6.2.4.19 Pset_DistributionSystemTypeElectrical

PSET_TYPEDRIVENOVERRIDE / IfcDistributionSystem / ELECTRICAL

Natural language names
Distribution System Type Electrical
Properties

buildingSMART Data Dictionary

PSD-XML

NameTypeDescription
ElectricalSystemType P_ENUMERATEDVALUE / IfcLabel / PEnum_DistributionSystemElectricalType
Electrical System TypeFor certain purposes of electrical regulations, IEC 60364 defines types of system using type identifiers. Assignment of identifiers depends upon the relationship of the source, and of exposed conductive parts of the installation, to Ground (Earth). Identifiers that may be assigned through IEC 60364 are: 鈥N type system, a system having one or more points of the source of energy directly earthed, the exposed conductive parts of the installation being connected to that point by protective conductors, 鈥N C type system, a TN type system in which neutral and protective functions are combined in a single conductor throughout the system, 鈥N S type system, a TN type system having separate neutral and protective conductors throughout the system, 鈥N C S type system, a TN type system in which neutral and protective functions are combined in a single conductor in part of the system, 鈥T type system, a system having one point of the source of energy directly earthed, the exposed conductive parts of the installation being connected to earth electrodes electrically independent of the earth electrodes of the source, 鈥T type system, a system having no direct connection between live parts and Earth, the exposed conductive parts of the electrical installation being earthed.
闆绘皸銈枫偣銉嗐儬鏂瑰紡IEC60364闆绘皸鍩烘簴銇畾缇┿仐銇熼浕姘楁帴鍦般伄鏂瑰紡銆傞浕姘楄ō鍌欍伄绋銆佹帴鍦伴浕妤点仺瑷倷銇皫闆绘ч儴鍒嗐伄绋銇ф焙銈併倝銈屻倠銆傚叿浣撶殑銇伀銇両EC60364銇笅瑷樸伄銈堛亞銇柟娉曘亴銇傘倠锛 - TN銈枫偣銉嗐儬锛氶浕姘楄ō鍌欍伅涓鐐规垨銇勩伅澶氱偣銇帴鍦扮偣銈掓寔銇°佺洿鎺ユ帴鍦般仌銈屻倠銈枫偣銉嗐儬銆傝ō鍌欍仺鎺ュ湴妤点伄灏庨浕鎬ч儴鍒嗐伅淇濊銇曘倢銇︺亜銈嬨亾銇ㄣ - TN銆C銈枫偣銉嗐儬锛氱郴绲便伄鍏ㄣ仸銇倧銇熴仯銇︺佷腑鎬х窔銇ㄤ繚璀峰皫浣撱亴涓銇ゃ伄灏庝綋銇甌N銈枫偣銉嗐儬銆 - TN銆S銈枫偣銉嗐儬锛氱郴绲便伄鍏ㄣ仸銇倧銇熴仯銇︺佺嫭绔嬨伄涓х窔銇ㄤ繚璀峰皫浣撱倰鏈夈仚銈婽N銈枫偣銉嗐儬銆 - TN銆C銆S銈枫偣銉嗐儬锛氱郴绲便伄涓閮ㄣ仹銇佷腑鎬х窔銇ㄤ繚璀峰皫浣撱亴涓銇ゃ伄灏庝綋銇甌N銈枫偣銉嗐儬銆 - TT銈枫偣銉嗐儬锛氫竴鐐广倰澶у湴銇洿鎺ユ帴缍氥仐銆侀浕鍔涚郴绲便伄鎺ュ湴銇ㄣ伅鐒¢枹淇傘伀銆佽ō鍌欍伄闇插嚭灏庨浕鎬ч儴鍒嗐倰澶у湴銇洿鎺ユ帴鍦般仚銈嬨亾銇ㄣ - IT銈枫偣銉嗐儬锛氶浕鍔涖偡銈广儐銉犮倰澶у湴(鎺ュ湴)銇嬨倝绲剁竵銇欍倠銆佽ō鍌欍伄闇插嚭灏庨浕鎬ч儴鍒嗐倰澶у湴銇洿鎺ユ帴鍦般仚銈嬨亾銇ㄣ
ElectricalSystemCategory P_ENUMERATEDVALUE / IfcLabel / PEnum_DistributionSystemElectricalCategory
Electrical System CategoryDesignates the voltage range of the circuit, according to IEC. HIGHVOLTAGE indicates >1000V AC or >1500V DV; LOWVOLTAGE indicates 50-1000V AC or 120-1500V DC; EXTRALOWVOLTAGE indicates <50V AC or <120V DC.
闆绘皸銈枫偣銉嗐儬銇偒銉嗐偞銉兗IEC銇簴鎷犮仐銇熷洖璺伄闆诲湩銉兂銈搞倰绀恒仚銆傛銇垪鎸欏瀷銇ゃ倰鍙栥倠銆(HIGHVOLTAGE indicates >1000V AC or >1500V DV; LOWVOLTAGE indicates 50-1000V AC or 120-1500V DC; EXTRALOWVOLTAGE indicates <50V AC or <120V DC.)
Diversity P_SINGLEVALUE / IfcPositiveRatioMeasure
DiversityThe ratio, expressed as a numerical value or as a percentage, of the simultaneous maximum demand of a group of electrical appliances or consumers within a specified period, to the sum of their individual maximum demands within the same period. The group of electrical appliances is in this case connected to this circuit. Defenition from IEC 60050, IEV 691-10-04 NOTE1: It is often not desirable to size each conductor in a distribution system to support the total connected load at that point in the network. Diversity is applied on the basis of the anticipated loadings that are likely to result from all loads not being connected at the same time. NOTE2: Diversity is applied to final circuits only, not to sub-main circuits supplying other DBs.
璨犺嵎鐜銇傘倠鏈熼枔涓悓銇樺洖璺伀銇傘倠瑜囨暟闆绘皸瑷倷銇悓鏅傛渶澶ц矤鑽枫仺鍚勮ō鍌欍伄鍚堣▓璨犺嵎銇瘮鐜囥
NumberOfLiveConductors P_SINGLEVALUE / IfcInteger
Number Of Live ConductorsNumber of live conductors within this circuit. Either this property or the ConductorFunction property (if only one) may be asserted.
MaximumAllowedVoltageDrop P_SINGLEVALUE / IfcElectricVoltageMeasure
Maximum Allowed Voltage DropThe maximum voltage drop across the circuit that must not be exceeded. There are two voltage drop limit settings that may be applied; one for sub-main circuits, and one in each Distribution Board or Consumer Unit for final circuits connected to that board. The settings should limit the overall voltage drop to the required level. Default settings of 1.5% for sub-main circuits and 2.5% for final circuits, giving an overall limit of 4% may be applied. NOTE: This value may also be specified as a constraint within an IFC model if required but is included within the property set at this stage pending implementation of the required capabilities within software applications.
鏈澶цū瀹归浕鍦ч檷涓闆绘皸鍥炶矾銇с伄闆诲湩闄嶄笅銇渶澶ч浕鍦ч檷涓嬨倰瓒呫亪銇亜銈堛亞銇備簩绋銇浕鍦ч檷涓嬮檺搴︺亴銇傘倞銆佷竴銇ゃ伅鍒嗗矏锛嶄富鍥炶矾銆併倐銇嗕竴銇ゃ伅鍚勫垎闆荤洡鎴栥亜銇湯绔洖璺伄闆绘皸闇瑕佽缃仺鎺ョ稓闆绘皸鐩ゃ仹銇傘倠銆傜窂闆诲湩涓嬮檷銈掍娇鐢ㄧ瘎鍥蹭互鍐呫伀鍒堕檺銇欍倠銆傘儑銉曘偐銉儓鍊ゃ伅鍒嗗矏锛嶄富鍥炶矾1.5锛呫佹湯绔洖璺2.5锛呫佸悎瑷堢窂闆诲湩4锛呫仹銇傘倠銆 娉細銇撱伄鍊ゃ伅IFC銉€儑銉仹銇埗绱勫ゃ仺鎸囧畾銇曘倢銇︺亜銈嬨亴銆佺従娈甸殠銇с伅銉椼儹銉椼儐銈c偦銉冦儓銇ō瀹氥仚銈嬨傚皢鏉ョ殑銇伅蹇呰銇ц兘銇ㄣ仐銇﹀悇銈姐儠銉堛偄銉椼儶銈便偡銉с兂銇埄鐢ㄣ仚銈嬨
NetImpedance P_SINGLEVALUE / IfcElectricResistanceMeasure
Net ImpedanceThe maximum earth loop impedance upstream of a circuit (typically stated as the variable Zs). This value is for 55o C (130oF) Celsius usage.
銉嶃儍銉堛偆銉炽償銉笺儉銉炽偣闆绘皸鍥炶矾銇с伄鏈澶ф帴鍦般偆銉炽償銉笺儉銉炽偣锛堜竴鑸伅Zs銇ц〃绀猴級銆55鈩 (130掳F)銇с伄鏁板ゃ

Link to this page  Link to this page