Uhlelo lokugcina amandla okuhlala, elaziwa nangokuthi uhlelo lokulondolozwa kwamandla endlu, luyafana nesiteshi samandla esitoreji samandla amancane. Kwabasebenzisi, inesiqinisekiso sokuhlinzekwa kwamandla aphezulu futhi ayithinteki kumagridi wamandla wangaphandle. Ngezikhathi zokusetshenziswa kukagesi okuphansi, iphakethe lebhethri ekugcinweni kwamandla ezindlu lingakhokhiswa ukusetshenziswa kokusebenzisa isipele ngesikhathi se-peak noma ukuphuma kwamandla.
Amabhethri wokugcina amandla ayingxenye ebaluleke kakhulu yohlelo lokugcina amandla okuhlala. Amandla womthwalo kanye nokusetshenziswa kwamandla kuhlobene. Amapharamitha obuchwepheshe amabhethri wokugcina amandla kufanele acatshangwe ngokucophelela. Kungenzeka ukukhulisa ukusebenza kwamabhethri wokugcina amandla, ukunciphisa izindleko zohlelo, futhi kunikeze inani elikhulu labasebenzisi ngokuqonda kanye nokulwazi kahle kwezobuchwepheshe. Ukubonisa amapharamitha asemqoka, ake sithathe ibhethri le-Turbo H3 likaTenac
Amapharamitha kagesi
① I-voltage ye-①
② Umthamo wesilinganiso: isilinganiso sokugcina umthamo wesitoreji esitokisini kuma-ampere-amahora (ah).
③ Amandla okukhohlisa: Kweminye imibandela yokukhishwa, amandla ebhethri okushiwo inani eliphansi likagesi okufanele likhishwe. Lapho ubheka ukujula kokukhululwa, amandla asebenzayo webhethri abhekisele emandleni angasetshenziswa empeleni. Ngenxa yokujula kokukhululwa (DoD) kwamabhethri e-lithium, ukukhokhiswa kwangempela kanye nokukhipha umthamo webhethri onekhono elilinganiselwe le-9.5kWh ngu-8.5kwh. Sebenzisa ipharamitha ka-8.5kh lapho uklama.
I-④ Voltage Range: Ibanga le-voltage kumele lihambisane nobubanzi bebhethri lokufaka le-inverter. Ama-volitage ebhethri angenhla noma ngaphansi kwebhethri le-inverter's voltage lizokwenza ukuthi uhlelo luhluleke.
⑤ Max. Ukushaja okuqhubekayo / ukuhambisa kwamanje: Izinhlelo zebhethri zisekela ukushaja okuphezulu kanye nokukhipha imisinga, okunquma ukuthi ibhethri lingakhokhiswa isikhathi esingakanani. Amachweba we-Inverter anekhono eliphakeme lamanje lokukhipha elikhawulela leli manje. Ukushaja okuqhubekayo okuqhubekayo nokukhipha kwamanje kochungechunge lweTurbo H3 kungu-0.8c (18.4a). I-9.5kh Turbo H3 ingakhipha futhi ishaja ngo-7.5kw.
⑥ I-Peak yamanje: I-Peak yamanje yenzeka ngesikhathi sokushaja kanye nokukhishwa kwenqubo yohlelo lwebhethri. I-1C (23a) iyindawo ephakeme ye-Turbo H3 Series.
I-Peak Power: Ukukhishwa kwamandla kwebhethri ngesikhathi ngeyunithi ngayinye ngaphansi kohlelo oluthile lokukhipha. I-10kw ngamandla aphezulu we-Turbo H3 Series.
Amapharamitha wokufaka
Ubungako & isisindo se-Net: Kuya ngendlela yokufaka, kuyadingeka ukubheka ukuthathwa kwemithwalo noma udonga, kanye nokuthi izimo zokufaka zihlangatshezwa. Kuyadingeka ukubheka isikhala sokufaka esikhona nokuthi uhlelo lwebhethri luzoba nobude obulinganiselwe, ububanzi, nokuphakama.
I-eboya: izinga eliphakeme lothuli kanye nokumelana kwamanzi. Ukusetshenziswa kwangaphandle kungenzeka ngebhethri elinezinga eliphakeme lokuvikelwa.
Uhlobo lokufaka: uhlobo lokufakwa okufanele lwenziwe endaweni yekhasimende, kanye nobunzima bokufakwa, njengokufakwa okufakwe phansi / phansi.
④ Uhlobo lokupholisa okupholile: ochungechungeni lweTurbo H3, imishini ngokwemvelo ipholile.
I-Port Port: Kuchungechunge lweTurbo H3, izindlela zokuxhumana zifaka i-Can and Rs485.
Amapharamitha Ezemvelo
I-① I-Ambient Temperatite ibanga: Ibhethri lisekela izinga lokushisa ngaphakathi kwendawo yokusebenza. Kukhona uhla lokushisa lwe -17 ° C kuya ku-53 ° C ngokushaja kanye nokukhipha amabhethri e-turbo H3 High-Voltage Lithium aphezulu. Kumakhasimende aseNyakatho Yurophu kanye nezinye izifunda ezibandayo, lokhu kuyindlela enhle kakhulu.
② Umswakama Wokunikezwa Kokusebenza & Ukuphakama: Ububanzi obuphakeme bomswakama kanye nobubanzi bokuphakanyiswa kwebhethri abangaphatha. Amapharamitha anjalo adinga ukubhekwa ezindaweni ezinomswakama noma eziphakeme.
Amapharamitha Ezokuphepha
① Uhlobo lwebhethri: I-Lithium Iron phosphate (LFP) kanye namabhethri we-nickel-cobalt-manganelt terrerry (NCM) yizinhlobo ezivame kakhulu zamabhethri. Izinto zokwenziwa kwe-LFP Ternary zizinze kakhulu kunezinto zokwakha ze-ncm. Amabhethri e-Lithium Iron phosphate asetshenziswa nguRenac.
Iwaranti: Imigomo yewaranti yebhethri, isikhathi sewaranti, kanye nobubanzi. Bhekisa kwinqubomgomo ye- "Renac's Battery Warranti" ngemininingwane.
Impilo ye-③: Kubalulekile ukukala ukusebenza kwempilo yebhethri ngokulinganisa impilo yomjikelezo yebhethri ngemuva kokuthi ikhokhiswe ngokuphelele futhi ikhishwe.
Amabhethri wokugcina we-Turbo H3 we-Turbo H3 aphezulu aphezulu-ama-voltage Amandla okugcina amandla amukele ukwakheka okuguquguqukayo. 7.1-57KKWH kunganwetshwa nezimo ngokuxhuma amaqembu afinyelela kwayi-6 ngokufana. Inikwe amandla amaseli we-CATL Lifepo4, asebenza kahle futhi enza kahle. Kusuka ku -17 ° C kuya ku-53 ° C, inikeza ukumelana okuhle kakhulu nokuphansi kwamazinga okushisa, futhi isetshenziswa kabanzi ezindaweni zangaphandle nasezishisayo.
Kudlule ukuhlolwa okuqinile nguTüv Rheinland, inhlangano ehamba phambili yokuhlola kanye nesitifiketi. Amazinga ambalwa okugcina amabhethri webhethri aqinisekisiwe yiwo, kufaka ne-IEC62619, IEC 62040, IEC 62477, IEC 61000-6-1 / 3 no-UN 38.3.
Inhloso yethu ukukusiza ekutholeni ukuqonda okungcono kwamabhethri okugcina amandla ngokuhunyushwa kwalawa mapharamitha anemininingwane. Khomba uhlelo lwebhethri lokugcina lwamandla olungcono kakhulu lwezidingo zakho.