Course Outcomes

 

COURSE OUTCOMES

 

 

 

Course No: PSELTC111 (Core course)

Title: Network Analysis

• Learn basic circuital laws and network theorems for simplification ofelectrical networks.
• Perform time domain analysis of networks using differential equations and Laplace transform. 
• Describe different types and configurations of two port network parameters and their interrelations.
• Evaluate network functions and determine network stability.

 

Course No: PSELTC112 (Core course)                                     

           Title: Digital System Design

• Simplify Boolean expressions using K maps and design combinational logic circuits like adders, subtractors, encoders, decoders, multiplexers and demultiplexers. To learn how to design digital systems, from given specificationsfollowed bysimulations, implementation and debugging.
• Design sequential logic circuits like synchronous/asynchronous counters and registers.
• Describe memory operation, timing, its types and architecture. Familiarize with PLDs,  GAL and FPGA.
• Learn basics of VHDL programming, Behavior modelling, data flow modelling and structural modelling.

 

Course No. PSELTC113 (Core Course)                            

Title: Electronic Materials and Semiconductor Devices

• Learn the carrier transport phenomenon in semiconductors.
• Describe the device physics of PN junction, Tunnel diode, BJT and MOSFET.
• Learn the behavior of photonic devices like LEDs and Solar cells.
• Learn the basic concepts and their application potential of advanced materials in Electronics.

 

Course No: PSELTC114 (Core Course)                                    

Title: Computational Techniques in Electronics

• Learn complex variable functions, integral theorems and infinite series.
• Solve Legendre and Bessel differential equations along with their recurrence relations.
• Obtain the numerical solutions of non-linear equations using Bisection, Newton-Raphson and Secant methods.

• Obtain the numerical solutions of linear equations using Gauss elimination, Gauss Jordan method, Gauss-Seidal and Jacobi iteration methods.
• Obtain the numerical solutions of differential equations using Euler’s and Runga-Kutta method.
• Learn general purpose commands, operations and matrix manipulations in MATLAB.
• Solve linear equations, differential equations, finding eigen values and plotting 2D & 3D plots using MATLAB.

 

 

 

Course Code: PSELTC211 

Title: Antennas & Microwave Devices (AMD)

• Understand Maxwell’s equations and wave propagation through different media.
• Describe the principles of transmission lines and waveguides. 
• Understand the radiation through different antennas.
• Understand the basic principles of microwave devices.

 

Course code: PSELTC212                                                                          

Title: Advanced Analog Circuit Design (AACD)

• Understand Modelling of CMOS devices and operation of basic circuits.
• Describe the different topologies of CMOS amplifiers. 
• Understand the different configurations and applications of operational amplifiers.
• Understand the basic principles of Active filters.

 

Course No: PSELTC213 (Core course)                                   

Title: Embedded Systems Programming

• Learn problem solving strategies and data structures.
• Develop programming skills for embedded systems. 
• Learn basic elements of python programming
• Implement object oriented programming in python. 
• Evaluate network functions and determine network stability.

 

Course No: PSELTC214 (Core Course)                                     

Title: Advance Microprocessors and Microcontroller (AMM)

• To understand the system design based on 8086 microprocessor.
• To understand the programming and interfacing techniques of 8086 microprocessor.
• To analyze the basic concepts and programming of 8051 microcontroller.
• To understand the basics of AVR microcontroller.

 

Course No: PSELTE311 (Elective course)                               

Title: Digital Signal Processing

• Understand the principles of DSP.
• Understand the working of DSP processors.
• Understand discrete transforms and their applications.
• Design of DSP processors based systems.

 

Course Code: PSELTE312 (Elective Course)                          

Title: Electronic Communication Systems (ECS) 

• Understand different signals and operations performed on them.
• Describe the different techniques of analog modulation and demodulation. 
• Understand the different techniques of digital modulation and demodulation.
• Understand information theory and coding techniques.

 

Course No: PSELTE313 (Elective Course)                              

Title: Industrial Electronics and Control systems (IEC)

• To understand various power semiconductor devices such as P-MOSFET, SCR, DIAC, TRIAC, GTO etc.
• To understand the basic principle of phase control, cycloconverter, buck converters, boost converters etc.
• To describe PWM inverters, HVDC system, static circuit breakers etc.
• To use standard test signals to identify performance characteristics of 1^st and 2^nd order systems.
• To apply Root locus, Nyquist and Bode plot stability criterion.

 

Course No: PSELTO314 (Open course)                                   

Title: Electronic Measurements and Domestic Appliances

• Understand operation of different instruments.
• Describe different terminology related to measurements.
• Understand the principles of various types of transducers and sensors.
• Identify the various parameters that are measurable in electronic instrumentation.
• Employ appropriate instruments to measure given sets of parameters.

 

 

 

Course No: PSELTE411 (Elective course)                               

Title: Smart Sensors and Instrumentation Systems

• Understand the important transduces and sensors.
• Understand the working of biomedical instruments.
• Apply electronic principles for agriculture development.
• Sensors and networking principles ofIoT based system design.

 

Course No: PSELTE412 (Elective Course)

Title: Data Communication

• Understand different Network topologies.
• Describe the principles of wireless and mobile communication. 
• Understand the principle and techniques of optical communication.
• Describe the satellite communication techniques and operating principle of different Radars.

 

Course No: PSELTE413 (Elective Course)                                               

Title: Device Fabrication and Characterization Techniques

• To understand the basics of IC fabrication.
• To understand the basics of lithography, etching, NEMS, MEMS etc.  
• To have knowledge of various thin film deposition and characterization techniques.

 

Course No: PSELTO414 (Open Course)                                                   

Title: Electronic Communication

• Understand different blocks in communication system and how noise affects communication using different parameters.
• Distinguish between different modulations schemes with their advantages, disadvantages and applications.
• To analyze basic digital communication systems.
• To compare optical fibres with the conventional system.
• To understand the various terminology, principles, devices, schemes, concepts, and different methodologies used in Satellite communication.