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Last update: doc. Mgr. Milan Krtička, Ph.D. (21.01.2019)
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Last update: doc. Mgr. Milan Krtička, Ph.D. (10.06.2019)
Složení ústní zkoušky. |
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Last update: doc. Mgr. Milan Krtička, Ph.D. (16.01.2019)
Sedra, S., Smith, C.: Microelectronic Circuits, Oxford University Press, 6. vydání, 2009, ISBN 9780195323030. Frisch, H.: Základy elektroniky a elektronických obvodů. Praha, SNTL 1987 Haasz, V., Sedláček, M.: Elektrická měření. Přístroje a metody (2. vydání). Monografie ČVUT, Praha 2003 Herout, P.: Učebnice jazyka C. III. vyd. Kopp, Č.Budějovice, 2016. ISBN: 80-85824-21-9 Herout, P.: Učebnice jazyka C - 2 díl, Kopp, Č.Budějovice, 978-80-7232-367-8, 2002. Kochan: Programming in C (4th Edition), 2014 ISBN 978-0321776419 Northrop R.B.: Introduction to Instrumentation and Measurements, CRC 2005, 0-8493-3773-9 Placko, D. : Fundamentals of Instrumentation and Measurement, ISTE 2007, ISBN 1 905209 39 8 Šícha, M., Tichý, M.: Elektronické zpracování signálů , SPN Praha, 1987 Stroustrup: Programming: Principles and Practice Using C++ (2nd Edition), 2014, ISBN 978-0321992789 Stroustrup: The C++ Programming Language (4th Edition), 2013, ISBN 978-0321563842 Šťastný, J.: FPGA prakticky, BEN - technická literatura, 2011, ISBN 978-80-7300-261-9 William R. Leo : Techniques for Nuclear and Particle Physics Experiments. Springer-Verlag Berlin Heidelberg 1987 http://www.cplusplus.com/info/ [cit. 2019-01-15] https://arduino.cz/ - Webový magazín o Arduinu a elektronice [cit. 2019-01-15] |
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Last update: doc. Mgr. Milan Krtička, Ph.D. (10.06.2019)
Požadavky ke zkoušce odpovídají sylabu předmětu v rozsahu prezentovaném na přednášce. |
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Last update: doc. Mgr. Milan Krtička, Ph.D. (21.01.2019)
1. Introduction to electronics circuits, passive and active electronics components, amplifiers, feedback, noise, resonances and resonance effects, transition effects, filters, derivation and integration circuits, grounding, shielding, cabling, SMD soldering, wire-bonding, bump-bonding. 2. Introduction to measurements: measurement errors, voltage, current, resistance, frequency and phase differences, AD-DA converters, digital multi-meters, magnetic and optical measurements. 3. Interfaces - RS-232, RS-422, RS-485 (GPIB), USB, RJ45. 4. Pulse counters, D/A and A/D converters, special amplifiers for nuclear spectroscopy, single channel and multichannel pulse analyzers, discriminators, coincidence circuits, time-amplitude converters, PC architecture, FPGA circuits, Arduino kits for slow control measurements. 5. C/C++, ROOT, compilation and program debugging, safe code writing for communication with devices, correct code writing and sharing in team. 6. Communication in various operating systems (Windows, Linux). 7. Communication from command line and visualized communication tools, programs from National Instruments. 8. Monitoring of work in laboratories (messages, alerts, warnings, remote control, supervising on laboratories, noise alarms, e-mail, SMS). 9. Modular work with devices, interconnecting measurements to more complex tasks, feedback, automation.
Practical exercise: 1. Laminating and soldering cable to the connectors to the cable. Good soldering principles. 2. Shielding and grounding of preamplifiers, monitoring by scopes. 3. Make own beeper (circuit 555), preamplifier, oscillator. 4. Programming and communication with FPGA or Arduino kit.
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