KONCEPTI RADA LINEARNOG SOLENOIDA I EKSPERIMENTALNO ODREĐIVANJE USLOVA NJEGOVOG UPRAVLJANJA

Sebastian Drača

doi:10.24867/13IH01Draca

Sebastian Drača

DOI: https://doi.org/10.24867/13IH01Draca

Ključne reči: linearni solenoid, solenoid, embedded sistemi, digitalna upravljacka elektronika

Apstrakt

Rad predstavlja opis algoritma za upravljanje linearnim solenoidom kao i eksperimentalnu prezentaciju naĉina njegovog rada. Opisuje osnovne stvari vezane za upravljanje solenoidom i objašnjava osnovne koncepte upravljanja solenoida kao aktuatora u zavisnosti od faktora koji utiču na njegovo upravljanje. Eksperimentalno opisuju brzinu promene temperature prilikom rada solenoida u standardnim uslovima.

Reference

[1] 1. C, Roters. Electro Magnetic Device. New York : John Wiley & Sons Inc., 1970.
[2] 2. Sung, Baek Ju. Solenoid Actuator Design for Improvement of Response Speed. Daejon 34103 : Reliability Assessment Center, Korean Institute of Machinery & Materials, May 31, 2016.
[3] 3. Lee, Chang-Woo Song and Seung-Yop. Design of a Solenoid Actuator with a Magnetic Plunger for Miniaturized Segment Robots. Seoul, Korea : Department of Mechanical Engineering, Sogang University, 1 Shinsu-dong, Mapo-gu,, 18 September 2015.
[4] 4. Hashim, Bushra J Hussein Intesar H. Effect of Solenoid Magnetic Field Distribution on Beam Focusing. s.l. : Department of Physics, College of Education for Pure Science , January 2016.
[5] 5. Storr, Wayne. Linear Solenoid Actuator. Electronics Tutorials. [Online] 2014.
[6] 6. Rotary Solenoids. Shindengen. [Online] February 2nd, 2002. [Cited: September 15th, 2020.] https://smt.shindengen.co.jp/english/.
[7] 7. scribd. [Online] December 19, 2018. [Cited: September 16, 2020.] https://www.scribd.com/document/396002190/esau5-pdf.
[8] 8. Magnetic Sensor Systems Solenoid construction. Solenoid City. [Online] [Cited: September 25th, 2020.] http://www.solenoidcity.com/solenoid/manual/construction/construction.htm.
[9] 9. Modelling and Simulation of a Controlled Solenoid. Badr, M.F. Baghdad, Iraq : Mechanical Engineering Department, Faculty of Engineering, Al-Mustansiriyah University, 2018.
[10] 10. Justinijanović, Milorad N. Električne instalacije i osvetljenja. Električne instalacije i osvetljenja. Beograd : Zavod za udžbenike i nastavna sredstva, 1989.
[11] 11. Radetić, Dr Radojle. Prekidačka napajanja. Prekidačka napajanja. Beograd : Nauka Beograd, December 2005.
[12] 12. Despotović, Prof.dr Željko. DC/DC Pretvarači-čoperi. Beograd : Visoka škola elektrotehnike i računarstva strukovnih studija-Višer.
[13] 13. Pawel Olejnik, Jan Awrejcewicz. An Overview of ATmega AVR Microcontrollers Used in Scientific Research and Industrial Applications. [Online] March 2015. [Cited: October 6th, 2020.] https://www.researchgate.net/publication/273379962.
[14] 14. Bute, Rakesh. AVR Microcontroller (Atmega32) - An Introduction. Circuits today. [Online] 2010. https://www.circuitstoday.com/atmega32-avr-microcontroller-an-introduction.
[15] 15. Jonathan Valdez, Jared Becker. Understanding the I2C Bus. Dallas : Texas Instruments, 2015.
[16] 16. T.K.HAREENDRAN. Arduino I2C LCD Backpack Introductory Tutorial. Electro schematics. [Online] 2015. [Cited: October 10th, 2020.] https://www.electroschematics.com/arduino-i2c-lcd-backpack-introductory-tutorial/.
[17] 17. Mazidi, Muhhamad Ali, Janice Gillispie Mazidi. The 8051 Microcontroller and Embedded Systems. Taiwan : Department of Computer Science and Information Engineering National Cheng Kung University, 1995.
[18] 18. How to Use ACD (nalog to Digital Converter) in AVR - Atmega32. Circuits today. [Online] 2017.
[19] 19. T.K.HAREENDRAN. AVR PWM Pulse Width Modulation. Electro schematics. [Online] 2015. [Cited: October 20th, 2020.] https://www.electroschematics.com/avr-pwm/.