1、NORMECEIINTERNATIONALEIECINTERNATIONAL1277STANDARDPremiere editionFirst edition1995-02Systemes photovoltaiques(PV)terrestres-Generalites et guideTerrestrial photovoltaic(PV)powergenerating systems-General and guide6bAPCK HCTTyT 3A CTAHAPTH3ALHALUWOHAEH OHI CTAHAPTOKone,era3w KonwpHCEI 1995 Droits de
2、 reproduction rservs-opyright-al rights reservedAucune partie de cette publication ne peut ere reproduite ni No part of this publication may be reproduced or utilized inutilise sous quekque forme que ce soit el par aucun pro-any form or by any means,electronic or mechanicalcd,lectronique ou mcanique
3、,y compris la photocopie etincluding photocopying and microlilm,without permissicles microfilms,sans accord crit de 6diteurin writing from the publisheBureau Central de la Commission Electrotechnique Intemationale 3,rue de Varemb Geneve,SuisseIECCommission Electrotechnique InternationaleCODE PRIXInt
4、ernational Electrotechnical CommissionMeAyHapoAHaR neKTpOTeXHecHaR HOMHCCHPRICE CODESPour prix,voir catalogue en vigueurFor price,see current calalogue12771EC:1995-3-CONTENTSPageFOREWORD.INTRODUCTION.Clause1Scope92Overview of possible major sub-system components and intertaces.92.1 Purpose.92.2 Majo
5、r configurations.93Description of major sub-systems,components and interfaces of the PVpower generating system.93.1Purpose.444*93.2Master control and monitoring(MCM).113.3PV.ub-system133.4DC conditioner.153.5DCld.c.interface173.6Storage.193.7Inverter213.8AC/a.c.interface233.9Utility interface25Figur
6、esPV power generating system-Major functional elements,sub-systems,and power flow diagram.292Elements of PV power generating systems with typical applications.31AnnexesAExample configurations derived from figure 2,withsome typical applications.33Gl0SSay391277IEC:1995-5-INTERNATIONAL ELECTROTECHNICAL
7、 COMMISSIONTERRESTRIAL PHOTOVOLTAIC(PV)POWER GENERATING SYSTEMSGENERAL AND GUIDEFOREWORD1)The IEC(International Electrotechnical Commission)is a worldwide organization for standardizationcomprising all national electrotechnical committees(IEC National Committees).The object of the IEC is topromote i
8、nternational cooperation on all questions concerning standardization in the electrical andolectronic fields.To this end and in addition to other activities,the IEC publishes International Standards.Their preparation is entrusted to technical committees:any IEC National Committee interested inthe sub
9、ject dealt with may participate in this preparatory work.International.governmental andnon-governmental organizations liaising with the IEC also participate in this preparation.The IECcollaborates closely with the International Organization for Standardization(ISO)in accordance withconditions determ
10、ined by agreement between the two organizations.2)The formal decisions or agreements of the IEC on technical matters.prepared by technical committees onwhich all the National Committees having a special interest therein are represented,express.as nearly aspossible.an international consensus of opini
11、on on the subjects dealt with.3)They have the form of recommendations for international use published in the form of standards.technicalreports or guides and they are accepted by the National Committees in that sense.4)In order to promote international unification,IEC National Committees undertake t
12、o apply IEC InternationalStandards transparently to the maximum extent possible in their national and regional standards.Anydivergence between the IEC Standard and the corresponding national or regional standard shall be clearlyindicated in the latter.International Standard IEC 1277 has been prepare
13、d by IEC technical committee 82:Solarphotovoltaic energy systems.The text of this standard is based on the following documents:DISReport on voting82(C0)1982(CO)39Full information on the voting for the approval of this standard can be found in the reporton voting indicated in the above table.Annexes
14、A and B are for information only.1277IEC:1995-7-INTRODUCTIONPhotovoltaic(PV)power generating systems consist of components and sub-systems thatare used to convert incident solar radiation directly into electrical energy.The electrical parameters of the input of a sub-system should be compatible with
15、 theoutput electrical parameters of a preceding sub-system(s).All sub-systems,except the PV and the electrical storage,may be referenced as a powerconditioner(PC)that could be supplied as a single unit.This is indicated by the dotted linein figure 1.Two or more functional elements may be incorporate
16、d into one physical unit.When thisoccurs,the input and output characteristics of the combined unit supersede any interest inthe characteristics of the individual elements.The PV power generating system may operate in parallel with some other auxiliary powersource(s)that are connected at the appropri
17、ate interface(s).In any particular PV power generating system design,some of the functional elementsshown in figure 1 may be absent.Although the power quality parameters given for the a.c./a.c.interface and the utilityinterface are identical in theory and in practice,PV generated power quality shoul
18、d beassured at the output stage of the inverter for utility connected systems.For stand alone systems with a.c.load,the a.c./a.c.interface may not be necessary,depending on the a.c.load.Since electrical and construction codes vary from one authority to another,it is necessarythat specific local requ
19、irements be addressed separately.This is particularly important inelectrical utility connected systems.It should be noted that solar photovoltaic/thermal hybrid systems,auxiliary powersource(s)civil engineering requirements are outside of the scope of this standard.1277IEC:1995-9-TERRESTRIAL PHOTOVO
20、LTAIC(PV)POWER GENERATING SYSTEMS-GENERAL AND GUIDE1 ScopeThis International Standard constitutes a guide and gives an overview of terrestrial PVpower generating systems and the functional elements of such systems,as shown infigure 1.Systems and the functional elements of such systems,as described i
21、n this guide,shouldserve as an introduction to future IEC PV system standards under consideration.This standard contains:-an overview of major sub-systems;-a functional description of major components and interfaces(figure 1);-a table with possible configurations which can be derived from the layout
22、 in figure 2.2 Overview of possible major sub-system components and Interfaces2.1 PurposeThis clause provides an overview of terrestrial PV power-producing system configurations,some of which are shown in figure 2.NOTE-It is intended that future IEC technical publications will provide a detailed cla
23、ssification of PVpower generating systems.2.2 Major configurationsTwo major power-generating configurations are identified:-stand-alone system-an independent power-producing system that is notconnected to the utility;-utility connected system-a power-producing system interconnected with anelectric p
24、ower utility.NOTE-It is recognized that in certain countries the term utility is referred to as the grid.3 Description of major sub-systems,components and interfaces ofthe PV power generating system3.1 PurposeThis clause provides an overview of the possible major sub-system components andinterfaces which comprise a PV power generating system.Figure 1 shows a general flowdiagram of such a PV system.NOTE-It is intended that specific IEC technical publication(s)will be prepared for the system design andbehaviour for each block shown in figure 1.
