Electronics and Communications Engineering (ECE) is the application of science and mathematics to practical problems in the field of electronics and communications. Electronics and communications engineers not only engage in research, design, development and testing of the electronic equipment used in various systems but also conceptualize and oversee the manufacturing of communications and broadcast systems.
The department has well qualified and committed faculty with a blend of rich teaching experience and industrial background. The department has well established electronic Laboratories with state of art of facilities. The department also has audio visual teaching aids such as LCD projector for effective teaching. The department has IETE Association through which students are allowed to enrich their technical knowledge by national level workshops, seminars and working model exhibitions. Electronics and Communication Engineering and has set up a brigade of professional engineers and researchers with the following course objectives:
Graduate should be cognizant in basic Sciences, fundamental Engineering stream along with contemporary problem solving, critical analytical skills in Electronics and Communication Engineering and allied fields.
Graduate should understand the issues related to design and development and should update the knowledge skills and behavior through continuous learning in the field of Electronics and Communication Engineering.
Graduate should demonstrate their technical, communication and research aptitudes along with leadership skills in a professional environment to empower employability, higher education and entrepreneur successfully.
Graduate should be motivated with high ethical, human values and team work towards development of the society.
The Department of Electronics & Communications Engineering is equipped with state-of-the-art laboratories, seminar halls and smart classrooms towards fulfilling these objectives.
The job market for electronics and communication engineering is on demand and industries are looking for qualified engineers who can assist them on latest technologies. With recent technological advancements, the scope for the electronics engineers is on the rise. Career opportunities in this fast-evolving field exist in both private industry and publicly funded enterprises. . SVEC offers ample of job opportunities through on-campus and off-campus drives where students can exhibit their knowledge and skills and secure jobs with high salary packages.
The graduates can opt for immediate employment through placements or higher education through advanced courses such as M.Tech or Masters of Science (MS) across India or abroad for various advanced computing courses.
Basic Simulation Lab / Digital Signal Processing Lab
Microwave & Optical Communication Lab
IC Applications Lab / Projects Lab
Electronic Devices & Circuits Lab / Electronic Circuit Analysis Lab
VLSI& ES Lab / Microprocessors and Microcontrollers Lab
Analog / Digital Communication Systems Lab
Basic Electrical & Electronics Engineering Lab
To be identified as a reputed technological department by offering quality education in Electronics and Communication Engineering so as to promote higher learning, research, provide professional career and produce creative solutions to social needs.
To impart quality technical education in Electronics and Communication Engineering with the best pedagogical atmosphere of the highest quality through modern infrastructure and cutting edge skills.
To promote the establishment of centre of excellence to foster the spirit of innovation and creativeness among faculty and students.
To develop leadership qualities and also provide ethical and value based education by encouraging operations focused on social needs.
PEO 1. Be cognizant in basic sciences, fundamental engineering stream along with contemporary problem solving, critical analytical skills in electronics and communication engineering and the allied fields.
PEO 2. Understand the issues related to design and development; update the knowledge and skills through continuous learning in the field of Electronics and Communication Engineering.
PEO 3. Demonstrate their technical skills, communication skills and research abilities along with leadership skills in professional environment to empower employability, to go for higher education and to become entrepreneurs.
PEO 4. Be motivated with high ethical, human values and team work towards development of the society.
PSO 1. Able to gain knowledge in diverse areas of electronics and communication for successful career entrepreneurship and higher studies.
PSO 2. An ability to make use of acquired technical knowledge in core subjects to analyze and design process for variety of real time application, along with life skills to arrive appropriate solutions.
ENGINEERING KNOWLEDGE: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
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.
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.
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.
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.
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.
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.
ETHICS: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
INDIVIDUAL AND TEAM WORK: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
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.
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.
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.
|S.NO||NAME OF THE FACULTY||QUALIFICATION||DESIGNATION|
|1||Dr.T.Kalpalatha Reddy||Ph.D||Professor & Principal|
|2||Dr.C Chandrasekhar||Ph.D||Professor & HOD|
|3||Dr. T. Chandrasekhar Rao||Ph.D||Professor|
|4||Dr. B. Shoban Babu||Ph.D||Professor|
|5||Mr. T. Kali Raja||M.Tech||Professor|
|6||Dr G. Chandraiah||Ph.D||Professor|
|7||Dr. C. Raju||Ph.D||Associate Professor|
|8||Mr. K Raveendra||M.Tech||Associate Professor|
|9||Mrs. G Madhavi Latha||M.Tech||Associate Professor|
|10||Mrs. K. Khamartaj||M.Tech||Associate Professor|
|11||Mrs. V Madhurima||M.Tech||Associate Professor|
|12||Mr. P Suresh Babu||M.Tech||Associate Professor|
|13||Mr. M Vasudeva Reddy||M.Tech||Associate Professor|
|14||Mr. TR Revanth Kumar||M.Tech||Associate Professor|
|15||Mrs C Rajani||M.Tech||Associate Professor|
|16||Mr. SVS Jayashyam||M.Tech||Associate Professor|
|17||Mr. KM Manjunath||M.Tech||Assistant Professor|
|18||Mr. K Yuvaraj||M.Tech||Assistant Professor|
|19||Mrs. N Divya||M.Tech||Assistant Professor|
|20||Mr. N Gunasekhar Reddy||M.Tech||Assistant Professor|
|21||Mr. B Naresh Babu||M.Tech||Assistant Professor|
|22||Mrs. CH. Pallavi||M.Tech||Assistant Professor|
|23||Mr. K Venkateswara Rao||M.Tech||Assistant Professor|
|24||Mr. M Mahesh||M.Tech||Assistant Professor|
|25||Mrs. C Padma||M.Tech||Assistant Professor|
|26||Mr CH Suneel Kumar||M.Tech||Assistant Professor|
|27||Mr S Sasidhar Reddy||M.Tech||Assistant Professor|
|28||Ms. B Deepa||M.Tech||Assistant Professor|
|29||Mrs V Tejovathi||M.Tech||Assistant Professor|
|30||Mr. T. Murali Krishna||M.Tech||Assistant Professor|
|31||Mrs. C. Munikantha||M.Tech||Assistant Professor|
|32||Mr. N. Dushyanth||M.Tech||Assistant Professor|
|33||Mr P Poojitha||M.Tech||Assistant Professor|
|34||Mr. P. Dileep Kumar||M.Tech||Assistant Professor|
|35||Mr. J. Sai Krishna||M.Tech||Assistant Professor|
|36||Mrs P Sandhya Rani||M.Tech||Assistant Professor|
|37||Mr. M. Harsha Vardhan||M.Tech||Assistant Professor|
|38||Mr. N Charan Kumar Reddy||M.Tech||Assistant Professor|
|39||Mrs C Nalini||M.Tech||Assistant Professor|
|40||Mrs K Himabindu||M.Tech||Assistant Professor|
|41||Ms. C. Bhagya||M.Tech||Assistant Professor|
|42||Mrs C Preethi||M.Tech||Assistant Professor|
|43||Mrs C Radhika||M.Tech||Assistant Professor|
|44||Mr G Prathyush Krishna||M.Tech||Assistant Professor|
|45||Ms Y Ramyasri||M.Tech||Assistant Professor|
|YEAR||I SEM||II SEM|
|I||Algebra & Calculus||Network Theory|
|I||Applied Physics||Differential Equations and Vector Calculus|
|I||Problem Solving & Programming||Chemistry|
|II||Complex Variables & Transforms||Electronic Circuit Analysis and Design|
|II||Electronic Devices and Circuits||Analog Communications|
|II||Probability Theory and Stochastic Processes||Electromagnetic Waves and Transmission Lines|
|II||Digital Electronics and Logic Design||Control Systems|
|II||Electrical Technology||Python Programming|
|II||Signals and Systems||Computer Organization & Architecture|
|II||****||Environmental Science(Audit Course)|
|III||Computer Organization||Managerial Economics and Financial Analysis|
|III||Antennas and Wave Propagation||Microprocessors and Microcontrollers|
|III||Digital Communication Systems||Electronic Measurements and Instrumentation|
|III||Linear Integrated Circuits and Applications||Digital Signal Processing|
|III||Digital System Design||VLSI Design|
|III||MEMS & Microsystems||MATLAB Programming|
|III||Social Values & Ethics (Audit Course)||****|
|IV||Optical Fiber Communication||Low Power VLSI Circuits and Systems|
|IV||Embedded Systems||RF Integrated Circuits|
|IV||Data Communications and Networking||****|
|IV||Digital Image Processing||****|
|I YEAR||II YEAR||III YEAR||IV YEAR|
|Algebra and Calculus||Mathematics III||Computer Organization||Optical Fiber Communication|
|Applied Physics||Electronic Devices and Circuits||Antennas and Wave Propagation||Embedded Systems|
|Problem Solving & Programming||Switching Theory and Logic Design||Digital Communication Systems||Microwave Engineering|
|Communicative English - I||Signals and Systems||Linear Integrated Circuits and Applications||Data Communications and Networking|
|Probability Theory and Stochastic Processes||Digital System Design||
a. Radar Systems
b. Adaptive Signal Processing
c. FPGA Design
a. Linux Programming & Scripting
b. MEMS & Microsystems
a. Digital Image Processing
b. Cellular & Mobile Communication
c. Real Time Systems
|Electronics & Communication Engineering Workshop||Electronic Devices and Circuits Laboratory||IC Applications Laboratory||Microwave and Optical Communication Laboratory|
|Applied Physics Lab||Electrical Technology and Basic Simulation Laboratory||Digital Communication Systems Laboratory||VLSI & Embedded Systems Laboratory|
|Problem Solving & Programming Lab|
|Communicative English 1 Lab|
|Audit course – Social Values & Ethics|
|I YEAR||II YEAR||III YEAR||IV YEAR|
|Network Theory||Mathematics-IV||Managerial Economics and Financial Analysis||
a. Advanced Digital Signal Processing- Multirate & Wavlet
b. Low Power VLSI Circuits & Systems
|Differential Equations and Vector Calculus||Electronic Circuit Analysis||Microprocessors & Microcontrollers||
a. Pattern Recognition & Applications
b. RF Integrated Circuits
|Chemistry||Analog Communication Systems||Electronic Measurements and Instrumentation|
|Data Structures||Electromagnetic Theory and Transmission Lines||Digital Signal Processing|
|Control Systems Engineering||
c.Neural Networks & Fuzzy Logic
d.Intellectual Property Rights
|Engineering Workshop||Electronic Circuit Analysis Laboratory||Microprocessors & Microcontrollers Laboratory||Technical Seminar|
|Engineering Graphics Lab||Analog Communication Systems Laboratory||Digital Signal Processing Laboratory||Project Work|
|Network Theory Lab|
|Data Structures Lab|
|Advanced English Language Communication (AELCS) Laboratory (Audit Course)|
|Comprehensive Online Examination-I||Comprehensive Online Examination-II||Comprehensive Viva Voce|