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    +91 88943 57155
    Pune, Maharashtra, India

    Duration

    3 Years

    Diploma In Electronics And Communication Engineering

    Satya Sree Parimala Polytechnic East Godavari
    Duration
    3 Years
     Diploma In Electronics And Communication Engineering DIPLOMA OFFLINE

    Duration

    3 Years

    Diploma In Electronics And Communication Engineering

    Satya Sree Parimala Polytechnic East Godavari
    Duration
    Apply

    Fees

    ₹1,20,000

    Placement

    92.0%

    Avg Package

    ₹4,50,000

    Highest Package

    ₹8,00,000

    OverviewAdmissionsCurriculumFeesPlacements
    3 Years
    Diploma In Electronics And Communication Engineering
    DIPLOMA
    OFFLINE

    Fees

    ₹1,20,000

    Placement

    92.0%

    Avg Package

    ₹4,50,000

    Highest Package

    ₹8,00,000

    Seats

    300

    Students

    300

    ApplyCollege

    Seats

    300

    Students

    300

    Curriculum

    Comprehensive Course Structure

    The curriculum for the Diploma In Electronics And Communication Engineering program at Satya Sree Parimala Polytechnic East Godavari is meticulously designed to provide students with a strong foundation in both theoretical and practical aspects of electronics and communication engineering. The program spans 3 years and is divided into 6 semesters. Each semester includes core courses, departmental electives, science electives, and laboratory sessions.

    SEMESTERCOURSE CODECOURSE TITLECREDIT STRUCTURE (L-T-P-C)PRE-REQUISITES
    1EC101Applied Mathematics I3-1-0-4None
    1EC102Physics3-1-0-4None
    1EC103Basic Electronics3-1-0-4None
    1EC104Introduction to Programming3-1-0-4None
    1EC105Computer Fundamentals3-1-0-4None
    2EC201Applied Mathematics II3-1-0-4EC101
    2EC202Electrical Circuits3-1-0-4EC102
    2EC203Electronic Devices3-1-0-4EC103
    2EC204Digital Logic Design3-1-0-4EC103
    2EC205Computer Architecture3-1-0-4EC105
    3EC301Signals and Systems3-1-0-4EC201
    3EC302Control Systems3-1-0-4EC202
    3EC303Electromagnetic Fields3-1-0-4EC202
    3EC304Communication Systems3-1-0-4EC301
    3EC305Microprocessors3-1-0-4EC204
    4EC401Embedded Systems3-1-0-4EC305
    4EC402VLSI Design3-1-0-4EC303
    4EC403Wireless Communication3-1-0-4EC304
    4EC404Antenna Engineering3-1-0-4EC303
    4EC405Optical Communication3-1-0-4EC304
    5EC501Power Electronics3-1-0-4EC202
    5EC502RF and Microwave Engineering3-1-0-4EC303
    5EC503Image Processing3-1-0-4EC301
    5EC504Digital Signal Processing3-1-0-4EC301
    5EC505Speech and Audio Processing3-1-0-4EC301
    6EC601Capstone Project3-1-0-4EC401
    6EC602Internship3-1-0-4EC501
    6EC603Advanced Topics in Communication3-1-0-4EC304
    6EC604Research Methodology3-1-0-4EC301
    6EC605Entrepreneurship3-1-0-4None

    Advanced Departmental Electives

    The department offers a range of advanced departmental electives that allow students to specialize in specific areas of interest. These courses are designed to provide in-depth knowledge and practical skills in cutting-edge technologies.

    Embedded Systems

    This course focuses on the design and implementation of embedded systems using microcontrollers and real-time operating systems. Students learn to develop software and hardware solutions for various applications, including automotive, industrial, and consumer electronics.

    VLSI Design

    VLSI Design explores the principles of very-large-scale integration, including circuit design, layout, and testing of integrated circuits. Students gain hands-on experience with industry-standard tools and techniques for designing and simulating VLSI systems.

    Wireless Communication

    This course covers the fundamentals of wireless communication systems, including modulation techniques, wireless networks, and mobile communication protocols. Students learn to design and analyze wireless systems for various applications.

    Antenna Engineering

    Antenna Engineering focuses on the design and analysis of antennas for various communication systems. Students learn about antenna theory, design principles, and practical applications in wireless communication.

    Optical Communication

    This course explores the principles of optical communication, including fiber optic systems, optical components, and transmission technologies. Students gain knowledge of how optical signals are transmitted and processed in modern communication networks.

    Power Electronics

    Power Electronics covers the design and application of power electronic converters and systems. Students learn about power conversion techniques, control strategies, and applications in renewable energy and industrial systems.

    RF and Microwave Engineering

    This course focuses on the design and analysis of radio frequency and microwave systems. Students explore topics such as transmission lines, waveguides, and microwave components, with practical applications in communication and radar systems.

    Digital Signal Processing

    Digital Signal Processing introduces students to the theory and application of digital signal processing techniques. Topics include sampling, filtering, and spectral analysis, with practical implementation using software tools.

    Image Processing

    Image Processing covers the principles and techniques of digital image processing. Students learn about image enhancement, segmentation, and analysis, with applications in computer vision and medical imaging.

    Speech and Audio Processing

    This course explores the processing and analysis of speech and audio signals. Students learn about speech recognition, synthesis, and audio compression techniques, with applications in telecommunications and multimedia systems.

    Project-Based Learning Approach

    The department emphasizes project-based learning to enhance students' practical skills and problem-solving abilities. The curriculum includes mandatory mini-projects and a final-year capstone project.

    Mini-Projects

    Mini-projects are undertaken during the second and third years of the program. These projects are designed to reinforce theoretical concepts and provide hands-on experience with industry-standard tools and technologies. Students work in teams to develop solutions to real-world problems, with guidance from faculty mentors.

    Final-Year Capstone Project

    The final-year capstone project is a comprehensive project that integrates all the knowledge and skills acquired during the program. Students select a project topic in consultation with faculty mentors, develop a detailed plan, and execute the project over a period of six months. The project is evaluated based on technical merit, innovation, and presentation skills.

    Project Selection and Mentorship

    Students are encouraged to select projects based on their interests and career goals. The department facilitates the selection process by providing a list of potential topics and mentors. Faculty mentors are assigned based on the project scope and the expertise of the faculty members.