Scientific Disciplinary Sector (SSD)
FIS/01 - EXPERIMENTAL PHYSICS
I sem. dal Oct 2, 2017 al Jan 31, 2018.
The course provides the physical working principles of semiconductor devices, p / n junctions, FETs, MOSFETs, LEDs and of the logic gates fabricated through the planar technology of integrated circuits.
At the end of the course the student must demonstrate to have assimilated the physical principles of operation of a semiconductor, a p / n junction and electronic devices such as transistors.
This knowledge will enable the student to: i) assemble different types of transistors in circuits by making electronic devices; ii) construct a simple integrated circuit system with the ability to choose between the different devices to be inserted in the circuit; iii) to master the physical phenomena linked to basic devices of integrated circuits in order to know and understand the different behaviours of each circuit based on the set electrical parameters.
At the end of the course the student will be able to: i) interface the software structure with the hardware devices knowing the basic methods of operation of the electronic circuits; ii) understand the programming of hardware systems with greater depth.
In order to properly follow the lectures it is strongly recommended to have already acquired knowledge on classical physics (laws of motion, work, energy, electric field, electric potential).
The course consists of theoretical section and two different experimental sections in the lab (simulation and hardware).
Elements of Classical Physics and Atomic Physics: work and energy, electric field and potential, electric current, Ohm's law, linear circuits resistivity and temperature dependence in metals and semiconductors, the Bohr model, the periodic table of the elements
Crystal structure and electrical properties of metals, semiconductors and doped semiconductors: gas model of electrons in metals as a link model in semiconductors, concept of gap, doped semiconductors, nods to the band theory, conduction current and dissemination
P-n junction: non-polarized and polarized junction, ddp contact, voltage-current characteristic in forward and reverse bias, junction diode, Zener diode, OR / AND gates to diodes, switching times
Bipolar junction transistor BJT, input curves and in common emitter configuration output, common base, inverter, transfer rates characteristic and noise margins, switching times
Transitor in the field of JFET and MOSFET effect, manufacturing techniques, output and transfer curves, MOSFET and CMOS inverters, transfer characteristics, noise margins, switching times
Elementary digital circuits in MOS technology, CMOS, bipolar, ECL: NOR and NAND MOSFET and CMOS, NAND DTL, HTL, TTL, OR / NOR ECL
Comparison of logic families: propagation delay, power dissipation, fan-out, noise margins
-Laboratory (software) with circuit simulation with Micro Cap (12 hours).
-Laboratory (hardware) with circuit fabrication on pre-prepared electronic cards (12 hours).
The complete teaching material is available on the e-learning portal.
The final test will be an oral exams on the topics covered in the lectures.
Specifically the exam will consists of questions on the basic physics principles of semiconductors and of electronic devices taken in consideration. Moreover at the end of the laboratory course, the students will make a lab test with the electronic card.
Examination methods are differentiated between attending and not-attending students.