Lecturer(s)
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Černík Martin, Ing. Ph.D.
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Nosek Jaroslav, prof. Ing. CSc.
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Course content
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Lectures: 1. Fundamentals of semiconductor physics, crystal structure, band diagram. 2. Electrical and thermal properties of semiconductor materials. 3. Electrical properties of basic semiconductor structures, boundary within semiconductor crystal, NP junction, metal-semiconductor junction, heterostructures. 4. Transistor effect, current modulation by the semiconductor device. 5. Power electronic semiconductor devices. 6. Signal semiconductor discrete devices. 7. Protective semiconductor devices. 8. Semiconductor sensors. 9. Optoelectronics devices, LED, solid state lasers. 10. Semiconductor photovoltaics. 11. Organic semiconductors, physics, devices. 12. Thermal properties of semiconductor devices. 13. Manufacturing of semiconductor materials. 14. Manufacturing of semiconductor devices, VLSI. Tutorials: Device electric parameters relations to the device physical design - computational exercises, using math and physics simulators. Device models in circuit simulators, PSPICE Thermal properties of the semiconductor element (calculation, measurement) Design of the cooling system for a semiconductor component. (Calculation, measurement) Static on-state and off-state power device characteristicsmeasurement Switching parameters of semiconductor devices (measurement) Optical and electrical parameters of the photoelectric cell (measurement) Transfer properties of semiconductor sensors, radiation sensors, Hall sensor, (measurement)
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Learning activities and teaching methods
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Monological explanation (lecture, presentation,briefing)
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Learning outcomes
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Studentsshouldacquiretheorientationintherecentsemiconductor technology and thepossibilitiesofusingsemiconductordevices in development and scientificresearch. Thetutorialsshouldbedrawn up so thatstudentsgainpracticalskillsforselectinganappropriate elementfordevelopedapplication, understanditsfunction and wasable to determinewiththecalculationtherequiredparameters and boundaryconditions.
The student will acquire experience about fundamentals of semiconductor solid-state physics, an overview of basic and important semiconductor devices, their properties and applications,an orientation in calculations and simulations related to the using of semiconductor devices in the circuits.
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Prerequisites
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None
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Assessment methods and criteria
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Oral exam
Requirements for getting a credit are activity at the tutorials and successful passing of the tests. Examination is in oral form.
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Recommended literature
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Baliga, B.J.:. Fundamentals of Power Semiconductor Devices. Springer US, 2010. ISBN 9780387473147.
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Černík, M. Návody na výpočetní úlohy a laboratorní práce.
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Černík, M. Prezentace přednášek.
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Frank, H.:. Fyzika a technika polovodičů.. SNTL, 1990. ISBN 80-03-00401-2.
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Streetman, B.G.,Banerjee, S.:. Solid State Electronic Devices.. PearsonEducation, 2014. ISBN 9780133356038.
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Vobecký, Záhlava:. Součástky, obvody, principy a příklady.. Grada, 2005. ISBN 978802471241.
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