Incazelo:
I-high-voltage stackable LiFePO4 lithium battery lusiziwe ngokwesiphumo. Iphakamiso yokuqala le 102.4v 50Ah 5KWh, ihuhla kakhulu, kunye nokulandelana ngenkinga. Ismart BMS yesi stackable LiFePO4 battery ishicelela ukuthi ibhethe iindlela ezibhenyene nezi 30 zemithombo kanjani ngokusebenzisa i-CAN / RS485 terminals. Amaphawu akhona okanye amandla angahlukileyo kumake high-voltage LiFePO4 lithium battery kuyinketho elikhoyo lokuhlola umdlalo wemali wehluko lweqhutywa labasebenzi, amavilla, kunye ne-solar power systems. Uma ufuna ukuhlula iphasi, uzame ngempumelelo. Xhumana Nathi ukuze uthole imininingwane eyengeziwe.
Izincazelo:
| Imodeli | HVXP - P10250 |
| Uhlobo lwebhethri | I-Lifepo4 Prismatic Cell |
| Amandla Okuqamba | 5.12KWh (* Inani le-Modular) |
| Amandla Okusetshenziswa | 4.6KWh (* Inani le-Modular, 90% DOD) |
| Inani le-voltage | 102.4V (* Modular Quantity) |
| Isivoltage esizenzekile | 92.8 – 115.2V (* Ubuningi beModular) |
| Amandla kagesi | 112V (* Ubuningi beModular) |
| UMax. Inani lamanje | 25A (* Ubuningi beModular) |
| UMax. Ukukhishwa Kwamanje | 40A (* Ubuningi beModular) |
| Ukuphila Okuhleliwe | iminyaka eyi-10 (25°C) |
| Isikhathi sokuphila | > 6000 (25°C), 80% I-EOL |
| Ukwehla | Imodyuli: Max. 3 Ikhono: 15KWh |
| Ukuxhumana | I-RS485, i-CAN |
| Ukuphakama kokusebenza | ≤ 2000m |
| Ukuvikelwa Kokungena | IP54 |
| ## Ukuthola izinga lokushisa | ## 65±2°C (149±2°F) |
| Izinga Lokusebenza | 0°C – 50°C (32°F – 122°F) |
| Izinga Lokusebenza | -20°C – 50°C (-4°F – 113°F) |
| ## Izinga Lokugcina | 0°C – 45°C (Kuhlongozwa) (32°F – 113°F) |
| Umswakama Wendawo Yokugcina | ≤ 85% (RH) |
| Umswakama Wokusebenza | ≤ 95% (RH) Akukho Ukufingqa |
| Isisindo Esiphelele Sebhathri | 54kg (* Ubuningi beModular) |
| Isisindo Esiphelele seMkhawulo Ophakeme | izindleko |
| Isisindo Esiphelele seSisekelo | 13kg |
| Usayizi Wepakethe Yebhathri | 580mm*240mm*440mm (1 Imodyuli) |
| Usayizi Wepakethe seMkhawulo Ophakeme | 580mm*240mm*410mm |
| Usayizi Wepakethe seSisekelo | 580mm*240mm*110mm |
Izicateleni:
I-Stack Battery ku-GreenPower
IGreenPower ingumkhiqizi webhethri we-LiFePO4 onolwazi. Sinikeza izixazululo eziningi zokugcina amandla kumakhasimende ahlukahlukene ahlinzeka ngezinhlelo zokusebenza ezifana nokugcinwa kwamandla okuhlala, ezentengiselwano nezimboni. Amabhethri e-GreenPower LiFePO4 angafakwa ndawonye akhiqizwa ngezinga eliphakeme. Ubuchwepheshe bebhethri i-LiFePO4 buneminyaka engaphezu kwengu-10 yokusebenza. Njengoba zenziwe ngamasondo, kulula ukuzifaka nokuzishukumisela. Ibhodi lokuvikela i-BMS elakhelwe ngaphakathi linikeza ukuvikelwa okuphelele kwamabhethri angafakwa ndawonye. Kukhona ukufudumala okuzenzakalelayo, kanye nemisebenzi yokulawula kude i-wifi. Umkhiqizo we-GreenPower othuthukile ozenzakalelayo nomnyango ocwaningayo nowokuthuthukisa ukuqinisekisa ukuthi amabhethri e-lithium agcwele isikhathi eside aphephile. Izinsizakalo ze-OEM ne-ODM ziyatholakala.
Ividiyo:
Izinzuzo:
Isakhiwo
Ibhathri yeLiFePO4 Engabekwa Phezulu
1.Isiginali ye-positive: amandla okukhipha ama-battery
2.Isiginali engathandeki: amandla aphuma ebhakthri angathandeki
3.Umshayo: ulawula umjikelezo wokuphuma, shintsha iswishi ibe ON uma usebenzisa
4.PCS: ukuxhumana ngebhethri nama-PC nge-RJ45 8P8C
4.Iphuzu le-Parallel A: Ukufaka ikheli lokuxhumana kweqoqo lebhathri
5.Iphuzu le-Parallel B: Ukuphuma kwekheli lokuxhumana kweqoqo lebhathri
6.Umsebenzi wokuqala: Iswishi yokuqala yesistimu. Cindezela inkinobho, i-BMS izosebenza.
7.Umsebenzi wokuqala ophoqelelwe: Cindezela futhi ubambe inkinobho imizuzwana emi-5. I-BMS izosebenza futhi ivale ama-relay. Ukuhlinzekwa kwamandla ku-PCS uma ingenamandla.
Izici
Ibhathri Ephakeme
Imibuzo Evame Ukubuzwa:
Ingabe ibhethri le-lithium lingakwazi ukukala amandla aphezulu?
Iphakethe lamabhethri e - lithium e - high - voltage ngokwalo alikwazi ukukala amandla. Kuyithuluzi lamandla okugcina nokuhambisa amandla. Ungabona idatha yevolthi ngokusebenzisa uhlelo lokuphatha ibhethri (BMS) olwakhelwe ngaphakathi kwebhethri le - lithium elisebenza ngamandla aphezulu, noma ungasebenzisa imitha ekhethekile yokulinganisa amandla kagesi ukuze ubheke futhi uphathe amandla amabhethri.
Ngabe ngingahlanganisa amabhethri e-lithium anokuphakanyiswa okuphezulu namabhethri e-alkaline?
Akukhuthazwa ukuhlanganisa amabhathri e-lithium aphezulu - voltage namabhathri e-alkaline kudivayisi efanayo, ikakhulukazi amabhathri aphezulu - voltage. Nansi imbangela ebalulekile:
1.Umehluko Wokucindezela: Amabhethri e-lithium anokucindezela okuphezulu okuphezulu kunamabhethri e-alkaline. Uma uzixuba, kuzobangela ukungalingani kwamanje, okuyolimaza umshini wakho.
2. Izinga Lokukhishwa: Amabhathri e-lithium aphezulu - voltage akhishwa ngokwengeziwe futhi agcine i-voltage isikhathi eside, kanti amabhathri e-alkaline azokwehla kancane i-voltage njengoba ekhishwa. Uma uwaxhuma ahlanganisiwe, kuzoholela ekusebenzeni okungalingani.
3.Ukuphakama Kwezingcuphe: Lapho amabhethri e-lithium aphezulu - volt ne-alcaline ebhethri exhunywe ngochungechunge, ukungalingani kwe-voltage kungaphoqa amanye amabhethri ukuba asebenze ngokweqile, okuzoholela ekushiseni, ukulimala kwamacell e-lithium namacell e-alcaline.
4. Ukubamba iqhaza Ukungavumelani Kwamakhemikhali: Amabhethri e-lithium nama-alkaline anamakhemikhali angaphakathi ahlukile futhi awaklanyelwe ukusebenza ndawonye. Ukuzixuba kuzoholela ekungazinzeni, ekuvuza nasezingozini zokuphepha.
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