles of 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 public health and safety, and 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 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 diverse teams, and in multi-disciplinary 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 work, as a member and leader in a team, to manage project sand in multi-disciplinary 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 context of technological change. |
| Program Specific Outcomes | |
| PSO1 | Analyze, design, and solve problems in the field of electrical and electronics engineering by applying knowledge acquired from core subjects and allied subjects. |
| PSO2 | Develop products or software using technological developments to cater to the needs of society and the industry. |
| S. No. | Name of the Faculty | Designation | Qualification | Teaching Experience |
| 1 | Dr. Khened B. S | Professor Dean-Academics & Vice principal | PhD | 37 |
| 2 | Dr. Sharana Reddy | Professor & HOD | PhD | 25 |
| 3 | Dr. Abdul Khadar A | Professor | PhD | 21 |
| 4 | Dr. Raghavendra P | Associate Professor | PhD | 5 |
| 5 | Mrs. Arathi P B | Assistant Professor | M Tech | 19 |
| 6 | Mr .Y Kamal Kishore | Assistant Professor | M Tech | 15 |
| 7 | Mr. Mahammad Anwar | Assistant Professor | M Tech | 13 |
| 8 | Mr. Shridhar S. M | Assistant Professor | M Tech | 15 |
| 9 | Mrs. Parvathi | Assistant Professor | M Tech | 13 |
| 10 | Mrs. Sujatha D | Assistant Professor | M Tech | 14 |
| 11 | Mrs. Farzana Begum K | Assistant Professor | M Tech | 14 |
| 12 | Mr. Vijaya Krishna M | Assistant Professor | M Tech | 9 |
| 13 | Mr. Harish Kumar G | Assistant Professor | M Tech | 10 |
| 14 | Mr. Santhosha B M | Assistant Professor | M Tech | 9 |
| 15 | Mr. Vijay Kumar M K | Assistant Professor | M Tech | 13 |
| 16 | Mrs. Pushpalatha Kumari M | Assistant Professor | M Tech | 7 |
| 17 | Mrs. Rajyalakshmi P | Assistant Professor | M Tech | 6 |
| 18 | Mrs. Nandini Patil | Assistant Professor | M Tech | 5 |
| 19 | Mrs. Priyanka H T | Assistant Professor | M Tech | 5 |
| 20 | Mr. Shashidhara B | Assistant Professor | M Tech | 4 |
| 21 | Mrs. Nagapratyusha B | Assistant Professor | M Tech | 2 |
| 22 | Mrs. Zoya Parvez | Assistant Professor | M Tech | 4 |
| 23 | Ms. Kurshiya Biradar S | Assistant Professor | M Tech | 1 |
| 24 | Ms. Soujanya B N | Assistant Professor | M Tech | 1 |
| 25 | Ms. Ummi Hani | Assistant Professor | M Tech | 1 |
| 26 | Mrs. Shafreen Parvez | Assistant Professor | M Tech | 1 |
| S. No. | Name of the Staff | Designation | Experience |
| 1 | Mr. A Eranna | Instructor | 22 |
| 2 | Mr. Devendrappa | Instructor | 17 |
| 3 | Mr. Venkatesh S | Instructor | 15 |
| 4 | Mr. Manjunatha D | Instructor | 18 |
| 5 | Mr. Mahaboob Sab | Instructor | 18 |
| 6 | Mr. Shreekantha A | Instructor | 14 |
| 7 | Mr. V. Vishwanath | Instructor | 15 |
| 8 | Mr. Nandeesh O | Instructor | 5 |
| 9 | Mr. Venugopal | Instructor | 7 |
| 10 | Mr. Vishwanath K | Instructor | 5 |
| 11 | Mr. Zakir Hussain S | Instructor | 3 |
| 12 | Mr. Chetan Kumar | Instructor | 3 |
| 13 | Mr. Mohan Reddy B | Helper | 4 |
| 14 | Bhagyamma V* | Helper | 5 |
| 15 | Kavitha V* | Helper | 5 |
| 16 | Nirmala K T* | Helper | 5 |
| 17 | Lakshmi K* | Helper | 0 |
ELECTRICAL AND ELECTRONICS ENGINEERING
| S.NO | Name of the Laboratory | Lab / Major Equipments | Building Name |
| 1 | AC MACHINES LAB AND DC MACHINES LAB | AC slipping induction motor,
AC squirt gauge induction motor, AC 1phase induction motor-01 Auto synchronous motor(5hp), DC shunt motor(5hp), DC shunt motor with brake drum(3hp/220v), DC shunt motor (3ho/220v), DC compound motor, DC shunt motor with generator, DC shunt motor with series generator, DC shunt motor with compound generator, Transformer 1 kva, Transformer 2 kva, |
D R REDDY NEW ELE BLOCK |
| 2 | COMPUTER-AIDED ELECTRICAL DRAWING LAB | High-end processor personal computers, Printer-EPSON-01
Projector |
D R REDDY NEW ELE BLOCK |
| 3 | CONTROL SYSTEM LAB | Second-order system,
Lead-lag network, PID controller, 2-phase AC servo motor, DC servo Motor, Synchronous Tx-Rx pair, Second-order system frequency response, computers' zenith |
D R REDDY NEW ELE BLOCK |
| 4 | DSP LAB | High-end processor personal computers,
Projector |
D R REDDY NEW ELE BLOCK |
| 5 | ELECTRONICS CIRCUITS LAB | CROs, Function Generators (Signal generator), Regulated Power supplies, Multimeters, IC trainer kits, IC digital Tester, linear IC trainer kits, linear IC Tester, Power scopes, Mp 8085 trainer kits, Transformers (6-0-6) and(9-0-9), Digital storage oscilloscope | D R REDDY NEW ELE BLOCK |
| 6 | HIGH VOLTAGE LAB | Medium size high voltage lab equipment-1 Set, Over current electromechanical relay kit with power supply, Under voltage electro-mechanical relay test kit, Negative sequence solid state relay test kit,
Under voltage/over voltage numerical relay test kit, Over current numerical relay test kit, Motor protection simulation study unit |
ADJACENT TO D R REDDY NEW ELE BLOCK |
| 7 | LINEAR INTEGRATED CIRCUIT LAB | CROs, Function Generator (Signal generator), Regulated Power supply, Multimeters, IC trainer kits, IC digital Tester, linear IC trainer kits, linear IC Tester, Power supply, Power scope, Digital storage oscilloscope | D R REDDY NEW ELE BLOCK |
| 8 | MICROCONTROLLER LAB | The stepper motor IC chord is old,
Logic controller, Dual DAC interface, The DAC interfacing kit is old, DAC interfacing kit new, 8-bit ADC, Keyboard display, LCD keyboard interface, MUX display, Traffic light interface, Elevator old, Elevator new, 8255 study chord, 8237 study chord, ALS-SDA 89c61*2,MSP-430kit, High-end processor personal computers, Projector |
D R REDDY NEW ELE BLOCK |
| 9 | POWER ELECTRONICS LAB | IGBT-based chopper,
DC shunt motors with mechanical loading arrangements, 1ph IGBT-based diode damped multilevel inverter, Bulk boost converter, Static characters of SCR, Static characters of MOSFET/IGBT, UJT relaxation oscillator, Digital firing circuit, Full wave converter, AC regulator using TRIAC/DIAC, Speed control of Stepper motor, Speed control of universal motor, Chopper circuit using IGBT, IGBT based single phase full bridge inverter |
D R REDDY NEW ELE BLOCK |
| 10 | POWER SYSTEM SIMULATION LAB | High-end processor personal computers, Printer-EPSON-01
Projector |
D R REDDY NEW ELE BLOCK |
| 11 | BASIC ELECTRICAL LAB | Measurement of resistance and inductance of a choke coil kit, Determination of phase and line quantities in three phase star and delta connected loads kit., Measurement of 3- power using two wattmeter method kit.
Two-way and three-way control of lamp kit. Measurement of power and power factor of different lamps kit. 3-Ø, 5A, 440V resistive loads.
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D R REDDY NEW ELE BLOCK |
| Name of the Author/s | Title of paper | Name of Journal/Conference |
Year of publication |
| Dr. B S Khened | Optimal placement and sizing of multiple DG in a radial distributed system using the LSF method | JETIR(Journal of Emerging Technologies and Innovative Research) | 2019-20 |
| Synthesis, characterization, and liquid petroleum gas sensing of ZnFe2O4 nano ribbons doped polyaniline nanocomposites | Sensor Letters | 2016-17 | |
| High Sensitivity and Selectivity of LPG Gas by Three-Dimensional Molecular Ordered Polyaniline/CeO2 Nanocomposites | Sensor Letters | 2016-17 | |
| Studies on LPG sensing property of polyaniline/BaZrO3 composites | Materials today proceedings | 2015-16 | |
| Design of a Low-Cost Instrumentation System for Oxygen Sensing Using Polyaniline/Cerium Oxide Composites | IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE) | 2014-15 | |
| CO2Sensing Behavior Of Pani/Ceo2composites | International Journal Of Ethics In Engineering & Management Education | 2013-14 | |
| Impedance Spectroscopic Studies On Pani/Ceo2 Composites | International Journal Of Electrical Engineering & Technology | 2012-13 | |
| Humidity sensing and transport properties of polyaniline/potassium molybdate composites | International Journal of Electrical Engineering &Technology | 2012-13 | |
| AC conductivity studies of PTSA-doped polyaniline sodium alginate composites | Cellulose chemistry and technology | 2014-15 | |
| Electrical Conductivity, Dielectric Behavior And Humidity Sensing Properties Of Polyaniline-Graphite Oxide Composites |
International Journal Of Electrical And Electronics Engineering |
2012-13 | |
| A Review on Interfacing Circuits for Resistive Type Gas Sensors | Â International Journal of Electronic Engineering Research | 2011-12 | |
| Dr. Sharana Reddy | Simulation Analysis of PWM-based Sliding Mode Controller for DC_DC buck Converter | IJMTST | 2021-22 |
| Modeling, Simulation, and Performance Analysis of Solar PV System | IJMTST | 2021-22 | |
| Simulation and Experimental Analysis of Common Mode Voltage and Bearing Voltage in Multiple Motors Fed by Single PWM Inverter for Long Cable Applications | IJRTE | 2018-19 | |
| Modeling, Simulation, and Analysis of Bearing Voltage and Bearing Current in PWM Multilevel Inverter Fed Induction Motor with Different HP Ratings | IJIREEICE | 2016-17 | |
| Experimental Analysis of Effects of Mechanical Parameters on Bearing Voltage in a PWM Voltage Source Inverter Fed Induction Motor Drive | ICCCES-2016 | 2016-17 | |
| An Evaluation of Bearing Current Mitigation Techniques in PWM Adjustable Speed Drives Applications | 4thIEEE International conference on computing for sustainable global development 11th INDIA Com 2017 at New Delhi | 2016-17 | |
| Modeling, Simulation and Analysis of Common Mode Voltage and Bearing Voltage in a PWM Multilevel Inverter Fed Induction Motor with Long Cable | 2nd IEEE-International Conference on Recent Trends in Electronics, Information and Communication Technology | 2016-17 | |
| Simulation and Analysis of Common Mode Voltage, Bearing Voltage and Bearing Current in Two-Level and Three-Level PWM Inverter Fed Induction Motor Drive with Long Cable | ICPACE 2015 | 2015-16 | |
| Experimental Implementation of Conducting Grease Technique to Reduce Bearing Voltage in a PWM Inverter Fed Induction Motor Drive | ICRTEST2016 | 2015-16 | |
| Acid Doped Polyaniline-Sodium Ac Conductivity Studies Of P-Toluenesulfonic Alginate Composites | Cellulose Chemistry And Technology | 2014-15 | |
| Dr. Raghavendra P | Coordinated Volt/Var Control with Online Voltage-Profile Estimation in Smart Distribution Networks |
IEEE Industry Applications Magazine |
2017-18 |
| Online voltage estimation and control for smart distribution networks |
Journal of Modern Power Systems and Clean Energy (MPCE) |
2015-16 | |
| Online Volt/Var Control in Smart Grids with Multiple DG Systems |
7th IEEE Power India International Conference |
2016-17 | |
| Voltage estimation in smart distribution networks with multiple DG systems |
INDICON 2015 | 2015-16 | |
| online voltage estimation and control of voltage profile in smart distribution network |
AECT 2016 | 2015-16 | |
| Dr Abdul Khadar A | Analysis and design of Switched capacitor based high gain Bi-Directional DC_DC converter | IJMTST | 2021-22 |
| Design of a Reliable Hybrid (PV/Diesel)Power system with Energy storage in Batteries for Remote Residential home. | ITEE | 2021-22 | |
| A smart grid based cost reduction of electricity consumption by optimal technique with integrated consumer automated energy management system | IJRAT(international Journal of Research in Advent Technology) | 2019 | |
| An efficient cryptography key management for secure communications in smart metering | IJITEE(International Journal of Innovative Technology and Exploring Engineering ) | 2019 | |
| Real time smart grid load management by integrated and secures communication: simulation an experimental validation | IJRASET(international Journal for Research in Applied Science and Engineering Technology) | 2019 | |
| A modified seven level cascaded H bridge inverter | ITEE(Â Information Technology and Electrical Engineering) | 2020 | |
| Technique For Decoupling of Dynamic Power For Three Phase System Under Unequal Grid Voltage | International Journal of Information Technology and Electrical Engineering | 2020 | |
| Real Time Smart Grid Load Management by Integrated and Secured Communication Simulation and Experimental Validation | IJRASET | 2018-19 | |
| An Efficient Cryptography Key Management For Secure Communications In Smart Metering | IJITEE, Blue eyes intelligence engineering and sciences publication | 2018-19 | |
| A Smart Grid-Based Cost Reduction of Electricity Consumption By optimal Technique With Integrated Consumer Automated Energy Management System |
IJRAT | 2018-19 | |
| Electric Transfer Car | IJSART | 2018-19 | |
| Enhanced StatCom and Adaptive Neuro Fuzzy Logic Control at Grid Integrated FSIG Type Wind Farms under Asymmetrical Fault Condition | International Journal And Magazine Of Engineering, Technology, Management and Research (IJMETMR) | 2016-17 | |
| Research advancement towards in existing smart metering over smart grid | Springer Cham, CSOC AI trends in inelegance systems |
2016-17 | |
| Novel decision based modeling of minimizing usage cost of electricity in smart grid | IJACSA Web Of Science, Scopus In Spec Semantic Scholar | 2016-17 | |
| Control topology for emulating the behavior of synchronous machines in voltage source converters | International Journal of Engineering Development and Research (IJEDR) | 2017-18 | |
| Design and Implementation of ZigBee Based Smart Grid System for Power Management |
IEEE | 2017-18 | |
| Implementation and Design of Cascaded H-Bridge Multilevel Inverter Based DSTATCOM Using Level Shifted Technique | IJSETR | 2015-16 | |
| P-Q Theory Based Modified Control Algorithm For Load compensating Using DSTATCOM | IJSETR | 2015-16 | |
| Mrs.Arathi P B | Optimal placement and sizing of multiple DG in a radial distributed system using LSF method | JETIR(Journal of Emerging Technologies and Innovative Research) | February 2020 |
| Mitigation of voltage sag using DVR with PI controller | IRJET | 2017-18 | |
| Mr.K.Narasimhulu | Technique For Decoupling of Dynamic Power For Three Phase System Under Unequal Grid Voltage | ITEE | 2020-21 |
| A modified seven level cascaded H bridge inverter | ITEE(Â Information Technology and Electrical Engineering) | 2020 | |
| Mr. Kamal Kishore Y | Modeling, Simulation and performance Analysis of Solar PV system | IJMTST | 2021-22 |
| Comparison of Various Switching Techniques for 7-Level Cascaded Multilevel Inverter: A Review | Emerging Technologies In Electrical & Electronics Engineering | 2015-2016 | |
| Flashover voltage modeling of an outdoor porcelain insulators | AJBAS | 2015-16 | |
| Mr. Mahammad Anwar | Design and Simulation of LLC converter on LDC application for Low voltage vehicle on board | JETIR | 2021-22 |
| A system bus extension and FPGA implementation of RS232 to USB converter Integrate on SOC | IJAREEIE | 2016-17 | |
| A Self Starting Switch Mode Power Supply For Flying Capacitor Voltage Source Inverter | Indian Journal of Scientific Research | 2014-15 | |
| Mr. Shridhar.S.M | A system bus extension and FPGA implementation of RS232 to USB converter Integrate on SOC | IJAREEIE | 2016-17 |
| Flashover voltage modeling of an outdoor porcelain insulators | AJBAS | 2015-16 | |
| Mr. Santhosha.B.M | High efficient Resonant DC_DC converter for Automative LED driver applications using Phase shift control strategy | IJMTST | 2021-22 |
| A system bus extension and FPGA implementation of RS232 to USB converter Integrate on SOC | IJAREEIE | 2016-17 | |
| Flashover voltage modeling of an outdoor porcelain insulators | AJBAS | 2015-16 | |
| Mr. Vijay Krishna M | Bidirectional Regenerative braking and Regenerative breaking using Ultra-Capacitors | IJMTST | 2021-22 |
| Photo voltaic systems power optimization under cascaded inverter environment | IJSER | 2016-17 | |
| Comparison of Various Switching Techniques for 7-Level Cascaded Multilevel Inverter: A Review | Emerging Technologies In Electrical & Electronics Engineering | 2015-2016 | |
| THD optimization of sequential switching technique based hybrid IPD modulation scheme for CMIL | ICSEMR | 2014-2015 | |
| Mr. Harish Kumar G | Two Way Three Phase AC-AC UPC with LC Pair Approach Using Zero Voltage Soft Switching Technique | International Journal of Scientific Engineering and Technology Research | 2016-17 |
| High Voltage Gain for Grid-Tied Applications using Interfaced Buck-Boost-Derived Flyback Converter Approach with Single Switch | International Journal of Scientific Engineering and Technology Research | 2016-17 | |
| Mr. M K Vijay Kumar | Coordinated V-f and P-Q Control of Solar Photovoltaic Generators with MPPT and Battery Storage in Microgrids | JETIR | 2018-19 |
| Ms. Nandini . S. Patil | Optimal placement and sizing of multiple DG in a radial distributed system using LSF method | JETIR(Journal of Emerging Technologies and Innovative Research) | February 2020 |
| S.No | Year | Department | Download Files |
|---|---|---|---|
| 1 | 2nd Year | EEE | Click Here |
| 2 | 3nd Year | EEE | Click Here |
| 3 | 4nd Year | EEE | Click Here |
Electrical energy is an essential gradient for the industrial and all-round development of any nation.
Electrical engineering is a discipline concerned with the study, design, and application of equipment, devices, and systems related to electricity, electronics, and electromagnetism.
Electrical Engineering degree teaches excellent problem-solving skills and logical thinking. The courses are structured in ways that encourage analytical thinking and ensure students are technically proficient.
This department is one of the conventional and major branches of any engineering institution.
- The department is having qualified and dedicated staff members available for the students at all the time.
- The department conducts regular seminars and workshops on the recent technologies under the department forum.
- The resource persons are invited from the various reputed industries and institutions.
- The department laboratories are spacious and facilitated with modern equipment to carry out all the experiments as per the university curriculum.
- Additional design-based experiments are conducted to enhance the technical skills of the students.
Dr. B.S.Khened
Prof. & HOD
Greetings from the EEE department,
Electrical and Electronics Engineering is one of the core branches of engineering which has driven the world of technology to excellence. It has its applications in almost all branches of engineering. With rapid industrial growth in the country, the requirement for electrical engineers has tremendously increased in the power sector, industries, private and Government companies. This has resulted in the opening of enormous opportunities for graduate electrical engineers.
With the objectives of transforming our students into efficient and capable technical professionals, having sound knowledge with analytical ability, creativity, and professional competence, we impart necessary training to our students to excel in their respective fields. The department’s excellent infrastructure, talented faculty of the best kind ensuring quality education, along with a training and placement cell ensures a bright future for its students. Combining the advantages of sound theoretical knowledge with the practical application of the same, and aided by exposure to the latest technologies molds the students into excellent engineers The department believes in the multidimensional growth of all students. Keeping the above idea in mind the department encourages students to participate in extra and co-curricular activities, sports, cultural fest, and paper presentations on technical subject’s seminars, etc… Industrial visits, regular internships which assist the student in a smooth transition from academic life to work-life is a regular feature of our department. Thus we are confident that our students will emerge as assets not only to this institution and to the organization to they belong, but also to the country at large.
The department is presently running B. E. Course in Electrical and Electronics Engineering approved, by AICTE and Affiliated to V.T.U, The department has V.T.U. recognized research center.
VISION AND MISSION OF THE DEPARTMENT
Vision:
To create a centre of excellence in teaching, learning and research that meets technological challenges.
Mission:
- To provide quality teaching and learning environment to produce competent graduates.
- To impart knowledge relevant to industry and research.
- To develop the students with professional, leadership qualities and lifelong learning skills.
PEO 1: To prepare graduates to excel in professional career by acquiring the broad knowledge of electrical engineering.
PEO 2: To develop graduates to engage in lifelong learning, professional development and career enhancing activities.
PEO 3: To prepare graduates with leadership qualities, ethics and skills necessary to be successful in their career.
Programme outcomes (POs):
| 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 principles of 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 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 diverse teams, and in multi-disciplinary 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 project sand in multi-disciplinary 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 context of technological change. |
| Â | Program Specific Outcomes |
| PSO1 | Analyze, design and solve problems in the field of electrical and electronics engineering by applying knowledge acquired from core subjects allied subjects. |
| PSO2 | Develop products or software using technological developments to cater the needs of society and the industry. |
ELECTRICAL AND ELECTRONICS ENGINEERING
| S.NO | Name of the Laboratory | Lab / Major Equipments | Building Name |
| 1 | AC MACHINES LAB AND DC MACHINES LAB | AC slipping induction motor,
AC squirt gauge induction motor, AC 1phase induction motor-01 Auto synchronous motor(5hp), DC shunt motor(5hp), DC shunt motor with brake drum(3hp/220v), DC shunt motor (3ho/220v), DC compound motor, DC shunt motor with generator, DC shunt motor with series generator, DC shunt motor with compound generator, Transformer 1 kva, Transformer 2 kva, |
D R REDDY NEW ELE BLOCK |
| 2 | COMPUTER AIDED ELECTRICAL DRAWING LAB | High-end processor personal computers , Printer-EPSON-01
Projector |
D R REDDY NEW ELE BLOCK |
| 3 | CONTROL SYSTEM LAB | Second order system,
Lead-lag network, PID controller, 2-phase AC servo motor, DC servo Motor, Synchronous Tx-Rx  pair , Second order system frequency response, computers zenith |
D R REDDY NEW ELE BLOCK |
| 4 | DSP LAB | High-end processor personal computers ,
Projector |
D R REDDY NEW ELE BLOCK |
| 5 | ELECTRONICS CIRCUITS LAB | CROs, Function Generators (Signal generator), Regulated Power supplies, Multimeters, IC trainer kits, IC digital Tester, linear IC trainer kits, linear IC Tester, Power scopes, Mp 8085 trainer kits, Transformers (6-0-6) and(9-0-9), Digital storage oscilloscope | D R REDDY NEW ELE BLOCK |
| 6 | HIGH VOLTAGE LAB | Medium size high voltage lab equipments-1 Set, Over current electromechanical relay kit with power supply, Under voltage electro mechanical relay test kit , Negative sequence solid state relay test kit ,
Under voltage/over voltage numerical relay test kit, Over current numerical relay test kit, Motor protection simulation study unit |
 ADJECENT TO D R REDDY NEW ELE BLOCK |
| 7 | LINEAR INTEGRATEG CIRCUIT LAB | CROs, Function Generator (Signal generator), Regulated Power supply, Multimeters, IC trainer kits, IC digital Tester, linear IC trainer kits, linear IC Tester, Power supply, Power scope, Digital storage oscilloscope | D R REDDY NEW ELE BLOCK |
| 8 | MICROCONTROLLER LAB | Stepper motor IC chord old,
Logic controller, Dual DAC interface, DAC interfacing kit old, DAC interfacing kit new, 8-bit ADC, Keyboard display, LCD keyboard interface, MUX display, Traffic light interface, Elevator old, Elevator new, 8255 study chord, 8237 study chord, ALS-SDA 89c61*2,MSP-430kit, High-end processor personal computers , Projector |
D R REDDY NEW ELE BLOCK |
| 9 | POWER ELECTRONICS LAB | IGBT based chopper,
DC shunt motors with mechanical loading arrangements, 1ph IGBT based diode damped multilevel inverter, Bulk boost converter, Static characters of SCR, Static characters of MOSFET/IGBT, UJT relaxation oscillator, Digital firing circuit, Full wave converter, AC regulator using TRIAC/DIAC, Speed control of Stepper motor, Speed control of universal motor, Chopper circuit using IGBT, IGBT based single phase full bridge inverter |
D R REDDY NEW ELE BLOCK |
| 10 | POWER SYSTEM SIMULATION LAB | High-end processor personal computers , Printer-EPSON-01
Projector |
D R REDDY NEW ELE BLOCK |
| 11 | BASIC ELECTRICAL LAB | Measurement of resistance and inductance of a choke coil kit, Determination of phase and line quantities in three phase star and delta connected loads kit., Measurement of 3-Ø power using two wattmeter method kit.
Two-way and three-way control of lamp kit. Measurement of power and power factor of different lamps kit. 3-Ø, 5A, 440V resistive loads.
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D R REDDY NEW ELE BLOCK |
| Name of the Author/s | Title of paper | Name of Journal/Conference |
Year of publication |
| Dr. B S Khened | Optimal placement and sizing of multiple DG in a radial distributed system using LSF method | JETIR(Journal of Emerging Technologies and Innovative Research) | 2019-20 |
| Synthesis, characterization and liquid petroleum gas sensing of ZnFe2O4 nano ribbons doped polyaniline nano composites | Â Sensor Letters | 2016-17 | |
| High Sensitivity and Selectivity of LPG Gas by Three Dimensional Molecular Ordered Polyaniline/CeO2Â Nanocomposites |
Sensor Letters | 2016-17 | |
| Studies on LPG sensing property of polyaniline/BaZrO3 composites | Materials today proceedings | 2015-16 | |
| Design of a Low Cost Instrumentation System for Oxygen Sensing Using Polyaniline/Cerium Oxide Composites | IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE) | 2014-15 | |
| CO2Sensing Behavior Of Pani/Ceo2composites | International Journal Of Ethics In Engineering & Management Education | 2013-14 | |
| Impedance Spectroscopic Studies On Pani/Ceo2 Composites | International Journal Of Electrical Engineering & Technology | 2012-13 | |
| Humidity sensing and transport properties of polyaniline/potassium molybdate composites | International Journal of Electrical     Engineering &Technology | 2012-13 | |
| AC conductivity studies of PTSA doped polyanaline sodium alginate composites | Cellulose chemistry and technology | 2014-15 | |
| Electrical Conductivity, Dielectric Behavior And Humidity Sensing Properties Of Polyaniline-Graphite Oxide Composites |
International Journal Of Electrical And Electronics Engineering |
2012-13 | |
| A Review on Interfacing Circuits for Resistive Type Gas Sensors | Â International Journal of Electronic Engineering Research | 2011-12 | |
| Dr. Sharana Reddy | Simulation Analysis of PWM based Sliding mode controller for DC_DC buck converter | IJMTST | 2021-22 |
| Modeling, Simulation and performance Analysis of Solar PV system | IJMTST | 2021-22 | |
| Simulation and Experimental Analysis of Common Mode Voltage and Bearing Voltage in Multiple Motors Fed by Single PWM Inverter for Long Cable Applications | IJRTE | 2018-19 | |
| Modeling, Simulation and Analysis of Bearing Voltage and Bearing Current in PWM Multilevel Inverter Fed Induction Motor with Different HP Ratings | IJIREEICE | 2016-17 | |
| Experimental Analysis of Effects of Mechanical Parameters on Bearing Voltage in a PWM Voltage Source Inverter Fed Induction Motor Drive | ICCCES-2016 | 2016-17 | |
| An Evaluation of Bearing Current Mitigation Techniques in PWM Adjustable Speed Drives Applications | 4thIEEE International conference on computing for sustainable global development 11th INDIA Com 2017 at New Delhi | 2016-17 | |
| Modeling, Simulation and Analysis of Common Mode Voltage and Bearing Voltage in a PWM Multilevel Inverter Fed Induction Motor with Long Cable | 2nd IEEE-International Conference on Recent Trends in Electronics, Information and Communication Technology | 2016-17 | |
| Simulation and Analysis of Common Mode Voltage, Bearing Voltage and Bearing Current in Two-Level and Three-Level PWM Inverter Fed Induction Motor Drive with Long Cable | ICPACE 2015 | 2015-16 | |
| Experimental Implementation of Conducting Grease Technique to Reduce Bearing Voltage in a PWM Inverter Fed Induction Motor Drive | ICRTEST2016 | 2015-16 | |
| Acid Doped Polyaniline-Sodium Ac Conductivity Studies Of P-Toluenesulfonic Alginate Composites | Cellulose Chemistry And Technology | 2014-15 | |
| Dr. Raghavendra P | Coordinated Volt/Var Control with Online Voltage-Profile Estimation in Smart Distribution Networks |
IEEE Industry Applications Magazine |
2017-18 |
| Online voltage estimation and control for smart distribution networks |
Journal of Modern Power Systems and Clean Energy (MPCE) |
2015-16 | |
| Online Volt/Var Control in Smart Grids with Multiple DG Systems |
7th IEEE Power India International Conference |
2016-17 | |
| Voltage estimation in smart distribution networks with multiple DG systems |
INDICON 2015 | 2015-16 | |
| online voltage estimation and control of voltage profile in smart distribution network |
AECT 2016 | 2015-16 | |
| Dr Abdul Khadar A | Analysis and design of Switched capacitor based high gain Bi-Directional DC_DC converter | IJMTST | 2021-22 |
| Design of a Reliable Hybrid (PV/Diesel)Power system with Energy storage in Batteries for Remote Residential home. | ITEE | 2021-22 | |
| A smart grid based cost reduction of electricity consumption by optimal technique with integrated consumer automated energy management system | IJRAT(international Journal of Research in Advent Technology) | 2019 | |
| An efficient cryptography key management for secure communications in smart metering | IJITEE(International Journal of Innovative Technology and Exploring Engineering ) | 2019 | |
| Real time smart grid load management by integrated and secures communication: simulation an experimental validation | IJRASET(international Journal for Research in Applied Science and Engineering Technology) | 2019 | |
| A modified seven level cascaded H bridge inverter | ITEE(Â Information Technology and Electrical Engineering) | 2020 | |
| Technique For Decoupling of Dynamic Power For Three Phase System Under Unequal Grid Voltage | International Journal of Information Technology and Electrical Engineering | 2020 | |
| Real Time Smart Grid Load Management by Integrated and Secured Communication Simulation and Experimental Validation | IJRASET | 2018-19 | |
| An Efficient Cryptography Key Management For Secure Communications In Smart Metering | IJITEE, Blue eyes intelligence engineering and sciences publication | 2018-19 | |
| A Smart Grid-Based Cost Reduction of Electricity Consumption By optimal Technique With Integrated Consumer Automated Energy Management System |
IJRAT | 2018-19 | |
| Electric Transfer Car | IJSART | 2018-19 | |
| Enhanced StatCom and Adaptive Neuro Fuzzy Logic Control at Grid Integrated FSIG Type Wind Farms under Asymmetrical Fault Condition | International Journal And Magazine Of Engineering, Technology, Management and Research (IJMETMR) | 2016-17 | |
| Research advancement towards in existing smart metering over smart grid | Springer Cham, CSOC AI trends in inelegance systems |
2016-17 | |
| Novel decision based modeling of minimizing usage cost of electricity in smart grid | IJACSA Web Of Science, Scopus In Spec Semantic Scholar | 2016-17 | |
| Control topology for emulating the behavior of synchronous machines in voltage source converters | International Journal of Engineering Development and Research (IJEDR) | 2017-18 | |
| Design and Implementation of ZigBee Based Smart Grid System for Power Management |
IEEE | 2017-18 | |
| Implementation and Design of Cascaded H-Bridge Multilevel Inverter Based DSTATCOM Using Level Shifted Technique | IJSETR | 2015-16 | |
| P-Q Theory Based Modified Control Algorithm For Load compensating Using DSTATCOM | IJSETR | 2015-16 | |
| Mrs.Arathi P B | Optimal placement and sizing of multiple DG in a radial distributed system using LSF method | JETIR(Journal of Emerging Technologies and Innovative Research) | February 2020 |
| Mitigation of voltage sag using DVR with PI controller | IRJET | 2017-18 | |
| Mr.K.Narasimhulu | Technique For Decoupling of Dynamic Power For Three Phase System Under Unequal Grid Voltage | ITEE | 2020-21 |
| A modified seven level cascaded H bridge inverter | ITEE(Â Information Technology and Electrical Engineering) | 2020 | |
| Mr. Kamal Kishore Y | Modeling, Simulation and performance Analysis of Solar PV system | IJMTST | 2021-22 |
| Comparison of Various Switching Techniques for 7-Level Cascaded Multilevel Inverter: A Review | Emerging Technologies In Electrical & Electronics Engineering | 2015-2016 | |
| Flashover voltage modeling of an outdoor porcelain insulators | AJBAS | 2015-16 | |
| Mr. Mahammad Anwar | Design and Simulation of LLC converter on LDC application for Low voltage vehicle on board | JETIR | 2021-22 |
| A system bus extension and FPGA implementation of RS232 to USB converter Integrate on SOC | IJAREEIE | 2016-17 | |
| A Self Starting Switch Mode Power Supply For Flying Capacitor Voltage Source Inverter | Indian Journal of Scientific Research | 2014-15 | |
| Mr. Shridhar.S.M | A system bus extension and FPGA implementation of RS232 to USB converter Integrate on SOC | IJAREEIE | 2016-17 |
| Flashover voltage modeling of an outdoor porcelain insulators | AJBAS | 2015-16 | |
| Mr. Santhosha.B.M | High efficient Resonant DC_DC converter for Automative LED driver applications using Phase shift control strategy | IJMTST | 2021-22 |
| A system bus extension and FPGA implementation of RS232 to USB converter Integrate on SOC | IJAREEIE | 2016-17 | |
| Flashover voltage modeling of an outdoor porcelain insulators | AJBAS | 2015-16 | |
| Mr. Vijay Krishna M | Bidirectional Regenerative braking and Regenerative breaking using Ultra-Capacitors | IJMTST | 2021-22 |
| Photo voltaic systems power optimization under cascaded inverter environment | IJSER | 2016-17 | |
| Comparison of Various Switching Techniques for 7-Level Cascaded Multilevel Inverter: A Review | Emerging Technologies In Electrical & Electronics Engineering | 2015-2016 | |
| THD optimization of sequential switching technique based hybrid IPD modulation scheme for CMIL | ICSEMR | 2014-2015 | |
| Mr. Harish Kumar G | Two Way Three Phase AC-AC UPC with LC Pair Approach Using Zero Voltage Soft Switching Technique | International Journal of Scientific Engineering and Technology Research | 2016-17 |
| High Voltage Gain for Grid-Tied Applications using Interfaced Buck-Boost-Derived Flyback Converter Approach with Single Switch | International Journal of Scientific Engineering and Technology Research | 2016-17 | |
| Mr. M K Vijay Kumar | Coordinated V-f and P-Q Control of Solar Photovoltaic Generators with MPPT and Battery Storage in Microgrids | JETIR | 2018-19 |
| Ms. Nandini . S. Patil | Optimal placement and sizing of multiple DG in a radial distributed system using LSF method | JETIR(Journal of Emerging Technologies and Innovative Research) | February 2020 |
| S. No | Name | Designation | Gender | Qualification | Experience (In Months) | Currently working with institution? | Joining Date | Leaving Date | Association type |
| 1 | DR BASAVARAJ SUGAPPA KHENED | Professor - DEAN | Male | Ph.D | 442 | Yes | 06-08-2008 | --- | Regular |
| 2 | DR SHARANA REDDY | Professor - HOD | Male | Ph.D | 295 | Yes | 02-04-2006 | --- | Regular |
| 3 | DR RAGHAVENDRA P | Associate Professor | Male | Ph.D | 81 | Yes | 02-02-2018 | --- | Regular |
| 4 | ABDUL KHADAR ASUNDI | Associate Professor | Male | Ph.D | 262 | Yes | 27-08-2010 | --- | Regular |
| 5 | PRIYANKA H T | Assistant Professor | Female | M.Tech | 53 | Yes | 01-09-2018 | --- | Regular |
| 6 | PUSHPALATHA KUMARI M | Assistant Professor | Female | M.Tech | 141 | Yes | 01-08-2013 | --- | Regular |
| 7 | PARVATHI | Assistant Professor | Female | M.Tech | 168 | Yes | 01-01-2011 | --- | Regular |
| 8 | SUJATHA HALALI | Assistant Professor | Female | M.Tech | 216 | Yes | 03-08-2009 | --- | Regular |
| 9 | FARZANA BEGUM KALBUBRGI SHAIK | Assistant Professor | Female | M.Tech | 158 | Yes | 08-02-2010 | --- | Regular |
| 10 | ARATHI P B | Assistant Professor | Female | M.Tech | 230 | Yes | 08-08-2011 | --- | Regular |
| 11 | RAJYALAKSHMI | Assistant Professor | Female | M.Tech | 60 | Yes | 08-07-2017 | --- | Regular |
| 12 | NAGA PRATHYUSHA B | Assistant Professor | Female | M.Tech | 60 | Yes | 01-02-2020 | --- | Regular |
| 13 | NANDINI S PATIL | Assistant Professor | Female | M.Tech | 60 | Yes | 01-08-2018 | --- | Regular |
| 14 | SOUJANYA B N | Assistant Professor | Female | M.Tech | 72 | Yes | 01-07-2021 | --- | Regular |
| 15 | ZOYA PARVEEZ S | Assistant Professor | Female | M.Tech | 96 | Yes | 01-07-2021 | --- | Regular |
| 16 | SHAFREEN PARVEEZ S | Assistant Professor | Female | M.Tech | 60 | Yes | 01-07-2021 | --- | Regular |
| 17 | KURSHIYA S BIRADAR | Assistant Professor | Female | M.Tech | 60 | Yes | 01-07-2021 | --- | Regular |
| 18 | VIJAYA KRISHNA MALLULA | Assistant Professor | Male | M.Tech | 142 | Yes | 01-08-2014 | --- | Regular |
| 19 | VIJAY KUMAR M K | Assistant Professor | Male | M.Tech | 183 | Yes | 19-07-2016 | --- | Regular |
| 20 | NARASIMHULU KASA | Assistant Professor | Male | M.Tech | 334 | Yes | 19-02-2010 | --- | Regular |
| 21 | SHRIDHAR MUSHIGERI | Assistant Professor | Male | M.Tech | 167 | Yes | 15-01-2009 | --- | Regular |
| 22 | KAMAL KISHORE YARANAGULA | Assistant Professor | Male | M.Tech | 202 | Yes | 15-01-2009 | --- | Regular |
| 23 | HARISH KUMAR G | Assistant Professor | Male | M.Tech | 142 | Yes | 01-08-2014 | --- | Regular |
| 24 | MAHAMMAD ANWAR | Assistant Professor | Male | M.Tech | 138 | Yes | 01-01-2011 | --- | Regular |
| 25 | SASHIDHARA B | Assistant Professor | Male | M.Tech | 41 | Yes | 02-02-2020 | --- | Regular |
| 26 | RAGHAVENDRA R M | Assistant Professor | Male | M.Tech | 19 | Yes | 02-12-2020 | --- | Regular |
| 27 | SHANTHALA H | Assistant Professor | Female | M.Tech | 144 | No | 01-02-2016 | 31-07-2022 | Regular |
| 28 | POOJA G SOLANKI | Assistant Professor | Female | M.Tech | 29 | No | 01-02-2020 | 31-07-2022 | Regular |
| 29 | ASMA KAWSER S | Assistant Professor | Female | M.Tech | 29 | No | 01-02-2020 | 31-07-2022 | Regular |
| 30 | GANGADHAR M | Assistant Professor | Male | M.Tech | 47 | No | 01-08-2018 | 31-07-2022 | Regular |
| Sl. No | Name of the Staff | Designation |
| Â Â Â Â Â Â 1. | Mr. Vishwanath | Instructor |
| Â Â Â Â Â Â 2. | Mr. Zakeer Hussain | Instructor |
| Â Â Â Â Â Â 3. | Mr. Chetan Kumar | Instructor |
| Â Â Â Â Â Â 4. | Mr. Manjunath. D | Assistant Instructor |
| Â Â Â Â Â Â 5. | Mr. Maheboob Sab. J | Assistant Instructor |
| Â Â Â Â Â Â 6. | Mr. Srikanth.A | Store Keeper |
| Â Â Â Â Â Â 7. | Mr. Vishwanath. V | Store Keeper |
| Â Â Â Â Â Â 8. | Mr. Mohan Reddy | Attender |
List of the Electrician Staff
| Sl. No | Name of the Staff | Designation |
| 1 | Mr. Veeresh | Asst. Electrician |
| 2 | Mr. Devendrappa | Asst. Electrician |
| 3 | Mr. Venkatesh | Asst. Electrician |
| 4 | Mr. Nandeesha O | Asst. Electrician |
| 5 | Mr. Venu | Asst. Electrician |
| S.No | Year | Department | Download Files |
|---|---|---|---|
| 1 | 2nd Year | EEE | Click Here |
| 2 | 3nd Year | EEE | Click Here |
| 3 | 4nd Year | EEE | Click Here |
Ranked #15
Ranked as 15th Best Engineering College in Karnataka by Edu-Rand Magazine Engineering College Raknking 2015
ACCREDITATION
Ranked #15
Ranked as 15th Best Engineering College in Karnataka by Edu-Rand Magazine Engineering College Raknking 2015