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J Electr Electron Mater : Journal of Electrical and Electronic Materials

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"Energy saving"

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"Energy saving"

A Study on the Smart Outlet and Gateway Using Power Line Communication
Sung Jin Park, Yu Jin Kim, In Ji Park, Jin Young Kim, Chang Gyoon Lim
J Electr Electron Mater 2020;33(4):331-335.   Published online July 1, 2020
DOI: https://doi.org/10.4313/JKEM.2021.33.4.15
In this study, through the accumulated technologies such as real-time monitoring of power consumption using power line communication (PLC) method, power control, and automatic blocking of standby power, to commercialize them, we developed the hardware design, algorithm, protocol and module along with data transmission using PLC. We conducted the study to develop advanced products.We also proposed cloud-based smart outlet products with a novel type of outlet. These products can measure the internal power consumption through the H/W modules and the modules that control the power of household appliances connected to the smart outlets and smart plugs. Subsequently, they transmit the measurements to the energy saving system server via a communication module. This system can control the terminal device connected to the Gateway (G/W) server through a mobile phone. This will allow the customer to check the power consumption of the building at any given time, to turn the terminal on/off, and to maximize the energy efficiency during the construction of new apartments or multi-family housing in an area.
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Review Paper : Technology Development Trends of Self-Powered Next Generation Smart Windows
Sun Ho Pyun
J Electr Electron Mater 2015;28(12):753-764.   Published online December 1, 2015
Among several types of energy saving smart window technologies, the leader, the dynamic EC (electrochromic) window one needs integrated PV (photovoltaics), to minimize expensive electrical wiring as well as to obviate the need for external energy. Self-powered smart windows were reviewed according to PV types used. DSSCs (dye sensitized solar cells) were found to be compatible with EC cells, to have several categories of next generation smart windows such as PECCs (photoelectrochromic cells), PVCCs (photovoltachromic cells), EC polymer PECCs. In addition silicon solar cells and third generation solar cells were investigated. They are summarized in a table showing their advantages and disadvantages respectively for a fast comparison. The strategy to expedite the commercialization of these next generation smart windows includes developing retrofit smart window coverings for use on flexible polymer substrates adhered to the inside surface of a window and easily replaced after use for upto 10 years.
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