Department Teaching Staff

Dr M Veereshappa

Professor & HOD M.Sc, M.Phil, Ph.D

Date of joining:27/07/1987
Contact:
E-mail: mveereshappa@gmail.com
Mobile: +91 9448184658

SHARNAGOUDA B H

Principal, Associate Professor M.Sc, M.Phil

Date of joining:23/10/2002
Contact:
E-mail: bhgouda@yahoo.co.in
Mobile: +91 9448150677

HISTORY OF THE DEPARTMENT

  1. The department of electronics was established in the year 1981-1982; Electronics was introduced at undergraduate level as an optional subject along with physics and mathematics combination.
  2. The department developed considerably, with Dr. M. Veereshappa an aluminous of this institution, as its head of the department. and improved the subject with popularization of electronics in this backward area.
  3. It is the only one college having Physics, Math’s, and Electronics in those days. Over the years the electronics is also considered as one of the optional along with the computer science (EMCs) combination.
  4. Dept is well equipped with modern instruments.

Course offered

  1. PHYSICS, MATHEMATICS,ELECTRONICS.
  2. ELECTRONICS,MATHEMATICS COMPUTER SCIENCE

 

Add on course to B.A/B.C.A students

Maintenance of Geyser and Microwave Oven

Unit No-1) Construction and working parts and manufacturing process, types common faults and their trouble shooting, dripping geyser, over flow, over heating, steam or hot water escaping form over flow water leaking, through the ceiling, no hot water, water not hot enough, poor hot, water pressure. Induction cooker, construction and working, parts and manufacturing process, types.

Common faults and their trouble shooting: Cooker fuse blown, cooker buttons, not working, cook top shuts off while cooking, food not get cooked or heated properly, over heating and uneven heating, display keep flashing, wired noises-crackling fan noise, humming sound, clicking. - 15 Hours

Unit No-2) Microwave Oven: Working, Raw material and manufacturing process, types, common faults and their trouble shooting: Microwave does not heat, runs than stops buttons do not work, plate do not spin, bulb does not turn on during operation, sparking inside, shuts off after few seconds. -05 Hours

 

Add on course to B.A/B.C.A students

Maintenance of Refrigerator and Air conditioner:

Unit No-1) Refrigerator: Working, Raw Material and manufacturing process, Electrical Wiring Diagram, types of Refrigerator. Common faults and their trouble shooting : Fridge not cooling, Fridge not defrosting, leakage water, freezing food, light not working, Freezer is cooled but fridge stays warm, dead refrigerator, not enough cooling, keeps running, leakage makes noise. Replacement procedure for seal, Evaporator, fan motor, PTC, relay, Thermostat, compressor, bulb. -10 Hours

Unit No-2) Air Conditioner: Working, Raw Material and manufacturing process, Electrical Wiring Diagram, types, common faults and their trouble shooting: Faults in following parts of AC: Filter, Thermostat, Refrigerator leaks, breakers, capacitors, compressors, evaporator coils, condenser coils, warm contactor. General faults: AC unit has an odour, shuts ON and OFF repeatedly, does not blow cooled air, repeatedly tripping a circuit breaker, indoor unit is leaking water inside the room, outdoor unit is making an unusually loud sound, room is not getting cold enough, AC not turning ON. 10 Hours

Syllabus

Title Link
CBCS View Link
Electronics 3rd & 4th Sem NEP 2020 Syllabus View Link
NEP 2020 ELECTRONICS View Link

DEPARTMENT OF ELECTRONICS-B.Sc.(PME)

 

PROGRAMME OUTCOMES(CBCS)

  • Theobjectiveofthe courseis toimpartcomprehensiveknowledgeintheoryand practical.
  • B.Sc(PME)CourseaimsatinculcatingessentialskillsincommunicationelectronicsandC-programming,asrequired by the I.T industries.
  • Studentscandevelopthebasicprogrammingskillstobuildutilityprogramsandalsodevelopthe foundation for higherstudies in the field ofcomputerapplications.
  • Theprogramaimstoenablestudentsforpursuingrespectablecareerthroughselfemployment,Entrepreneurshipand Professional career.
  • The curriculum has been designed to cater to the ever changing demands of information andtechnologywithnecessaryinputs fromindustries.
  • WorkastheHardware Designers/Engineerswiththeknowledge ofnetworkingconcepts.

 

PROGRAMME SPECIFIC OUTCOMES (CBCS)

 

    • To pursue further studies in Higher Education, after completing which one can opt teachingcareer,private and public sector employment andonecan pursue research.
    • Thecourse providesthoroughknowledgeaboutthe basicsofsynthesisandanalysisofelectronic circuits, both analog & digital and Communication electronics. Thisis useful todevelop skilledman powerin thevarious technologicalareasincludingsoftware industries.
    • The curriculum has been designed to cater to the ever changing demands of information andtechnologywithnecessaryinputs fromindustries.
    • B.Sc(PME) Course strives to create outstanding professionalsin the areas of Antennas, microprocessor, microcontroller, computer and hardware.

COURSE OUTCOME (CBCS)

 

CLASS

COURSENAME

COURSEOUTCOME

 

ELE1.1

TostudythefundamentalsofKCL,KVLandnetwork

 

NetworkAnalysis

theoremsandanalysis.Todevelopthefoundationforhigher

studiesinthe fieldofnetworking.

 

ELE1.2

SemiconductordiodeandRectifiers

To make students wellsemiconductorfundamentals.

familiar

with

rectifiers

and

 

B.ScI

ELE1.3

Regulatedpowersupply.

Tomakestudentswellfamiliarwithregulatedpowersupplyfundamentals.


Sem

ELE1.4

MeasuringInstruments

Togivethepracticalknowledgeofdesignofinstrumentsandalsotomakestudentscompetentinpreparationofmeasuring

instruments.

ELE1.5

Transistor and biasingcircuits.

To give the practical knowledge of transistors and biasing circuits

 

 

 

 

 

 

B.ScII

Sem

ELE2.1

Networkparameter.

TostudythefundamentalsofZ,Y,andh-parametersandtheirinterconversionswhichisrequiredforanalysisoftransistor circuits.

ELE2.2

Passive filters

Tomakestudentsfamiliar withpassivefilters

ELE2.3Amplifiers

Togivethepracticalknowledgeofamplifiers

ELE2.4

FETandAmplifiers

TounderstandcomparativestudyofFETandJFETandalsotheimplementationofamplifiersdependinguponthefieldof

applications.

ELE2.5

FeedbackandOscillators.

Tounderstandthetechniqueoffeedbackanditseffectongainofamplifiersandalsoto builddifferentoscillatorcircuits.

 

 

 

 

 

 

B.ScIII

Sem

ELE3.1

Optoelectronics

Tomakethestudentstounderstandconstruction,workingandapplicationsofdifferentoptoelectronicdevices,especially

solarcells.

ELE3.2

NumberSystem

Tounderstandthebasicsofdifferentnumbersystemsandtheir

interconversions, differentdigitalcodesused in digitalsystem.

ELE3.3,3.4&3.5

DigitalElectronics

To give the practical knowledge of digital electronics and itsapplications- Basic gates derived gates, logic families, digitalICs,Booleanalgebra,simplificationoflogiccircuits,

combinationallogiccircuitsandsequentiallogiccircuits.

 

 

 

 

 

 

B.ScIV

Sem

ELE4.1&4.2

OperationalAmplifiersandapplications

Tounderstandthebasicsofoperationalamplifier,andits

characteristics and different modes of operations.Implementationofop-ampsinarithmeticandlogic circuits.

ELE4.3

Activefiltersandapplications

Tostudyactivefiltersanditsapplicationsindigitalelectronics,basictimingconceptsusingIC555timerandimplementation

of it in Multivibrators.

ELE4.4

LaplaceTransform

TostudycircuitanalysisusingLaplacetransformationandalso

polesandzerosofNetwork function.

ELE4.5

Netwo0rkSynthesis.

TostudytheSynthesisofLCandRCNetworksusingFoster

andCauertypes ofcircuitrealization.

 

ELE5.1.1

PowerElectronics

TostudyConstruction,workingandcharacteristicsofpower

controldevicesandtheirapplicati0ons.

 

 

 

 

B.ScV

SemP-I

ELE5.1.2

Modulation andDemodulation

Tounderstandpropagationofelectromagneticwaves,needformodulation,typesofmodulationandDemodulation.Studyof

differentmodulator and demodulatorcircuits

ELE5.1.3

TransmittersandReceivers

Tounderstandtransmissionofinformationusedin differenttypesoftransmittersandalsoreceptionofinformationusing

differentreceivers.

ELE5.1.4

Antenna

TounderstandbasicsofAntennaandtypesofAntennasusedin

CommunicationSystems.

 

 

 

 

 

 

B.Sc VSemP-II

ELE 5.2.1&ELE5.2.2

MicroprocessoranditsProgramming

TostudytheArchitectureofmicroprocessor.Tounderstanditsinstructionsetandto executeassemblylanguageprogramusing

8085microprocessor.

ELE5.2.3

Interfacing

Tounderstandthebasicsofinterfacinganditsuseindifferent

types ofinterfacingtechniques.

ELE5.2.4

Microcontroller

Tounderstandthebasicblockdiagramof8051microcontroller

andits instruction set, toexecute assemblylanguageprogram.

 

 

 

 

 

 

B.ScVI

SemP-I

ELE6.1.1

Transmission linesandOFC

To understand basics of transmission lines, types oftransmissionlines.Detailedstudyofopticalfibercableandits

Importanceincommunicationsystem.

ELE6.1.2

TelevisionReceivers

CO TogainbasicknowledgeaboutTelevisionreceiverandstudythemonochromeandcolor televisionreceiver in detail.

ELE6.1.3

Satellite and MobileCommunication.

TounderstandbasicsofSatellite,Earthstationandtypesof

multipleaccessmethodsusedinSatellitecommunicationandalsomobilecommunication system

ELE6.1.4

PulseandDigitalCommunicationSystems.

To understand the basics of Sampling theorem used in differenttypesofmodulatingtechniques.Studyofbasicsofdigitalcommunicationsystemanditsdifferenttechniques-advantages

anddisadvantages.

 

B.Sc VISemP-II

ELE6.2

ComputerConceptsand C-Programming.

Tounderstandbasicsofcomputerandprogrammingfundamentals. To understand the basic structure of C-language,StudyofdifferentstatementsusedinC-language,functionsand

pointers.Execution ofC-programs.

 

 

 

 

PROGRAMME OUTCOMES (NEP)

 

  • Ability to apply knowledge of logic thinking and basic science for solving electronics related programs.
  • Ability to perform electronics experiments, as well as to analyze and interpret data.
  • Ability to design and manage electronics systems or processor that conforms to a given specification within ethical and economic constraints.
  • Ability to identify, formulate, solve and analyze the problems in various sub displeases of electronics.
  • Ability to use Modem Tools/Techniques.

PROGRAMME SPECIFIC OUTCOMES (NEP)

  • Provide students with learning experiences that develop board knowledge and understanding of key concepts of electronics and equip students with advanced scientific / technological capabilities for analyzing and tackling the issue and problems in the field of electronics.
  • Develop ability in students to apply knowledge and skills they have acquired to solve specific theoretical and applied programs in electronics.
  • Develop abilities in students to design and develop innovative solutions for benefits of society.
  • Provide students with skills that enable them to get employment in industries or pursue higher studies or research assignments or turn as entrepreneurs.

 

COURSE OUTCOME (NEP)

 

CLASS

COURSENAME

COURSEOUTCOME

 

ELE-CT1:Electronic Devices and Circuits

Upon completing the course, ELE-CT1, the students will be able to understand various fundamental principles of network analysis, number systems and Boolean algebra and become familiar with the basic operation of electronic devices and circuits which are the building blocks of all electronic circuits, devices and gadgets

 

 

ELE-OE1.1Domestic Equipment maintenance.

Students will learn about the operation and faults finding of domestic equipments like Geyser, Microwave Oven, Refrigerator, Air Conditioner

 

B.ScI

ELE-OE1.2:Renoveble Energy and Energy Harvesting

After completing the course, the students will be able to understand various fundamental principles Fossil fuels and Alternate Sources of energies Wind energy Harvesting, Ocean energy, geothermal energy and Hydro energy.


Sem

ELE-OE1.3: Basics of Electronics, Computers and PCB Design.

Students will learn about generation and distribution of electricity, single, two and three phases. Students will gain the practical knowledge of domestic wiring and various types earthling. And they will get the Basic knowledge about computer and its generation operating systems, application software’s and also learn about principles of Inverters, UPS and SMPS, PCB design, Lamination and Photo printing.

 

 

 

 

 

 

B.ScII

Sem

ELE-C2: Analog and Digital Electronics

Upon completing the syllabus contents of ELE-CT2, the students will become familiar with various working principles of widely used electronic devices, linear and digital ICs which helps the students to build small projects and also be able to answer some basic questions that appear in competitive examinations.

ELE-OE2.1: Consumer Electronics

To make students familiar with Audio systems like PA system, Microphones Loudspeakers AM/FM receivers LED TV and Video systems, home theaters. And also learn about landline and Mobile Telephone, Electronic gadgets Domestic Appliances.

ELE-OE2.2: Electronics For Everyone.

Students will learn about principles of Switching circuits, Phase locked loops. And they will understand the various applications of Operational Amplifier. Students acquire knowledge about Transducers, sensors and Data Acquisition and also learn about Arduino and its Interfacing I/O concepts.

ELE-OE2.3Mobile Cmmuication.

To understand comparative study of Evolution of mobile Radio communication, Cellular system concept, CDMA and also learn about Telecommunicating system like GSM. Understands principles of Satellite system, Wireless LAN, Bluetooth and Wimax.

ELE-OE2.4:Mobile Application Programming.

To understanding and the technique of Mobile application programming Android, iOS and Windows, their software development and Framework. Learn about overview of Android content providers, overview of iOS, iOS layers and also Windows phone Environment.

 

 

 

 

 

 

B.ScIII

Sem

ELE CT3.1: Programming in C and Digital Design using Verilog.

After the successful completion of the course, the student will be able to: 1) Apply the acquired knowledge of digital circuits in different levels of modeling using Verilog HDL.

2) Design and verify the functionality of digital circuit/system using test branches.

3) Develop the programs more effectively using directives, Verilog tasks and constructs.

4) Design and analyze algorithms for solving simple programs.

5) Write and Execute and debug C codes for solving problems.

ELE-OE 3.1: Fundamentals of Electronics.

After completion of Ele-OE3.1, students will acquire knowledge of physical structure and characteristics of all electronic devices and also understands working principles of electronic Instruments use of CRO and they will learn about digital fundamentals.

ELE-OE 3.2: Applications of Electronics-I.

Students understand practical knowledge of passive and active components, LED and LCD display systems use of DMM, ECG, EEG EMG and PH meter etc. And they will also learn about UPS SMPS Inverters.

ELE-OE 3.3:Robotics.

After completion of these course students will able to knowledge history of Robotics and also understands embedded system, basic principles digital electronics features of microprocessors and microcontrollers. Acquire knowledge programming different types of Robots.

ELE-OE 3.4: Medical Electronics.

After completion of Ele-OE3.4, students will acquire knowledge Biomedical Instruments and their applications and also learn about Medical Imaging and Biomedical signal processing.

 

 

 

 

 

 

B.Sc IV

Sem

ELE CT 4.1: Electronic communication-I.

After the successful completion of the course, the student will be able to: 1) Know the basic concept of Analog Commutation, means and medium of communication.

2) Understands the principles of Analog and digital modulation.

3) Familiar with AM and FM techniques.

4) Understands basic concept of pulse Modulation, Carrier Modulation for digital transmission and able to construct simple pulse modulation.

5) Understand the basic concept of Satellite Communication.

6) Unterstan the basic concept of Optical Fiber Communication (OFC).

ELE OE 4.1: Applications of Electronics-I.

After completion of this course students will able to know about principles of Radio, TV, and OFC also acquire knowledge of Embedded system, SIM card Smart Card, CCTV Camera, ATM principles. And also understand use of EVM, EDUSAT, Internet-modem and Wi-Fi. Understand E-Waste Management.

ELE OE 4.2: Augmented and Virtual Reality.

After the successful completion of the course, students will learn about Virtual Reality, History of VR, Human Physiology and Perception, key element. Understand Augmented Reality and Geometry of Virtual World, the Physiology of Human Vision.

ELE OE 4.3: IoT and Application.

After completion of Ele-OE3.4, students will acquire knowledge Fundamentals of IoT and its frameworks. Understand working of Sensors networks, Arduino IDE, Board Types Wireless Sensor networks. Wireless Technologies, WPAN and IP based protocols. Able to learn Data handling Big data, flow of data, data acquisition and storage.

 

 

 

 

B.Sc.V

Sem

DSC-ELE 51: Communication-II

After the successful completion of the course, students will Know the various microwave devices, their working and applications. Understand the principle and working of different RADAR systems. Familiar with ASK, FSK, PSK, BPSK Digital modulation techniques. Understand the basic concept of cell phone hand set, working principle of cellular communication and wireless technologies.

DSC-ELE 52: Embedded Controllers

Identify and understand function of different blocks of 8051 microcontrollers. Develop program for I/O port operations, Timers, Serial ports, and Interrupts sing C. Gain the Knowledge to interface LCD, Keyboard, ADC, DAC, DC motors, etc. Design and develop small scale embedded system.

 

 

 

 

 

 

B.ScVI

Sem

Still Curriculum is not designed by State level committee.

Still Curriculum is not designed by State level committee

INVOLVEMENT OF FACULTY IN RESEARCH ACTIVITIES INTERNATIONAL PUBLICATIONS

Dr. M. Veereshappa. has published twenty two papers in peer reviewed reputed International Journals

1). “Design and development of multi band microstrip antenna with ominidirectional radiation characteristics”, Int. Journal of Electronics Engineering (IJEE) vol. 3, no. 2, pp. 313-315, Dec. 2011. (ISSN0973-7383, Impact Factor: 0.415).

2). “Design and Development of Quad Band Rectangular Microstrip Antenna with Ominidirectional Radiation Characteristics”, International Journal of Computational Engineering Research (IJCER), Vol.2 , No.1, Jan-Feb 2012, pp.033-037. ISSN: 2250-3005.

3). “ Design and Development of Triple Band Monopole Antenna and Effect of Slot on Notch Band Variation”, International Organization of Scientific Research in Journal of Engineering (IOSRJEN), Vol.2, No.4, April 2012, pp. 650-655. ISSN: 2250-3021.

4). “A Novel Design and Development of Simple Monopole Antenna for UWB Operation”, Microwave and Optical Technology Letters (MOP), Vol.54, No.4, April 2012, pp.953-955. ISI Journal Citation Reports© Ranking:2011: 60/79 (Optics); 171/245(Engineering Electrical & Electronics), ISSN: 1098-2760 (Online), Impact Factor: 0.618

5) “Design and Development of Triple Band Ominidirectional Slotted Rectangular Microstrip Antenna”, International Journal of Electronics and Communication Engineering & Technology (IJECET), Vol. 3, No.1, January-June 2012, pp.17-22. ISSN 0976-6464 (Print), ISSN : 0976-6472(Online), Impact Factor: 3.5930 (2012) calculated by GISI.

6). “Design and Development of L Slotted, Monopole Notch Band Rectangular Microstrip Antenna”, International Journal Electronics Engineering (IJEE), Vol.4 , No.1, January-June 2012, pp. 17-20. ISSN: 0973-7383, Impact Factor: 0.415.

7). “ Rectangular slot loaded monopole microstrip antenna for triple-band operation and virtual size reduction”, Int. Journal of Electronics and Communication Engineering & Technology (IJECET), vol. 4, Issue.1, pp. 176-182, Feb. 2013. (ISSN 0976-6464, Impact Factor: 3.5930).

8) “Pentagon and circular ring slot loaded rectangular microstrip monopole antennas for quad-band operation”, Int. Journal of Electronics and Communication Engineering & Technology (IJECET), vol. 4, no. 2, pp. 151-157, April, 2013. (ISSN 0976-6464, Impact Factor: 5.8896).

9). “Octagon shaped slot loaded rectangular microstrip monopole antennas for multi-band operation and virtual size reduction”, Int. Journal of Electronics and Communication Engineering & Technology (IJECET), vol. 4, no. 2, pp. 158-164, April, 2013. (ISSN 0976-6464, Impact Factor: 5.8896).

10). “Corner truncated rectangular slot loaded monopole microstrip antennas for quad-band operation”, Int. Journal of Electronics and Communication Engineering & Technology (IJECET), vol. 4, no. 2, pp. 165-171, April, 2013. (ISSN 0976-6464, Impact Factor: 5.8896).

11). “Circular slot loaded rectangular monopole microstrip antennas for multi-band operation and virtual size reduction”, IInt. Journal of Electronics Engineering (IJEE), vol. 5, no. 1, pp. 13-16, June, 2013. (ISSN 0973-7383,mpact Factor: 0.415).

12). “Corner truncated rectangular monopole microstrip antennas wit cominidirectional radiation characteristics”, nt. Journal of Electronics Engineering (IJEE), vol. 5, no.1, pp. 41-44, June, 2013. (ISSN 0973-7383, Impact Factor: 0.415).

13). “Rectangular monopole microstrip antennas for multi-band operation”, Int. Journal of Electronics Engineering (IJEE), vol. 5, no.1, pp. 49-52, June, 2013. (ISSN 0973-7383, Impact Factor: 0.415).

14). "Parasitic strip rectangular microstrip monopole antenna for HIPERLAN/2 and UWB operation” Int. Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering ( IJAREEIE), vol 2, no. 6 pp. 2386-2391, June. 2013. (ISSN: 2278-8875, Impact Factor: 1.686).

15). “A Novel UWB Antenna with two Band-Notches”. Int. Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering (IJAREEIE), vol. 2, no. 6, pp. 2392-2397, June. 2013, (ISSN 2278-8875, Impact Factor: 1.686).

16). “A Novel design and development of rectangular unipolar microstrip antenna for UWB operation,” Int. Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering (IJAREEIE), vol.2, no. 7, pp. 3214-3219, July. 2013, (ISSN 2278-8875, Impact Factor: 1.686).

17). “Low profile slot loaded rectangular unipolar microstrip antenna with three bond-notched property and UWB operation,” Int. Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering (IJAREEIE), vol. 2, no. 7, pp. 3220-3224, July. 2013, (ISSN 2278-8875, Impact Factor: 1.686).

18). “Effect of square slots on unipolar microstrip antennas for quad-band operation,” Int. Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering (IJAREEIE), vol. 2, no. 7, pp. 3225-3228, July. 2013, (ISSN 2278-8875, Impact Factor: 1.686).

19) “Hexagon shaped slot loaded unipolar microstrip antenna for virtual size reduction, ” Int. Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering (IJAREEIE), vol. 2, no. 7, pp. 3229-3232, July2013, (ISSN 2278-8875, Impact Factor: 1.686).

20. “Corners truncated unipolar rectangular microstrip antennas for quad band operation and enhancement of gain,” Int. Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering (IJAREEIE), vol. 2, no. 8, pp. 4126-4131, Aug. 2013, (ISSN 2278- 8875, Impact Factor: 1.686).

  1. “Simple microstrip rectangular monopole antennas for notch-band operation,” Int. Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering (IJAREEIE), vol. 2, no. 10, pp. 4860-4862, Oct. 2013, (ISSN 2278- 8875, Impact Factor: 1.686).
  1. “Design and development of slotted rectangular microstrip antennas for hepta band operation,” Int. Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering (IJAREEIE), vol. 3, no. 11, pp. 13246-13252, Nov. 2014, (ISSN 2278- 8875, Impact Factor: 1.686).Publications in Conference and Symposium: Dr.M.Veereshappa.

23. “Effect of slots on ground plane for wideband operation”. Proceedings of National Symposium on Antennas and Propagation organized by Department of Electronics, University of Science and Technology, COCHIN – 682022, Dec. 2008, pp- 242-245.

2). “Wideband aperture coupled rectangular Microstrip array antenna for radar applications”. Proceedings of National Symposium on Antennas and Propagation organized by Department of Electronics, University of Science and Techology, COCHIN-682022, Dec. 2008, pp-259-262.

3). Research paper entitled “Triple Band Rectangular Slot Microstrip.Antenna with Monopole Radiation Characteristics”, published in the Proceedings of National Conference on VLSI & Communication System organized by Bangalore Institute of Technology (BIT), Bangalore , on 30 & 31st October, 2012.

 

Prof. Sharnagoud.B.H.

1) Published one paper in the Proceedings of International Conference on Recent advances in microwave theory and applications held at Jaipur, Rajasthan. Nov,21-24, 2008. pp.76-78 entitled

“A Novel Design of Microstrip Leaky Wave antenna array for Dual Beam Operation.”

 

Project Works

Title Link
Project Details View Link

Guest Lecture conducted on “Importance of Instrumentation” on 15-03-2018 at 11.30 AM in Seminar hall.
Speaker: Dr.Sudheer, Asis.Prof,Dept of Instrumentation Technology, GUG PG Center, Raichur.

 

 

 

 

EXTRA CURRICULAR ACTIVITY OF FACULTY

  1. Prof.M.Veereshappa
  2. Worked as Co-ordinator Karnataka State Open University (KSOU)Mysore, for L.V.D College Raichur Study center from 01-11-2005 to18-06-2008(three Years).
  3. 2) Worked as General council member for Federation of University and College Teachers Association in Karnataka(FUCTAK) Bangalore for two years from 04-08-2001 and meeting attended with Dr. G.Parameshwar Former Minister for higher education regarding “RESTRUCTRING DEGREE EDUCATION IN THE ERA OF INFORMATION TECHNOLOGY” and Teachers Grievances .
  4. Worked as Vice-President of Gulbarga University Private College

Teachers Association (GUPCTA).