Electronics

COURSE OUTCOMES

SEMESTER-I

Course Outcomes:

• Apply concepts of electric network topology, nodes, branches, loops to sc circuit problems including the use of computer simulation.

• Apply time and frequency concepts of analysis.

• Synthesize the network using passive elements.

• Know about amplifier circuits, switching circuits and oscillator circuits their design and use in electronics.

• Design and construction of a power supply.

SEMESTER-II

Course Outcomes :

• Develop a digital logic and apply it to solve real life problems.

• Analyze, design and implement combinational logic circuits.

• Classify different semiconductor memories.

• Analyze, design and implement sequential logic circuits.

• Simulate and implement combinational and sequential logic circuits.

SEMESTER-III

Course Outcomes :

• Understand the fundamentals and areas o f applications for the integrated circuits.

• Analyze important types of linear integrated circuitslike Op-Amps.

• Demonstrate the ability to design practical circuits that perform the desired operation.

• Select the appropriate integrated circuit modules to build a given application.

• Use of different modulation and demodulation techniques used in analog communication.

• Identify and solve basic communication problems.

• Analyze transmitters and receiver circuits.

SEMESTER-IV

Course Outcomes :

• The student can gain good knowledge on microprocessor and implement in practical applications.

• Design system using memory chips and peripheral chips for 16 bit 8086 microprocessor.

• Understand and device techniques for faster execution of instructions.

• Understand multi coreprocessor and its advantages.

• The student can gain good knowledge on micro controllersand implementin practical applications.

• Learn Interfacing of Micro controller

• Get familiar with real time operating system

SEMESTER-V

Course Outcomes :

• This chapter sets the scene by reviewing the evolution of integrated circtuits (ICs), and comparing the general characteristics of currently available technologies, including BiCMOS and GaAs as well as nMOS and CMOS.

• Basic MOS transistor action is briefly reviewed and overview of fabrication process is given to help appreciate the nature of the technologies.

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

• Identify the components required to build different types of networks.

• Choose the required functionality at each layer for given application.

• Identify solution for each functionality at each layer

• Trace the flow of information from one node to another node in the network.

SEMESTER - VI

Course Outcomes :

• Because of the INTERNME programme, students are going outside this semester.
  

• Individual students work on projects or take courses as part of the INTERNME programme.
  

• He will submit his work once he has completed the INTERNME.