When it comes to efficiency, it truly shines. It incorporates cutting-edge technology that continuously optimizes the power conversion process. Through advanced algorithms and intelligent power management, it achieves an efficiency rating that surpasses many of its competitors. In a solar-powered off-grid cabin, for example, where energy storage is crucial, every watt of DC power needs to be carefully conserved. The inverter's high efficiency means that more of the sun's energy, stored in batteries during the day, is available as AC power in the evening. This not only extends the battery life by reducing unnecessary discharge cycles but also allows for longer periods of autonomous power supply. Over time, the cumulative energy savings can amount to significant reductions in the cost of maintaining the power system, making it an economical choice for long-term use.
Power Quality Monitoring Technology: In addition to improving the power quality of their output, inverters can also monitor the quality of the incoming power. Power quality monitoring technology uses sensors and analyzers to measure parameters like total harmonic distortion (THD), voltage sags, and swells in the input power. This information is valuable for both the end-user and the grid operator. For the user, it helps identify potential problems with the power source that could affect the performance of their appliances. For the grid operator, it provides data on the local power quality, enabling them to take corrective actions and maintain grid stability. The inverter can display this power quality data or transmit it to a central monitoring system.
Inverter production involves the use of chemicals in some processes, such as soldering and surface treatment. We have strict chemical management procedures in place. Safety data sheets (SDS) are provided for each chemical, and employees are trained on how to handle them safely. Storage areas are separated and ventilated to prevent any chemical hazards.

| Model |
SUN-10K
|
|
Battery
|
Lead-acid / Li-lon
|
|
Battery Voltage
|
40~60V
|
|
DC Input Power
|
13000W
|
|
MPPT
|
200-650V
|
|
PV Input Current
|
26+13
|
|
AC Output Power
|
10000W
|
|
Frequency and Voltage
|
50/60Hz; 230/400V
|
|
Efficiency
|
>97% |
|
Grid Regulation
|
CEI 0-21, VDE-AR-N 4105, NRS 097, IEC 62116, IEC 61727, G99, G98,
VDE 0126-1-1, RD 1699, C10-11
|
|
Communication
|
RS485; CAN
|
|
Protection
|
IP65
|






















