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Incazelo Eningiliziwe Yamapharamitha Abalulekile Amabhethri Esitoreji Sendawo yokuhlala ye-HV - Ukuthatha i-RENAC Turbo H3 njengesibonelo

Isistimu yokugcina amandla ezindawo zokuhlala, eyaziwa nangokuthi isistimu yokugcina amandla yasendlini, iyafana nesiteshi samandla sokugcina amandla amancane. Kubasebenzisi, inesiqinisekiso sokunikezwa kwamandla okuphezulu futhi ayithintwa amagridi wamandla angaphandle. Ngezikhathi zokusetshenziswa kukagesi okuphansi, iphakethe lebhethri endaweni yokugcina amandla yasendlini lingazikhokhisela lona ukuze lisetshenziswe ikhophi yasenqolobaneni ngesikhathi sokuhamba kakhulu noma ukucisha kukagesi.

 

Amabhethri okugcina amandla ayingxenye ebaluleke kakhulu yesistimu yokugcina amandla okuhlala. Amandla omthwalo kanye nokusetshenziswa kwamandla kuhlobene. Imingcele yezobuchwepheshe yamabhethri okugcina amandla kufanele ibhekwe ngokucophelela. Kuyenzeka ukhulise ukusebenza kwamabhethri okugcina amandla, unciphise izindleko zesistimu, futhi unikeze inani elikhulu kubasebenzisi ngokuqonda nokubamba imingcele yezobuchwepheshe. Ukukhombisa amapharamitha angukhiye, ake sithathe uchungechunge lwebhethri le-RENAC lwe-Turbo H3 njengesibonelo.

TBH3产品特性-英文

 

Amapharamitha kagesi

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① I-Voltage Nominal: Ukusebenzisa imikhiqizo yochungechunge lwe-Turbo H3 njengesibonelo, amaseli axhunywe ngochungechunge futhi ahambisana njenge-1P128S, ngakho-ke i-voltage yegama ngu-3.2V*128=409.6V.

② Amandla Okuzisholo: Isilinganiso somthamo wokugcina weseli ngamahora we-ampere (Ah).

③ Amandla Okuzisholo: Ezimweni ezithile zokukhishwa, amandla ebhethri yinani elincane likagesi okufanele likhishwe. Uma ucabangela ukujula kokukhipha, amandla asebenzisekayo ebhethri abhekisela kumthamo ongasetshenziswa ngempela. Ngenxa yokujula kokukhishwa (i-DOD) kwamabhethri e-lithium, ukushajwa kwangempela nomthamo wokukhipha webhethri elinomthamo olinganiselwe ongu-9.5kWh ngu-8.5kWh. Sebenzisa ipharamitha engu-8.5kWh uma uklama.

④ Ibanga lamandla kagesi: Ibanga le-voltage kufanele lifane nebanga lebhethri elifakiwe le-inverter. Ama-voltage ebhethri ngaphezulu noma ngaphansi kwebanga le-voltage yebhethri ye-inverter azobangela isistimu ukuthi ihluleke.

⑤ Ubukhulu. Ukushaja Okuqhubekayo / Ukushajwa Kwamanje:Amasistimu ebhethri asekela ukushaja okuphezulu nokukhipha imisinga, okunquma ukuthi ibhethri ingashajwa isikhathi esingakanani. Izimbobo ze-Inverter zinamandla okukhipha amanje aphezulu akhawulela lokhu kwamanje. Ubukhulu obuqhubekayo bokushaja nokukhipha amandla ochungechungeni lwe-Turbo H3 ngu-0.8C (18.4A). Eyodwa engu-9.5kWh Turbo H3 iyakwazi ukukhupha nokushaja ngo-7.5kW.

⑥ Ukuphakama Kwamanje:Inani eliphakeme lamanje lenzeka ngesikhathi sokushaja nokukhipha uhlelo lwebhethri. I-1C (23A) iyinani eliphakeme lochungechunge lwe-Turbo H3.

⑦ Amandla Aphakeme:Okukhipha amandla ebhethri ngesikhathi seyunithi ngayinye ngaphansi kwesistimu ethile yokukhipha. 10kW amandla aphakeme ochungechunge lweTurbo H3.

 

Amapharamitha wokufaka

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① Usayizi Nesisindo Sensalela:Ngokuya ngendlela yokufaka, kuyadingeka ukucabangela ukuthwala umthwalo wenhlabathi noma udonga, kanye nokuthi izimo zokufaka ziyahlangatshezwa yini. Kuyadingeka ukucabangela isikhala sokufaka esitholakalayo nokuthi isistimu yebhethri izoba nobude obunqunyelwe, ububanzi, nobude.

② Indawo ebiyelwe: Izinga eliphezulu lokumelana nothuli namanzi. Ukusetshenziswa kwangaphandle kungenzeka ngebhethri elinezinga eliphakeme lokuvikela.

③ Uhlobo Lokufaka:Uhlobo lokufakwa okufanele lwenziwe kusayithi yekhasimende, kanye nobunzima bokufaka, njengokufakwa odongeni/okubekwe phansi.

④ Uhlobo Lokupholisa: Ochungechungeni lwe-Turbo H3, okokusebenza kupholiswe ngokwemvelo.

⑤ Imbobo Yokuxhumana:Ochungechungeni lwe-Turbo H3, izindlela zokuxhumana zifaka i-CAN ne-RS485.

 

Amapharamitha Ezemvelo

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① I-Ambient Temperature Range: Ibhethri isekela amazinga okushisa ngaphakathi kwendawo yokusebenza. Kunebanga lokushisa eliphakathi kuka -17°C kuya ku-53°C lokushaja nokukhipha amabhethri e-lithium e-Turbo H3 aphezulu-voltage. Kumakhasimende asenyakatho yeYurophu nakwezinye izindawo ezibandayo, lokhu kuyisinqumo esihle kakhulu.

② Umsebenzi Wokuswakama Nobude: Ibanga lokuswakama okuphezulu kanye nebanga lokuphakama elingaphathwa isistimu yebhethri. Imingcele enjalo idinga ukucatshangelwa ezindaweni ezinomswakama noma eziphakeme.

 

Amapharamitha Okuphepha

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① Uhlobo Lwebhethri:Amabhethri e-lithium iron phosphate (LFP) kanye ne-nickel-cobalt-manganese ternary (NCM) ayizinhlobo ezivame kakhulu zamabhethri. Izinto ze-LFP ternary zizinzile kune-NCM ternary materials. Amabhethri e-lithium iron phosphate asetshenziswa yi-RENAC.

② Iwaranti: Imigomo yesiqinisekiso sebhethri, isikhathi sewaranti, nobubanzi. Bheka “Kunqubomgomo Yewaranti Yebhethri ye-RENAC” ukuze uthole imininingwane.

③ I-Cycle Life: Kubalulekile ukukala ukusebenza kwempilo yebhethri ngokukala impilo yomjikelezo webhethri ngemva kokuba selishajwe ngokugcwele futhi lilahliwe.

 

Amabhethri ochungechunge lwe-RENAC's Turbo H3 agcina amandla kagesi aphezulu asebenzisa idizayini eyimojula. I-7.1-57kWh inganwetshwa ngendlela evumelana nezimo ngokuxhuma amaqembu angafinyelela kwangu-6 ngokuhambisana. Inikwa amandla amaseli e-CATL LiFePO4, asebenza kahle kakhulu futhi enza kahle. Kusukela ku--17°C kuya ku-53°C, inikeza ukumelana nokushisa okuhle kakhulu nokuphansi, futhi isetshenziswa kabanzi ezindaweni ezingaphandle nezishisayo.

 Iphumelele ukuhlolwa okunzima yi-TÜV Rheinland, inhlangano ehamba phambili emhlabeni yokuhlola nezitifiketi ezivela eceleni. Amazinga amaningana okuphepha kwebhethri esitoreji samandla agunyazwe yiyo, okuhlanganisa i-IEC62619, IEC 62040, IEC 62477, IEC 61000-6-1 / 3 kanye ne-UN 38.3.

 

Inhloso yethu ukukusiza ukuthi uthole ukuqonda okungcono kwamabhethri okugcina amandla ngokuchazwa kwale mingcele enemininingwane. Khomba isistimu yebhethri yokulondoloza amandla engcono kakhulu ngezidingo zakho.