SolarEdge 10,000 Watt 480 VAC Grid Tie Inverter
What makes the SolarEdge system unique is its combination of the benefits of inverter-level monitoring and control with a single, central inverter. This allows SolarEdge to offer low costs while still maximizing the output of your solar array, even if there are shading issues or mismatched modules. It should be noted that this product does not work alone; it requires the use of a SolarEdge optimizer on each panel.
Specifications
Model |
SE10KUS-480-US |
Series |
Three Phase Inverters |
Manufacturer |
SolarEdge |
Mechanical
Type |
Grid-Tie Commercial |
Operating Temperature Range |
-25° C - 60° C |
Enclosure |
NEMA 3R |
Cooling |
Fans (User replaceable) |
Dimensions (W x H x D) |
30.5" x 12.5" x 10.5" |
Weight |
79.7 lbs |
Shipping Method |
Freight |
Input (DC)
Recommended PV Power (STC) |
12,500 W |
Max Voltage |
980 V |
Peak Power Tracking Voltage |
N/A |
Min Start Voltage |
N/A |
Max Current |
13.5 A |
Output (AC)
Nominal Output Power |
10,000 W |
Voltage Range |
422.5 - 529 V
|
Frequency |
60.0 Hz |
Max Current |
12 A
|
Documentation
Detailed Description
The SolarEdge PV inverter combines sophisticated digital control technology with efficient power conversion architecture to achieve superior solar power harvesting and best-in-class reliability. The fixed-voltage technology ensures the solar inverter is always working at its optimal input voltage over a wider range of string lengths and regardless of environmental conditions.
- Superior efficiency (98%)
- Small, lightweight and easy to install on provided bracket
- Built-in module-level monitoring
- Internet connection through Ethernet or Wireless
- Outdoor and indoor installation
- Fixed voltage inverter, DC/AC conversion only
- Integrated AC/DC Safety Switch
A proprietary data monitoring receiver has been integrated into the inverter and aggregates the power optimizer performance data from each PV module. This data can be transmitted to the web and accessed via the SolarEdge Monitoring Portal for performance analysis, fault detection and troubleshooting of PV systems.