I-Hybrid Inverter
I-Hybrid Inverter
I-Hybrid Inverter
Stackable High Voltage Ibhetri
Ibhetri yeVoltage eDityanisiweyo
Stackable High Voltage Ibhetri
Stackable High Voltage Ibhetri
Ibhetri yoMbane ophantsi
Ibhetri yoMbane ophantsi
WAMKELEKILE INKONZO
Umguquli wegridi
Iimveliso zokuGcinwa kwamandla okuHlala
IiMveliso zokuGcinwa kwamandla oRhwebo kunye noShishino
Ibhokisi yodonga
Uqwalaselo
Umguquli wegridi
Iimveliso zokuGcinwa kwamandla okuHlala
IiMveliso zokuGcinwa kwamandla oRhwebo kunye noShishino
Ibhokisi yodonga
UqwalaseloRHOQOIMIBUZO
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Q1: Ngaba ungazisa Renac amandla N3 HV series inverter?
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.
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I-Q2: Yintoni i-inverter ephezulu yolu hlobo lwangoku?
Imodyuli yayo ephezulu ehambelana nePV yangoku yi-18A.
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I-Q3: Yeyiphi eyona mali iphezulu yoqhagamshelo oluhambelanayo olunokuxhaswa yile inverter?
Inkxaso yayo ephezulu ukuya kuthi ga kwiiyunithi ezili-10 ezihambelanayo
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I-Q4: Zingaphi iiMPPT's le inverter inazo kwaye yintoni uluhlu lwamandla ombane kwiMPPT nganye?
Le inverter ineMPPT ezimbini, nganye ixhasa uluhlu lwe-voltage ye-160-950V.
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I-Q5: Yintoni i-voltage yeebhetri ehambelana nolu hlobo lwe-inverter kwaye yintoni eyona nto iphezulu yokutshaja kunye nokukhupha umsinga?
Le inverter ihambelana nombane webhetri we-160-700V, ubuninzi bokutshaja okwangoku yi-30A, ubuninzi bokukhupha okwangoku yi-30A, nceda unikele ingqalelo kwi-voltage ehambelana nebhetri (akukho ngaphantsi kweemodyuli ezimbini zebhetri ezifunekayo ukuhambelana nebhetri yeTurbo H1 ).
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I-Q6: Ngaba olu hlobo lwe-inverter ludinga ibhokisi ye-EPS yangaphandle?
Le inverter ngaphandle kwebhokisi ye-EPS yangaphandle, iza ne-EPS interface kunye nomsebenzi wokutshintsha ngokuzenzekelayo xa kufuneka ukuphumeza ukuhlanganiswa kwemodyuli, ukwenza lula ukufakela kunye nokusebenza.
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Q7: Ziziphi iimpawu zokukhusela olu hlobo lwe-inverter?
I-inverter idibanisa izinto ezahlukeneyo zokukhusela ezibandakanya ukujongwa kwe-DC insulation, i-input reverse polarity protection, ukukhusela i-anti-islanding, i-residual current monitoring, i-overheating protection, i-AC overcurrent, i-overvoltage kunye nokukhusela i-short-circuit, kunye ne-AC kunye ne-DC yokukhusela i-surge etc.
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I-inverter idibanisa izinto ezahlukeneyo zokukhusela ezibandakanya ukujongwa kwe-DC insulation, i-input reverse polarity protection, ukukhusela i-anti-islanding, i-residual current monitoring, i-overheating protection, i-AC overcurrent, i-overvoltage kunye nokukhusela i-short-circuit, kunye ne-AC kunye ne-DC yokukhusela i-surge etc.
Olu hlobo lokusebenzisa amandla okuziguqula kwi-standby lungaphantsi kwe-15W.
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Q9: Yintoni omawuyijonge xa usebenzisa le inverter?
(1) Phambi kokusevisa, qala uqhawule uqhagamshelo lombane phakathi kwe-inverter kunye negridi, kwaye emva koko uqhawule umbane wecala le-DC (uqhagamshelo. Kuyimfuneko ukulinda ubuncinci be-5min okanye ngaphezulu ukuvumela i-inverter yangaphakathi ye-capacitors ephezulu kunye nezinye. amacandelo kufuneka akhutshwe ngokupheleleyo phambi kokuba enze umsebenzi wokulondoloza.
(2) Ngethuba lomsebenzi wokulondoloza, okokuqala jonga izixhobo ngokubonakalayo kumonakalo okanye ezinye iimeko ezinobungozi, kwaye ubeke ingqalelo kwi-anti-static ngexesha lomsebenzi othile, kwaye kungcono ukunxiba i-anti-static hand ring. Ukuthobela ingqalelo kwileyibhile yesilumkiso kwisixhobo, nikela ingqalelo kwi-inverter surface ipholile phantsi. Ngexesha elifanayo ukuphepha uqhagamshelwano olungeyomfuneko phakathi komzimba kunye nebhodi yesekethe.
(3) Emva kokuba ukulungiswa kugqityiwe, qiniseka ukuba naziphi na iimpazamo ezichaphazela ukusebenza kokhuseleko lwe-inverter zixazululwe ngaphambi kokuguqula i-inverter kwakhona.
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I-Q10: Yintoni isizathu sokuba isikrini sokuguqula isikrini singabonisi? Indlela yokusombulula ?
Izizathu ngokubanzi ziquka:① Umbane wemveliso wemodyuli okanye umtya ungaphantsi kunowona mbane usezantsi wokusebenza wesiguquli. ② I-polarity yegalelo lomtya ibuyiselwe umva. I-DC input switch ayivalwanga. ③ iswitshi yokufaka i-DC ayivalwanga. ④ Enye yeziqhagamshelo kumtya ayidityaniswanga ngokufanelekileyo. ⑤ Icandelo lifutshane, libangela ukuba ezinye iintambo zingakwazi ukusebenza kakuhle.
Isisombululo: Linganisa i-voltage yegalelo le-DC ye-inverter kunye nombane we-DC 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.
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I-Q11: I-inverter ayikwazi ukuxhunywa kwigridi kwaye ibonise umyalezo wephutha "Akukho Uility"?
Izizathu jikelele ziquka:① Imveliso ye-inverter ye-AC ye-circuit breaker ayivalwanga. ② Iitheminali ze-AC ze-inverter azixhunywanga ngokufanelekileyo. ③ Xa i-wiring, umqolo ongentla we-terminal ye-inverter output ukhululekile.
Isisombululo: Ukulinganisa i-AC ye-voltage ye-inverter ene-multimeter ye-voltage gear ye-AC, phantsi kweemeko eziqhelekileyo, ii-terminal zokuphuma kufuneka zibe ne-AC 220V okanye i-AC 380V yombane; ukuba akunjalo, kwakhona, vavanya ii-terminals ze-wiring ukuze ubone ukuba zikhululekile, ukuba i-AC circuit breaker ivaliwe, ukukhuselwa kokukhusela ukuvuza kunqanyuliwe njl.
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I-Q12 : I-inverter ibonisa impazamo yegridi kwaye ibonisa umyalezo wephutha njengempazamo ye-voltage "I-Grid Volt Fault" okanye i-frequency error "Grid Freq Fault" "I-Grid Fault"?
Isizathu jikelele: Umbane kunye nokuphindaphinda kwegridi yamandla e-AC aphumile kuluhlu oluqhelekileyo.
Isisombululo: Ukulinganisa i-voltage kunye nokuphindaphinda kwegridi yamandla e-AC kunye nesixhobo esifanelekileyo se-multimeter, ukuba ayiqhelekanga ngokwenene, linda ukuba igridi yamandla ibuyele kwisiqhelo. Ukuba i-voltage yegridi kunye ne-frequency iyinto eqhelekileyo, oko kuthetha ukuba i-circuit ye-inverter yokufumanisa iphosakele. Xa ujonga, qala uqhawule igalelo le-DC kunye nemveliso ye-AC ye-inverter, vumela i-inverter ibe namandla ngaphezu kwe-30min ukuze ubone ukuba isekethe inokubuyisela ngokwayo, ukuba inokuzibuyisela ngokwayo, ungaqhubeka ukuyisebenzisa, ukuba ayinakuphinda ihlawulwe, ungaqhakamshelana ne-NATTON malunga nokulungiswa ngokutsha okanye ukutshintshwa. Ezinye iisekethe ze-inverter, ezifana ne-inverter main board circuit, i-circuit yokubona, i-circuit yonxibelelwano, i-inverter circuit kunye nezinye iimpazamo ezithambileyo, zingasetyenziselwa ukuzama le ndlela ingasentla ukubona ukuba ziyakwazi ukuzibuyisela ngokwazo, kwaye emva koko zitshintshe okanye zitshintshe ukuba abanako ukuchacha bebodwa.
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I-Q13: I-voltage ephumayo egqithisileyo kwicala le-AC, ebangela ukuba i-inverter ivale okanye ikhuphe ngokukhusela?
Isizathu esibanzi: ikakhulu ngenxa yokuba i-impedance yegridi inkulu kakhulu, xa icala lomsebenzisi we-PV lokusetyenziswa kwamandla lincinci kakhulu, ukuhanjiswa kwe-impedance kuphezulu kakhulu, okukhokelela kwicala le-inverter ye-AC ye-voltage ephumayo iphezulu kakhulu!
Isisombululo: ① Yandisa i-diameter yocingo lwentambo yokuphuma, okukhona intambo ingqindilili, isezantsi i-impedance. Okukhona ikhebula lijiyile, kokukhona i-impedance isezantsi. ② I-Inverter ngokusondeleyo kangangoko kunokwenzeka kwindawo edibeneyo yegridi, imfutshane ikhebula, i-impedance ephantsi. Ngokomzekelo, thatha i-inverter edibeneyo ye-5kw njengomzekelo, ubude bentambo yokuphuma kwe-AC ngaphakathi kwe-50m, ungakhetha indawo enqamlezayo ye-cable ye-2.5mm2: ubude be-50 - 100m, kufuneka ukhethe i-cross-sectional. indawo ye-4mm2 ikhebula: ubude obukhulu kune-100m, kufuneka ukhethe indawo ye-cross-sectional ye-6mm2 cable.
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I-Q14: I-alarm ye-voltage ye-voltage yecala le-DC, umyalezo wephutha "PV Overvoltage" ibonisiwe?
Isizathu esiqhelekileyo: Iimodyuli ezininzi kakhulu ziqhagamshelwe kuthotho, nto leyo ebangela ukuba amandla ombane egalelo kwicala le-DC agqithe ubuninzi bombane osebenzayo we-inverter.
Isisombululo: Ngokweempawu zobushushu beemodyuli zePV, iqondo lobushushu elisezantsi lisezantsi, kokukhona umbane ophumayo uphezulu. Uluhlu lwe-voltage yegalelo le-inverter yesigaba sesithathu sokugcina amandla yi-160 ~ 950V, kwaye kucetyiswa ukuba uyile uluhlu lwe-voltage ye-600 ~ 650V. Kolu luhlu lwamandla ombane, ukusebenza kakuhle kwe-inverter kuphezulu, kwaye i-inverter isenokugcina imeko yokuvelisa amandla okuqalisa xa i-irradiance iphantsi ekuseni nangokuhlwa, kwaye ayiyi kubangela ukuba i-voltage ye-DC igqithe kumda ongaphezulu i-inverter voltage, eya kukhokelela kwi-alamu kunye nokuvala.
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I-Q15: Ukusebenza kwe-insulation yenkqubo ye-PV iyancipha, ukuchasana kwe-insulation kumhlaba kungaphantsi kwe-2MQ, kunye nemiyalezo yephutha "Iphutha lokuzihlukanisa" kunye ne "Isolation Fault" iboniswa?
Izizathu eziqhelekileyo: Ngokuqhelekileyo iimodyuli ze-PV, iibhokisi ze-junction, iintambo ze-DC, ii-inverters, iintambo ze-AC, ii-terminals kunye nezinye iindawo zomgca wokumisa i-short-circuit okanye umonakalo we-insulation layer, i-wireless string connectors emanzini njalo njalo.
Isisombululo: Isisombululo: Nqamula igridi, i-inverter, kwakhona, khangela ukunyanzeliswa kwe-insulation yecandelo ngalinye lekhebula ukuya kumhlaba, fumana ingxaki, buyisela ikhebula elihambelanayo okanye ikhonkco!
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I-Q16: I-voltage ephumayo egqithisileyo kwicala le-AC, ebangela ukuba i-inverter ivale okanye ikhuphe ngokhuseleko?
Izizathu eziqhelekileyo: Kukho izinto ezininzi ezichaphazela amandla okuphuma kwezityalo zamandla e-PV, kubandakanywa ubungakanani bemitha yelanga, i-angle ethambekileyo yemodyuli yeseli yelanga, uthuli kunye nokuphazamiseka kwesithunzi, kunye neempawu zokushisa zemodyuli.
Amandla enkqubo aphantsi ngenxa yokungalungelelaniswa kwenkqubo engafanelekanga kunye nofakelo. Izisombululo eziqhelekileyo zezi:
(1) Vavanya ukuba ingaba amandla emodyuli nganye anele na phambi kofakelo.
(2) Indawo yokufakela ayivulwanga kakuhle, kwaye ubushushu be-inverter abunwenwanga ngexesha, okanye buvezwe ekukhanyeni kwelanga ngokuthe ngqo, okubangela ukuba ukushisa kwe-inverter kuphakame kakhulu.
(3) Lungisa i-angle yokufakela kunye nokuqhelaniswa nemodyuli.
(4) Jonga imodyuli yezithunzi kunye nothuli.
(5) Ngaphambi kokufaka iintambo ezininzi, khangela i-voltage evulekileyo yombane womtya ngamnye kunye nokwahlukana okungekho ngaphezu kwe-5V. Ukuba i-voltage ifunyenwe ingalunganga, khangela i-wiring kunye nezixhumi.
(6) Xa ufaka, inokufumaneka kwiibhetshi. Xa ufikelela kwiqela ngalinye, bhala amandla eqela ngalinye, kwaye umahluko wamandla phakathi kweentambo akufanele ube ngaphezu kwe-2%.
(7) I-inverter ine-MPPT yokufikelela kabini, indlela nganye yokufakelwa kwamandla yi-50% yamandla onke. Ngokomgaqo, indlela nganye kufuneka iyilwe kwaye ifakwe ngamandla alinganayo, ukuba idityaniswe kuphela kwindlela enye ye-MPPT, amandla aphumayo aya kuba sisiqingatha.
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(9) Khangela ukuba ingaba i-voltage ingaphakathi koluhlu lwe-voltage emva kokuba izixhobo zixhunyiwe kuthotho, kwaye ukusebenza kakuhle kwenkqubo kuya kuncitshiswa ukuba i-voltage iphantsi kakhulu.
(10) Umthamo wegridi-eqhagamshelwe kwi-AC switch ye-PV yamandla ombane incinci kakhulu ukuhlangabezana neemfuno zemveliso ye-inverter.
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I-Q1:Yenziwa njani le seti yeebhetri eziphezulu ze-voltage? Ithini intsingiselo ye-BMC600 kunye ne-B9639-S?
A: Le nkqubo yebhetri iquka i-BMC (BMC600) kunye ne-RBS ezininzi (B9639-S).
I-BMC600: IsiLawuli esiPhambili seBhetri (BMC).
I-B9639-S: 96: 96V, 39: 39Ah, i-Rechargeable Li-ion battery stack (RBS).
Umlawuli oyintloko webhetri (BMC) unokunxibelelana ne-inverter, ukulawula nokukhusela inkqubo yebhetri.
I-Rechargeable Li-ion battery stack (RBS) idityaniswe kunye neyunithi yokubeka iliso kwiseli ukujonga kunye nokulinganisela kwe-passive kwiseli nganye.
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Q2: Yeyiphi ibhetri esetyenzisiweyo yile bhetri?
3.2V 13Ah Gotion High-Tech iiseli cylindrical, ipakethe ibhetri enye iiseli 90 ngaphakathi. Kwaye iGotion High-Tech yeyona nto iphambili kubenzi beeseli zebhetri ezintathu eTshayina.
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I-Q3: I-Turbo H1 Serie Ngaba ingafakwa udonga olufakwe?
A: Hayi, ufakelo lwesitendi somgangatho kuphela.
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Q4: N1 HV Series Yintoni na Max. umthamo webhetri ukuqhagamshela N1 HV Series?
74.9kWh (5 * TB-H1-14.97: Uluhlu lweVoltage: 324-432V). I-N1 HV Series inokwamkela uluhlu lwamandla ombane webhetri ukusuka kwi-80V ukuya kwi-450V.
Ibhetri icwangcisa umsebenzi onxuseneyo iphantsi kophuhliso, ngalo mzuzu ubuninzi. amandla yi-14.97kWh.
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I-Q5: Ngaba kufuneka ndithenge iintambo ngaphandle?
Ukuba umthengi akafuni kungqamanisa iiseti zebhetri:
Hayi, zonke iintambo iimfuno zabathengi zikwiphakheji yebhetri. Iphakheji ye-BMC iqulethe intambo yamandla & nentambo yonxibelelwano phakathi kwe-inverter & BMC kunye ne-BMC & yokuqala ye-RBS. Iphakheji ye-RBS iqulethe intambo yamandla kunye nentambo yonxibelelwano phakathi kwee-RBS ezimbini.
Ukuba umthengi ufuna ukuhambelana neeseti zebhetri:
Ewe, kufuneka sithumele intambo yonxibelelwano phakathi kweeseti ezimbini zebhetri. Sikwacebisa ukuba uthenge ibhokisi yethu yeNdibaniselwano ukwenza uqhagamshelo oluhambelanayo phakathi kweeseti ezimbini okanye ngaphezulu zebhetri. Okanye unokongeza iswitshi yangaphandle ye-DC (600V, 32A) ukubenza bahambelane. Kodwa nceda ukhumbule ukuba xa uvula inkqubo, kufuneka uvule olu tshintsho lwangaphandle lwe-DC kuqala, emva koko uvule ibhetri kunye ne-inverter. Kuba ukulayita olu tshintsho lwe-DC lwangaphandle emva kwexesha kunebhetri kunye ne-inverter inokuphembelela umsebenzi wokutshaja kwangaphambili kwebhetri, kwaye ibangele umonakalo kwibhetri nakwi-inverter. (Ibhokisi yokudibanisa iphantsi kokuphuhliswa.)
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I-Q6: Ngaba kufuneka ndifake iswitshi yangaphandle ye-DC phakathi kwe-BMC kunye ne-inverter?
Hayi, sele sinokutshintsha kwe-DC kwi-BMC kwaye asikucebisi ukuba wongeze iswitsha ye-DC yangaphandle phakathi kwebhetri kunye ne-inverter. Kuba inokuphembelela umsebenzi wokutshaja kwangaphambili kwebhetri kwaye ibangele umonakalo wehardware kuzo zombini ibhetri kunye ne-inverter, ukuba uvula iswitshi yangaphandle ye-DC emva kwexesha kunebhetri kunye ne-inverter. Ukuba sele uyifakile nceda uqiniseke ukuba inyathelo lokuqala livula iswitshi yangaphandle yeDC, emva koko uvule ibhetri kunye ne-inverter.
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I-Q7: Ithini inkcazo yephini yentambo yonxibelelwano phakathi kwe-inverter kunye nebhetri?
A: Ujongano lonxibelelwano phakathi kwebhetri kunye ne-inverter yi-CAN kunye ne-RJ45 connector. Inkcazo yezikhonkwane ilapha ngezantsi (Efanayo kwibhetri kunye necala lokuguqula, intambo eqhelekileyo yeCAT5).
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Q8: Loluphi uhlobo lwetheminali yentambo yamandla oyisebenzisayo?
ePhoenix.
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I-Q9: INGABA Ngaba le CAN yonxibelelwano lwe-terminal resistor iyimfuneko ukuba ifakwe?
Ewe.
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Q10: Yintoni uMax. umgama phakathi kwebhetri kunye ne-inverter?
A: 3 yeemitha.
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Q11: Kunjani malunga nomsebenzi wokuphucula ukude?
Sinokuyiphucula i-firmware yebhetri ukude, kodwa lo msebenzi ufumaneka kuphela xa usebenza ne-inverter ye-Renac. Ngenxa yokuba yenziwa ngokusebenzisa i-datalogger kunye ne-inverter.
Ukuphucula ukude iibhetri kunokwenziwa kuphela ziiNjineli zeRenac ngoku. Ukuba ufuna ukuphucula i-firmware yebhetri nceda uqhagamshelane nathi kwaye uthumele inombolo ye-serial inverter.
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I-Q12: Ndingayiphucula njani ibhetri kwindawo?
A: Ukuba umthengi usebenzisa i-inverter ye-Renac, sebenzisa i-USB disk (Max. 32G) inokuphucula ngokulula ibhetri nge-port ye-USB kwi-inverter. Amanyathelo afanayo kunye nokuphucula i-inverter, i-firmware eyahlukileyo.
Ukuba umthengi akasebenzisi i-inverter yeRenac, kufuneka asebenzise intambo yokuguqula ukuqhagamshela i-BMC kunye nelaptop ukuyiphucula.
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Q13: Yintoni iMax. amandla enye RBS?
A: Iibhetri 'Max. Intlawulo / Ukukhupha okwangoku yi-30A, i-Nominal Voltage ye-RBS enye yi-96V.
30A*96V=2880W
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Q14: Kuthekani ngewaranti yale bhetri?
A: Iwaranti yoMsebenzi oMgangatho weeMveliso iyasebenza kwisithuba seenyanga ezili-120 ukusuka kumhla wofakelo, kodwa hayi ngaphezulu kweenyanga ezili-126 ukususela kumhla wokuhanjiswa kweMveliso (nokuba yeyiphi na eza kuqala). Esi siqinisekiso sigubungela umthamo olingana nomjikelo om-1 opheleleyo ngosuku.
Iziqinisekiso ze-Renac kwaye imele ukuba iMveliso igcina ubuncinci i-70% yaMandla aNgenisiweyo kangangesithuba seminyaka eli-10 emva komhla wofakelo lokuqala okanye amandla ewonke ayi-2.8MWh ngomthamo osebenzisekayo we-KWh athunyelwe ebhetri, nokuba yeyiphi eza kuqala.
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Q15: Ingaba indawo yokugcina impahla ilawula njani ezi bhetri?
Imodyuli yebhetri kufuneka igcinwe icocekile, yomile kwaye ifakwe umoya ngaphakathi ngaphakathi kunye noluhlu lobushushu phakathi kwe-0℃~+35 ℃, thintela ukunxibelelana nezinto ezitshabalalisayo, zigcine kude nomlilo kunye nemithombo yobushushu kwaye zihlawuliswe rhoqo kwiinyanga ezintandathu ngaphandle kwe-0.5C (C) -Ixabiso ngumlinganiselo wezinga apho ibhetri ikhutshwe ngokumalunga nomthamo wayo ophezulu.) Kwi-SOC ye-40% emva kwexesha elide lokugcina.
Ngenxa yokuba ibhetri iyazisebenzisa ngokwayo, kunqande ukukhupha ibhetri nceda uthumele iibhetri ozifumana kwangethuba kuqala. Xa uthengela umthengi omnye iibhetri, nceda uthathe iibhetri kwipalethi enye kwaye uqinisekise ukuba iCapacity Class ephawulwe kule bhokisi yeebhetri iyafana kangangoko.
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Q16: Ndingazi njani ukuba ezi bhetri zaveliswa nini?
A: Ukusuka kwinombolo yesiriyali yebhetri.
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Q17: Yintoni iMax. I-DoD (Ubunzulu bokukhutshwa / ukukhupha ubunzulu)?
90%. Qaphela ukuba ukubalwa kobunzulu bokukhutshwa kunye namaxesha omjikelezo awukho umgangatho ofanayo. Ubunzulu bokukhutshwa kwe-90% akuthethi ukuba umjikelo omnye ubalwa kuphela emva kwe-90% yokuhlawula kunye nokukhutshwa.
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Q18: Ubala njani imijikelo yebhetri?
Umjikelo omnye ubalwa kwi-cumulative nganye yokukhutshwa kwe-80% umthamo.
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I-Q19: Kuthekani malunga nomda wangoku ngokweqondo lokushisa?
A: C=39Ah
Uluhlu lobushushu lokuTyala: 0-45℃
0~5℃, 0.1C (3.9A);
5~15℃, 0.33C (13A);
15-40℃, 0.64C (25A);
40~45℃, 0.13C (5A);
Ukukhupha Uluhlu lobushushu: -10℃-50℃
Akukho mda.
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I-Q20: Ngaphantsi kweyiphi imeko ibhetri iya kuvala?
Ukuba akukho mandla e-PV kunye ne-SOC<= I-Battery Min Capacity setting imizuzu eyi-10, i-Inverter iya kuvala ibhetri (ayiyi kuvalwa ngokupheleleyo, njengemowudi yokulinda enokuvuswa). I-Inverter iya kuvusa ibhetri ngexesha lokutshaja elibekwe kwimowudi yomsebenzi okanye i-PV yomelele ukutshaja ibhetri.
Ukuba ibhetri ilahlekile unxibelelwano kunye ne-inverter imizuzu emi-2, ibhetri iya kuvala.
Ukuba ibhetri ineealam ezingafumanekiyo, ibhetri iya kuvala.
Nje ukuba amandla ombane weseli yebhetri enye<2.5V, ibhetri iya kuvala.
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I-Q21: Xa usebenza ne-inverter, ingqiqo ye-inverter ivula njani / icima ibhetri isebenza njani?
Okokuqala uvula i-inverter:
Kufuneka nje uvule Vula/Vala iswitshi kwi-BMC. I-Inverter iya kuyivusa ibhetri ukuba i-Grid ivuliwe okanye i-Grid icinyiwe kodwa amandla e-PV avuliwe. Ukuba akukho Grid kunye namandla e-PV, i-inverter ayiyi kuvusa ibhetri. Kuya kufuneka uvule ibhetri ngesandla (Layita/Cima iswitshi 1 kwi-BMC, linda i-LED 2 eluhlaza edanyazayo, emva koko ucofe iqhosha lokuqala eliMnyama 3).
Xa i-inverter isebenza:
Ukuba akukho mandla e-PV kunye ne-SOC< I-Battery Min Capacity setting imizuzu eyi-10, i-Inverter iya kuvala ibhetri. I-inverter iyakuvusa ibhetri ngexesha lokutshaja elimiselwe kwimowudi yokusebenza okanye inokutshajwa.
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I-Q22: Ngaphantsi kweyiphi imeko umsebenzi wentlawulo yongxamiseko uya kusebenza xa ibhetri ixhunyiwe kunye ne-inverter?
A: Isicelo sebhetri ukutshaja ngexesha likaxakeka:
Xa ibhetri SOC<=5%.
I-inverter yenza intlawulo kaxakeka:
Qalisa ukutshaja ukusuka kwi-SOC= Ibhetri encinci yeSetingi yoMmandla (iseti kumboniso) -2%, ixabiso elihlala lihleli le-Min SOC yi-10%, yeka ukutshaja xa ibhetri i-SOC ifika kwisetingi ye-Min SOC. Ukutshaja malunga ne-500W ukuba i-BMS iyakuvumela.
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I-Q23: Ngaba unawo nawuphi na umsebenzi wokulinganisa i-SOC phakathi kweepakethi ezimbini zebhetri?
Ewe, sinawo lo msebenzi. Siza kulinganisa umahluko wombane phakathi kweepakethi ezimbini zebhetri ukugqiba ukuba kufuneka isebenze ingqiqo. Ukuba ewe siya kusebenzisa amandla amaninzi eebhetri zepakethi enombane ophezulu/iSOC. Ngemijikelo embalwa yomsebenzi oqhelekileyo umahluko wombane uya kuba mncinci. Xa zilungelelaniswa lo msebenzi uya kuyeka ukusebenza.
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I-Q24: Ngaba le bhetri ingasebenza kunye nezinye ii-inverters ze-brand?
Okwangoku asizange senze uvavanyo oluhambelanayo kunye nezinye ii-inverters ze-brand, kodwa kuyafuneka ukuba sisebenze nomenzi we-inverter ukwenza iimvavanyo ezihambelanayo. Sifuna umenzi we-inverter unikeze inverter yabo, iprotocol ye-CAN kunye nenkcazo yeprotocol ye-CAN (amaxwebhu asetyenziselwa ukwenza iimvavanyo ezihambelanayo).
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I-RENA1000 idibana njani?
I-RENA1000 uchungechunge lwekhabhathi yokugcina amandla yangaphandle idibanisa ibhetri yokugcina amandla, i-PCS (inkqubo yokulawula amandla), inkqubo yokulawula amandla, inkqubo yokuhambisa amandla, inkqubo yokulawula indalo kunye nenkqubo yokulawula umlilo. Nge-PCS (inkqubo yokulawula amandla), kulula ukuyigcina kunye nokwandisa, kwaye ikhabhinethi yangaphandle ithatha ukugcinwa kwangaphambili, okunokunciphisa indawo yomgangatho kunye nokufikelela kulondolozo, ebonisa ukhuseleko kunye nokuthembeka, ukuthunyelwa ngokukhawuleza, ixabiso eliphantsi, ukusebenza kakuhle kwamandla kunye nobukrelekrele. ulawulo.
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Q2: Yeyiphi iseli yebhetri yeRENA1000 esetyenziswa yile bhetri?
I-3.2V 120Ah iseli, iiseli ze-32 kwimodyuli yebhetri nganye, imodi yokudibanisa i-16S2P.
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Q3: Ithini inkcazo yeSOC yale seli?
Ithetha umlinganiselo weyona ntlawulo yebhetri itshajiswe ngayo, ibonakalisa ubume bebhetri. I-cell of charge ye-100% ye-SOC ibonisa ukuba i-cell cell ihlawuliswe ngokupheleleyo kwi-3.65V, kwaye imeko yentlawulo ye-0% ye-SOC ibonisa ukuba ibhetri ikhutshwe ngokupheleleyo kwi-2.5V. Umzi-mveliso osetwe kwangaphambili we-SOC yi-10% yokuyeka ukukhutshwa
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I-Q4: Uthini umthamo webhetri nganye?
Umthamo wemodyuli yebhetri yeRENA1000 yi-12.3kwh.
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I-Q5: Indlela yokuqwalasela indawo yokufakela?
Inqanaba lokukhusela i-IP55 linokuhlangabezana neemfuno zeendawo ezininzi zesicelo, kunye nefriji ehlakaniphile yomoya womoya ukuqinisekisa ukusebenza okuqhelekileyo kwenkqubo.
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Q6: Yintoni iimeko isicelo kunye RENA1000 Series?
Ngaphantsi kweemeko zokusetyenziswa eziqhelekileyo, izicwangciso zokusebenza kweenkqubo zokugcina amandla zimi ngolu hlobo lulandelayo:
I-Peak-shaving kunye ne-valley-filling: xa intlawulo yokwabelana ngexesha likwicandelo lentlambo: ikhabhinethi yokugcina amandla ihlawuliswa ngokuzenzekelayo kwaye imele xa igcwele; xa intlawulo yokwabelana ngexesha ikwinqanaba eliphezulu: ikhabhinethi yokugcina amandla ikhutshwe ngokuzenzekelayo ukuze ibone i-arbitrage yokwahlukana kwentlawulo kunye nokuphucula ukusebenza kakuhle kwezoqoqosho kwenkqubo yokugcina ukukhanya kunye nokutshaja.
Ukugcinwa kwe-photovoltaic edibeneyo: ukufikelela ngexesha langempela kumandla omthwalo wendawo, i-photovoltaic yokuvelisa i-priority self-generation, i-surplus yokugcina amandla; Ukuveliswa kwamandla e-photovoltaic akwanele ukubonelela ngomthwalo wendawo, eyona nto iphambili kukusebenzisa amandla okugcina ibhetri.
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I-Q7: Ziziphi izixhobo zokukhusela ukhuseleko kunye nemilinganiselo yale mveliso?
Inkqubo yokugcina amandla ixhotyiswe ngezixhobo zokujonga umsi, izinzwa zesikhukula kunye neeyunithi zokulawula indalo ezifana nokukhuselwa komlilo, okuvumela ulawulo olupheleleyo lwesimo sokusebenza kwenkqubo. Inkqubo yokulwa nomlilo isebenzisa isixhobo sokucima umlilo se-aerosol luhlobo olutsha lwemveliso yokulwa nomlilo yokusingqongileyo kunye nenqanaba eliphezulu lehlabathi. Umgaqo osebenzayo: Xa ubushushu be-ambient bufikelela kwiqondo lobushushu lokuqala locingo lwe-thermal okanye ludibana nedangatye elivulekileyo, ucingo lwe-thermal luvutha ngokuzenzekelayo kwaye lugqithiselwe kwisixhobo sokucima umlilo se-aerosol. Emva kokuba isixhobo sokucima umlilo se-aerosol sifumene umqondiso wokuqala, i-arhente yokucima umlilo yangaphakathi ivuliwe kwaye ivelise ngokukhawuleza i-aerosol yokucima umlilo yohlobo lwe-nano kunye nokutshiza ukuze kufezekiswe ukucima umlilo ngokukhawuleza.
Inkqubo yokulawula iqwalaselwe ngokulawula ulawulo lobushushu. Xa ubushushu benkqubo bufikelela kwixabiso elisethiweyo, i-air conditioner iqalisa ngokuzenzekelayo imo yokupholisa ukuqinisekisa ukusebenza okuqhelekileyo kwenkqubo ngaphakathi kobushushu bokusebenza.
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Q8: Yintoni iPDU?
I-PDU (Iyunithi yoSabelo lwaMandla), eyaziwa ngokuba yiYunithi yokuSasaza amandla kwiikhabhinethi, yimveliso eyenzelwe ukubonelela ukuhanjiswa kwamandla kwizixhobo zombane ezifakwe kwiikhabhathi, kunye noluhlu lweenkcazo ezinemisebenzi eyahlukeneyo, iindlela zofakelo kunye nokudibanisa iplagi ezahlukeneyo, inokubonelela ngezisombululo ezifanelekileyo zokusasazwa kombane kwi-rack-mounted kwiindawo ezahlukeneyo zamandla. Ukusetyenziswa kwee-PDU kwenza ukuhanjiswa kwamandla kwiikhabhathi kucoceke ngakumbi, kuthembekile, kukhuselekile, kubuchwephesha kwaye kuthandeke ngobuhle, kwaye kwenza ukugcinwa kwamandla kwiikhabhathi kube lula kwaye kunokwethenjelwa.
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I-Q9: Ithini intlawulo kunye nomlinganiselo wokukhupha ibhetri?
Umyinge wentlawulo kunye nokukhutshwa kwebhetri ngu ≤0.5C
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I-Q10: Ngaba le mveliso idinga ukugcinwa ngexesha lewaranti?
Akukho mfuneko yolondolozo olongezelelweyo ngexesha lokusebenza. Iyunithi yokulawula inkqubo ekrelekrele kunye ne-IP55 yoyilo lwangaphandle iqinisekisa ukuzinza kokusebenza kwemveliso. Ixesha elisemthethweni lokucima umlilo yiminyaka eyi-10, eqinisekisa ngokupheleleyo ukhuseleko lwamacandelo
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Q11. Yintoni i-algorithm ye-SOX echanekileyo ephezulu?
I-algorithm ye-SOX echanekileyo kakhulu, isebenzisa ukudibanisa indlela yokudibanisa ixesha le-ampere kunye nendlela evulekileyo yesiphaluka, ibonelela ngokubala ngokuchanekileyo kunye nokulinganisa kwe-SOC kwaye ibonisa ngokuchanekileyo imeko ye-SOC yebhetri yexesha langempela.
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Q12. Yintoni ulawulo lwexesha elibukhali?
Ulawulo lobushushu obukrelekrele lithetha ukuba xa ubushushu bebhetri buphakama, inkqubo iya kuvula ngokuzenzekelayo i-air conditioning ukuze ilungelelanise iqondo lobushushu ngokweqondo lobushushu ukuqinisekisa ukuba yonke imodyuli izinzile ngaphakathi koluhlu lobushushu bokusebenza.
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Q13. Kuthetha ntoni ukusebenza kweemeko ezininzi?
Iindlela ezine zokusebenza: imowudi yezandla, ukuzivelisa, imowudi yokwabelana ngexesha, ukugcinwa kwebhetri, ukuvumela abasebenzisi ukuseta imowudi ukuze ihambelane neemfuno zabo.
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Q14. Indlela yokuxhasa i-EPS-level switching kunye nokusebenza kwe-microgrid?
Umsebenzisi unokusebenzisa ukugcinwa kwamandla njenge-microgrid kwimeko yongxamiseko kwaye ngokudibanisa ne-transformer ukuba i-voltage ye-step-up okanye i-step-down iyadingeka.
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Q15. Indlela yokuthumela ngaphandle idatha?
Nceda usebenzise i-USB flash drive ukuyifaka kujongano lwesixhobo kwaye ukhuphele ngaphandle idatha kwiscreen ukufumana idatha efunekayo.
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Q16. Indlela yokulawula kude?
Ukujongwa kwedatha ekude kunye nolawulo olusuka kwi-app ngexesha lokwenyani, kunye nokukwazi ukutshintsha useto kunye nokuphuculwa kwe-firmware ukude, ukuqonda imiyalezo yangaphambi kwe-alarm kunye neempazamo, kunye nokugcina umkhondo wophuhliso lwexesha lokwenyani.
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Q17. Ngaba iRENA1000 ixhasa ukwandiswa kwamandla?
Iiyunithi ezininzi zinokudityaniswa ngokuhambelana neeyunithi ezi-8 kunye nokuhlangabezana neemfuno zabathengi bomthamo
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Q18. Ngaba iRENA1000 inzima ukuyifaka?
Ufakelo lulula kwaye kulula ukusebenza, kuphela i-AC terminal i-harness kunye nentambo yokunxibelelana kwesikrini kufuneka idityaniswe, enye idibaniso ngaphakathi kwikhabhinethi yebhetri sele iqhagamshelwe kwaye ivavanyiwe kumzi-mveliso kwaye ayifuni ukudityaniswa kwakhona ngumthengi.
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Q19. Ngaba imowudi ye-RENA1000 EMS ingahlengahlengiswa kwaye imiselwe ngokweemfuno zabathengi?
I-RENA1000 ithunyelwa nge-interface esemgangathweni kunye noseto, kodwa ukuba abathengi bafuna ukwenza utshintsho kuyo ukuze bahlangabezane neemfuno zabo zesiko, banokuphendula kwi-Renac yokuphuculwa kwesoftware ukuhlangabezana neemfuno zabo zokwenza ngokwezifiso.
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Q20. Lide kangakanani ixesha lewaranti yeRENA1000?
Iwaranti yemveliso ukususela kumhla wokuhanjiswa kweminyaka emi-3, iimeko zewaranti yebhetri: kwi-25 ℃, i-0.25C / 0.5C intlawulo kunye nokukhupha amaxesha angama-6000 okanye iminyaka emi-3 (nantoni na efika kuqala), umthamo oseleyo ungaphezulu kwe-80%
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I-Q1: Ngaba ungazisa Ishaja ye-Renac EV?
Le tshaja ye-EV ehlakaniphile kwizicelo zokuhlala kunye nezorhwebo, imveliso ibandakanya isigaba esisodwa se-7K isigaba sesithathu se-11K kunye nesigaba sesithathu se-22K ishaja ye-AC .Yonke i-EV ishaja "ibandakanya" ukuba ihambelana nazo zonke ii-EV ze-brand onokuzibona kwiimarike, nokuba nguTesla. I-BMW. I-Nissan kunye ne-BYD zonke ezinye ii-EVs ze-brand kunye ne-diver yakho, zonke zisebenza kakuhle ngetshaja ye-Renac.
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I-Q2: Loluphi uhlobo kunye nemodeli ye-port yeshaja ehambelana nale tshaja ye-EV?
Uhlobo 2 lwe-EV yeshaja lubumbeko oluqhelekileyo.
Olunye uhlobo lwezibuko lwetshaja umzekelo 1 , umgangatho wase-USA njl.njl. azikhethelwanga (iyahambelana, ukuba iimfuno nceda uphawule ) Sonke isinxibelelanisi sihambelana nomgangatho we-IEC.
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Q3: Yintoni umsebenzi oguqukayo wokulinganisa umthwalo?
I-Dynamic load balancing yindlela yokulawula ekrelekrele yokutshaja kwe-EV evumela ukutshaja kwe-EV ukuba kuqhutywe ngaxeshanye nomthwalo wasekhaya. Inika amandla aphezulu okutshaja ngaphandle kokuchaphazela igridi okanye imithwalo yendlu. Inkqubo yokulinganisa umthwalo inika amandla akhoyo ePV kwinkqubo yokutshaja ye-EV ngexesha langempela. Njengesiphumo sokuba amandla okutshaja asenokucuthwa ngoko nangoko ukuhlangabezana nemiqobo yamandla ebangelwa yimfuno yomthengi, amandla abiweyo okutshaja anokuba phezulu xa usetyenziso lwamandla lwenkqubo efanayo ye-PV lusezantsi ngokuchaseneyo. Ukongeza inkqubo yePV iya kubeka phambili phakathi kwemithwalo yasekhaya kunye neemfumba zokutshaja.
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Q4: yintoni imowudi yomsebenzi omninzi?
Itshaja ye-EV ibonelela ngeendlela ezininzi zokusebenza kwiimeko ezahlukeneyo.
Imowudi ekhawulezayo ibiza isithuthi sakho sombane kwaye yandisa amandla okuhlangabezana neemfuno zakho xa ungxamile.
Imowudi ye-PV ihlawulisa imoto yakho yombane ngamandla elanga ashiyekileyo, iphucula izinga lokusebenzisa amandla elanga kunye nokubonelela nge-100% yamandla aluhlaza kwimoto yakho yombane.
Imowudi ye-Off-peak ihlawulisa ngokuzenzekelayo i-EV yakho ngokulinganisa amandla omthwalo okrelekrele, osebenzisa inkqubo ye-PV kunye namandla egridi ngelixa uqinisekisa ukuba i-breaker yesekethe ayizukuqaliswa ngexesha lokutshaja.
Ungajonga i-App yakho malunga neendlela zokusebenza kubandakanya imowudi ekhawulezayo, imowudi yePV, imowudi ye-off-peak.
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Q5: Ungayixhasa njani intlawulo yexabiso lentlambo ekrelekrele ukonga iindleko?
Ungangena kwixabiso lombane kunye nexesha lokuhlawula kwi-APP, inkqubo iya kugqiba ngokuzenzekelayo ixesha lokuhlawula ngokwexabiso lombane kwindawo yakho, kwaye ukhethe ixesha eliphantsi lokuhlawula ukuhlawula imoto yakho yombane, inkqubo yokutshaja ehlakaniphile iya kusindisa. ixabiso lakho lolungiselelo lokubiza!
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I-Q6: Ngaba sinokukhetha imo yokutshaja?
Ungayiseta kwi-APP okwangoku yeyiphi indlela ongathanda ukuyitshixa kwaye uvule itshaja yakho ye-EV kubandakanya i-APP, ikhadi le-RFID, iplagi kunye nokudlala.
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Q7:Uyazi njani imeko yokutshaja ngokude?
Ungayijonga kwi-APP kwaye ujonge kuyo yonke imeko yenkqubo yokugcina amandla elanga okanye utshintshe ipharamitha yokutshaja
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Q8: Ngaba itshaja yeRenac iyahambelana nezinye iibrand inverter okanye inkqubo yokugcina? Ukuba kunjalo , kufuneka utshintshe enye into ?
Ewe, iyahambelana nayo nayiphi na inkqubo yamandla eebrendi. Indawo yofakelo lwemitha inokukhethwa indawo yoku-1 okanye indawo yesi-2, njengomfanekiso olandelayo.
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I-Q9: Ngaba nawaphi na amandla elanga angaphezulu anokuhlawula?
Hayi, kufuneka ifike i-voltage yokuqala emva koko inokutshaja, ixabiso layo livuliwe yi-1.4Kw (isigaba esinye) okanye i-4.1kw (isigaba esithathu) okwangoku inkqubo yokutshaja ngenye indlela ayinakuqala ukutshaja xa kungekho mandla aneleyo. Okanye unokuseta ukufumana amandla kwigridi yokuhlangabezana nemfuno yokutshaja.
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I-Q10: Indlela yokubala ixesha lokuhlawula?
Ukuba ukutshajiswa kombane okuhleliweyo kuqinisekisiwe ngoko nceda ureferensile ubalo ngolu hlobo lungezantsi
Ixesha lokutshaja = Amandla e-EVs / amandla alinganiswe ngetshaja
Ukuba ukutshajiswa kwamandla okulinganisiweyo akuqinisekanga ngoko kufuneka ujonge i-APP esweni ukutshaja idatha malunga neemeko zakho ze-EVs.
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Q11: Ngaba umsebenzi wokhuseleko wetshaja?
Olu hlobo lwetshaja ye-EV ine-AC overvoltage, i-AC undervoltage, ukhuseleko lwe-AC overcurrent surge, ukhuseleko lomhlaba, ukhuseleko lwangoku lokuvuza, i-RCD njl.
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I-Q12 : Ngaba itshaja ixhasa amakhadi amaninzi e-RFID?
A: I-accessory eqhelekileyo ibandakanya amakhadi ama-2, kodwa kuphela ngenombolo yekhadi elifanayo. Ukuba kuyimfuneko, nceda ukopishe amakhadi amaninzi, kodwa kuphela inombolo yekhadi eli-1 liboshiwe, akukho mqathango kubungakanani bekhadi.
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I-Q1: Indlela yokudibanisa imitha ye-inverter yesigaba sesithathu?
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I-Q2: Indlela yokudibanisa imitha ye-inverter yesigaba esisodwa se-hybrid?
