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000000248 001__ 248
000000248 037__ $$aENY-ARTICLE-2008-194
000000248 041__ $$aeng
000000248 100__ $$aMarkiewicz, H$$uWroclaw University of Technology
000000248 245__ $$aVoltage Disturbances Standard EN 50160 -  Voltage Characteristics in Public Distribution Systems
000000248 260__ $$c2004-07-03
000000248 300__ $$a16p
000000248 500__ $$aPower Quality Application Guide, 5.4.2, (C) European Copper Institute, Wroclaw University of Technology and Copper Development Association.
000000248 520__ $$aElectrical energy is a product and, like any other product, should satisfy the proper quality requirements. If electrical equipment is to operate correctly, it requires electrical energy to be supplied at a voltage that is within a specified range around the rated value. A significant part of the equipment in use today, especially electronic and computer devices, requires good power quality (PQ). However, the same equipment often causes distortion of the voltage supply in the installation, because of its non-linear characteristics, i.e. it draws a non-sinusoidal current with a sinusoidal supply voltage (see Section 3.1 of this Guide). Thus, maintaining satisfactory PQ is a joint responsibility for the supplier and the electricity user. According to standard EN 50160 [1] the supplier is the party who provides electricity via a public distribution system, and the user or customer is the purchaser of electricity from a supplier. The user is entitled to receive a suitable quality of power from the supplier. In practice the level of PQ is a compromise between user and supplier. Where the available PQ is not sufficient for the user’s needs, PQ improvement measures will be needed and will be the subject of a cost-benefit analysis (see Section 2.5 of this Guide). However, the cost of poor PQ usually exceeds the cost of measures required for improvement - it is estimated that losses caused by poor power quality cost EU industry and commerce about € 10 billion per annum (see Section 2.1 of this Guide). However, electrical energy is a very specific product. The possibility for storing electricity in any significant quantity is very limited so it is consumed at the instant it is generated. Measurement and evaluation of the quality of the supplied power has to be made at the instant of its consumption. The measurement of PQ is complex, since the supplier and user, whose sensitive electrical equipment is also a source of disturbances, have different perspectives. Standard IEC 038 [2] distinguishes two different voltages in electrical networks and installations: supply voltage, which is the line-to-line or line-to-neutral voltage at the point of common coupling, i.e. main supplying point of installation, utility voltage, which is the line-to-line or line-to-neutral voltage at the plug or terminal of the electrical device. The main document dealing with requirements concerning the supplier’s side is standard EN 50160, which characterises voltage parameters of electrical energy in public distribution systems. This is a European standard but it is supplemented in some regions or countries by other supplemental standards, such as [3] in Germany, or [4] in Poland. Many regional codes, such as the German TAB [3] apply to an individual utility, but these are being unified as part of the liberalisation of the German electricity market. According to IEC 038, both standard EN 50160 and rules [3,4] concern the supply voltage, i.e. that measured at the point of common coupling. On the user’s side, it is the quality of power available to the user’s equipment that is important. Correct equipment operation requires the level of electromagnetic influence on equipment to be maintained below certain limits. Equipment is influenced by disturbances on the supply and by other equipment in the installation, as well as itself influencing the supply. These problems are summarised in the EN 61000 series of EMC standards, in which limits of conducted disturbances are characterised. Equipment sensitivity to utility voltage quality, as well as mitigation measures, are presented in Section 3 (Harmonics) and Section 5 (Voltage Disturbances) of this Guide. The subject of this section is a detailed presentation of standard EN 50160 and an analysis of its requirements according to the operation of chosen equipment. Methods of measuring supply voltage parameters are also presented.
000000248 6531_ $$apower quality
000000248 6531_ $$aEN 50160
000000248 700__ $$aKlajn, A$$uWroclaw University of Technology
000000248 8560_ $$fleon99@pwr.wroc.pl
000000248 8564_ $$uhttp://zet10.ipee.pwr.wroc.pl/record/248/files/$$zAccess to Fulltext
000000248 909CO $$ooai:zet10.pwr.wroc.pl:248$$pglobal
000000248 980__ $$aARTICLE