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    Program Structure

    First Semester
    • DF1
    • Communication skills
    • 4 Credits
    • DF2
    • Engg. Mathematics i
    • 4 Credits
    • DF3
    • Applied physics
    • 4 Credits
    • DF4
    • Applied chemistry
    • 4 Credits
    • DF3P
    • Applied physics practical
    • 4 Credits
    • DF4P
    • Applied chemistry practical
    • 4 Credits

    TOTAL CUMULATIVE CREDITS – 24 Credits

    Second Semester
    • DF5
    • Engg. Mathematics ii
    • 4 Credits
    • DF6
    • Information technology applications
    • 4 Credits
    • DF7
    • Basic electronics
    • 4 Credits
    • DF8
    • Workshop practice
    • 4 Credits
    • DF7P
    • Basic electronics practical
    • 4 Credits
    • DF8P
    • Workshop practice practical
    • 4 Credits

    TOTAL CUMULATIVE CREDITS – 24 Credits

    Third Semester
    • DSET1
    • Engg. Mathematics iii
    • 4 Credits
    • DSET2
    • Applied mechanics
    • 4 Credits
    • DSET3
    • Electrical technology
    • 4 Credits
    • DSET4
    • Engg. Graphics
    • 4 Credits
    • DSET5
    • Applied electronics
    • 4 Credits
    • DSET2P
    • Applied mechanics practical
    • 4 Credits
    • DSET3P
    • Electrical technology practical
    • 4 Credits

    TOTAL CUMULATIVE CREDITS – 28 Credits

    Fourth Semester
    • DSET6
    • Digital techniques & applications
    • 4 Credits
    • DSET7
    • Electronics materials & components
    • 4 Credits
    • DSET8
    • Electronic measurements and instruments
    • 4 Credits
    • DSET9
    • Communication techniques
    • 4 Credits
    • DSET10
    • Linear integrated circuits
    • 4 Credits
    • DSET6P
    • Digital techniques & applications practical
    • 4 Credits
    • DSET10P
    • Linear integrated circuit practical
    • 4 Credits

    TOTAL CUMULATIVE CREDITS – 28 Credits

    Fifth Semester
    • DTET1
    • Industrial organization & supervisory mgmt.
    • 4 Credits
    • DTET2
    • Microprocessor based systems
    • 4 Credits
    • DTET3
    • Instrumentation & control
    • 4 Credits
    • DTET4
    • Industrial electronics
    • 4 Credits
    • DTET5
    • Advanced communication systems
    • 4 Credits
    • DTET2P
    • Microprocessor based systems practical
    • 4 Credits
    • DTET4P
    • Industrial electronics practical
    • 4 Credits

    TOTAL CUMULATIVE CREDITS – 28 Credits

    Sixth Semester
    • DTET 6
    • Advanced industrial electronics
    • 4 Credits
    • DTET 7
    • Power electronics
    • 4 Credits
    • DTET 8
    • Digital communication system
    • 4 Credits
    • DTET 9
    • Project
    • 4 Credits
    • DTET6 P
    • Advanced industrial electronics
    • 4 Credits

    TOTAL CUMULATIVE CREDITS – 20 Credits

    Program Overview

    Diploma in Electronics and Telecommunications Engineering or Engineering Diploma in Electronics and Telecommunications Engineering or Polytechnic in Electronics and Telecommunications Engineering is an Electrical Engineering regulation that engage in erratic and vital electrical constituents such as transistors, semiconductor devices, especially light emitting diode and non-segregated design electronic circuits, VLSI devices and their systems. Diploma Engineering in Electronics and Telecommunications is a discipline which habitually also outlines differential electrical integrant, normally placed on embossed circuit boards. Electronics and Telecommunications is a subdivided within the rangier electrical and telecommunications engineering field that covers subfields such as digital electronics, consumer electronics, analog electronics, ingrained systems and power electronics. Electronics and telecommunications engineering deals with execution of usages, norms and conclusions established within many related provinces, for example radio engineering, control systems, telecommunications, solid-state physics, systems engineering, instrumentation engineering, computer engineering, signal processing, robotics, electric power control and many others.

    Key Role of Diploma in Electronic and Telecommunication Engineering

    • Research and Development (R&D): Research and development is about designing, improving and creating products and services. Some public sectors provide good earning opportunity. This is the most prestigious sector for Electronics and telecommunications Engineers.
    • Manufacturing: Electronics and Telecommunications Engineering plays a significant role in the manufacture, design and building of something which is indigenously concludes to be not possible.
    • Design:: Design engineering is grounded on CAD tool. This is the most encouraging sector for Electronics and Telecommunications Engineers currently.
    • Installation: This is also fundamental plant job for Electronics and telecommunications Engineers. Under the observation of Electronics and Telecommunications Engineers the part of machines are installed.
    • Maintenance: Maintenance job is related with preservation of machines using divergent tools of Electronics and Telecommunications Engineering.
    • Analysis and testing: This is also a new trending job along with design. In this job you have to experiment with the products. Quality assurance is also the part of it.
    Industries where Diploma in Electronics and Telecommunication Engineers can work:
    • Power plants
    • Cement Industries
    • Automobiles Industries
    • Chemical industries
    • Steel Industries
    • Nuclear Industries
    • Aerospace Industries
    • Paper Industries
    • Communication Companies
    • Thermal Power Industries
    • Power generation industries and many more.