Electronics & Communication
MAIN FOCUS OF ELECTRONICS & COMMUNICATION
Electronics and Communication Engineering revolves around the study, design, and development of electronic circuits and communication systems .It encompasses a wide range of domains, including signal processing, embedded systems, wireless communication, VLSI design, and networking. That drive modern communication and electronic advancements across various industries.
About The Course
Electronics and Communication Engineering is an integral part of modern life, influencing sectors such as healthcare, automation, telecommunications, aerospace, and consumer electronics. The field continues to evolve with emerging technologies like IoT, 5G, AI-driven communication, and embedded systems, shaping the future of global connectivity.
The Department of Electronics and Communication Engineering offers a well- structured curriculum designed to equip students with technical expertise and practical knowledge. Through hands-on training in advanced laboratories, students gain proficiency in circuit design, signal processing, wireless communication, and embedded technology.
The department focuses on developing strong foundational skills in electronic circuits, digital systems, microprocessors, communication networks, and VLSI design. Additionally, students are introduced to modern advancements like satellite communication, robotics, IoT, and optical fiber technology.
Students are encouraged to undertake real-time projects, providing them with industry- relevant experience and preparing them for dynamic career opportunities in core electronics, telecommunications, and interdisciplinary fields.
CAREER OPPORTUNITIES
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Embedded Systems Engineer
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VLSI Verification Engineer
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Network Engineer
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System Support Engineer
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IT Support Engineer
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Telecom Engineer
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Automation Engineer
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Electronics Testing & Quality Engineer
DEPARTMENTAL ACTIVITIES
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PWM Kit
Developed by students to demonstrate Pulse Width Modulation (PWM), widely used in motor speed control, LED dimming, and power regulation.
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MPTT Kit
A project based on the Maximum Power Transfer Theorem (MPTT), showcasing the principle of maximum power delivery from a source to a load by impedance matching.
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BLYNK IoT Smart Home
A home automation system utilizing BLYNK IoT technology, enabling users to remotely monitor and control household appliances via a smartphone app.
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Distance-Based Volume Control
An Arduino and sonar sensor-based system that dynamically adjusts speaker volume based on the user's proximity, offering a touch-free experience.
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RFID-Based Bike Safety System
A security mechanism using Radio-Frequency Identification (RFID) technology to restrict unauthorized bike access and enhance vehicle safety.
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Burglar Alarm System
A motion-detecting security system designed to identify unauthorized entry and activate an alarm for enhanced home security.
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Automatic Car Using Arduino
A self-driving robotic car built with Arduino and obstacle-detection sensors, capable of autonomous navigation and collision avoidance.
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Smoke Alarm Sensor
A fire safety system that detects smoke levels and triggers an alarm, ensuring early warning and fire prevention.
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Light-Based Speaker
An innovative project utilizing light waves to transmit audio signals, demonstrating wireless audio communication principles.
| Name | Branch | Designation | Qualification | Exp in Years |
|---|---|---|---|---|
| N.Ramyakeerthi | Electronics & Communication | HOD | B.Tech, M.Tech | 8 |
| Chandrakala M | Electronics & Communication | Selection Grade Lecturer | ME | 15 |
| Prakasha S | Electronics & Communication | Selection Grade Lecturer | BE, M.Tech. | 10 |
| Sahana.Naik | Electronics & Communication | Selection Grade Lecturer | BE | 10 |
| Satya .B | Electronics & Communication | Selection Grade Lecturer | BE, M.Tech ( P.hd ) | 5 |
| Keecheril jerin vargheese | Electronics & Communication | Lecturer | BE, M.Tech | 3 |
