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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
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
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
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
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.
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
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
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
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
Communicate between two desktop computers
Implement the different protocols
Program using sockets.
Implement and compare the various routing algorithms
Use the simulation tool.
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
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.
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
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.
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
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
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
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
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
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.
- Microprocessors and Microcontrollers Laboratory
- Optical and Microwave Laboratory
- Digital Signal Processing Laboratory
- VLSI Design Laboratory
- Communication Networks Laboratory
- Linear Integrated Circuits Laboratory
- Analog and Digital Circuits Laboratory
- Communication Systems Laboratory
- Embedded Laboratory
- Circuits Design and Simulation Laboratory
Microprocessors and Microcontrollers Laboratory
Objectives
Outcomes
At the end of the course, the student should be able to:
Optical and Microwave Laboratory
Objectives
Understand the working principle of optical sources, detector, fibers
Outcomes
On completion of this lab course, the student would be able to
Digital Signal Processing Laboratory
Objectives
The student should be made:
Outcomes
At the end of the course, the student should be able to:
VLSI Design Laboratory
Objectives
The student should be made:
Outcomes
At the end of the course, the student should be able to:
Communication Networks Laboratory
Objectives
The student should be made to:
Outcomes
At the end of the course, the student should be able to:
Linear Integrated Circuits Laboratory
Objectives
Outcomes
On completion of this laboratory course, the student should be able to:
Analog and Digital Circuits Laboratory
Objectives
The student should be made to:
Outcomes
On completion of this laboratory course, the student should be able to:
Communication Systems Laboratory
Objectives
The student should be made:
Outcomes
At the end of the course, the student should be able to:
Embedded Laboratory
Objectives
The student should be made to:
Outcomes
At the end of the course, the student should be able to:
Circuits Design and Simulation Laboratory
Objectives
Outcomes
On completion of this laboratory course, the student should be able to: