B.Tech Program | AICTE Approved
Electronics & Communication Engineering
The ECE Department at SVS is the definitive bridge between hardware mastery and digital connectivity. We empower engineers to architect the future of VLSI, 5G, and Embedded Systems. By fusing rigorous signal-processing theory with high-end laboratory research, our graduates lead the global charge in telecommunications and autonomous technology.
To be a center of excellence in Electronics and Communication Engineering, focusing on high-quality technical education, research skills, and creative solutions, along with technical services of global competence.
The department aims to prepare graduates for success in employment and higher education while fostering ethical, social, and entrepreneurial values, lifelong learning, and a multidisciplinary approach to meet the needs of all stakeholders.
- M1: To develop and deliver quality academic programs in emerging and innovative fields of engineering, empowering students to meet industry standards.
- M2: To build a student community with high ethical standards capable of undertaking research and development in thrust areas of national and international importance.
- M3: To create a Centre of Excellence by establishing incubation centers to address global research challenges.
📡 HOD’s Message
Connecting the World Through Innovation
Welcome to the Department of Electronics and Communication Engineering (ECE) at SVS. You are entering one of the most versatile and vital branches of engineering, one that serves as the literal nervous system of our modern world. From the smartphone in your pocket to the satellites orbiting our planet, ECE is the invisible force that makes global connectivity possible.
My mission is to ensure you feel inspired as you learn to master the hardware and software that power our digital civilization.
Program Vision and Learning Approach: Our course is carefully crafted to turn your technical curiosity into professional mastery. We bridge the gap between the circuit and the system, providing deep immersion into VLSI design, embedded systems, and 5G communication protocols.
We believe in a hands-on philosophy, where you spend as much time in our advanced laboratories as you do in the classroom. Our core values of Technical Precision, Collaborative Spirit, and Social Responsibility ensure that the systems you design are not just efficient, but are built to improve the lives of people everywhere.
Mentorship and Career Growth: At SVS, we are personally invested in your growth as a multi-dimensional engineer. Whether you aspire to design the next generation of semiconductor chips or lead the revolution in the Internet of Things (IoT), we are here to provide the mentorship and resources you need.
I am excited to see you harness the power of electronics to create a smarter, more connected, and more sustainable future.
Dr. [Name]
Professor & Head, Department of Electronics and Communication Engineering
Faculty – Electronics & Communication Engineering
| S.No | Name of the Faculty | Designation | Qualification |
|---|
| 01 | AJENDRA KUMAR RATHOD | PROFESSOR | M.E/M.Tech |
| 02 | Dr. B. RAJANNA | Associate Professor | ME/M. Tech and PhD |
| 03 | MOODU VEERANNA | Assistant Professor | M.E/M.Tech |
| 04 | AMGOTHU MOHAN | Assistant Professor | M.E/M.Tech |
| 05 | KASHABOINA VENKATESH | Assistant Professor | M.E/M.Tech |
| 06 | SHEELAM ANIL | Assistant Professor | M.E/M.Tech |
| 07 | ESLAVATH SAJJAN | Assistant Professor | M.E/M.Tech |
| 08 | SWAPNA BANDI | Assistant Professor | M.E/M.Tech |
| 09 | PRATHIBHA BOKKA | Assistant Professor | M.E/M.Tech |
| 10 | POREDDY KALPANA | Assistant Professor | M.E/M.Tech |
| 11 | SWETHA NAMINDLA | Assistant Professor | M.E/M.Tech |
| 12 | CHINTHA PRANITHA | Assistant Professor | M.E/M.Tech |
| 13 | N. SOUJANYA | Assistant Professor | M.Tech |
| 14 | SANGEKARI YUGENDAR | Assistant Professor | M.E/M.Tech |
| 15 | MUKKERA DEVENDER | Assistant Professor | M.E/M.Tech |
| 16 | MADUGULA KRANTHI KUMAR | Assistant Professor | M.E/M.Tech |
| 17 | NAGA SWAROOP | Assistant Professor | M.E/M.Tech |
| 18 | K. MOUNIKA | Assistant Professor | M.Tech |
| 19 | GUGULOTHU JAMUNA | Assistant Professor | M.E/M.Tech |
| 20 | SUNKARI SUMALATHA | Assistant Professor | M.E/M.Tech |
| 21 | KARNE SRIDEVI | Assistant Professor | M.E/M.Tech |
| 22 | Dr. ANVESH THATIKONDA | Assistant Professor | ME/M. Tech and PhD |
| 23 | VENKATESHWARLU PEDAKASU | Assistant Professor | M.E/M.Tech |
| 24 | LAVUDYA SRINIVAS | Assistant Professor | M.E/M.Tech |
| 25 | Dr. SUNIL | ASSOCIATE PROFESSOR | PHD |
| 26 | Dr. MAKULA PRANAYKUMAR | Professor | ME/M. Tech and PhD |
| 27 | MAZID HUSSEIN | Assistant Professor | M.tech |
| 28 | GORRE RAJU YADAV | Assistant Professor | M.E/M.Tech |
| 29 | Dr. M MAHA RAJAN | PROFESSOR | PHD |
| 30 | VEENAVANKA MOUNIKA | Assistant Professor | M.E/M.Tech |
Program Educational Objectives (PEOs)
- To prepare students to excel in technical knowledge, enabling them to pursue postgraduate programs or succeed in industry through globally rigorous education.
- To provide students with a solid foundation in mathematical, scientific, and engineering fundamentals required to solve engineering problems and pursue higher studies.
- To train students with strong scientific and engineering breadth to comprehend, analyze, and design VLSI and signal processing–related approaches, creating innovative products for real-life problems.
- To inculcate professional and ethical attitudes, effective communication skills, teamwork, a multidisciplinary approach, and the ability to relate engineering issues to broader social context.
- To provide an academic environment of excellence, leadership, and guidance for lifelong learning, enabling effective work in multidisciplinary teams for a successful career.
Program Outcomes (POs)
PO1: Engineering Knowledge
Apply knowledge of mathematics, science, and engineering fundamentals/principles.
PO2: Experimentation & Analysis
Design and conduct experiments, analyze and interpret data.
PO3: Design and Modeling
Design systems, components, or processes within realistic constraints (economic, environmental, social, ethical, safety, sustainability).
PO4: Multidisciplinary Teams
Function effectively on multidisciplinary teams.
PO5: Problem Solving
Identify, formulate, and solve engineering problems.
PO6: Professional Ethics
Understand professional and ethical responsibility.
PO7: Communication
Communicate effectively.
PO8: Global Impact
Understand impact of engineering solutions in global, economic, environmental, and societal context.
PO9: Lifelong Learning
Recognize need for lifelong learning to succeed in competitive exams (GRE, GATE, CAT, GMAT, PSUs) and industry.
PO10: Contemporary Issues
Knowledge of contemporary, non-technical issues and global awareness.
PO11: Modern Tool Usage
Use techniques, skills, and modern ECE tools for system design with embedded engineering practice.
PO12: Software & Signal Processing
Create/use ECE software tools to analyze Signal Processing and VLSI engineering problems.
Program Specific Outcomes (PSOs)
- PSO1: Ability to apply knowledge of mathematics, science, and engineering fundamentals to solve complex ECE problems.
- PSO2: Ability to design and conduct experiments, analyze data, and design systems (VLSI, embedded, communication) within realistic constraints.
- PSO3: Ability to use modern ECE tools and software for signal processing, VLSI design, and embedded system development.
- PSO4: Ability to function in multidisciplinary teams with professional ethics, communication skills, and lifelong learning mindset for competitive exams and industry careers.
State-of-the-Art Laboratories
Microwave & Optical Fiber Comm Lab
Microwave & Optical Fiber Comm Lab
Analog & Digital Communication Lab
Microprocessor & Micro Controllers Lab
Microprocessor Interfacing Lab
Analog & Digital Electronics Lab
Digital System Design Lab
Integrated Circuits Lab
Electronics Circuits Analysis Lab
E-Cad Lab
Electronic Devices & Circuits Lab
🚀 AICTE Approved | Affiliated to JNTU Hyderabad | Center of Excellence in ECE
The Electronics & Communication Engineering program at SVS blends rigorous academics with cutting-edge VLSI, embedded, and communication labs — producing engineers who lead in telecommunications, IoT, and semiconductor design.
