The course is divided in two modules.
The first part offers an overview of the basic analog and digital electronics. The course focuses on semiconductor technology and devices, transistors' circuital model and simulation, digital electronics main devices.
The second part deals with the fundamentals of the modern measurement science and uncertainty theory. Basic principles of the electrical instruments and their correct management. Measurement methods of the main electrical quantities. Modern measurement systems based on programmable instrumentation and PC-based data acquisition. |
Provide students with a knowledge of modern semiconductor technology and the ability to analyze analog and digital electronic circuits. Understand the meaning of a measure and it’s uncertainty. Know the main features of analog and digital measurement devices. Acquire knowledge on the programmable instruments. |
Semiconductors technololy Amplifier: basic concepts and related circuits Pn junction diode BJT MOSFET Circuit simulation with SPICE Digital electronics CMOS logic Memories and Flip/flops Fundamental of measurement theory Direct and indirect measurements Measurement uncertainty and uncertainty sources SI International System and measurement standards Analog Oscilloscope Instruments and measurement methods of currents and voltages Digital voltmeters Digital oscilloscope Signal generators and synthesizers Instruments for frequency and time interval measurements Programmable instrumentation and IEEE 488 standard interface PC-based instrumentation and software packages for data acquisition. |
J. Millman, "Millman's Electronic Devices And Circuits", Tata Mcgraw Hill Education Private Limited (2011)
Klaas B. Klaassen, Steve Gee, Electronic Measurement and Instrumentation, Nov 2003, Cambridge University Press, ISBN 0521477298 |
Βοηθός/Καθηγητή Περιοχή Καθηγητή
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Λίστα μαγνητοσκοπημένων παραδόσεων |