Electronics Engineering

Microprocessors and Microcontrollers Laboratory


Objectives

  • To Introduce ALP concepts, features and Coding methods
  • Write ALP for arithmetic and logical operations in 8086 and 8051
  • Differentiate Serial and Parallel Interface
  • Interface different I/Os with Microprocessors
  • Be familiar with MASM
  • Outcomes

    At the end of the course, the student should be able to:

  • Write ALP Programmes for fixed and Floating Point and Arithmetic operations
  • Interface different I/Os with processor
  • Generate waveforms using Microprocessors
  • Execute Programs in 8051
  • Explain the difference between simulator and Emulator
  • Optical and Microwave Laboratory


    Objectives

    Understand the working principle of optical sources, detector, fibers

  • Understand the working principle of optical sources, detector, fibers
  • Develop understanding of simple optical communication link
  • Understand the measurement of BER, Pulse broadening
  • Understand and capture an experimental approach to digital wireless communication
  • Understand actual communication waveforms that will be sent and received across wireless channel
  • Outcomes

    On completion of this lab course, the student would be able to

  • Analyze the performance of simple optical link by measurement of losses and
  • Analyzing the mode characteristics of fiber
  • Analyze the Eye Pattern, Pulse broadening of optical fiber and the impact on BER
  • Estimate the Wireless Channel Characteristics and Analyze the performance of Wireless Communication System
  • Understand the intricacies in Microwave System design
  • Digital Signal Processing Laboratory


    Objectives

    The student should be made:

  • To perform basic signal processing operations such as Linear Convolution, Circular Convolution, Auto Correlation, Cross Correlation and Frequency analysis in MATLAB
  • To implement FIR and IIR filters in MATLAB and DSP Processor
  • To study the architecture of DSP processor
  • To design a DSP system to demonstrate the Multi-rate and Adaptive signal processing concepts.
  • Outcomes

    At the end of the course, the student should be able to:

  • Carryout basic signal processing operations
  • Demonstrate their abilities towards MATLAB based implementation of various DSP systems
  • Analyze the architecture of a DSP Processor
  • Design and Implement the FIR and IIR Filters in DSP Processor for performing filtering operation over real-time signals
  • Design a DSP system for various applications of DSP
  • VLSI Design Laboratory


    Objectives

    The student should be made:

  • To learn Hardware Descriptive Language(Verilog/VHDL)
  • To learn the fundamental principles of VLSI circuit design in digital and analog domain
  • To familiarize fusing of logical modules on FPGAs
  • To provide hands on design experience with professional design (EDA) platforms
  • Outcomes

    At the end of the course, the student should be able to:

  • Write HDL code for basic as well as advanced digital integrated circuit
  • Import the logic modules into FPGA Boards
  • Synthesize Place and Route the digital IPs
  • Design, Simulate and Extract the layouts of Digital & Analog IC Blocks using EDA tools
  • Communication Networks Laboratory


    Objectives

    The student should be made to:

  • Learn to communicate between two desktop computers
  • Learn to implement the different protocols
  • Be familiar with IP Configuration
  • Be familiar with the various routing algorithms
  • Be familiar with simulation tools
  • Outcomes

    At the end of the course, the student should be able to:

  • Communicate between two desktop computers
  • Implement the different protocols
  • Program using sockets.
  • Implement and compare the various routing algorithms
  • Use the simulation tool.
  • Linear Integrated Circuits Laboratory


    Objectives

  • To understand the basics of linear integrated circuits and available ICs
  • To understand the characteristics of the operational amplifier.
  • To apply operational amplifiers in linear and nonlinear applications.
  • To acquire the basic knowledge of special function IC.
  • To use SPICE software for circuit design
  • Outcomes

    On completion of this laboratory course, the student should be able to:

  • Design amplifiers, oscillators, D-A converters using operational amplifiers.
  • Design filters using op-amp and performs an experiment on frequency response.
  • Analyze the working of PLL and describe its application as a frequency multiplier.
  • Design DC power supply using ICs.
  • Analyze the performance of filters, multivibrators, A/D converter and analog multiplier using SPICE.
  • Analog and Digital Circuits Laboratory


    Objectives

    The student should be made to:

  • Study the Frequency response of CE, CB and CC Amplifier
  • Learn the frequency response of CS Amplifiers
  • Study the Transfer characteristics of differential amplifier
  • Perform experiment to obtain the bandwidth of single stage and multistage amplifiers
  • Perform SPICE simulation of Electronic Circuits
  • Design and implement the Combinational and sequential logic circuits
  • Outcomes

    On completion of this laboratory course, the student should be able to:

  • Design and Test rectifiers, filters and regulated power supplies.
  • Design and Test BJT/JFET amplifiers.
  • Differentiate cascode and cascade amplifiers.
  • Analyze the limitation in bandwidth of single stage and multi stage amplifier
  • Measure CMRR in differential amplifier
  • Simulate and analyze amplifier circuits using PSpice.
  • Design and Test the digital logic circuits.
  • Communication Systems Laboratory


    Objectives

    The student should be made:

  • To visualize the effects of sampling and TDM
  • To Implement AM & FM modulation and demodulation
  • To implement PCM & DM
  • To simulate Digital Modulation schemes
  • To simulate Error control coding schemes
  • Outcomes

    At the end of the course, the student should be able to:

  • Simulate & validate the various functional modules of a communication system
  • Demonstrate their knowledge in base band signaling schemes through implementation of digital modulation schemes
  • Apply various channel coding schemes & demonstrate their capabilities towards the improvement of the noise performance of communication system
  • Simulate end-to-end communication Link
  • Embedded Laboratory


    Objectives

    The student should be made to:

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

    At the end of the course, the student should be able to:

  • Write programs in ARM for a specific Application
  • Interface memory, A/D and D/A convertors with ARM system
  • Analyze the performance of interrupt
  • Write program for interfacing keyboard, display, motor and sensor.
  • Formulate a mini project using embedded system
  • Circuits Design and Simulation Laboratory


    Objectives

  • To gain hands on experience in designing electronic circuits
  • To learn simulation software used in circuit design
  • To learn the fundamental principles of amplifier circuits
  • To differentiate feedback amplifiers and oscillators.
  • To differentiate the operation of various multivibrators
  • Outcomes

    On completion of this laboratory course, the student should be able to:

  • Analyze various types of feedback amplifiers
  • Design oscillators, tuned amplifiers, wave-shaping circuits and multivibrators
  • Design and simulate feedback amplifiers, oscillators, tuned amplifiers, wave-shaping circuits and multivibrators using SPICE Tool.