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Course Work

ED2050 Analog and Digital Circuits (Jul-Nov)
  • Syllabus:
    • Resistive, RL, RC, RLC networks, Network theorems, AC circuits, Frequency response, Transient analysis, Basic semiconductor devices, Amplifiers, Feed back circuits, MOSFETs, Operational amplifiers, Digital Electronics, Combinational logic, Sequential logic.
  • References:
    1. A. Agarval & J. H. Lang, "Foundations of Analog and Digital Electronics"
    2. Millman & Halkias, "Integrated Electronics - Analog and Digital Circuits"
    3. Morris Mano, "Digital Logic and Computer Design", Prentice-Hall
    4. Ken Martin, "Digital Integrated Circuit Design"

ED2020 Applications of Microprocessors and Microcontrollers (Jan-May)
  • Syllabus:
    • Introduction: Building blocks of the Digital computer, CPU functions, Memory types, Input/Output Devices, Stored program concept, History of Microprocessors.
    • Intel 8086 Microprocessor: Internal architecture, Hardware description, Assembly Language Programming, Interfacing with Programmable Peripheral Interface, Data Converters (DAC, ADC).
    • Microcontroller: Intel-8051 Architecture, Hardware description, Memory organization, Addressing Modes. Programming the i8051: Instruction set, Assembly language programming, structure and interrupt priorities, Interfacing with external devices.
  • References:
    1. Microcomputer Systems: The 8086/8088 Family, Architecture, Programming, and Design, Yu-Cheng Liu and Glenn A. Gibson, Prentice Hall; 2 edition (January 13, 1986)
    2. The 8051 Microcontroller and Embedded Systems, Muhammad Ali Mazidi, Janice Gillispie Mazidi, Rolin McKinLay, Prentice Hall; 2 edition (October 6, 2005)
  • Laboratory:
    1. 8086 Assembly Language Programming: Arithmetic, logic operations, counters, PPI programming, interfacing with ADC, DAC, stepper motor.
    2. 8051 Assembly Language Programming: Arithmetic, logic operations, counters, interfacing with ADC, DAC, stepper motor, ATMEL flash microcontroller programmer.

ED2100 Electronics Laboratory (Jul-Nov)
  • Objectives:
    • Design and building basic signal acquisition, conditioning and processing circuits for device monitoring and control, process control, and automotive and medical device instrumentation.
  • Experiments:
    • Circuit theorems, AC, DC circuits, and R, L, C networks
    • Characteristics of PN junction and Zener diodes, bipolar and field effect transistors, and operational amplifiers (opamp)
    • Applications of diodes, transistors and opamps
    • Logic gates, flip flop implementation using integrated circuits (ICs)
    • Design and implementation of shift registers, counters, Logic design using ICs

ED5060 Medical equipment Dissection laboratory (Jan-May)
  • Objectives:
    • Study of various medical equipments by dissection.
    • Understanding the functions, concepts and features of a product in product design, taxonomy.

ED5316 Antenna Theory and Design (Jan-May)
  • Objectives:
    • Understand electromagnetic fundamentals of antenna theory.
    • Design of wire and aperture antennas, linear arrays, design of reflector and lens antennas and frequency independent antennas.
  • References:
    • Antenna Theory: Parts I and II, R. E. Collin and F. J. Zucker, New York: McGraw-Hill (1969)
    • Antenna Theory and Design, R. S. Elliott, John Wiley and Sons (IEEE Press Series on Electromagnetic Wave Theory, 2003)

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