Design and implementation of a standby power suppressor for medium-power electronic equipment
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Abstract
Currently, there is irrational use of electrical energy in homes due to the inclusion of electronic equipment in daily activities and poor consumption habits, such as leaving lights on in unused areas and equipment in standby mode. Global trends in caring for the environment require measures to contribute to energy saving and reduce the impact generated by producing it. Therefore, it is impossible to ignore the consumption of medium-power electronic equipment in standby mode. Although individual consumption is relatively low, the sum of each electronic device is a value to be considered. This article aims to guide the design and implementation of a standby power suppressor for medium-power electronic equipment. It also provides a clear idea of the energy and economic savings it could generate when implemented in homes and offices.
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[2] http://www.energystar.gov/index.cfm?c=tv_vcr.pr_crit_tv_vcr, TVs Key Energy Star product criteria
[3] http://www1.eere.energy,gov/femp/pdfs/eo13221.pdf, Executive Order 13221 – 30 de julio del 2001
[4] WARD, D. A, and J. Exon. “Using Rogowski coils for transient current measurements”, Engineering Science and Education Journal, 1993
[5] RAMBOZ, J. D, “Machinable Rogowski coil. Design and calibration”, IEEE Transactions on Instrumentation and Measurement, vol. 45, no. 2, pp. 511–515, Apr. 1996.
[6] ARGÜESO, Martha, Estudio de una bobina de rogowski como sonda detectora de pulsos de alta frecuencia, Feb. 2005