Department of ECE, REC



                1. D.Roy Choudhry, Shail Jain, “Linear Integrated Circuits”, New Age International Pvt. Ltd., 2000.
                2. Sergio Franco, “Design with Operational Amplifiers and Analog Integrated Circuits”, 3rd Edition, Tata
                McGraw-Hill, 2007.

                REFERENCES:
                1. Ramakant A. Gayakwad, ―OP - AMP and Linear IC‘s ―, Prentice Hall, 2012.
                2. Robert F.Coughlin, Frederick F.Driscoll, “Operational Amplifiers and Linear Integrated
                Circuits”, Sixth Edition, PHI, 2001.
                3. Gray and Meyer, ―Analysis and Design of Analog Integrated Circuits ―, Wiley
                International, 2009.
                4. Michael Jacob, “Applications and Design with Analog Integrated Circuits”, Prentice Hall of
                India, 1996.
                5. S.Salivahanan& V.S. KanchanaBhaskaran, “Linear Integrated Circuits”, TMH, 2008.
                6. Botkar K.R., “Integrated Circuits”, Khanna Publishers, 1996.
                7. Millman J. and Halkias C, “Integrated Electronics”, McGraw Hill, 2001.





                EC17405                    ELECTROMAGNETIC FIELDS                                 L T P C
                                                                                                  3  0 0  3

                OBJECTIVES:
                    •  To impart knowledge on the concepts, fundamentals and the computation of Electro-magnetic fields
                       which is essential for understanding the working principle, design and analysis of Transmission lines,
                       Antennas, Microwaves and RF Systems
                    •  To impart knowledge on the basics of static electric field and the associated laws
                    •  To impart knowledge on the basics of static magnetic field and the associated laws
                    •  To study the relation between the fields under time varying situations
                    •  To impart knowledge on applications of static field and FEM.


                UNIT I                ELECTROSTATICS - I                                                                                              9
                Orthogonal  coordinate  systems  and  transformation.  Gradient,  Divergence  &  Curl.  Divergence  theorem
                &Stokes  theorem. Coulombs law,  Principle  of  Superposition,  Electric  field intensity,  Electric  flux  density,
                Absolute Electric potential. Electric field intensity due to finite line charge, Circular disc.

                UNIT II                ELECTROSTATICS - II                                                                             9
                Gauss law, Applications of Gauss law for different charge distributions. Electric dipole, Electrostatic Energy
                and Energy density, Poisson’s and Laplace equation, Capacitance, Capacitance of various geometries using
                Laplace equations. Boundary conditions for different interface.

                UNIT III       MAGNETOSTATICS                                                                                         9
                Statement of Biot-Savart Law, Magnetic field Intensity, Magnetic flux and magnetic flux density, Estimation
                of  Magnetic  field  Intensity  for  finite  straight  conductor  and  Axis  of  circular  coil.  Ampere’s  circuital  law,
                Application  of  Ampere’s  law  on  infinitely  long  coaxial  transmission  line.  Scalar  and  Vector  magnetic



                Curriculum and Syllabus | B.E. Electronics and Communication Engineering | R2017      Page 49