Makamashi Na Zamani (kWh) | 5.12 kWh |
Makamashi Mai Amfani (kWh) | 4.79 kWh |
Nau'in Tantanin halitta | LFP (LiFePO4) |
Nau'in Wutar Lantarki (V) | 51.2 |
Wutar Lantarki Mai Aiki (V) | 44.8 ~ 56.8 |
Max. Ci gaba da Cajin Yanzu (A) | 100 |
Max. Ci gaba da Fitar Yanzu (A) | 100 |
Nauyi (Kg / lbs.) | 48 Kg / 105.8 lbs. |
Girma (W × D × H) (mm) | 500*167*485 |
Yanayin Aiki (°C) | 0 ~ 55 ℃ (Caji), -20 ~ 55 ℃ (Fitarwa) |
Yanayin Ajiya (°C) Isar SOC Jihar (20 ~ 40%) | > Watan 1: 0 ~ 35 ℃; ≤1 Watan: -20~45℃ |
Danshi mai Dangi | 95% |
Max. Tsayin (m) | 4000 (> 2000m Derating) |
Digiri na Kariya | IP20 |
Wurin Shigarwa | Kasa-Duba; Bango-Duba |
Sadarwa | CAN, RS485 |
EMC | CE |
Sufuri | UN38.3 |
Garanti (Shekaru) | Shekaru 5 |
Makamashi Na Zamani (kWh) | 5.12 kWh |
Makamashi Mai Amfani (kWh) | 4.79 kWh |
Nau'in Tantanin halitta | LFP (LiFePO4) |
Nau'in Wutar Lantarki (V) | 51.2 |
Wutar Lantarki Mai Aiki (V) | 44.8 ~ 56.8 |
Max. Ci gaba da Cajin Yanzu (A) | 100 |
Max. Ci gaba da Fitar Yanzu (A) | 100 |
Nauyi (Kg / lbs.) | 48.5 Kg / 106.9 lbs. |
Girma (W × D × H) (mm) | 650x240x460 mm |
Yanayin aiki (℉/°C) [ | Cajin: 32 ~ 131 ℉ (0 ~ 55°C), Fitarwa: 4 ~ 131℉ (-20 ~ 55°C) |
Yanayin Ajiya (°C) Isar SOC Jihar (20 ~ 40%) | ≤1 wata: -4 ~ 113℉ (-20 ~ 45°C),>1 watan: 32 ~ 95℉ (0 ~ 35°C) |
Danshi mai Dangi | 0 ~ 95% |
Max. tsayi (m/ft.) | 4000 m / 13,123 ft ( 2,000 m / :6,561.68 derating) |
Digiri na Kariya | IP65 |
Wurin Shigarwa | Cikin gida/waje, Tsayayyen bene ko bangon bango |
Sadarwa | CAN, RS485 |
Takaddun shaida | IEC 62619, UL 1973, EN 61000-6-1, EN 61000-6-3, FCC Sashe na 15, UN38.3 |
Garanti (Shekaru) | Shekaru 5/10 (Na zaɓi) |
Makamashi Na Zamani (kWh) | 5.12 kWh |
Makamashi Mai Amfani (kWh) | 4.79 kWh |
Nau'in Tantanin halitta | LFP (LiFePO4) |
Nau'in Wutar Lantarki (V) | 51.2 |
Wutar Lantarki Mai Aiki (V) | 44.8 ~ 56.8 |
Max. Ci gaba da Cajin Yanzu (A) | 100 |
Max. Ci gaba da Fitar Yanzu (A) | 100 |
Nauyi | 45 Kg / 99.2 lbs. |
Girma (W × D × H) (mm) | 442 x 560 x 173 mm |
Yanayin Aiki (°C) | 0 ~ 55 ℃ (Caji), -20 ~ 55 ℃ (Fitarwa) |
Yanayin Ajiya (°C) Isar SOC Jihar (20 ~ 40%) | > Watan 1: 0 ~ 35 ℃; ≤1 Watan: -20~45℃ |
Danshi mai Dangi | 95% |
Max. Tsayin (m) | 4000 (> 2000m Derating) |
Digiri na Kariya | IP20 |
Wurin Shigarwa | Kasa-Duba; Bango-Duba |
Sadarwa | CAN, RS485 |
Tsaro | Saukewa: IEC62619 |
EMC | CE |
Sufuri | UN38.3 |
Garanti (Shekaru) | Shekaru 5/10 (Na zaɓi) |
Makamashi Na Zamani (kWh) | 9.84 kWh |
Makamashi Mai Amfani (kWh) | 9.05 kWh |
Nau'in Tantanin halitta | LFP (LiFePO4) |
Nau'in Wutar Lantarki (V) | 48V |
rated iya aiki (Ah) | 205 ah |
Hanyar haɗuwa | 15S1P |
Wutar Lantarki Mai Aiki (V) | 40.5-54 |
Max. Ci gaba da Cajin Yanzu (A) | 200 |
Max. Ci gaba da Fitar Yanzu (A) | 200 |
Nauyi | 90 Kg / 198.42 lbs. |
Girma (W × D × H) (mm) | 500*180*800 |
Yanayin Aiki (°C) | 0 ~ 55 ℃ (Caji), -20 ~ 55 ℃ (Fitarwa) |
Yanayin Ajiya (°C) Isar SOC Jihar (20 ~ 40%) | > Watan 1: 0 ~ 35 ℃; ≤1 Watan: -20~45℃ |
Danshi mai Dangi | 95% |
Max. Tsayin (m) | 4000 (> 2000m Derating) |
Digiri na Kariya | IP20 |
Wurin Shigarwa | Kasa-Duba; Bango-Duba |
Sadarwa | CAN, RS485 |
EMC | CE |
Sufuri | UN38.3 |
Garanti (Shekaru) | Shekaru 5 |
Nasiha Max. Ƙarfin shigar da PV | 6000W |
Max. Input Voltage (VOC) | 500V |
MPPT Mai aiki da Wutar Lantarki | 85V-450V (@75V Fara sama) |
Adadin MPPT | 1 |
Max. Adadin Matsalolin shigar da MPPT | 1 |
Max. Shigar da halin yanzu ta MPPT | 27A |
Max. Short-circuit Yanzu kowane MPPT | 35A |
Max. Ƙarfin shigarwa | 11500W |
Max. Shigar da Yanzu | 50A |
Ƙimar Wutar Lantarki | 220/230/240Vac |
Matsakaicin Girman Grid | 50/60Hz |
Karɓar Range | 170-280Vac (Na UPS); 90-280Vac (Na Kayan Gida) |
Nau'in Baturi | LiFePO4 / gubar-acid |
Rage Wutar Batir | 40-60Vdc |
Ƙarfin Ƙarfin Batir | 48Vdc |
Max. Cajin / Fitar Yanzu | 120A/130A |
Yanayin Sadarwa na BMS | Saukewa: RS485 |
Kololuwar inganci | 98% |
Max. Canjin MPPT | 99.90% |
Ƙarfin fitarwa mai ƙima | 6000W / 6000VA |
Fitar da Fitowar Yanzu | 27.3 A |
Ƙididdigar Fitar Wutar Lantarki / Mitar | 220/230/240Vac 50/60Hz |
Daidaitaccen Ƙarfin | Max. Raka'a 12 |
Ƙarfin Ƙarfafawa | 12000VA 5s |
THDv (@ Load ɗin Lissafi) | 3% |
Canja Lokaci | 10ms Na Hannu (Na UPS), Na Musamman 20ms (Na Kayan Gida) |
Kariyar Ciki | Kariyar Gajeren kewayawa, Kariyar Ƙarfin Wutar Lantarki |
Kariyar Kariya | PV: Nau'in III, AC: Nau'in III |
IP Rating | IP54 |
Yanayin Zazzabi Mai Aiki | -10 ℃ ~ 55 ℃ |
Dangantakar Humidity Range | 5% ~ 95% |
Max. Tsayin Aiki | Tsawon mita 2000 |
Jiran kai na cin abinci | 10W |
Nau'in Shigarwa | An saka bango |
Yanayin sanyaya | Fan sanyaya |
Sadarwa | RS232/RS485/Bushewar lamba/Wi-Fi |
Nunawa | LCD |
Girman Inverter (L x W x H) | 346.6 x 120 x 444.7 mm | Girman jigilar kaya | 560 x 465 x 240mm |
Cikakken nauyi | 12.4kg | Cikakken nauyi | 14.6 kg |
Lokacin Garanti | Shekaru 3 |
Max. Ƙarfin shigar da PV | 12000W |
Max. DC Voltage | 500V |
MPPT Voltage Range | 85V-450V |
Ƙimar Wutar Lantarki | 380V |
Farawa Voltage | 75V |
Max. DC Yanzu | 27A/27A |
Adadin MPPT | 2 |
Adadin String akan kowane MPPT | 1 |
Nau'in Terminal DC | TBD |
Max. Ƙarfin shigarwa | 20700W |
Max. Shigar da Yanzu | 90A |
Ƙimar Wutar Lantarki | 220/230/240Vac |
Matsakaicin Girman Grid | 50/60Hz |
THDi | 3% (Load ɗin Layi) |
Nau'in Baturi | LiFePO4 / gubar-acid |
Rage Wutar Batir | 40-60Vdc |
Ƙarfin Ƙarfin Batir | 48Vdc |
Max. Ƙarfin Caji / Cajin (W) | 12000 |
Max. Cajin Yanzu | 210A (MPPT: 210A; Grid: 210A) |
Max. Rarraba Yanzu (A) | 230 |
Max. Cajin Wutar Lantarki (V) | 60 |
Rarraba Zazzabi | Ee (Batir Lithium) |
Kulawa na Yanzu / Voltage | Ee |
Max. Inganci (Grid) | 95% |
Max. Inganci (Batir) | 93% |
Max. Ƙarfin fitarwa | 12000W |
Matsakaicin ƙididdiga | 50/60Hz |
Daidaiton Mita | ± 2% |
Class Voltage | 220 / 230 / 240V |
Max. Fitowar Yanzu | 54.5A |
Daidaitaccen Tsantar da Wutar Lantarki | ± 1% |
THDV (Cikakken lodi) | 3% (Load ɗin Layi) |
Ƙarfin Ƙarfafawa | 105% | Load≤150%, Ƙararrawa da Kashewa bayan 10.5s; Load≥150%, Ƙararrawa da Rufewa bayan 5.5s |
Kariya | Over- / karkashin-volway kariyar, fitarwa na yanzu-yanzu kariyar kariya, fitarwa kariyar baki, kariya ta zazzabi, kariya ta zazzabi |
Girma (L x W x H) | 125 x 535 x 630 mm / 4.92 x 21.06 x 24.80 inci |
Nauyi | 25 kg / 55.11 lbs. |
Shigarwa | Bango-Duba |
Yanayin Zazzabi na Muhalli | `-10~55℃ (>40℃ Derating) |
Danshi mai Dangi | 5 ~ 95% |
Max. Tsayi | Tsawon mita 2000 |
Ingress Rating | IP54 |
Yin Amfani da Kai | 10W |
Yanayin sanyaya | Sanyin Jirgin Sama |
Surutu | 60dB |
Nau'in Nuni | Nuni LCD |
Sadarwa | RS232 / Dry Contact / Wi-Fi / RS485 |
Garanti | 3 shekaru / 5 shekaru (na zaɓi) |
Daidaita Raka'a | 6 |
Ee, yana yiwuwa a yi amfani da hasken rana da inverter ba tare da baturi ba. A cikin wannan saitin, hasken rana yana canza hasken rana zuwa wutar lantarki na DC, wanda inverter ya canza zuwa wutar lantarki ta AC don amfani da gaggawa ko kuma ciyarwa cikin grid.
Koyaya, ba tare da baturi ba, ba za ku iya adana wutar lantarki da yawa ba. Wannan yana nufin cewa lokacin da hasken rana bai isa ba ko babu, tsarin ba zai samar da wuta ba, kuma yin amfani da tsarin kai tsaye zai iya haifar da katsewar wutar lantarki idan hasken rana ya canza.
Jimlar farashin cikakken tsarin hasken rana na kashe-grid ya dogara da dalilai daban-daban kamar buƙatun makamashi, buƙatun wutar lantarki, ingancin kayan aiki, yanayin hasken rana na gida, wurin shigarwa, kiyayewa da farashin canji, da sauransu. Gabaɗaya, farashin kashe-grid hasken rana. matsakaicin tsarin yana kusan $1,000 zuwa $20,000, daga ainihin baturi da haɗin inverter zuwa cikakken saiti.
ROYPOW yana ba da gyare-gyare, araha mai rahusa mafita na madadin hasken rana wanda aka haɗa tare da amintattu, inganci, da ɗorewa na inverter da tsarin baturi don ƙarfafa yancin kai na makamashi.
Anan akwai matakai huɗu da aka ba da shawarar a bi:
Mataki 1: Yi lissafin kayan aikin ku. Bincika duk lodin (kayan gida) da yin rikodin buƙatun wutar su. Kuna buƙatar tabbatar da waɗanne na'urori masu yuwuwa za su kasance a lokaci ɗaya kuma ku lissafta jimillar lodi (ƙananan nauyi).
Mataki 2: Girman inverter. Tun da wasu na'urorin gida, musamman waɗanda ke da injina, za su sami babban inrush na yanzu akan farawa, kuna buƙatar inverter tare da ƙimar ƙimar kololuwa wanda ya dace da adadin adadin da aka lissafta a Mataki na 1 don ɗaukar tasirin farawa na yanzu. Daga cikin nau'ikansa daban-daban, ana ba da shawarar inverter tare da fitowar raƙuman ruwa mai tsabta don inganci da aminci.
Mataki 3: Zaɓin baturi. Daga cikin manyan nau'ikan baturi, zaɓi mafi ci gaba a yau shine baturin lithium-ion, wanda ke ɗaukar ƙarin ƙarfin kuzari kowace juzu'i kuma yana ba da fa'idodi kamar babban aminci da aminci. Yi aiki da tsawon lokacin da baturi ɗaya zai yi lodi da adadin batir ɗin da kuke buƙata.
Mataki 4: Lissafin lambar panel na hasken rana. Lambar ya dogara da nauyin nauyi, inganci na bangarori, wuri na yanki na bangarori dangane da hasken rana, karkata da juyawa na hasken rana, da dai sauransu.
Anan akwai matakai huɗu da aka ba da shawarar a bi:
Mataki 1: Sami abubuwan haɗin gwiwa. Siyan abubuwan da aka haɗa, gami da filayen hasken rana, batura, inverter, masu sarrafa caji, kayan hawan kaya, wayoyi, da mahimman kayan tsaro.
Mataki na 2: Sanya na'urorin hasken rana. Hana ginshiƙan kan rufin ku ko a wurin da mafi kyawun faɗuwar rana. Ajiye a ɗaure da kusurwar su don ƙara ɗaukar hasken rana.
Mataki 3: Sanya mai sarrafa caji. Sanya mai kula da caji kusa da baturin a wuri mai cike da iska. Haɗa faifan hasken rana zuwa mai sarrafawa ta amfani da wayoyi ma'aunin da suka dace.
Mataki 4: Shigar da baturi. Haɗa baturin a jeri ko a layi daya bisa ga buƙatun ƙarfin lantarki na tsarin ku.
Mataki 5: Shigar da inverter. Sanya inverter kusa da baturin kuma haɗa, tabbatar da daidaitaccen polarity, da haɗa kayan AC zuwa tsarin lantarki na gidan ku.
Mataki 6: Haɗa kuma gwada. Bincika duk haɗin kai sau biyu, sannan wuta akan tsarin hasken rana. Saka idanu akan tsarin don tabbatar da aiki mai kyau, yin kowane gyare-gyare masu mahimmanci.
Tsarin hasken rana na waje yana aiki da kansa daga grid ɗin wutar lantarki, yana samarwa da adana isasshen kuzari don biyan bukatun iyali.
Tsarin hasken rana na kan-grid yana haɗe da grid mai amfani na gida, ba tare da ɓata lokaci ba yana haɗa hasken rana don amfani da rana yayin zana wutar lantarki daga grid lokacin da hasken rana ke samar da isasshen makamashi, kamar dare ko ranakun gajimare.
Kashe-grid da kan-grid tsarin hasken rana suna da fa'idodi da fursunoni na musamman. Zaɓin tsakanin kashe-grid da kan-grid tsarin hasken rana ya dogara da takamaiman dalilai, gami da amma ba'a iyakance ga:
Budget: Kashe-grid tsarin hasken rana, yayin da suke ba da cikakkiyar 'yancin kai daga grid, suna zuwa tare da ƙarin farashi na gaba. Na'urorin hasken rana na kan-grid sun fi tasiri, saboda suna iya rage kudaden wutar lantarki na wata-wata kuma suna iya samun riba.
Wuri: Idan kana zaune a cikin yanayin birni tare da sauƙin shiga grid mai amfani, tsarin hasken rana na kan-grid zai iya haɗawa da kayan aikin da kake da shi ba tare da matsala ba. Idan gidanku yana da nisa ko nesa da grid mai amfani mafi kusa, tsarin hasken rana na kashe wutar lantarki ya fi kyau, saboda yana kawar da buƙatar haɓaka grid mai tsada.
Bukatun Makamashi: Don gidaje masu girma da na alatu tare da manyan buƙatun wutar lantarki, tsarin hasken rana na kan-grid ya fi kyau, yana ba da ingantaccen abin dogaro yayin lokutan ƙarancin samar da hasken rana. A gefe guda, idan kuna da ƙaramin gida ko kuma kuna zaune a wani yanki mai yawan katsewar wutar lantarki ko haɗin grid mara tsayayye, tsarin hasken rana mai kashe wutar lantarki shine hanyar da zaku bi.
Ee, yana yiwuwa a yi amfani da hasken rana da inverter ba tare da baturi ba. A cikin wannan saitin, hasken rana yana canza hasken rana zuwa wutar lantarki na DC, wanda inverter ya canza zuwa wutar lantarki ta AC don amfani da gaggawa ko kuma ciyarwa cikin grid.
Koyaya, ba tare da baturi ba, ba za ku iya adana wutar lantarki da yawa ba. Wannan yana nufin cewa lokacin da hasken rana bai isa ba ko babu, tsarin ba zai samar da wuta ba, kuma yin amfani da tsarin kai tsaye zai iya haifar da katsewar wutar lantarki idan hasken rana ya canza.
Haɗaɗɗen inverters suna haɗa ayyukan duka na hasken rana da masu juyawa baturi. An ƙera masu jujjuyawar kashe-grid don yin aiki ba tare da grid mai amfani ba, yawanci ana amfani da su a wurare masu nisa inda babu wutar lantarki ko abin dogaro. Ga manyan bambance-bambance:
Haɗin Grid: Haɗaɗɗen inverters suna haɗawa da grid mai amfani, yayin da masu jujjuyawar grid ke aiki da kansu.
Ajiye Makamashi: Masu juyawa masu haɗaka suna da haɗin haɗin baturi don adana makamashi, yayin da masu jujjuyawar grid suka dogara kawai akan ajiyar baturi ba tare da grid ba.
Ƙarfin Ajiyayyen: Haɓaka inverters suna zana ƙarfin ajiya daga grid lokacin da hasken rana da tushen batir ba su isa ba, yayin da masu juyawa daga grid suka dogara da batura masu cajin hasken rana.
Haɗin Tsari: Tsarukan haɗaɗɗiya suna watsa makamashin hasken rana da yawa zuwa grid da zarar batura sun cika cikakku, yayin da tsarin kashe wutar lantarki ke adana kuzarin da ya wuce gona da iri a cikin batura, kuma idan ya cika, tilas na'urorin hasken rana su daina samar da wuta.
Yawanci, Yawancin batura masu hasken rana a kasuwa a yau suna ɗaukar shekaru biyar zuwa 15.
ROYPOW batura kashe-grid suna tallafawa har zuwa shekaru 20 na rayuwar ƙira da fiye da lokutan 6,000 na rayuwar zagayowar. Kula da baturin daidai tare da kulawa da dacewa zai tabbatar da cewa baturi zai kai mafi kyawun rayuwar sa ko ma gaba.
Mafi kyawun batura don tsarin hasken rana na kashe-gid shine lithium-ion da LiFePO4. Dukansu biyu sun fi sauran nau'ikan aikace-aikacen kashe-tsare, suna ba da caji cikin sauri, ingantaccen aiki, tsawon rayuwa, kiyaye sifili, babban aminci, da ƙarancin tasirin muhalli.
Tuntube Mu
Tukwici: Don binciken bayan-tallace-tallace da fatan za a ƙaddamar da bayanin kunan.
Tukwici: Don binciken bayan-tallace-tallace da fatan za a ƙaddamar da bayanin kunan.