Electronics

Code	13410
Year	2
Semester	S1
ECTS Credits	6
Workload	PL(30H)/T(30H)
Scientific area	Engineering Sciences
Entry requirements	None.
Mode of delivery	--Face to Face
Work placements	--Not Applicable
Learning outcomes	Analyze linear and non linear circuits using the circuit analysis laws and use electronic devices. Discuss the integration of these electronic devices and circuits in sensing processes, data acquisition systems and measurement of electrical signals in the context of biomedical sciences. Discuss the origin of bio-potential signals. Identify the theoretical and technological aspects involved in the implementation of digital circuits. At the end of the Curricular Unit, the student should be able to identify electronic devices, passive and active, analog and digital, in an electronic circuit, describe its operation - analysis and synthesis skills - and discuss its applications in biosciences. Implement of low complexity analog and digital circuits. Use electronic laboratory equipment to measure, generate and visualize electrical signals: power supplies, multimeter, signal generator, oscilloscope.
Syllabus	1. Fundamentals of Circuit Theory: Linear passive components. Ohm's law. Joule's Law. Kirchhoff laws. Thevenin/Norton Equivalents. Superposition Theorem. Analysis of RC and RL circuits. 2. Semiconductor Devices: Semiconductors. Junction diodes: physical properties; rectifier circuits; Zener diodes; regulated power supplies. Bipolar Junction Transistors: properties; BJT biasing; quiescent point; BJT as a signal amplifier. 3. Operational amplifiers: Ideal Operational Amplifiers. Applications. 4. Analog-to-Digital and Digital-to-Analog Converters. 5. Biomedical Applications. 6. Introduction to Digital Electronics. 7. Numerical Systems and Codes. 8. Boolean Algebra. Boolean Function Representation. 9. Decision Circuits. 10. Combinational Circuits. 11. Multiplexing and Demultiplexing. 12. Binary Arithmetic Circuits. 13. Basic sequential circuits. Flip-flops. Registers. Counters. Memories. 14. Introduction to Microprocessors.
Main Bibliography	Bibliografia Principal: M. Medeiros Silva, Introdução aos Circuitos Eléctricos e Electrónicos, F. C. Gulbenkian, 1999 Smith, Ralph J., Circuits, Devices and Systems, John Wiley & Sons, 3rd Ed., 1987 Taub, H., Circuitos Digitais e Microprocessadores, McGraw-Hill, 1982 Wakerly, J. F., Digital Design, Principles & Practices, 3/e, Prentice Hall, 2001 Bibliografia Complementar: John G. Webster, Bioinstrumentation, John Wiley & Sons, Inc., 2005 Norman Lurch, Fundamentos de Electrónica Vol.I e II, Jonh Wiley & Sons Dorf R. & Svoboda J., Introduction to Electric Circuits, John Wiley & Sons, 8th ed., 2009. http://electronicsclub.info Morris Mano, M. & Kime C. R., Logic and Computer Design Fundamentals, 3rd Ed., Prentice Hall Int., 2003 Padilla, A.J.G., Sistemas Digitais, McGraw-Hill, 1989 Texas Instruments, Inc., The TTL Data Book for Design Engineers Osborne, A., Microprocessadores: Conceitos Básicos, McGraw-Hill, 1984 Folhas de Apoio, Problemas e Protocolos de Laboratório, UBI
Language	Portuguese. Tutorial support is available in English.