ʻO PV Energy Storage System he hale waihona waihona ikehu waho a pau e hoʻohui i kahi pākaukau LFP, BMS, PCS, EMS, ea ea, a me nā lako pale ahi. ʻO kāna hoʻolālā modular e loaʻa ana kahi hierarchy ʻōnaehana cell-battery module-battery rack-battery system hierarchy no ka maʻalahi o ka hoʻonohonoho ʻana a me ka mālama ʻana. Hōʻike ka ʻōnaehana i kahi pahu pākaukau kūpono, ka ea a me ka mālama ʻana i ka wela, ka ʻike ahi a me ka hoʻopau ʻana, ka palekana, ka pane ʻana i ka pilikia, anti-surge, a me nā mea pale honua. Hoʻokumu ʻo ia i nā haʻina haʻahaʻa a me nā hopena kiʻekiʻe no nā noi like ʻole, e hāʻawi ana i ke kūkulu ʻana i kahi kaiaola zero-carbon hou a me ka hōʻemi ʻana i ka wāwae kalapona ʻoihana ʻoiai e hoʻomaikaʻi ana i ka ikehu.
Mālama kēia ʻenehana i ka hoʻopiʻi ʻia ʻana a me ka hoʻokuʻu ʻia ʻana o kēlā me kēia cell i loko o ka pahu pākahi, kahi e hoʻonui ai i ka hiki o ka pākaukau a hoʻonui i kona ola. Hiki ke kōkua i ka pale ʻana i ka overcharging a i ʻole ka undercharging, hiki ke alakaʻi i nā pōʻino palekana a i ʻole ka hoʻemi ʻana i ka hana.
ʻO ka Pūnaehana Manaʻo Bateri (BMS) e ana pololei i ka State of Charge (SOC), State of Health (SOH), a me nā ʻāpana koʻikoʻi ʻē aʻe me ka manawa pane millisecond. Mālama kēia i ka holo ʻana o ka pākaukau i loko o nā palena palekana a hāʻawi i ka hana hilinaʻi.
Ke hoʻohana nei ka pūʻolo pila kaʻa kiʻekiʻe i hoʻolālā ʻia no ka lōʻihi a me ka palekana. Hōʻike pū ia i kahi mīkini hoʻoluhi ʻelua-layer e pale ai i ka overpressure a me kahi ʻōnaehana nānā ʻana i ke ao e hāʻawi i nā ʻōlelo aʻo wikiwiki inā loaʻa kekahi pilikia.
Hele mai ka pūʻolo pila me kahi hōʻike LCD kikohoʻe piha e hōʻike ana i ka ʻike manawa maoli e pili ana i ka hana o ka pākaukau, me ka SOC, ka volta, ka mahana, a me nā ʻāpana ʻē aʻe. Kōkua kēia i nā mea hoʻohana e nānā i ke olakino o ka pākaukau a hoʻonui i kona hoʻohana ʻana.
Hana pū ka BMS me nā ʻōnaehana palekana ʻē aʻe i ke kaʻa e hāʻawi i ka mana palekana piha. Hoʻopili kēia i nā hiʻohiʻona e like me ka pale overcharge, over-discharge protection, pale kaapuni pōkole, a me ka pale wela.
Hoʻopili pū ka BMS me kahi paepae kapuaʻi e hiki ai ke ʻike i ke kūlana o ke kelepona i ka manawa maoli. Kōkua kēia i nā mea hoʻohana e nānā i ke olakino o ka pākaukau a ʻike i nā pilikia ma mua o ka lilo ʻana i mea koʻikoʻi.
Hoʻohālike | SFQ-E241 |
Nā palena PV | |
Mana helu ʻia | 60kW |
mana hookomo nui | 84kW |
Voltage komo nui | 1000V |
ʻO ka laulā uila MPPT | 200~850V |
Volta hoʻomaka | 200V |
Nā laina MPPT | 1 |
ʻO kēia manawa komo nui | 200A |
Nā palena pākaukau | |
ʻAno pūnaewele | LFP 3.2V/314Ah |
Voltage | 51.2V/16.077kWh |
Hoʻonohonoho | 1P16S*15S |
Laulā uila | 600~876V |
Ka mana | 241kWh |
BMS kamaʻilio pilina | CAN/RS485 |
Ka uku a me ka hoʻokuʻu ʻana | 0.5C |
ʻO AC ma nā ʻāpana kaha | |
Ka mana AC | 100kW |
mana hoʻokomo nui | 110kW |
Helu uila koho | 230/400Vac |
Ua helu ʻia ka alapine mānoanoa | 50/60Hz |
Ke ala komo | 3P+N+PE |
ʻO kēia manawa AC Max | 158A |
Maʻiʻo Harmonic THDi | ≤3% |
ʻO nā ʻokoʻa hoʻokaʻawale AC | |
Ka mana puka kiʻekiʻe | 110kW |
Puke uila i koho ʻia | 230/400Vac |
Pili uila | 3P+N+PE |
Ua helu ʻia ka alapine puka | 50Hz/60Hz |
ʻO kēia manawa puka kiʻekiʻe | 158A |
ʻOi aku ka mana hoʻouka | 1.1 manawa 10min ma 35 ℃/1.2 manawa 1min |
Hiki ke hoʻouka kaulike ʻole | 100% |
Palekana | |
Hoʻokomo DC | Hoʻouka i ka hoʻololi+Bussmann fuse |
Mea hoʻololi AC | Schneider kaapuni kaapuni |
Puke AC | Schneider kaapuni kaapuni |
Pale ahi | PACK pae pale ahi + ʻike uahi + ʻike wela, perfluorohexaenone pipeline ʻōnaehana kinai ahi. |
Nā palena maʻamau | |
Ana (W*D*H) | 1950mm * 1000mm * 2230mm |
Kaumaha | 3100 kg |
ʻO ke ʻano hanai i loko a i waho | Ilo-Iloko a me lalo-waho |
Mahana | -30 ℃~+60 ℃ (45 ℃ ke emi nei) |
Kiʻekiʻe | ≤ 4000m (>2000m ka ho'ēmi ʻana) |
Papa pale | IP65 |
ʻano hoʻoluʻu | Aircondition |
Pākuʻi kamaʻilio | RS485 / CAN / Ethernet |
Kūkākūkā kamaʻilio | MODBUS-RTU/MODBUS-TCP |
Hōʻike | Pākuʻi paʻi/pahu ao |