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Zastosowanie obwodu z szeregowo połączonymi komparatorami do zabezpieczania układów elektrycznych przed przepięciami
Języki publikacji
Abstrakty
This research presented an electronic load circuit for electrical safety by using a serial mode comparator as a protection device against surges caused by electrical power lacking stability and quality. The application of comparators in detecting overvoltage and driving electronic load is possible because of a transistor which is a simple device for failure prevention used in the circuit design. The properties of the circuit can be set. Relation management for failures which might occur in the electrical system is done through SPDs for surge protection. The electronic load is used as a device to reduce swell. The experiment showed that the electronic load circuit could work according to the design, without any failure, and was efficient. The let-through voltage which came to the load did not reach the level at which electrical devices and electronics would get the failure. The circuit could work without interruption. Moreover, the results from the Failure Modes and Effects Analysis (FMEA) showed that they met the specified standards.
W pracy przedstawiono układ obciążenia obwodu elektrycznego/elektronicznego zabezpieczający obwód przed uszkodzeniem powodowanym przez brak stabilności zasilania. Układ wykorzystuje szeregowo połączenie komparatorów reagujących na przepięcia. Eksperymenty wykazały skuteczne działanie obwodu.
Wydawca
Czasopismo
Rocznik
Tom
Strony
17--22
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
autor
- Department of Electrical Engineering, Pathumwan Institute of Technology, 833 Rama1 Wangmai District, Bangkok, Thailand
autor
- Department of Electrical Engineering, Pathumwan Institute of Technology, 833 Rama1 Wangmai District, Bangkok, Thailand
autor
- Department of Electrical Technology Education, King Mongkut’s University of Technology Thonburi, 126 Pracha Uthit Rd., Bang Mod, Thung Khru, Bangkok, Thailand
Bibliografia
- [1] IEEE Std 1159-2009, IEEE Recommended Practice for Monitoring Electric Power Quality, 2009.
- [2] J. Kaniewski, “Transformator hybrydowy z dwubiegunowym przekształtnikiem AC/AC bez magazynu energii DC," Przegląd Elektrotechniczny, ISSN 0033-2097, 94 (2018), nr 5, 80-85.
- [3] C.-S. Plesa, B. Dimitriu, M. Neag, “Design Options for Current Limit and Power Limit Circuit Protections for LDOs," Advances in Electrical and Computer Engineering Vol.19, no.1, pp.57-62, 2019.
- [4] E. J. Wade and D. S. Davidson, “Application of Transistors to Safety Circuits," IRE Transactions on Nuclear Science, vol. 5, issue 2, pp. 44-46, Aug. 1958.
- [5] K. Futsuhara, and M. Mukaidono, “A Realization of Fail-safe Sensor Using Electromagnetic Induction," IEEE Conference on Precision Electromagnetic Measurements CPEM, Ibaraki, Japan, pp. 99-100,1988.
- [6] K. Futsuhara, and M. Mukaidono, “Application of Window Comparator to Majority Operation," IEEE 19th International Symposium on Multiple-Valued Logic, Guangzhou, China, pp. 114-121, 1989.
- [7] M. Sakai, M. Kato, K Futsuhara, and M. Mukaidono, “Application of Fail-safe Multiple-valued Logic to Control of Power Press," IEEE 22nd International Symposium on Multiple- Valued Logic, Sendai, Japan, pp. 271-350, 1992.
- [8] C. Summatta, S. Deeon, “Simple Anti Capacitor Open-circuit Self-oscillation in a CMOS Schmitt trigger-invertor Oscillator circuit for a Fail-safe Relay Drive," PRZEGLĄD ELEKTROTECHNICZNY, Vol.3, no. 23, pp.97-100, 2019.
- [9] C. Summatta, W. Khamsen, A. Pilikeaw, S. Deeon, “Design and Simulation of Relay Drive Circuit for Safe Operation Order," Proceedings of the 2nd International Conference on Mathematics, Engineering and Industrial Applications 2016 (ICoMEIA 2016), pp.. 030031-1-030031-8, 2016.
- [10] P. Hasse, “Overvoltage Protection of Low Voltage Systems," 2nd Edition, IEE Power and Energy Series 33, The Institution of Electrical Engineers, London, pp. 127-204, 2000.
- [11] V. Radulovic, S. Mujovic, Z. Miljanic, “Characteristics of Overvoltage Protection with Cascade Application of Surge Protective Devices in Low-Voltage AC Power Circuits," Advances in Electrical and Computer Engineering ,Vol.15, no.3, pp.153-160, 2015.
- [12] IEEE Recommended Practice on Surge Voltage in Low-Voltage AC Power Circuit, IEEE Std. C62.41-1991, February, 1991.
- [13] IEEE Guide on the Surge Environment in Low-Voltage (1000 V and Less) AC Power Circuits, IEEE Std C62.41.1-2002, April 2003.
- [14] IEEE Recommended Practice for Powering and Grounding Electronic Equipment. IEEE Std 1100-2005, December 2005
- [15] N. Mungkung, S. Wongcharoen, C. Sukkongwari, and S. Arunrungrasmi, “Design of AC Electronics Load Surge Protection," in International Journal of Electrical, Computer, and Systems Engineering, Vol. 1, no. 2, pp. 126-131, ISSN 1307- 5179, 2007.
- [16] D.-L. Dang, S. Guichard, M. Urbain, S. Raël,“Characterization and modeling of 1200V-100A N-channel 4H-SiC MOSFET," 2016 Symposium de Genie Electrique, Grenoble, France, hal- 01361697, Jun 2016.
- [17] S. Deeon, Y. Hirao and K. Futsuhara, “A Fail-safe Counter and its Application to Low-speed Detection", Transactions of Reliability Engineering Association of Japan, Vol.33, no.3, pp.135-144, 2011.
- [18] Safety of machinery-Electro-sensitive protective equipment- Part 1: General requirements and tests, IEC 61496-1 Standard, April 2012.
- [19] S. Deeon, Y. Hirao, K. Tanaka, “A Relay Drive Circuit for a Safe Operation Order and its Fail-safe Measures", The Journal of Reliability Engineering Association of Japan, Vol.34, no.7, pp. 489-500, 2012.
- [20] IEC 6100-4-5, Electromagnetic Compatibility (EMC)- Part 4-5: Testing and measurement techniques, Surge immunity test, May 2014.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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