High Voltage Hybrid lnverter
N3 HV
I-RENAC AMANDLA N3 HV Series sisigaba esithathu sokugcina amandla ombane aphezulu inverter. Kuthatha ulawulo olulumkileyo lolawulo lwamandla ukwandisa ukuzisebenzisela kwaye uqaphele ukuzimela kwamandla. Idityaniswe nePV kunye nebhetri kwilifu lezisombululo zeVPP, yenza inkonzo entsha yegridi. Ixhasa i-100% imveliso engalinganiyo kunye noqhagamshelwano oludibeneyo oluhambelanayo kwiisombululo zenkqubo eziguquguqukayo.
- 18A
Max. PV
igalelo langoku
- 110%
Ukulayisha ngaphezulu kwe-AC
- 100%Imithwalo engalungelelananga
≤20ms ixesha lokudlulisa
Inkxaso AC retrofit isicelo
Uhlobo II SPD kuzo zombini DC kunye AC
Xhasa uqhagamshelwano oluhambelanayo
| Umzekelo | N3-HV-5.0 | N3-HV-6.0 | N3-HV-8.0 | N3-HV-10.0 |
| Max. Igalelo lePV langoku [A] | 18/18 | |||
| Max. I-AC Output Apparent Power [VA] | 5500 | 6600 | 8800 | 11000 |
| Uluhlu lweBattery Voltage [V] | 160~700 | |||
| Max. Ukutshaja / Ukukhupha okwangoku [A] | 30/30 | |||
| Ugcino lwamandla alinganiselwe [W] | 5000 | 6000 | 8000 | 10000 |
| Ugcino lweNcopho olubonakalayo lwaMandla, Ubude bexesha [VA, s] | 7500,60 | 9000,60 | 12000,60 | 15000,60 |
High Voltage Hybrid lnverter
I-RENAC AMANDLA N3 HV Series sisigaba esithathu sokugcina amandla ombane aphezulu inverter. Kuthatha ulawulo olulumkileyo lolawulo lwamandla ukwandisa ukuzisebenzisela kwaye uqaphele ukuzimela kwamandla. Idityaniswe nePV kunye nebhetri kwilifu lezisombululo zeVPP, yenza inkonzo entsha yegridi. Ixhasa i-100% imveliso engalinganiyo kunye noqhagamshelwano oludibeneyo oluhambelanayo kwiisombululo zenkqubo eziguquguqukayo.
Khuphela Okunye Ividiyo yeMveliso
FAQs ezinxulumeneyo
- 1.Ngaba i-N3-HV series inverter idinga ibhokisi ye-EPS yangaphandle?
Le inverter ngaphandle kwebhokisi ye-EPS yangaphandle, iza ne-EPS interface kunye nomsebenzi wokutshintsha ngokuzenzekelayo xa kufuneka ufezekise ukuhlanganiswa kwemodyuli kunye nokwenza lula ukufakela kunye nokusebenza.
- 2.Siyintoni isizathu sokuba isikrini sokuguqula isikrini singabonisi? Indlela yokusombulula ngayo?
Unobangela wokwenzeka:
(1) I-voltage ephumayo yemodyuli okanye intambo iphantsi kunombane omncinci wokusebenza we-inverter.
(2) I-polarity yegalelo lomtya ibuyiselwe umva. I-DC input switch ayivalwanga.
(3) I-DC input switch ayivalwanga.
(4) Esinye seziqhagamshelo kumtya asidityaniswanga kakuhle.
(5) Icandelo lifutshane, libangela ukuba ezinye iintambo zingasebenzi kakuhle.
Isisombululo:
Ukulinganisa i-voltage yegalelo le-DC ye-inverter kunye ne-DC yombane we-multimeter, xa i-voltage iqhelekile, i-voltage iyonke sisimbuku sombane wecandelo kumtya ngamnye. Ukuba akukho mbane, vavanya ukuba ngaba i-DC circuit breaker, i-terminal block, i-cable connector, ibhokisi ye-junction yecandelo, njl. njl. Ukuba kukho iintambo ezininzi, zikhuphe ngokwahlukeneyo kuvavanyo lofikelelo lomntu ngamnye. Ukuba akukho ukungaphumeleli kwamacandelo angaphandle okanye imigca, kuthetha ukuba isiphaluka se-hardware yangaphakathi ye-inverter iphosakele, kwaye unokuqhagamshelana ne-Renac yokugcinwa.
- 3.I-voltage ephumayo egqithisileyo kwicala le-AC, ebangela ukuba i-inverter ivale okanye ikhuphe ngokhuseleko?
Unobangela wesehlo:
Ngokukodwa ngenxa yokuba i-impedance yegridi inkulu kakhulu, xa icala lomsebenzisi we-PV lokusetyenziswa kwamandla lincinci kakhulu, ukuhanjiswa kwe-impedance kuphezulu kakhulu, okukhokelela ekubeni icala le-AC inverter ye-voltage ephumayo iphezulu kakhulu!
Isisombululo:
1 Okukhona ikhebula lijiyile, kokukhona i-impedance isezantsi.
(2) I-inverter isondele ngokusemandleni kwindawo edibeneyo yegridi, imfutshane ikhebula, i-impedance ephantsi. Ngokomzekelo, thatha i-inverter ye-5kw edibeneyo yegridi njengomzekelo, ubude bekhebula lokuphuma kwe-AC ngaphakathi kwe-50m, ungakhetha indawo ye-cross-sectional ye-2.5mm2 intambo: ubude be-50 - 100m, kufuneka ukhethe indawo ye-cross-sectional ye-4mm2 cable: ubude obukhulu kune-100m, kufuneka ukhethe indawo ye-cross-section2.
- 4.DC icala igalelo ombane overvoltage alarm, umyalezo imposiso "PV Overvoltage" eboniswe?
Unobangela wesehlo:
Iimodyuli ezininzi kakhulu ziqhagamshelwe kuthotho, okubangela ukuba i-voltage yegalelo kwicala le-DC igqithe ubuninzi bombane osebenzayo we-inverter.
Isisombululo:
Ngokweempawu zeqondo lokushisa kwiimodyuli ze-PV, iqondo lokushisa eliphantsi le-ambient, i-voltage ephezulu yokuphuma. Kucetyiswa ukuba uqwalasele uluhlu lwe-voltage yomtya ngokwedatha ye-inverter. Kolu luhlu lwamandla ombane, ukusebenza kakuhle kwe-inverter kuphezulu, kwaye i-inverter isenako ukugcina imeko yokuvelisa amandla okuqalisa xa i-irradiance iphantsi ekuseni nangokuhlwa, kwaye ayiyi kubangela ukuba i-voltage ye-DC igqithe umda ophezulu we-inverter voltage, eya kukhokelela kwi-alamu kunye nokucima.
