Hybrid Inverter
Hybrid Inverter
Hybrid Inverter
Batir Mai Wutar Lantarki Mai Matsala
Haɗe-haɗe Babban Batir
Batir Mai Wutar Lantarki Mai Matsala
Batir Mai Wutar Lantarki Mai Matsala
Karancin Batir
Karancin Batir
RENAC POWER N3 HV Series shine na'ura mai jujjuyawar ajiya mai ƙarfin wutan lantarki lokaci uku. Yana ɗaukar wayo don sarrafa wutar lantarki don haɓaka cin kai da samun yancin kai na makamashi. Haɗe tare da PV da baturi a cikin gajimare don mafita na VPP, yana ba da damar sabon sabis na grid. Yana goyan bayan fitowar rashin daidaituwa 100% da haɗin haɗin kai da yawa don ƙarin sassauƙan tsarin mafita.
Matsakaicin madaidaicin PV module na yanzu shine 18A.
Madaidaicin goyan bayan sa har zuwa haɗin kai guda 10
Wannan inverter yana da MPPT guda biyu, kowanne yana goyan bayan kewayon ƙarfin lantarki na 160-950V.
Wannan inverter yayi daidai da ƙarfin baturi na 160-700V, matsakaicin cajin halin yanzu shine 30A, matsakaicin cajin halin yanzu shine 30A, da fatan za a kula da wutar lantarki mai dacewa tare da baturi (ba a buƙatar ƙasa da nau'ikan baturi biyu don dacewa da baturin Turbo H1 ).
Wannan inverter ba tare da akwatin EPS na waje ba, ya zo tare da keɓancewar EPS da aikin sauyawa ta atomatik lokacin da ake buƙata don cimma haɗin kai, sauƙaƙe shigarwa da aiki.
Mai jujjuyawar yana haɗa nau'ikan abubuwan kariya da suka haɗa da saka idanu na insulation na DC, shigar da kariyar juzu'i, kariyar ƙaƙƙarfan tsibiri, saka idanu na yau da kullun, kariyar zafi, yawan zafin AC, ƙarancin ƙarfi da kariyar gajeriyar kewayawa, da kariya ta AC da DC da dai sauransu.
Amfanin ikon kai na wannan nau'in inverter a jiran aiki bai wuce 15W ba.
(1) Kafin yin hidima, da farko cire haɗin haɗin wutar lantarki tsakanin inverter da grid, sannan cire haɗin wutar lantarki ta gefen DC (haɗin. Wajibi ne a jira aƙalla 5min ko fiye don ba da damar inverter na ciki mai ƙarfi capacitors da sauran su. abubuwan da za a fitar da su gaba daya kafin aiwatar da aikin kulawa.
(2) Yayin aikin kulawa, da farko duba kayan aikin da farko don lalacewa ko wasu yanayi masu haɗari, kuma kula da anti-static yayin takamaiman aiki, kuma yana da kyau a saka zoben hannu na anti-a tsaye. Don kula da lakabin gargadi akan kayan aiki, kula da inverter surface an sanyaya. A lokaci guda don guje wa hulɗar da ba dole ba tsakanin jiki da allon kewayawa.
(3) Bayan an gama gyara, tabbatar da cewa an warware duk wani lahani da ya shafi aikin aminci na inverter kafin sake kunna inverter.
Dalilai na gabaɗaya sun haɗa da: ① Wutar lantarki mai fitarwa na module ko kirtani ya yi ƙasa da ƙaramin ƙarfin aiki na inverter. ② An juya polarity na shigar da kirtani. Ba a rufe maɓallin shigar da DC. ③ Ba a rufe maɓallin shigarwar DC. ④ Ɗaya daga cikin masu haɗawa a cikin kirtani ba a haɗa shi da kyau ba. ⑤ Wani sashi yana gajeriyar kewayawa, yana haifar da sauran igiyoyin su kasa yin aiki da kyau.
Magani: Auna ƙarfin shigarwar DC na inverter tare da ƙarfin DC na multimeter, lokacin da ƙarfin lantarki ya zama al'ada, jimlar ƙarfin lantarki shine jimlar ƙarfin wutar lantarki a kowace kirtani. Idan babu irin ƙarfin lantarki, gwada ko DC circuit breaker, terminal block, na USB connector, bangaren junction akwatin, da dai sauransu sun kasance al'ada bi da bi. Idan akwai igiyoyi da yawa, cire haɗin su daban don gwajin isa ga mutum ɗaya. Idan babu gazawar abubuwan waje ko layi, yana nufin cewa da'irar kayan aikin ciki na inverter ba daidai ba ne, kuma zaku iya tuntuɓar Renac don kulawa.
Dalilai na gabaɗaya sun haɗa da: ① Ba a rufe ficewar wutar lantarki ta inverter AC. ② Ba a haɗa tashoshin fitarwa na inverter AC yadda ya kamata. ③ Lokacin da ake yin wayoyi, jeri na sama na tashar fitarwa ta inverter yana kwance.
Magani: Auna ƙarfin fitarwa na AC na inverter tare da kayan aikin wutar lantarki na multimeter AC, a ƙarƙashin yanayi na yau da kullun, tashoshin fitarwa yakamata su sami ƙarfin AC 220V ko AC 380V; idan ba haka ba, gwada tashoshi na wiring don ganin ko sun sako-sako, ko na'urar kewayawa ta AC ta rufe, an katse kariyar kariya da sauransu.
Babban dalili: Wutar lantarki da mitar grid ɗin wutar AC sun fita daga kewayon al'ada.
Magani: Auna ƙarfin lantarki da mitar grid ɗin wutar AC tare da abin da ya dace na multimeter, idan da gaske ba daidai ba ne, jira grid ɗin wutar lantarki ya dawo daidai. Idan grid irin ƙarfin lantarki da mita na al'ada ne, yana nufin cewa da'irar gano inverter ba ta da kyau. Lokacin dubawa, da farko cire haɗin shigarwar DC da fitarwa na AC na inverter, bari inverter ya kashe fiye da 30min don ganin ko kewaye zai iya farfadowa da kanta, idan zai iya farfadowa da kanta, za ku iya ci gaba da amfani da shi, idan ya kasance. Ba za a iya murmurewa ba, zaku iya tuntuɓar NATTON don gyarawa ko maye gurbinsu. Za a iya amfani da sauran na’urorin na’ura kamar inverter main board circuit, detection circuit, communication circuit, inverter circuit da sauran lauyoyi masu laushi, don gwada hanyar da ke sama don ganin ko za su iya murmurewa da kansu, sannan a sake gyara su ko musanya su idan ba za su iya murmurewa da kansu ba.
Babban dalili: galibi saboda grid impedance yana da girma, lokacin da gefen mai amfani da PV na amfani da wutar lantarki ya yi ƙanƙanta, watsawa daga cikin impedance ya yi yawa, yana haifar da inverter AC gefen ƙarfin fitarwa ya yi yawa!
Magani: ① Ƙara diamita na waya na kebul na fitarwa, mafi girma da kebul, ƙananan ƙarancin. Mafi kauri da kebul, da ƙananan impedance. ② Mai jujjuyawa kamar yadda zai yiwu zuwa wurin da aka haɗa grid, guntun kebul ɗin, ƙananan impedance. Alal misali, ɗauki 5kw grid-connected inverter a matsayin misali, tsawon AC fitarwa na USB tsakanin 50m, za ka iya zabar giciye-section yanki na 2.5mm2 na USB: tsawon 50 - 100m, kana bukatar ka zabi giciye-section. yanki na 4mm2 na USB: tsayi fiye da 100m, kuna buƙatar zaɓar yanki na yanki na kebul na 6mm2.
Dalili na gama gari: An haɗa nau'ikan nau'ikan da yawa a cikin jeri, yana haifar da ƙarfin shigarwar a gefen DC don wuce matsakaicin ƙarfin aiki na inverter.
Magani: Dangane da halayen zafin jiki na samfuran PV, ƙananan zafin jiki na yanayi, mafi girman ƙarfin fitarwa. A shigar da ƙarfin lantarki kewayon uku-lokaci kirtani makamashi ajiya inverter ne 160 ~ 950V, kuma shi ne shawarar a zana kirtani irin ƙarfin lantarki kewayon 600 ~ 650V. A cikin wannan kewayon ƙarfin lantarki, ingancin inverter ya fi girma, kuma mai inverter na iya ci gaba da kula da yanayin samar da wutar lantarki lokacin da iska mai ƙarfi ya yi ƙasa da safe da maraice, kuma ba zai haifar da ƙarfin wutar lantarki na DC ya wuce iyaka na sama ba. inverter ƙarfin lantarki, wanda zai kai ga ƙararrawa da kuma kashewa.
Dalilai na yau da kullun: Gabaɗaya samfuran PV, akwatunan junction, igiyoyin DC, inverters, igiyoyin AC, tashoshi da sauran sassan layin zuwa ƙasa gajeriyar kewayawa ko lalacewa Layer Layer, masu haɗin igiyoyi masu kwance cikin ruwa da sauransu.
Magani: Magani: Cire haɗin grid, inverter, bi da bi, duba juriya na rufin kowane ɓangaren kebul zuwa ƙasa, gano matsalar, maye gurbin kebul ko mai haɗawa daidai!
Dalilai na yau da kullun: Akwai abubuwa da yawa da ke shafar ikon fitarwa na shuke-shuken wutar lantarki na PV, gami da adadin hasken rana, kusurwar karkatar da tsarin hasken rana, ƙura da toshewar inuwa, da halayen yanayin yanayin.
Ƙarfin tsarin yana da ƙasa saboda tsarin tsarin da bai dace ba da shigarwa. Maganganun gama gari sune:
(1) Gwada ko ikon kowane nau'i ya isa kafin shigarwa.
(2) Wurin da aka girka ba shi da iska sosai, kuma zafin injin inverter ba ya bazuwa cikin lokaci, ko kuma ya shiga hasken rana kai tsaye, wanda ke sa zafin inverter ya yi yawa.
(3) Daidaita kusurwar shigarwa da daidaitawa na module.
(4) Duba tsarin don inuwa da ƙura.
(5) Kafin shigar da igiyoyi masu yawa, duba buɗaɗɗen wutar lantarki na kowane kirtani tare da bambancin da bai wuce 5V ba. Idan wutar lantarki aka gano ba daidai ba, duba wayoyi da masu haɗawa.
(6) Lokacin shigarwa, ana iya shiga cikin batches. Lokacin shiga kowane rukuni, yi rikodin ikon kowace ƙungiya, kuma bambancin iko tsakanin kirtani kada ya wuce 2%.
(7) Mai jujjuyawar yana da damar MPPT dual, kowace hanyar shigar da wutar lantarki shine kawai 50% na jimlar iko. A ka'ida, ya kamata a tsara kowace hanya kuma a shigar da ita tare da daidaitaccen iko, idan kawai an haɗa shi da tashar MPPT ta hanya ɗaya, ƙarfin fitarwa zai ragu.
(8) Rashin haɗin haɗin kebul ɗin, kebul ɗin ya yi tsayi da yawa, diamita na waya ya yi ƙarfi sosai, akwai asarar wutar lantarki, kuma a ƙarshe yana haifar da asarar wutar lantarki.
(9) Gano ko ƙarfin lantarki yana cikin kewayon ƙarfin lantarki bayan an haɗa abubuwan da aka haɗa a jere, kuma ingancin tsarin zai ragu idan ƙarfin lantarki ya yi ƙasa sosai.
(10) Ƙarfin wutar lantarki mai haɗin grid AC na tashar wutar lantarki ta PV ya yi ƙanƙanta don biyan buƙatun fitarwa na inverter.
A: Wannan tsarin baturi ya ƙunshi BMC (BMC600) da RBS masu yawa (B9639-S).
BMC600: Babban Mai Kula da Batir (BMC).
B9639-S: 96: 96V, 39: 39Ah, Rechargeable Li-ion baturi (RBS).
Mai sarrafa baturi (BMC) na iya sadarwa tare da inverter, sarrafawa da kare tsarin baturi.
Stack baturin Li-ion mai caji (RBS) an haɗa shi tare da naúrar sa ido kan tantanin halitta don saka idanu da daidaita ma'auni na kowane tantanin halitta.
3.2V 13Ah Gotion High-Tech cylindrical sel, fakitin baturi ɗaya yana da sel 90 a ciki. Kuma Gotion High-Tech ita ce kan gaba na masana'antun batir guda uku a China.
A: A'a, kafuwar bene kawai.
74.9kWh (5*TB-H1-14.97: Matsayin Wutar Lantarki: 324-432V). N1 HV Series na iya karɓar kewayon ƙarfin baturi daga 80V zuwa 450V.
Baturin saitin aikin layi daya yana kan tasowa, a wannan lokacin max. iya aiki ne 14.97 kWh.
Idan abokin ciniki baya buƙatar daidaita saitin baturi:
A'a, duk buƙatun abokin ciniki suna cikin fakitin baturi. Kunshin BMC ya ƙunshi kebul na wutar lantarki & kebul na sadarwa tsakanin inverter & BMC da BMC&RBS na farko. Kunshin RBS ya ƙunshi kebul na wutar lantarki & kebul na sadarwa tsakanin RBS guda biyu.
Idan abokin ciniki yana buƙatar daidaita saitin baturi:
Ee, muna buƙatar aika kebul ɗin sadarwa tsakanin saitin baturi biyu. Muna kuma ba ku shawarar siyan akwatin Haɗin mu don yin layi ɗaya tsakanin saitin baturi biyu ko fiye. Ko kuma za ku iya ƙara maɓalli na waje na DC (600V, 32A) don daidaita su. Amma don Allah a tuna cewa lokacin da ka kunna tsarin, dole ne ka kunna wannan na'ura na DC na waje da farko, sannan ka kunna baturi da inverter. Domin kunna wannan na'ura na DC na waje fiye da baturi da inverter na iya yin tasiri ga aikin cajin baturi, kuma yana haifar da lalacewa akan baturi da inverter. (akwatin Combiner yana kan tasowa.)
A'a, mun riga mun sami maɓallin DC akan BMC kuma ba mu ba ku shawarar ƙara canjin DC na waje tsakanin baturi da inverter ba. Domin yana iya yin tasiri akan aikin cajin baturi kuma ya haifar da lalacewar hardware akan baturi da inverter, idan kun kunna DC na waje fiye da baturi da inverter. Idan kun riga kun shigar da shi don Allah a tabbata cewa matakin farko yana kunna na'urar kunna DC ta waje, sannan kunna baturi da inverter.
A: Hanyoyin sadarwa tsakanin baturi da inverter shine CAN tare da mai haɗin RJ45. Ma'anar fil ɗin yana kamar ƙasa (I ɗaya don baturi da gefen inverter, daidaitaccen kebul na CAT5).
Phoenix.
Ee.
A: 3m.
Za mu iya haɓaka firmware na batura daga nesa, amma wannan aikin yana samuwa ne kawai lokacin da yake aiki tare da Renac inverter. Domin ana yin ta ta hanyar datalogger da inverter.
Renac Injiniya ne kawai za su iya haɓaka batura masu nisa a yanzu. Idan kana buƙatar haɓaka firmware baturi don Allah tuntube mu kuma aika lambar serial inverter.
A: Idan abokin ciniki yana amfani da Renac inverter, yi amfani da faifan USB (Max. 32G) zai iya haɓaka baturin cikin sauƙi ta tashar USB akan inverter. Matakai iri ɗaya tare da haɓaka inverter, firmware daban.
Idan abokin ciniki baya amfani da Renac inverter, yana buƙatar amfani da kebul na juyawa don haɗa BMC da kwamfutar tafi-da-gidanka don haɓaka shi.
A: Batura' Max. Cajin / fitarwa na yanzu shine 30a, maras kera na rbs ɗaya ne 96V.
30A*96V=2880W
A: Daidaitaccen Garanti na Ayyukan Samfura yana aiki na tsawon watanni 120 daga ranar shigarwa, amma bai wuce watanni 126 daga ranar isar da samfur ba (kowane ya zo farko). Wannan Garanti ya ƙunshi iya aiki daidai da cikakken zagayowar 1 kowace rana.
Renac yana ba da garantin kuma yana wakiltar cewa samfur ɗin yana riƙe aƙalla 70% na Makamashi Na Zamani na ko dai shekaru 10 bayan kwanan watan shigarwa na farko ko jimlar ƙarfin 2.8MWh a kowace KWh mai amfani da aka aika daga baturi, duk wanda ya fara zuwa.
Ya kamata a adana samfurin baturi mai tsabta, bushe da iska a cikin gida tare da kewayon zafin jiki tsakanin 0 ℃ ~ + 35 ℃, kauce wa hulɗa da abubuwa masu lalata, nesa da wuta da tushen zafi kuma a caji shi kowane watanni shida ba tare da fiye da 0.5C (C) ba. -rate shine ma'auni na ƙimar da baturi ke fitarwa dangane da iyakar ƙarfinsa.) zuwa SOC na 40% bayan dogon lokaci na ajiya.
Saboda baturi yana da amfani da kansa, kauce wa zubar da baturi don Allah a fara aika batir ɗin da kuka samu da wuri. Lokacin da kuka ɗauki baturi don abokin ciniki ɗaya, da fatan za a ɗauki batura daga pallet ɗaya kuma tabbatar da Ajin Ƙarfin da aka yiwa alama akan wannan katun na batura iri ɗaya ne gwargwadon yiwuwa.
A: Daga serial number.
90%. Lura cewa lissafin zurfin fitarwa da lokutan zagayowar ba daidai ba ne. Zurfin zubar da ruwa 90% baya nufin cewa ana ƙididdige zagayowar ɗaya kawai bayan cajin 90% da fitarwa.
Ana ƙididdige zagayowar zagayowar ɗaya don kowane jimlar fitarwa na iya aiki 80%.
A: C=39
Cajin Yanayin Zazzabi: 0-45 ℃
0 ~ 5 ℃, 0.1C (3.9A);
5 ~ 15 ℃, 0.33C (13A);
15-40 ℃, 0.64C (25A);
40 ~ 45 ℃, 0.13C (5A);
Yanayin Zazzabi: -10 ℃ - 50 ℃
Babu iyaka.
Idan babu wutar PV da SOC <= Saitin Ƙarfin Ƙarfin Batir na mintuna 10, Inverter zai kashe baturi (ba a rufe gaba ɗaya ba, kamar yanayin jiran aiki wanda har yanzu ana iya tashe shi). Inverter zai farka baturi yayin lokacin caji da aka saita a yanayin aiki ko PV yana da ƙarfi don cajin baturi.
Idan baturi ya rasa sadarwa tare da inverter na tsawon mintuna 2, baturi zai mutu.
Idan baturi yana da wasu ƙararrawa waɗanda ba za a iya murmurewa ba, baturin zai mutu.
Da zarar ƙarfin lantarkin cell ɗin baturi ɗaya <2.5V, baturi zai ƙare.
Lokacin farko yana kunna inverter:
Bukatar kawai kunna Kunnawa / Kashe a kan BMC. Inverter zai farka baturi idan Grid yana kunne ko Grid yana kashe amma ikon PV yana kunne. Idan babu Grid da PV ikon, inverter ba zai farka baturi. Dole ne ku kunna baturi da hannu (Kuna kunnawa / Kashe 1 akan BMC, jira koren LED 2 mai walƙiya, sannan danna maɓallin farawa Black 3).
Lokacin da inverter ke gudana:
Idan babu wutar PV da SOC< Saitin Ƙarfin Batir na mintuna 10, Inverter zai kashe baturi. Inverter zai farka baturi yayin lokacin caji da aka saita a yanayin aiki ko ana iya cajin shi.
A: Buƙatar baturi Cajin gaggawa:
Lokacin da baturi SOC <= 5%.
Mai inverter yana yin cajin gaggawa:
Fara caji daga SOC = Saitin Ƙarfin Ƙarfin Batir (saitin nuni) -2%, ƙimar tsoho na Min SOC shine 10%, dakatar da caji lokacin da SOC baturi ya isa saitin Min SOC. Yi caji a kusan 500W idan BMS ya ba da izini.
Ee, muna da wannan aikin. Za mu auna bambancin ƙarfin lantarki tsakanin fakitin baturi biyu don yanke shawara ko yana buƙatar gudanar da dabaru na ma'auni. Idan eh za mu cinye ƙarin kuzari na fakitin baturi tare da mafi girman ƙarfin lantarki/SOC. Ta ƴan zagayowar aiki na al'ada bambancin ƙarfin lantarki zai zama ƙarami. Idan sun daidaita wannan aikin zai daina aiki.
A wannan lokacin ba mu yi gwajin da ya dace da sauran masu inverter ba, amma ya zama dole mu iya aiki tare da masana'anta inverter don yin gwaje-gwaje masu dacewa. Muna buƙatar masana'anta inverter su samar da inverter, CAN yarjejeniya da bayanin yarjejeniya na CAN (takardun da aka yi amfani da su don yin gwaje-gwaje masu dacewa).
RENA1000 jerin waje makamashi ajiya majalisar ministocin integrates makamashi ajiya baturi, PCS (power iko tsarin), makamashi management system, ikon rarraba tsarin, muhalli kula da tsarin da wuta kula da tsarin. Tare da PCS (tsarin kula da wutar lantarki), yana da sauƙi don kiyayewa da faɗaɗawa, kuma ma'aikatar waje ta ɗauki kulawar gaba, wanda zai iya rage sararin bene da samun damar kiyayewa, yana nuna aminci da aminci, ƙaddamar da sauri, ƙarancin farashi, ingantaccen makamashi da hankali. gudanarwa.
Tantanin halitta 3.2V 120Ah, sel 32 ga kowane baturi, yanayin haɗin kai 16S2P.
Yana nufin rabon ainihin cajin cell ɗin baturi zuwa cikakken caji, yana nuna yanayin cajin tantanin baturi. Yanayin cajin tantanin halitta na 100% SOC yana nuna cewa an cika tantanin baturin zuwa 3.65V, kuma yanayin cajin 0% SOC yana nuna cewa an cire baturin gaba ɗaya zuwa 2.5V. SOC da aka riga aka saita masana'anta shine fitarwa 10% dakatarwa
RENA1000 jerin baturi module iya aiki ne 12.3kwh.
Matakan kariya IP55 na iya saduwa da buƙatun mafi yawan wuraren aikace-aikacen, tare da na'urar kwantar da iska mai hankali don tabbatar da aikin yau da kullun na tsarin.
A ƙarƙashin yanayin aikace-aikacen gama gari, dabarun aiki na tsarin ajiyar makamashi sune kamar haka:
Kololuwa-aski da cika kwarin: lokacin da jadawalin kuɗin fito na lokaci ya kasance a cikin sashin kwarin: ana cajin majalisar ajiyar makamashi ta atomatik kuma yana jiran aiki lokacin da ya cika; lokacin da jadawalin kuɗin fito na lokaci ya kasance a cikin ɓangaren kololuwa: ana fitar da ma'ajin ajiyar makamashi ta atomatik don gane bambancin jadawalin kuɗin fito da kuma inganta ingantaccen tattalin arziƙin na ajiyar haske da tsarin caji.
Haɗe-haɗe ajiya na hotovoltaic: samun dama ta ainihi zuwa ikon ɗaukar nauyi na gida, samar da wutar lantarki mai fifiko na samar da wutar lantarki, rarar wutar lantarki; Ƙarfin wutar lantarki na photovoltaic bai isa ba don samar da kaya na gida, fifiko shine amfani da ƙarfin ajiyar baturi.
Tsarin ajiyar makamashi yana sanye da na'urorin gano hayaki, na'urori masu auna ambaliya da na'urori masu kula da muhalli kamar kariya ta wuta, yana ba da damar cikakken ikon sarrafa tsarin aiki. Tsarin kashe gobara yana amfani da na'urar kashe gobarar aerosol sabon nau'in samfurin kare muhalli ne na yaƙi da gobara tare da babban matakin duniya. Ƙa'idar aiki: Lokacin da yanayin zafi ya kai zafin farawa na waya ta thermal ko kuma ya haɗu da buɗewar harshen wuta, wayar thermal ta kunna kai tsaye kuma ta wuce zuwa na'urar kashe gobara ta aerosol. Bayan na'urar kashe gobarar aerosol ta karɓi siginar farawa, ana kunna na'urar kashe gobara ta ciki kuma cikin sauri ta samar da nano irin na'urar kashe gobara ta fesa don samun saurin kashe gobara.
An saita tsarin sarrafawa tare da sarrafa zafin jiki. Lokacin da tsarin zafin jiki ya kai ƙimar da aka saita, na'urar kwandishan ta atomatik ta fara yanayin sanyaya don tabbatar da aikin yau da kullun na tsarin a cikin yanayin aiki.
PDU (Sashin Rarraba Wutar Lantarki), wanda kuma aka sani da Rarraba Rarraba Wutar Lantarki don ɗakunan ajiya, samfuri ne da aka tsara don samar da wutar lantarki don kayan aikin lantarki da aka shigar a cikin kabad, tare da nau'ikan ƙayyadaddun ƙayyadaddun bayanai tare da ayyuka daban-daban, hanyoyin shigarwa da haɗuwa daban-daban na toshe, wanda. zai iya samar da mafita mai rarraba wutar lantarki da aka ɗora don ma'aunin wutar lantarki daban-daban. Aikace-aikacen PDUs yana sa rarraba wutar lantarki a cikin kabad ɗin ya fi kyau, abin dogaro, aminci, ƙwararru da ƙayatarwa, kuma yana sa kiyaye iko a cikin kabad ɗin ya fi dacewa kuma abin dogaro.
Adadin caji da fitarwa na baturin shine ≤0.5C
Babu buƙatar ƙarin kulawa yayin lokacin gudu. Naúrar sarrafa tsarin fasaha mai hankali da ƙirar waje na IP55 suna ba da garantin kwanciyar hankali na aikin samfurin. Lokacin ingancin na'urar kashe gobara shine shekaru 10, wanda ke ba da cikakken garantin amincin sassan
Madaidaicin ingantaccen algorithm na SOX, ta amfani da haɗin hanyar haɗin kai na ampere-lokaci da kuma hanyar buɗewa, yana ba da cikakken ƙididdiga da daidaitawa na SOC kuma daidai yana nuna ainihin yanayin baturi mai ƙarfi na SOC.
Gudanar da zafin jiki na hankali yana nufin cewa lokacin da zafin baturi ya tashi, tsarin zai kunna kwandishan ta atomatik don daidaita yanayin zafi bisa ga zafin jiki don tabbatar da cewa gabaɗayan tsarin ya tsaya a cikin kewayon zafin aiki.
Hanyoyi guda huɗu na aiki: yanayin hannu, samar da kai, yanayin raba lokaci, ajiyar baturi, ƙyale masu amfani su saita yanayin don dacewa da bukatunsu
Mai amfani zai iya amfani da ajiyar makamashi azaman microgrid a yanayin gaggawa kuma a hade tare da na'ura mai canzawa idan ana buƙatar hawan hawan sama ko ƙasa.
Da fatan za a yi amfani da kebul na USB don shigar da shi akan mahaɗin na'urar da fitar da bayanan akan allon don samun bayanan da ake so.
Saka idanu na nesa da sarrafa bayanai daga app a cikin ainihin lokaci, tare da ikon canza saituna da haɓaka firmware daga nesa, don fahimtar saƙon ƙararrawa da kurakurai, da kuma kiyaye abubuwan ci gaba na ainihi.
Ana iya haɗa raka'a da yawa a layi daya zuwa raka'a 8 kuma don saduwa da bukatun abokin ciniki don iya aiki
Shigarwa yana da sauƙi kuma mai sauƙi don aiki, kawai kayan haɗin tashar AC da kebul na sadarwar allo yana buƙatar haɗawa, sauran haɗin haɗin da ke cikin majalisar baturi an riga an haɗa su kuma an gwada su a masana'anta kuma baya buƙatar sake haɗawa ta abokin ciniki.
Ana jigilar RENA1000 tare da daidaitaccen dubawa da saituna, amma idan abokan ciniki suna buƙatar yin canje-canje a gare shi don biyan buƙatun su na al'ada, za su iya ba da amsa ga Renac don haɓaka software don biyan buƙatun gyare-gyaren su.
Garanti na samfur daga ranar bayarwa na shekaru 3, yanayin garantin baturi: a 25 ℃, 0.25C / 0.5C cajin da fitarwa sau 6000 ko shekaru 3 (duk wanda ya fara zuwa), ragowar ƙarfin ya fi 80%
Wannan caja ne mai hankali na EV don aikace-aikacen zama da kasuwanci, samarwa ciki har da lokaci guda 7K kashi uku na 11K da caja na AC na 22K uku. komai Tesla ne. BMW Nissan da BYD duk sauran samfuran EVs da mai nutsewa, duk yana aiki daidai da caja na Renac.
EV caja tashar jiragen ruwa 2 daidaitaccen tsari ne.
Sauran nau'in tashar tashar caja misali nau'in 1, daidaitattun Amurka da dai sauransu ba na zaɓi bane (masu jituwa, idan ana buƙata don Allah a faɗi) Duk mai haɗin yana daidai da ma'aunin IEC.
Daidaita nauyi mai ƙarfi hanya ce ta sarrafa hankali don cajin EV wanda ke ba da damar cajin EV yayi aiki lokaci guda tare da lodin gida. Yana ba da mafi girman ƙarfin caji ba tare da shafar grid ko kayan gida ba. Tsarin daidaita nauyi yana keɓance samun ƙarfin PV zuwa tsarin caji na EV a ainihin lokacin. Sakamakon cewa ana iya iyakance ƙarfin caji nan take don saduwa da ƙarancin kuzarin da buƙatun mabukaci ya haifar, ikon cajin da aka keɓe na iya zama mafi girma lokacin amfani da makamashin tsarin PV iri ɗaya ya yi ƙasa da akasin haka. Bugu da ƙari, tsarin PV zai ba da fifiko tsakanin kayan gida da cajin tarawa.
Caja EV yana ba da yanayin aiki da yawa don yanayi daban-daban.
Yanayi mai sauri yana cajin abin hawan ku na lantarki kuma yana haɓaka ƙarfin don biyan bukatunku lokacin da kuke cikin sauri.
Yanayin PV yana cajin motarka ta lantarki tare da ragowar makamashin hasken rana, haɓaka ƙimar amfani da hasken rana da samar da makamashin kore 100% don motar lantarki.
Yanayin kashe kololuwa ta atomatik yana cajin EV ɗin ku ta atomatik tare da daidaita ƙarfin nauyi mai hankali, wanda ke amfani da tsarin PV a hankali da makamashin grid yayin da yake tabbatar da cewa ba za a kunna mai watsewar kewayawa yayin caji ba.
Kuna iya duba ƙa'idar ku game da yanayin aiki gami da yanayin sauri, yanayin PV, yanayin kashe-kolo.
Kuna iya shigar da farashin wutar lantarki da lokacin caji a cikin APP, tsarin zai ƙayyade lokacin caji ta atomatik daidai da farashin wutar lantarki a wurin ku, kuma ku zaɓi lokacin caji mai rahusa don cajin motar lantarki, tsarin caji mai hankali zai adana. Farashin tsarin cajin ku!
Kuna iya saita shi a cikin APP a halin yanzu wace hanya kuke so ku kulle da buše cajar ku ta EV gami da APP, katin RFID, toshe da wasa.
Kuna iya duba shi a cikin APP kuma har ma kun duba duk yanayin tsarin ajiyar makamashin hasken rana mai hankali ko canza ma'aunin caji
Ee, ya dace da kowane nau'ikan tsarin makamashi .Amma buƙatar shigar da kowane mitar lantarki mai wayo don cajar EV in ba haka ba ba zai iya sa ido kan duk bayanai ba. Matsayin shigarwa na mita yana iya zaɓar matsayi 1 ko matsayi 2, azaman hoto mai zuwa.
A'a, Ya kamata a isa fara wutar lantarki sannan zai iya caji, ƙimar kunna shi shine 1.4Kw (tsayi ɗaya) ko 4.1kw (fashi uku) yayin fara aiwatar da caji in ba haka ba ba zai iya fara caji lokacin da isasshen iko ba. Ko za ku iya saita samun wuta daga grid don biyan bukatar caji.
Idan an tabbatar da cajin wutar lantarki to da fatan za a yi la'akari da lissafin kamar ƙasa
Lokacin caji = EVs ikon / caja rated iko
Idan ba a tabbatar da cajin wutar lantarki ba to dole ne ka duba bayanan caji na APP game da halin da ake ciki na EVs.
Wannan nau'in caja na EV yana da AC overvoltage, AC undervoltage, AC overcurrent surge kariya, grounding kariya, Yanzu yayyo kariya, RCD da dai sauransu
A: Daidaitaccen kayan haɗi ya haɗa da katunan 2, amma tare da lambar katin ɗaya kawai. Idan ana buƙata, da fatan za a kwafi ƙarin katunan, amma lambar katin 1 kawai ke daure, babu ƙuntatawa akan adadin katin.