Kapaċità Rated: 320AH
Nominalvoltage: 51.2V
Vultaġġ fit-tarf tal-kwittanza: 41.6V ± 0.5V
Vultaġġ tal-limitu tal-batterija:58.4V+0.5
Impedenza interna: ≤50mQ
A 48V 320Ah stackable LiFePO4 battery is a modular, high-capacity energy storage unit that provides approximately 16kWh of power, renowned for its safe lithium iron phosphate chemistry, long lifespan of thousands of cycles, u effiċjenza għolja. Its key feature is a stackable design, allowing multiple units to be connected to easily scale up a system’s total energy capacity for applications like home solar storage, sistemi ta' enerġija ta' riżerva, and off-grid solutions, all while being managed by an integrated Battery Management System (BMS) for safety and performance.
→JK Stack-able 51.2V314Ah-16S200A DC Breaker Battery Specification
What is a 48V 320Ah LiFePO4 Battery?
A 48V 320Ah LiFePO4 battery is a high-capacity energy storage solution utilizing Lithium Iron Phosphate chemistry. Il- “48V” indicates its nominal voltage, u “320Ah” (Amp-sigħat) reflects its charge capacity. Multiplying these values gives the total energy storage:48V × 320Ah = 15,360 Wh or approximately 16 kWh. This means the battery can theoretically deliver 16,000 watts of power for one hour, or proportionally less for a longer duration.
Key characteristics of LiFePO4 batteries include:
Safety and Stability:The LiFePO4 chemistry offers high thermal and chemical stability, making it one of the safest lithium-ion battery types with a minimal risk of fire or explosion.
Long Cycle Life: These batteries support a high number of charge-discharge cycles, often between 2,500 għal fuq 5,000 ċikli, with some models claiming up to 10,000 cycles while retaining significant capacity. This translates to a service life of 10 years or more.
High Efficiency: They feature a high Depth of Discharge (Dod), often up to 100%, meaning you can use nearly the full rated capacity without damaging the battery. They also charge faster and have lower self-discharge rates compared to lead-acid batteries.
Environmental Friendliness: LiFePO4 batteries are cobalt-free, using more abundant and less toxic iron and phosphate, making them a greener choice.
How are LiFePO4 Batteries Processed?
The manufacturing of LiFePO4 battery cells is a complex and precise process involving three major stages. It’s worth noting that the final commercial product, like a 16kWh power supply, involves additional assembly steps to integrate these cells with other components.
1. Cell Manufacturing Stage
This stage focuses on creating the core components of the battery: the electrodes.
Slurry Mixing: Active materials (LiFePO4 powder for the cathode, graphite for the anode) are mixed with a binder and conductive additives to form a uniform slurry.
Coating and Drying: The slurry is evenly coated onto metal foils (aluminum for the cathode, copper for the anode) and dried to form the electrode sheets.
Calendering: The coated sheets are compressed by rollers to increase their density, which enhances the battery’s energy capacity and extends its life.
Slitting: The wide rolls of electrode sheets are cut into narrower strips of the required width for the specific battery cell design.
Electrode Tab Making:Tabs are welded onto the slit electrode sheets to serve as connection points for the subsequent assembly process.
2. Assemblea Ċellula & Formation Stage
Hawn, the components are assembled into a functioning battery cell.
Stacking/Winding: Depending on the cell shape (prismatic, cylindrical, or pouch), the positive and negative electrode sheets are separated by a porous membrane and are either stacked or wound together.
Cell Sealing and Liquid Injection: The assembled core is placed into a battery case, which is then sealed (except for a filling port). The electrolyte is injected into the dry cell in a vacuum environment.
Formation: This is the first charge of the battery. It activates the materials and forms a critical stable interface layer (SEI film) on the anode, which is essential for battery performance and longevity.
Aging, Ittestjar, and Sorting: After formation, batteries are stored (aged) to ensure stability. They then undergo rigorous testing of their capacity, vultaġġ, and other parameters. Cells are sorted based on performance to ensure consistency.
3. Final Battery Pack Assembly
For a pre-assembled unit like a 16kWh power supply, the individual cells are integrated into a complete system.
Module Assembly: Sorted cells are connected in series and parallel (E.g., 16 cells in series for a 48V system) and fixed together with holders.
BMS and Safety System Integration: Sistema ta 'Ġestjoni tal-Batterija (BMS) is installed and connected. The BMS is critical for safety and longevity, as it monitors voltage and temperature, provides protection against overcharge and over-discharge, and ensures cell balancing. Some advanced batteries also include features like built-in heaters for charging in cold weather.
Packaging and Final Testing:The module is placed into a protective casing, connected to external terminals, and undergoes a final round of tests (E.g., kapaċità, high-current, vibrazzjoni) before shipment.
Market Trends for LiFePO4 Batteries
The LiFePO4 battery market is experiencing significant growth, driven by global shifts toward clean energy.
Rapid Market Expansion:The global lithium iron phosphate battery market is projected to grow substantially, with some estimates anticipating the market to reach USD 84.23 biljun minn 2035, growing at a compound annual growth rate (CAGR) ta' fuq 17%. Another report specifically notes the strong growth in the solar LiFePO4 battery segment.
Cost Competitiveness: LFP cells are roughly 30% more affordable than Nickel Manganese Cobalt (NMC) alternatives. As of 2024, cell prices have dropped significantly, making this technology increasingly accessible.
Technology and Manufacturing Trends:
A.Chemistry Shift: There is a clear trend toward adopting LiFePO4 over other lithium chemistries like NMC in stationary storage and some electric vehicles due to its superior safety and cycle life.
B.Modular Design: Modern batteries are designed to be modular and stackable, allowing users to easily scale their energy storage capacity from a few kWh to over 100 kWh.
C.Advanced BMS: Integration of smart BMS with Bluetooth/Wi-Fi for remote monitoring and control is becoming a standard feature, enhancing user experience and enabling proactive maintenance.
D.Supply Chain Dominance: China remains the global hub for LiFePO4 battery production and innovation, accounting for a majority of global exports and shipments.
Where Are They Used?
The 48V 320Ah battery, with its substantial 16kWh capacity, is suited for applications requiring robust, fit-tul, and safe power.
Home Energy Storage: This is a primary application. These batteries are used in conjunction with solar panels to store excess energy for use at night or during power outages, maximizing energy self-consumption and providing backup power for homes.
Commercial and Industrial Backup Power: They provide reliable uninterruptible power supply (UPS) for data centers, infrastruttura tat-telekomunikazzjoni (E.g., 4G/5G base stations), and various industrial equipment, ensuring operational continuity.
Off-Grid and Renewable Energy Systems: For remote homes, farms, ranches, and rural micro-grids that are not connected to the public electricity grid, these batteries are essential for storing energy generated from solar, wind, or other renewable sources.
Large Mobile Applications: While smaller LiFePO4 batteries are common in RVs and boats, this high-capacity 48V unit can also be configured to power larger electric vehicles like golf carts, marine vessels, and even as part of the power system for campervans and custom van conversions.
| XINTechPro 51.2V 320AH 16kwh LiFePO4 Battery Datasheet | ||
| Oġġett | General Parameter | Rimarka |
| Kapaċità Rated | Typical 314Ah | 63A 0.2C standard charging,157A0.5C standard discharge |
| Minimum 314AH | ||
| Vultaġġ nominali | 51.2V | Mean Operation Voltage |
| Vultaġġ fit-tarf tal-kwittanza | 41.6V ± 0.5V | Vultaġġ tal-Qtugħ tal-Kwittanza |
| Vultaġġ tal-limitu tal-batterija | 58.4V ± 0.5V | max |
| Impedenza interna | ≤50mΩ | Internal resistance measured at AC 1KHz after 50% ħlas The measure must uses the new batteries that within one week after shipment and cycles less than 5 drabi |
| Ħlas standard | Kurrent Kostanti:63A Vultaġġ kostanti 58.4V |
Charge time:Approx 5h |
| Kwittanza standard | Constant current 157A end voltage41.6V±0.5V |
Discharge time is approximately 2h |
| Ħlas mgħaġġel | Constant Current 157A Vultaġġ kostanti 58.4V |
Charge time:Approx 2h |
| Kurrent massimu ta 'ħlas kontinwu | 160A | 0.5Ċ |
| Maximum Continuous Kurrent ta' Skarigu |
200A | 0.64Ċ |
| Operation Temperature Range |
Ħlas:0~ 45 ℃ Kwittanza:-20~ 60 ℃ |
60±25%R.H. Batterija |
| Temperatura tal-Ħażna Range |
Battery storage ambienttemperature (-10c~45′ ) Charge quantity30%~50% |
60±15%R.H. at the shipment state |
Il-ħin taċ-ċomb għall-ordnijiet taċ-ċelluli standard huwa 3-7 ġranet tax-xogħol għal kunsinna mgħaġġla fl-Istati Uniti u fl-Unjoni Ewropea. Għal pakketti ta 'batteriji tad-dwana, il-ħin stmat għall-iżvilupp kollu, produzzjoni, u proċess ta 'kunsinna huwa 25-30 ġranet tax-xogħol. Madankollu, jekk il-pakkett tal-batterija tiegħek ikollu rekwiżiti tekniċi aktar kumplessi, dan iż-żmien jista' jiġi estiż. Jekk jogħġbok ikkonsulta lit-tim tagħna għal informazzjoni aktar dettaljata.
Agħżel Hyninbattery bħala l-fornitur tiegħek għal soluzzjonijiet ta 'ħażna ta' enerġija. Il-fabbrika tagħna teċċella fl-għarfien espert, kapaċitajiet ta' produzzjoni, u aderenza mal-istandards tal-industrija. Bil-loġistika ssimplifikata, aħna niżguraw twassil f'waqtu u noffru għażliet ta 'adattament flessibbli biex jissodisfaw il-bżonnijiet speċifiċi tiegħek. Afda r-rekord ippruvat tagħna għal prodotti affidabbli u servizz effiċjenti. Esperjenza l-vantaġġi ta 'hyninbattery: kwalità superjuri, twassil fil-ħin, u soluzzjonijiet imfassla apposta.
Fil-prodotti tagħna, nużaw ċelluli minn EVE, CATL, Gotion, REPT u marki oħra magħrufa sew. L-aktar proċess importanti huwa li tiddetermina ċ-ċelloli t-tajba għall-ħtiġijiet uniku tal-pakkett tal-batterija ta 'kull klijent, u r-Riċerka tagħna & It-tim tal-iżvilupp huwa mgħammar tajjeb biex jagħmel dawk id-determinazzjonijiet.
Aħna nipprovdu garanzija ta ' 3 snin għaċ-ċelloli u l-pakketti tal-batteriji tagħna. Fil-każ improbabbli ta 'xi difetti, aħna se nissostitwixxu l-batteriji. Madankollu, jekk jogħġbok innota li aħna ma noffrux kopertura ta 'garanzija għal batteriji li ġew miżmuma ħażin. Dan jinkludi każijiet ta 'polarità mhux korretta, installazzjoni ħażina, sħana żejda waqt il-ħażna jew l-użu, ħsara fiżika, nar, iffriżar, ħsara mill-ilma, tbagħbis, ħsara terminali, nuqqas li tiċċarġja sew il-batterija, jew li jaqbżu ċ-ċikli ta' charge/discharge nominali.
Assolutament! Fi Hyninbattery, noffru għażliet ta 'personalizzazzjoni biex jissodisfaw ir-rekwiżiti speċifiċi tiegħek. Kemm jekk tinkorpora l-logo tal-kumpanija tiegħek jew elementi tal-marka fuq il-pakketti tal-batteriji, nistgħu nittrattawha bla xkiel. It-tim ta 'esperti tagħna se jaħdem mill-qrib miegħek biex jiżgura li l-ħtiġijiet ta' customization tiegħek jintlaħqu bi preċiżjoni u professjonalità. Ibqa 'ċert, aħna nifhmu l-importanza tal-identità tad-ditta tiegħek u se nittrattawha bl-akbar attenzjoni u attenzjoni għad-dettall. Agħżel HyXInbattery għal soluzzjonijiet personalizzati li jirriflettu l-immaġni tal-marka unika tiegħek.
Meta niġu għall-għażla tal-metodi tat-trasport, Aħna fi HyXInbattery nipprijoritizzaw is-sigurtà, effiċjenza, u kost-effettività. It-tim tal-loġistika b'esperjenza tagħna jevalwa bir-reqqa diversi fatturi bħad-distanza, volum, u urġenza biex tiddetermina l-aktar metodu ta 'trasport adattat għall-bżonnijiet speċifiċi tiegħek. Stabbilijna sħubijiet affidabbli ma 'kumpaniji tat-tbaħħir ta' reputazzjoni tajba u spedituri tal-merkanzija, niżguraw kunsinna sigura u f'waqtha tal-prodotti tagħna. Ibqa 'ċert, aħna se nagħżlu l-aħjar metodu ta 'trasport li jiggarantixxi t-trasport sigur u effiċjenti ta' l-ordnijiet tiegħek, filwaqt li tikkunsidra r-rekwiżiti baġitarji tiegħek. Afda magħna biex nittrattaw il-bżonnijiet tat-trasport tiegħek bl-akbar professjonalità.
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Fi Hyninbattery, aħna nipprijoritizzaw il-kunsinna sikura tal-prodotti tagħna. Aħna nipprovdu kopertura ta 'assigurazzjoni għall-vjeġġi, tiżgura li tkun protett f'każ ta' xi ċirkostanzi mhux previsti waqt it-transitu. Barra minn hekk, noffru numru ta 'traċċar għall-vjeġġi kollha, li jippermettilek tissorvelja l-progress tal-ordni tiegħek f'ħin reali. Bil-kopertura tal-assigurazzjoni tagħna u s-sistema ta’ traċċar fis-seħħ, jista' jkollok serħan tal-moħħ li tkun taf li l-prodotti tiegħek se jaslu b'mod sikur u li tista' ssegwi l-vjaġġ tagħhom sakemm jaslu fid-destinazzjoni tiegħek.
Fi Hyninbattery, aħna nużaw ċelloli LiFePO4 ta 'kwalità għolja fil-pakketti tal-batteriji tagħna. Dawn iċ-ċelloli huma magħrufa għas-sigurtà eċċezzjonali tagħhom, ħajja ta 'ċiklu twil, u densità għolja ta 'enerġija. Aħna nagħżlu bir-reqqa u nġibu ċelloli LiFePO4 minn manifatturi ta 'fama biex niżguraw l-affidabbiltà u l-prestazzjoni tal-pakketti tal-batteriji tagħna. Bħal EVE, CATL, BYD, Gotion, Gangfeng, REPT, Topband, CALB eċċ.,
Meta niġu għall-għażla tal-metodi tat-trasport, Aħna fi HyXInbattery nipprijoritizzaw is-sigurtà, effiċjenza, u kost-effettività. It-tim tal-loġistika b'esperjenza tagħna jevalwa bir-reqqa diversi fatturi bħad-distanza, volum, u urġenza biex tiddetermina l-aktar metodu ta 'trasport adattat għall-bżonnijiet speċifiċi tiegħek. Stabbilijna sħubijiet affidabbli ma 'kumpaniji tat-tbaħħir ta' reputazzjoni tajba u spedituri tal-merkanzija, niżguraw kunsinna sigura u f'waqtha tal-prodotti tagħna. Ibqa 'ċert, aħna se nagħżlu l-aħjar metodu ta 'trasport li jiggarantixxi t-trasport sigur u effiċjenti ta' l-ordnijiet tiegħek, filwaqt li tikkunsidra r-rekwiżiti baġitarji tiegħek. Afda magħna biex nittrattaw il-bżonnijiet tat-trasport tiegħek bl-akbar professjonalità.
Għandna pjaċir noffru chargers lill-klijenti stmati tagħna li jixtru batteriji mingħandna. Madankollu, jiddispjaċina ninfurmak li ma nistgħux nipprovdu chargers separatament għal xiri waħdu. Jekk jogħġbok innota li aħna se ninkludu l-ispiża tal-chargers tal-batteriji fil-fattura meta tixtri batteriji mingħandna. Għal aktar informazzjoni, nirrakkomandaw li nikkonsultaw it-tim tagħna. Grazzi tal-fehim tiegħek.
Fi Hyninbattery, aħna niggarantixxu pakkett ta 'batteriji ta' kwalità tajba permezz tal-fatturi ewlenin li ġejjin:
1. Għażla taċ-Ċelloli Superjuri: Aħna nagħżlu bir-reqqa ċelloli tal-jone tal-litju ta 'kwalità għolja minn fornituri ta' fiduċja magħrufa għall-affidabbiltà u l-prestazzjoni tagħhom.
2. Kontroll strett tal-Kwalità: Il-proċessi tal-manifattura tagħna jaderixxu ma 'miżuri stretti ta' kontroll tal-kwalità, li jiġi żgurat assemblaġġ konsistenti u preċiż ta 'pakketti ta' batteriji.
3. Sistema ta 'Ġestjoni ta' Batteriji Avvanzata (BMS): Il-pakketti tal-batteriji tagħna huma mgħammra b'BMS avvanzat li jipprovdi protezzjoni ta 'kurrent żejjed, protezzjoni kontra ċirkwit qasir, protezzjoni ta 'skoperta tat-temperatura, u l-funzjonalità tal-ibbilanċjar, li tiżgura tħaddim sikur u effiċjenti.
4. Ittestjar estensiv: Aħna nwettqu ttestjar komprensiv, inkluża l-prestazzjoni, sigurtà, u valutazzjonijiet tal-affidabbiltà, biex tivverifika l-kwalità u d-durabilità tal-pakketti tal-batteriji tagħna.
5. Fabbrika b'Esperjenza u Ċertifikata: Il-fabbrika avvanzata tagħna ssegwi standards u ċertifikazzjonijiet tal-industrija, niżguraw proċessi ta 'manifattura ta' kwalità għolja u trasport sikur tal-batteriji tagħna.
Billi tiffoka fuq dawn il-fatturi, aħna niggarantixxu li l-pakketti tal-batteriji tagħna jilħqu l-ogħla standards ta 'kwalità, sigurtà, u l-prestazzjoni, jipprovdu lill-klijenti tagħna b'soluzzjoni ta 'ħażna ta' enerġija affidabbli u fit-tul.
Il-klijenti tagħna faħħru b'mod konsistenti l-hyninbattery għall-prestazzjoni eċċezzjonali u l-affidabbiltà tagħha. Japprezzaw il-ħajja twila tal-batterija, kost-effettività, u kapaċitajiet konvenjenti ta 'monitoraġġ Bluetooth. Is-sistema BMS affidabbli b'karatteristiċi bħal protezzjoni ta 'kurrent żejjed, protezzjoni kontra ċirkwit qasir, u l-iskoperta tat-temperatura kienet meqjusa ħafna biex tiġi żgurata s-sigurtà. Id-densità għolja ta 'enerġija u l-ħajja ta' ċiklu twil taċ-ċelloli lifepo4 użati f'pakketti ta 'hyninbattery irċevew ukoll feedback pożittiv. B'mod ġenerali, il-klijenti jivvalutaw hyninbattery għall-kwalità tiegħu, innovazzjoni, u impenn biex jiġu pprovduti soluzzjonijiet affidabbli għall-ħażna tal-enerġija fid-dar.
Tipi ta 'batteriji ewlenin: Batteriji tal-litju, Batteriji LiFePO4, pakketti ta 'batteriji LiFePO4 tad-dwana, Sistema ta 'batteriji solari tad-dar ESS all-in-one.
Applikazzjonijiet Ewlenin: E-bikes, RVs, Karozzi tal-Golf, Karozzi tat-turs, E-scooters, Forklifts, Knis, Jottijiet, Apparat tal-vettura, Tagħmir tal-mobbiltà elettronika, baħar, Sistema tal-Enerġija tad-dar u sistema Solari RV.