Electric quantities, electric signals, electric circuits
Kirchhoff’s laws, circuit elements. Resistance, series parallel combination, voltage and current dividers, resistive bridges
Nodal analysis, loop analysis, linearity and superposition, source transformation, one ports, circuit theorems, power calculations. dependent sources, circuit analysis with dependent sources
The operational amplifier, basic op-amp configurations, ideal op-amp circuit analysis, summing and difference amplifiers, amplifier types
Capacitance, inductance (including mutual inductance), natural response of RC and RL circuits. Response to DC forcing function
AC fundamentals; RMS or effective, average and maximum values of current & voltage for sinusoidal signal wave forms.
Learn the use of basic instruments in electrical engineering such as function generators, power supplies, oscilloscopes. Design and implement circuits using R, RL and RC and verify the node voltages and loop currents using instruments. Verify Circuit-theorems using lab instruments. Verify circuit transformations using lab instruments. Complex Engineering Problem using OP-AMP as black box.
Lectures (audio/video aids), Written Assignments/ Quizzes, Tutorials, Case Studies relevant to engineering disciplines, Semester Project, Guest Speaker, Industrial/ Field Visits, Group discussion, Report Writing
Mid Term, Report writing/ Presentation, Assignments, Project Report, Quizzes, Final Term
There are 133 total credit hours to complete the Software Engineering degree.
