The course includes computer applications in solving problems involving models of electronic devices and circuits.
It is expected that following the four course electronic sequence, students will be able to use the textbook used in this course or other professional level electronic texts for further study of specific electronic topics. Examples and homework, based on present day applications, are designed to provide practice in the use of fundamental concepts, and applications. This course will include MOSFET and BJT as used in amplifiers, switches cut-off and saturation will be discussed. Large signal piecewise linear DC circuits, and small signal AC circuits will be studied. This course surveys the operating characteristics of MOSFET and bipolar junction transistors (BJT) its circuit symbols nonlinear large signal behavior and operational amplifiers, and analyses their application in actual circuits. These include linear small-signal AC models, and amplifier. P-and N-channel MOSFETs and junction field effect transistors (FET) will be introduced and discussed. Semiconductor devices and their application are stressed. It introduces Electronics from a fundamental perspective and analyzes circuits from a practical point of view.
This is the second course in a series of four courses with Labs. Coverage of some topics is based on notes handed out that augments coverage in Sedra and SMith. It is expected that following the four-course electronic sequence, students will be able to use the textbook used in this course or other professional level electronic texts for further study of specific electronic topics. Examples and homework, based on present-day applications, are designed to provide practice in the use of fundamental concepts and applications. The use of diodes in power switching circuits and the use of transistors in logic circuits and amplifiers will be covered extensively. This course surveys the operating characteristics of pn junction diodes, transistors and operational amplifiers, and analyzes their application in actual circuits. This course introduces Electronics from a fundamental perspective and analyses of circuits from a practical point of view. Filter circuits are again analyzed but this time in the frequency domain using the concepts of LaPlace and Bode. The cascade interconnect is introduced along with the concept of transfer functions and the impulse response. Bode plots are used as another tool to gain insight into the time domain. The dualities of electrical elements in other engineering fields (mechanical, fluids and thermal) are introduced and analyzed using LaPlace techniques. The S plane is introduced as a graphical technique to plot the poles and zeros of a function and acquire an insight into the time domain. There is a brief review of mathematical concepts such as logarithm, exponential functions and partial fraction expansion to aid the student for newer analysis techniques. The concept of boundary conditions is introduced along with initial value and final value theorems. LaPlace techniques are used to analyze electric circuits using sources and elements similar to those in earlier circuit analysis courses. Note: Although some of the courses in this program areĪvailable online, the majority of the courses are onlyĪdvanced Circuits is a continuation of passive circuit analysis, where the student is introduced into the frequency domain. Many of the courses taken toward this degree can beĬertificate Program in Introduction to Electronic Engineering Technology,Īllowing students to earn additional credentials as they pursue Students canĮarn the Associate of Science in Electronic Engineering Technology (66Ĭredits) as a first step towards earning theīachelor of Science in Electronic Engineering Technology Will depend upon the individual student's course load. The amount of time it takes for a student to complete the program
Telecommunications, and semiconductors - wherever there is a needįor the design, testing, and manufacturing of hardware and software The program helps prepare students forĮmployment in a variety of fields including consumer electronics, Program learn about the fundamentals of circuit design, voltage, Students in the Electronic Engineering Technology associate's degree