3 Phase Residential Energy Storage System Household Battery Backup System
There are several advantages to using a 3-phase residential energy storage system over a single-phase system:
Higher power output: 3-phase power systems provide a higher power output compared to single-phase systems.
This means that 3-phase energy storage systems can handle larger electrical loads and power more appliances
and equipment in the home.
Better balance of power: 3-phase systems distribute power more evenly between the three phases, which can
help to reduce the risk of voltage fluctuations and imbalances. This can help to improve the overall efficiency and
reliability of the energy storage system.
Better compatibility with electrical infrastructure: Many residential and commercial buildings use a 3-phase
electrical system, so a 3-phase energy storage system can be more compatible with the existing electrical
infrastructure. This can help to simplify the installation process and reduce costs
More efficient energy storage: Because 3-phase systems distribute power more evenly, they can provide more
efficient energy storage compared to single-phase systems. This can help to maximize the amount of energy that
can be stored and used in the home.
3 Phase Residential Energy Storage System Household Battery Backup System
There are several advantages to using a 3-phase residential energy storage system over a single-phase system:
Higher power output: 3-phase power systems provide a higher power output compared to single-phase systems.
This means that 3-phase energy storage systems can handle larger electrical loads and power more appliances
and equipment in the home.
Better balance of power: 3-phase systems distribute power more evenly between the three phases, which can
help to reduce the risk of voltage fluctuations and imbalances. This can help to improve the overall efficiency and
reliability of the energy storage system.
Better compatibility with electrical infrastructure: Many residential and commercial buildings use a 3-phase
electrical system, so a 3-phase energy storage system can be more compatible with the existing electrical
infrastructure. This can help to simplify the installation process and reduce costs
More efficient energy storage: Because 3-phase systems distribute power more evenly, they can provide more
efficient energy storage compared to single-phase systems. This can help to maximize the amount of energy that
can be stored and used in the home.
Greater flexibility: A 3-phase residential energy storage system can be more flexible in terms of the types of loads
it can power. It can handle both single-phase and 3-phase loads, which can provide greater flexibility in the types of
appliances and equipment that can be powered by the system.
Overall, a 3-phase residential energy storage system can provide higher power output, greater efficiency, and better
compatibility with existing infrastructure compared to a single-phase system. However, it is important to consider the
specific needs of the home and the size and capacity of the energy storage system when deciding which type of
system to use.
Object | Descripition |
1 | |
2 | |
3 | |
4 | |
5 |
| Battery Model/Specifications | |
| Physical | |
| Battery type | LFP (LiFePO4) |
| Weight | 54KG |
| Dimension (W x H x D) | 540*490*240mm |
| IP Protection | IP65 |
| Warranty | 5 Year Product Warranty, |
| 10 Year Performance Warranty | |
| Electrical | |
| Usable Capacity | 4.6kwh |
| Energy Capacity | 5.12kwh |
| DC Circuit Breaker | 125A |
| Depth of Discharge (DoD) | 90% |
| Nominal Voltage | 51.2V |
| Operating Voltage Range | 44.8-56.5V |
| Internal Resistance | <20mΩ |
| Cycle Life | 6000cycle |
| Battery Pack 5.1 | |
| Operation | |
| Max. Charge/Discharge Current | 50A/80A |
| Rated DC power | 4096W |
| Humidity | 0~95% (No condensation) Humidity |
| Max. Charge/Discharge Power | 2825W/4096W |
| Operating Temperature Range | -10 to 50℃ charging |
| -10 to 50℃ discharging | |
| BMS | |
| Modules Connection | Max. 8 |
| Capacity | 200-800Ah |
| Power Consumption | <2W |
| Communication | CAN & RS485 |
| Monitoring Parameters | System voltage, current, cell voltage, cell |
| temperature, PCBA temperature measurement | |
| Certificate | |
| Safety(Cell) | Pack: IEC/EN 62619;UN38.3 |
| Cell: IEC/EN 62619;UN38.3;UL1973 | |
| *Maximum 8 battery pack in parallel. | |
| Hybrid Inverter Model/Specifications | E10 |
| PV String Input | |
| Max. Continuous PV Input Power | 20KW |
| Max. DC Voltage | 1100V |
| Nominal Voltage | 720V |
| MPPT Voltage Range | 140V-1000V |
| MPPT Voltage Range (Full Load) | 420V-850V |
| Start Voltage | 200V |
| Number of MPPT Tracker | 2 |
| Strings Per MPPT Tracker | 1 |
| Max. Input Current Per MPPT | 15A |
| Max. Short-circuit Current Per MPPT | 20A |
| AC Output (Grid) | |
| Nominal AC Output Power | 10KW |
| Max. AC Apparent Power | 11KVA |
| Nominal AC Voltage | 400Vac |
| AC Grid Frequency Range | 50 / 60Hz±5H |
| Nominal Output Current | 14.6A |
| Max. Output Current | 16A |
| Power Factor (cosΦ) | 0.8leading-0.8lagging |
| THDi | <3% |
| Battery Input | |
| Battery Type | LFP (LiFePO4) |
| Nominal Battery Voltage | 51.2V |
| Charging Voltage Range | 44-58V |
| Max. Charging Current | 160A |
| Max. Discharging Current | 200A |
| Battery Capacity | 200-800Ah |
| Charging Strategy for Li-ion Battery | Depend on the BMS |
| AC Output (Backup) | |
| Nominal AC Output Power | 9.2KW |
| Max. Output Apparent Power | 10KVA |
| Nominal Output Current | 13.3A |
| Max. Output Current | 14.5A |
| Nominal Output Voltage | 400V |
| Nominal Output Frequency | 50/60Hz |
| Output THDv (@Linear Load) | <2%(Linear Load) |
| Efficiency | |
| Euro. PV Efficiency | 97.60% |
| Max. PV Efficiency | 97.00% |
| Protection | |
| Anti-islanding Protection | Yes |
| Output Over Current | Yes |
| DC Reverse Polarity Protection | Yes |
| String Fault Detection | Yes |
| AC/DC Surge Protection | DC Type II;AC Type III |
| Insulation Detection | Yes |
| AC Short Circuit Protection | Yes |
| General Specifications | |
| Dimensions W x H x D | 540*980*240mm |
| Weight | 49kg |
| Operating Temperature Range | -25℃~+60℃ |
| Operation Humidity | 0~95% (No Condensation) |
| Cooling Type | Natural Convection |
| Max. Operation Altitude | 2000m |
| Noise (dB) | <25 |
| Topology | Battery Isolation |
| IP Class | IP65 |
| Communication | RS485/CAN2.0/WIFI/4G |
| Display | LCD/APP |
| Certification & Standard | IEC/EN 62109-1&2;IEC/EN61000-6-1;IEC/EN61000-6-2; EN61000-6-3; IEC/EN61000-6-4; IEC/EN61000-3-11; |
| EN61000-3-12;IEC60529;IEC 60068;IEC61683;IEC62116;IEC61727; EN50549-1; | |
| AS 4777.2;NRS 097;VDE-AR-N-4105;CEI0-21;G98;G99;C10/C11 | |
| Remark | |
| * 0.95leading-0.95lagging for Germany | |
FAQ
1. Who are we?
We are a professional manufacturer on Solar Panel with many years experience. Our factory and business office
located in Shenzhen City Guangdong Province
2. What can we provide?
We can provide solar panel,solar inverter,solar energy system.
3. Why choose us?
A.Higher power generation
B.Competitive price
C.High quality standard
D.Customized service
4. What services can we provide?
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Accepted Payment Type: T/T,L/C,Cash.
Contact us
E-mail:info@skymico.com
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