The course has a
multi - orientation shaping the sophistication on these
topics and helping the overall maturity.
a) Point out
a unified systems approach to the mathematical modeling of physical systems with
emphasis in the electrical and electronic ones.
b)
Describe mathematically the physical operation of the various electronic devices,
circuits, and systems.
c)
Point out the capabilities and limitation of the various mathematical models
of electronic devices,
circuits, and systems.
d)
Introduce data sheets of the various electronic devices, circuits, and systems.
e)
Introduce application notes for the various electronic devices, circuits, and
systems.
f)
Introduce systems approach to the operation of basic circuits, circuits, and systems; current and potential applications.
g) Give experience in solving problems using specific mathematical
methods, emphasizing structural methodology and strategies.
h) Emphasize the sequence: Underlining Physical Principle - Physical
properties - Mathematical
Model of a Real Situation Case - Mathematical Method - Real problem -
Specification - Assumptions - Solution - Simulation - Implementation - Measurements
- Optimization - Final product.