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Анотація
One of the aspects of the global trend in the development of Smart systems is considered in the paper, namely those solutions of the leading manufacturers of electrical household appliances that relate to the implementation of additional intelligent functions to devices in demand by the society - Smart Diagnosis, Smart Grid-ready, Smart Manager, Smart Access, Smart Adapt. It is emphasized that some tasks related to the energy efficiency of devices, the accuracy of testing tools, which should be used as a basis for the Smart System, remained unresolved. So, the built-in additional sensors and chips of "smart" subsystems require the application of additional measures aimed at reducing the power consumption of the device (preferably twice to restore the balance). On the example of the developed innovative electric motor of domestic refrigerator hermetic compressor drive, the existence of the possibilities for a significant increase in its efficiency has been proved. Since intellectual features of Smart System in its Smart Diagnosis dialog box should be based on monitoring data on power efficiency parameters of the device, a new concept for the development of an electric energy counter is proposed.
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Як цитувати
Baidak, Y., & Vereitina, I. (2018). Smart Refrigerators in Return for Energy Efficiency. Refrigeration Engineering and Technology, 54(1). https://doi.org/10.15673/ret.v54i1.994
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АВТОМАТИКА, КОМП’ЮТЕРНІ ТА ТЕЛЕКОМУНІКАЦІЙНІ ТЕХНОЛОГІЇ
Посилання
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2. M. Chan, E. Campo, D. Estève and J-Y. Fourniols, J-Y., “Smart
homes – Current Features and future perspectives,” Maturitas, vol. 64, 2009, pp. 90-97, 2009
3. R. Herold, U. Vogel, B. Richter, OLED-on-CMOS based single chip microdisplay and image sensor device, in Proceedings of International Display Workshop, 2010, pp. 339–340
4. Lee, J.S.; Chuang, C.C.; Shen, C.C. Applications of short-range wireless technologies to industrial automation: A ZigBee approach. In Proceedings of the Fifth Advanced International Conference on Telecommunications, Venice, Italy, 24–28 May 2009.
5. N.V. Wünderlich et al., “‘Futurizing’ Smart Service: Implications for Service Researchers and Managers,” J. Services Marketing, vol. 29, nos. 6–7, 2015, pp. 442–447.
6. Akhras, G., “Advanced Composites for Smart Structures”, Proceedings, ICCM-12,12th International Conference on Composite Materials, Paris, July 5-9, 1999.
7. Baidak Yu. V. Odnofazna odnosharova obmotka [Single-phase single-layer winding]. Patent UA, no 48033, 2006. (in Ukrainian)