In terms of size reduction technology, it utilizes compact circuit designs and high-density components. This allows it to pack a powerful punch in a small physical footprint. The reduced size not only saves space during installation but also makes it more portable for mobile applications. It's a testament to the continuous innovation in inverter technology that combines performance and convenience.
High-Voltage DC (HVDC) Inverter Technology: In some large-scale power transmission and interconnection applications, HVDC inverter technology is used. These inverters convert high-voltage DC power into AC power for grid injection or vice versa. HVDC inverters have unique design requirements, such as handling extremely high voltages and currents, and ensuring reliable power conversion over long distances. They play a crucial role in integrating renewable energy sources from remote areas into the grid and enabling efficient power transmission.
Inverter manufacturing involves the use of adhesives and sealants. Our factory has a dedicated materials testing laboratory to evaluate the performance of these substances. Tests include adhesion strength, durability under different environmental conditions, and chemical resistance. The results are used to select the best adhesives and sealants for each application.
| 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
|
