1.在成套装置接线正确无误、供电电源正常的情况下,将电容补偿柜的智能无功功率控制器的电源开关(微型断路器)暂时置断开位置(OFF位置),成套装置各柜体里面的其他电源开关(微型断路器)均置接通位置(ON位置)。2.将成套装置1#进线柜里面的主电路开关(塑壳断路器)均置接通位置(ON位置)。进线开关柜(1#柜)内的主断路器(QF1)为电动预储能合闸方式,其合闸过程请按下面的3操作。3.首先按下“储能”按钮,主断路器储能电动机动作并带动弹簧开始储能,储能结束后(此时储能指示灯亮),按下“合闸”按钮,弹簧储能释放,使主断路器(QF1)完成合闸动作。主断路器合闸后,合闸指示灯亮,分闸指示灯灭,储能指示灯也灭。4.在1至3操作完成之后,且各种指示均正常的情况下,转换开关切换到手动状态(非自动状态)后,旋转转换开关,投切相应电容,对应的回路指示灯亮,接触器线圈吸合,主回路中接触器接通后其下接电容投入到电网中。此时可检测整个系统中各个电容的回路是否正确。5.在各种指示均正常的情况下,接通电容柜智能无功功率控制器的电源开关(置ON位置),控制器接通电之后显示”CAL”,5秒后进入自动工作状态,如输入电流符合最小要求(大于150mA),将显示所测电网功率因数cosφ。此时可设置控制器的参数,可将控制器的“功率因数值”cosφ设置为0.95或者0.96(要比所测电网功率因数cosφ大),同时设定模式设置为人工设定模式。将转换开关切换至自动状态,将“投切允许”打至右位即(ON位置),无功补偿成套装置将投入正常工作。此时可以手动按下无功补偿控制器上的”增加”按钮来投切相应电容,对应的回路指示灯亮,接触器线圈吸合,主回路中接触器接通后其下接电容投入到电网中,直到补偿后的功率因数达到预定的设置为止,而相反按“减少”可切除相应电容。当设定参数时,将控制器的“功率因数值”cosφ设置为0.95或者0.96(要比所测电网功率因数cosφ大),可将设定模式设置为全自动设定模式。此时将“投切允许”打至右位即(ON位置),将转换开关切换至自动状态,无功补偿成套装置将投入正常工作。此时控制器将进行“自学过程”,在数据初始化过程中,控制器按既定“功率因数值”与现配电系统作比较,并系统地启动电容器,改善功率因数,同时记录所接入电容器组的值,寻找到最小电容器组作为无功投入门限。此时对应的回路指示灯亮,接触器线圈吸合,主回路中接触器接通后其下接电容投入到电网中,直到投入电容器组达到投入门限为止。此时按下“增加”键可调出动态参数显示代码:I(电流),U(电压),Q(无功功率),P(有功功率),再按“减少”键可调出动态参数对应显示值,按”菜单设置”键可返回主显示值:功率因数cosφ。6.如果要使自动无功补偿成套装置停止运行,应先将转换开关切换至手动状态(HAND),将其投入的电容全部切掉。如果要测试控制器的保护功能,可以将电压调高于额定电压(如额定电压为380V,可加压至400V),此时控制器可自动快速(5秒)逐级切除已投入的电容器组,并显示电压值。而将电流互感器的次级信号调至低于150mA时,控制器会封锁电容器的投入,并同时自动快速(5秒)逐级切除已投入的电容器组。而设置控制器的参数时,可将控制器的“功率因数值”cosφ设置为0.95或者0.96(要比所测电网功率因数cosφ大),同时设定模式设置为人工设定模式。将转换开关切换至自动状态,将“投切允许”打至右位即(ON位置),无功补偿成套装置将投入正常工作。此时可以手动按下无功补偿控制器上的”增加”按钮来投切相应电容,对应的回路指示灯亮,接触器线圈吸合,主回路中接触器接通后其下接电容投入到电网中,直到补偿后的功率因数达到预定的设置为止,此时如果再继续投切,超过预设“功率因数值”时,控制器可自动快速(5秒)逐级切除已投入的电容器组。7.接通风机电源,柜顶风机利用温度控制器进行自动控制。顶部的风机由温控开关控制,当温度达到预定温度时,温控开关接通,风机开始运行;当温度低于预定温度时,温控开关断开,风机停止运行。英文版:Step1:Whenthecompletedevicewiringiscorrect,thepowersupplysituationisnormal,putthepowerswitchofintelligentcapacitorcompensationtotheoffposition(OFFposition)temporarily,andsettheotherpowersupplyofeachcabinettotheonposition(ONposition).Step2:Themaincircuitswitchinsidethe1#linecabinetarearrangedonposition(ONposition),thenthemaincircuitbreaker(QF1)insidein1#cabinetwillinthepositionofelectricstorage,theclosingprocesspleasereadthefollowing3operations.Step3:First,pressthe“storage”button,theelectricmotorofthemaincircuitbreakerbegintostoragetheenergy,thentheindicatinglampofstorageisbrightattheendofthisstep.Secondly,pressthe“close”button,themechanicalspringreleasetheenergy,soastoputthemaincircuitbreaker(QF1)totheclosingposition.Thirdly,afterthemaincircuitbreakerisclosed,theclosingindicatorlightsisbright,thebrakelightsandtheindicatinglampofstorageisextinguished.Step4:WhentheStep1toStep3arecomplete,andallinstructionsareundernormalcircumstances,ifyouswitchrotarytomanualmode(nonautomaticstate),youcanswitchthecapacitor.Thentheindicatinglampcorrespondingcircuitisbright,thecoilofthecontactorisattracted,atthesametime,thecontactorinmaincircuitisswitchedon,andthecapacitorisinputintothegrid.Nowyoucandetectwhethereachcircuitofcapacitanceinthesystemiscorrectornot.Step5:Whenallinstructionsareundernormalcircumstances,putthepowerofintelligentwattlesscontrollerinsidecapacitorcabinettotheonposition,thecontrollerwilldisplay“CAL”afteritisswitchedon,anditwillgetintotheautomaticstatusin5seconds,ifthecurrentofinputcansatisfiestheminimumpreset(suchasgreaterthan150mA),itwilldisplayPowerFactor(cosφ).Thenyoucansettheparametersofthecontroller,youcansetthePowerFactorto0.95or0.96(itmustbegreaterthanthemeasuredpowerfactorcosφ),andsetthemodeinManualmode.Thenyoucanswitchtheconversiontoautomaticstate,andputtheswitchingallowstotherightlocation(positionON),andthewattlesscompensationequipmentwillbeputtowork.Nowyoucanpressed“add”buttononthewattlesspowercompensationcontrollertoswitchthecorrespondingcapacitor,theindicatorlightscorrespondingcircuitarebrightatthesametime,thecontactorcoilisattracted,andcontactorinmaincircuitisswitchedon,andthecapacitorisputintothegrid,untilthePowerFactorreachesthepredeterminedset,whereaspress“sub”buttoncancutoffthecorrespondingcapacitor.Whenyousettheparametersofthecontroller,youcansetthePowerFactorto0.95or0.96(itmustbegreaterthanthemeasuredpowerfactorcosφ),andsetthemodeinAutomaticmode.Thenyoucanputtheswitchingallowstotherightlocation(positionON),andswitchtheconversiontoautomaticstate,thewattlesscompensationequipmentwillbeputtowork.Thecontrollerwillbesetin“self-learning”process,whenitinitializesthedata,itwillcomparethePowerFactorwhichisswitchedthecapacitorintothegridtothePowerFactorwhichispresetinthecontroller,thenstartthecapacitorsystematically,soastoimprovethePowerFactor,andtakearecordaboutthevalueofcapacitoratthesametime,justtogettheminimumnumberofthecapacitorgroupasthethreshold.Atthistime,theindicatorlightscorrespondingcircuitarebrightatthesametime,thecontactorcoilisattracted,andcontactorinmaincircuitisswitchedon,andthecapacitorisputintothegrid,untilthenumberitinputsreachestothethreshold.Thenyoucanpressthe“add”buttontoshowthedynamicparameter:I(regardascurrent),U(regardasvoltage),Q(regardaswattlesspower),P(regardasactivepower),andyoucanpress“sub”buttontoshowthevaluecorres