Matlab and PSpice) to examine the behavior of nonlinear networks composed of operational amplifiers, diodes, BJT’s, and MOSFET’s.Ģ.5.
students will demonstrate ability employ the software simulation (e.g.
students will demonstrate ability employ the Fourier Series to examine the behavior of networks composed of operational amplifiers, diodes, BJT’s, and MOSFET’s in the frequency domain.Ģ.4. students will demonstrate ability employ the Laplace Transform to examine the transient behavior of networks composed of operational amplifiers, diodes, BJT’s, and MOSFET’s.Ģ.3. nodal and mesh analysis) to examine the steady-state behavior of networks composed of operational amplifiers, diodes, BJT’s, and MOSFET’s.Ģ.2. students will demonstrate ability employ linear circuit analysis techniques (e.g.
the ability to identify, formulate and solve engineering problems involving operational amplifiers, diodes, etc… Ģ.1. Objective #2: to build general engineering skills as related to electronics – aka. students will demonstrate knowledge of component frequency response – including the use of Fourier Series.Ģ. students will demonstrate knowledge of component modeling – including the use of small-signal models / linearization.ġ.7. students will demonstrate understanding of metal-oxide field-effect transistors (MOSFET’s) and their relationship to semiconductor physics.ġ.6. students will demonstrate understanding of bipolar junction transistors (BJT’s) and their relationship to semiconductor physics.ġ.5. students will demonstrate understanding of diodes and their forward / reverse-bias characteristics.ġ.4. students will demonstrate understanding of semiconductor physics and the utilization of doping to manipulate conductive characteristics.ġ.3. students will demonstrate understanding of operational amplifiers and their configuration. knowledge on the basic principles of electronic devices and the analysis of circuits containing these devices ġ.1. Objective #1: to provide an introduction to the field of electronics – aka. Metal-Oxide Field-Effect Transistors (MOSFET’s)ġ. the ability to identify, formulate and solve engineering problems involving operational amplifiers, diodes, etc… ī.
knowledge on the basic principles of electronic devices and modeling of these devices Its provides the background required for many higher-level courses within the TCNJ engineering curriculum (e.g. The objective of this course is to provide students with a sound and comprehensive understanding of basic electronics and electronic engineering, including subjects of signals, operational amplifiers, semiconductors, diodes, MOSFET’s, and BJT’s. Introduction to Passive Filters on YouTube Module #2: Introduction to Electronics (Cont.)īasic Review of Circuit Analysis on YouTubeĪdvanced Review of Circuit Analysis on YouTube Neil deGrasse Tyson and Engineering on YouTube Chapter #1: Introduction to Electronics Other/Recitation Notes (Supplemental HW Solutions)Ĭh6 Supplemental Bipolar Junction Transistor #2Ĭh6 Supplemental Bipolar Junction Transistor #1Ĭh5 Lec19 05/06/19 More Advanced ExamplesĬh5: Lec18 04/25/19 MOSFET Small-Signal ModelĬh5 Lec17 04/22/19 MOSFET-based AmplifiersĬh5 Lec16 04/18/19 MOSFET Advanced ExamplesĬh5 Lec14 04/08/19 MOSFET Triode/Saturation RegionsĬh4 Lec11 03/28/19 Diode Small-Signal ModelĬh4 Lec10 03/07/19 Basic Diode ModelingĬh3 Lec08 02/28/19 pn-Junction PhysicsĬh3 Lec07 02/21/19 Semiconductor PhysicsĬh1 Lec03 02/04/19 Introduction to ElectronicsĬh1 Lec02 01/31/19 Introduction to Electronics