Course

Students can understand the fundamentals of antennas and the role and function of the antennas in RF systems utilizing the antennas. In addition, students can understand the most commonly used antenna array configuration and select / modify the proper array factors depending on system requirements. Finally, students can utilize operations and design techniques for recent applications such as mobile phones and base stations.

Students can understand wave basics in Electromagnetics by using plane wave solutions based on Maxwell equations and propagation characteristics in different mediums. Also, they learn how waves propagate inside various transmission lines such as wave-guiding structures. Finally, they can understand antenna concepts and applications by learning antenna theory and analyzing basic antenna prototypes.

Students can understand wave basics in Electromagnetics by using plane wave solutions based on Maxwell equations and propagation characteristics in different mediums. Also, they learn how waves propagate inside various transmission lines such as wave-guiding structures. Finally, they can understand antenna concepts and applications by learning antenna theory and analyzing basic antenna prototypes.

This course will cover electromagnetics, including electrostatics and electrodynamics. Students will analyze the electrostatic problem focusing on Green's theorem and its application. The generation, propagation, reflection, and refraction of electromagnetic waves using wave equations and antenna theory will be discussed in electrodynamics.

To make graduate students skillful in the presentation of their works in English. To teach graduate students how to prepare presentation slides.

The objective of this course is to provide students the concrete concepts of the charge and current, the static electric field and magnetic field, the constitutive parameters of material, the resistor, capacitor, and inductor. The course consists of the labs as well as the lectures. It is expected that the students will have the hands-on experience of force exerted on the material in the electric field and the magnetic field. Also, there are several labs of the field simulations for the structures shown in the text which will help the students understand easily the field concept by visualizing the field distributions.

Students can understand wave basics in Electromagnetics by using plane wave solutions based on Maxwell equations and propagation characteristics in different mediums. Also, they learn how waves propagate inside various transmission lines such as wave-guiding structures. Finally, they can understand antenna concepts and applications by learning antenna theory and analyzing basic antenna prototypes.

To make graduate students skillful in the presentation of their works in English. To teach graduate students how to prepare presentation slides.

Students can understand the fundamentals of antennas and the role and function of the antennas in RF systems utilizing the antennas. In addition, students can understand the most commonly used antenna array configuration and select / modify the proper array factors depending on system requirements. Finally, students can utilize operations and design techniques for recent applications such as mobile phones and base stations.

The objective of this course is to provide students the concrete concepts of the charge and current, the static electric field and magnetic field, the constitutive parameters of material, the resistor, capacitor, and inductor. The course consists of the labs as well as the lectures. It is expected that the students will have the hands-on experience of force exerted on the material in the electric field and the magnetic field. Also, there are several labs of the field simulations for the structures shown in the text which will help the students understand easily the field concept by visualizing the field distributions.

Introduction to Circuit Theory and Laboratory provides electric circuit analysis theories and related experiments. The electric circuit theory is the most important and fundamental theory in electric and electronic engineering. In this course, electric circuits are analyzed, which are composed of resistors, inductors, capacitors and Op Amp in the linear operational region. The circuits are analyzed using Kirchhoff's current law or Kirchhoff's voltage law. The equivalent circuit and maximum power transfer are introduced using The'venin and Norton theorems. Transient response and energy storage and discharging are described in the analysis of RL, RC and RLC circuits. In experiments, electric and electronic measurement equipment are introduced, and their working principles and manipulations are demonstrated and practiced. The voltages and currents of the circuit elements are measured by standard measurement methods. Each chapter topic related circuits are designed and measured, then the two results are discussed. Also, in projects, application oriented circuits are designed and fabricated in order to enhance the design ability and engineering intuition.

Students can understand wave basics in Electromagnetics by using plane wave solutions based on Maxwell equations and propagation characteristics in different mediums. Also, they learn how waves propagate inside various transmission lines such as wave-guiding structures. Finally, they can understand antenna concepts and applications by learning antenna theory and analyzing basic antenna prototypes.

Students can understand wave basics in Electromagnetics by using plane wave solutions based on Maxwell equations and propagation characteristics in different mediums. Also, they learn how waves propagate inside various transmission lines such as wave-guiding structures. Finally, they can understand antenna concepts and applications by learning antenna theory and analyzing basic antenna prototypes.

Students can understand the fundamentals of antennas and the role and function of the antennas in RF systems utilizing the antennas. In addition, students can understand the most commonly used antenna array configuration and select / modify the proper array factors depending on system requirements. Finally, students can utilize operations and design techniques for recent applications such as mobile phones and base stations.

Students can understand wave basics in Electromagnetics by using plane wave solutions based on Maxwell equations and propagation characteristics in different mediums. Also, they learn how waves propagate inside various transmission lines such as wave-guiding structures. Finally, they can understand antenna concepts and applications by learning antenna theory and analyzing basic antenna prototypes.