Facilities

  1. Laboratories
  2. Department Library

1.Laboratories

 

ELECTRONICS LABORATORY

Course objectives:

  • To learn the frequency response of the amplifiers.
  • To calculate the gain of the amplifier
  • To understand the bandwidth and cut-off frequency
  • To measure the peak and peak inverse voltage
  • Study the transfer characteristics of differential amplifier

Course outcomes:

  • The lab exclusively helps to gain practical experience in designing electronic circuits.
  • Gives exposure to the characteristics and applications of basic electronic devices.
  • The lab is about the Study of high frequency response of all amplifiers.
  • It also provides design and construction of amplifiers, LC and RC oscillators, multivibrators, and time base generators.

List of Major equipment

  • CRO (Min 30MHz)
  • Signal Generator
  • SPICE Circuit Simulation Software
  • Lab view core software
  • ORCAD 15.7.

DIGITAL LABORATORY

Course objectives:

  • To perform spice simulation of electronic circuits
  • To verify various logic gates using digital trainer kit with help of truth table
  • To study the significance of plane table surveying in plan making
  • Learn the frequency response of CS amplifier
  • To understand the Boolean algebra

Course outcomes:

On completion of the course, the students will be able to:

  • The lab experiences the basic knowledge of digital logic circuits& and the application.
  • It imparts knowledge regarding the assembling of digital circuits.
  • And verified through truth table for various integrated circuits like basic gates,multiplexers/demultiplexers,counters,encoders/decoders,adders/subtractor
  • It also exposes linear integrated circuits and provides the basic knowledge of special function ICs.

List of Major equipment

  • Digital Volume Control
  • Digital trainer kit
  • IC tester
  • Signal generator

MICROPROCESSOR LABORATORY

Course objectives:

  • Introduce ALP concepts and Features
  • Write ALP for arithmetic and logical operations using 8085,8086,8051
  • Differentiate serial and parallel interface
  • Interface different I/O’s with interface
  • Be familiar with MASM

Course outcomes:

On completion of the course, the students will be able to:

  • It helps to develop the programming knowledge in the area of 8085 & 8086 Microprocessors and 8051 Microcontrollers.
  • It will give practical training of interfacing the peripheral devices with 8085&8086 microprocessors.
  • It supports the assembly language programming skills and real time applications of Microprocessors and Microcontrollers.
  • Generate waveforms using microprocessor

List of Major equipment

  • 8085 development kit
  • 8086 development kit
  • 8051 microcontroller kit
  • Interfacing unit
  • Desktop system with MASM
  • 8086 assembler

DSP LABORATORY

Course objectives:

  • To implement linear and circular convolution
  • To implement FIR and IIR filter
  • To study architecture of DSP processor
  • To find stiffness of open coiled and closed coiled springs
  • To demonstrate finite word length effect

Course outcomes:

On completion of the course, the students will be able to:

  • To design and analyze the techniques of DSP.
  • Carry out simulation of DSP system
  • Analyze finite word length effect on DSP systems.
  • Use MAT LAB is the tool to simulate the system by programming.
  • Demonstrate the application of FFT on DSP

List of Major equipment

  • TMS320C5X/TMS320C 67XX Processors Processor kit
  • MATLAB 7.0
  • Signal Generator.
  • DSO

VLSI LABORATORY

Course objectives:

  • To Learn hardware description language(VHDL)
  • To learn the fundamental principles of VLSI circuit design in digital and analog domain
  • To familiarise fusing of logical modules on FPGAs
  • To provide hands on design experience with professional design (EDA) platforms.

Course outcomes:

On completion of the course, the students will be able to:

  • Its design of digital circuits and simulation using Modelsim, Xilinx and Questa software tool.
  • Import the logic modules into FPGA Boards.
  • Synthesize, Place and Route the digital IPs.
  • Design, Simulate and Extract the layouts of Analog IC Blocks using EDA tools.

List of Major equipment

  • Lab view
  • Xilinx
  • Cadence

COMMUNICATION SYSTEM LABORATORY

Course objectives:

  • To generate the waveform using QPSK and BPSK
  • To measure the AM and FM modulation
  • To generate the waveform using pulse code modulation

Course outcomes:

  • It helps to know about various analog and digital communication fundamentals like, Amplitude modulation, Frequency modulation, shift keying techniques, Sampling techniques, Pulse Modulation Techniques using trainer kits.
  • It also uses MATLAB for develop codings for performance analysis.

List of Major Softwares

  • QPSK
  • BPSK
  • AM &FM modulation
  • Pulse modulation techniques.
  • MATLAB
  • OPTICAL AND MICROWAVE LABORATRY

    Course objectives:

    • Understand the working principle of optical sources, detector, fibers and microwave components
    • Develop understanding of simple optical communication link.
    • Learn about the characteristics and measurements in optical fiber
    • Know about the behavior of microwave components.
    • Practice microwave measurement procedures

    Course outcomes:

    At the end of the course the students acquire hands on experience in the

    • Analyze the performance of simple optical link.
    • Test microwave and optical components.
    • Analyse the mode characteristics of fiber
    • Analyse the radiation of pattern of antenna.

    List of Major equipment

    • Analog and digital mode optical kit.
    • Kit for measuring Numerical aperture and Attenuation of fiber
    • Microwave test Bench at X band.

    EMBEDDED LABORATORY

    Course objectives:

    • Learn the working of ARM processor
    • Understand the Building Blocks of Embedded Systems Learn the concept of memory map and memory interface Know the characteristics of Real Time Systems
    • Write programs to interface memory, I/Os with processor
    • Study the interrupt performance

    Course outcomes:

    On completion of the course, the students will be able to:

    • Write programs in ARM for a specific Application
    • Interface memory and Write programs related to memory operations
    • Interface A/D and D/A convertors with ARM system
    • Analyse the performance of interrupt
    • Write programmes for interfacing keyboard, display, motor and sensor. Formulate a mini project using embedded system

    List of Major equipment

    • ARM kit
    • 8051 microcontroller kit
    • FPGA Kit

    Library:

    No. of Text Book

    785

    No. of Journals

    10

    No. of Project Submitted by the Students

    245

Electronics & Communication Engineering

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