Teaching Methodologies
The Applied Electronics course adopts a diverse pedagogical approach, integrating various teaching and learning methodologies with the
goal of promoting a deep understanding of theoretical concepts and the development of practical skills. The selected methodologies aim to
ensure the connection between theoretical knowledge and its practical application, aligning with the principles of a student-centered
pedagogical model.
Teaching Methodologies:
Expository Theoretical Lectures: To present fundamental concepts, with an emphasis on component and circuit theory.
Practical Laboratories: For the development of technical skills, such as assembly, testing, and analysis of electronic circuits.
Case Study and Project Analysis: To stimulate critical thinking and problem-solving abilities.
Project-Based Learning (PBL): Focused on developing practical solutions by integrating theory and practice.
Simulations and Electronic Design Software: To reinforce the understanding and analysis of electronic circuits.
Conti
Learning Results
Learning Objectives: Students should gain a deep understanding of the operation and applications of key electronic components such as
diodes, BJTs, MOSFETs, linear and switched-mode power supplies. They should be able to design and analyze electronic circuits, integrate
sensors and actuators, and use microcontrollers for signal acquisition and system control. From this knowledge, students should be able to
develop complete electronic solutions, applying the concepts in practical projects.
Knowledge: Theoretical lectures that provide an understanding of fundamental concepts, with a special focus on component theory and
circuit operation.
Skills: Practical laboratories that allow the development of skills in assembling, testing, and analyzing circuits, providing an active and
experimental learning experience.
Competencies: Electronics projects that integrate theory and practice, encouraging problem-solving, teamwork, and the development of
technical communication skills
Program
Introduction to Analog Electronics
Semiconductor Diodes
Bipolar Junction Transistors (BJT)
Linear Power Supplies
Field-Effect Transistors (MOSFET)
Sensors and Actuators
Signal Acquisition and Control with Microcontrollers
Switching Power Supplies
Electronic Project
Internship(s)
NAO
Bibliography
Boylestad, R. L., & Nashelsky, L. (2018). Eletrónica: Teoria e Aplicações (11ª ed.). Pearson.
Sedra, A. S., & Smith, K. C. (2019). Microelectronic Circuits (8ª ed.). Oxford University Press.
Floyd, T. L. (2018). Fundamentos de Eletrónica (9ª ed.). Pearson.
Horowitz, P., & Hill, W. (2015). The Art of Electronics (3ª ed.). Cambridge University Press.