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Model:
SUN-8K-SG01LP1-USOutput Voltage:
120/240VacMax Output power:
8800VAPV Input Voltage:
370(125-500)Battery Voltage:
40-60VWeight:
33.6kgDimension:
422*699.3*279mm(W/H/D)Display:
OLED+LED/WIFI+APPCertification:
CE, VDE0126, EN50549, IEC62116, IEC61727, IEC 60068, IEC 61683, G98/G99, G100, AS4777Warranty:
5 Years
Deye Split Phase 8kw Hybrid Solar Inverter
A split phase solar inverter is a type of inverter designed for residential or small-scale commercial solar installations that utilize a split-phase electrical system. Here are some key features of split phase solar inverters:
Split-Phase Operation: Split-phase electrical systems are commonly used in North American residential buildings. It consists of two 120V hot wires (L1 and L2) that are 180 degrees out of phase with each other, providing a 240V supply for larger appliances. Split phase solar inverters are designed to work with this specific electrical configuration, allowing the solar energy to be integrated into the grid seamlessly.
Dual MPPT Capability: A split-phase solar inverter usually features dual Maximum Power Point Tracking (MPPT) inputs. MPPT is a technology that allows the inverter to optimize the power output from the solar panels by finding the maximum power point of each panel or string of panels individually. With dual MPPTs, the inverter can handle two separate solar array inputs, optimizing their power production independently.
Grid Connectivity: Split-phase solar inverters are designed to connect to the utility grid to enable both the consumption of grid power and the export of excess solar-generated power. This bidirectional connection allows the household or business to use grid power when solar production is low (e.g., at night or in cloudy conditions) and sell excess solar energy back to the grid when production exceeds consumption.
| Model | SUN-8K-SG01LP1-US | ||
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| Battery Type | Lead-acid or Li-Ion | ||
| Battery Voltage Range(V) | 40-60V | ||
| Max.Charging Current(A) | 190A | ||
| Max.Discharging Current(A) | 190A | ||
| External Temperature Sensor | Yes | ||
| Charging Curve | 3 Stages/Equalization | ||
| Charging Strategy for Li-Ion Battery | Self-adaption to BMS | ||
| PV String Input Data | |||
| Max.DC Input Power(W) | 10400W | ||
| Rated PV Input Voltage(V) | 370(125-500) | ||
| Start-up Voltage(V) | 125V | ||
| MPPT Voltage Range(V) | 150V-425V | ||
| Full Load DC Voltage Range(V) | 200V-425V | ||
| PV Input Current(A) | 26+26 | ||
| Max.PV Isc(A) | 44+44 | ||
| No.of MPPT Trackers | 2 | ||
| No.of Strings per MPP Tracker | 2 | ||
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| Rated AC Output and UPS Power(W) |
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| Max.AC Output Power(W) | 8800W | ||
| AC Output Rated Current(A) | 33.3/38.5 | ||
| Max.Continuous AC Passthrough(A) | 50A | ||
| Peak Power(off grid) | 2 time of rated power,10S | ||
| Power Factor | 0.8 leading to 0.8 lagging | ||
| Output Frequency and Voltage | 120/240Vac (split phase) | ||
| Grid Type | Split Phase | ||
| DC injection current(mA) | THD﹤3%(Linear load﹤1.5%) | ||
| Efficiency | |||
| Max.Efficiency | 97.6% | ||
| Euro Efficiency | 97% | ||
| MPPT Efficiency | 99.9% | ||
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5th floor, Block A, Science Avenue,High-tech District, Hefei , Anhui .China
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