Three Phase AC DC Hybrid Solar Inverter 5KVA-12KVA/8-19.2KW
- Ref Price:
-
- Loading Port:
- China main port
- Payment Terms:
- TT or LC
- Min Order Qty:
- 1000 unit
- Supply Capability:
- 10000 unit/month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
You Might Also Like
Item specifice
Output Power:
5.5-13.2
Inveter Efficiency:
98.2
Output Voltage(V):
230V / 400V AC
Input Voltage(V):
160V~800V DC
Output Current(A):
21.7A~52A
Output Frequency:
50Hz / 60Hz
Key Parameters
Output Type:Triple, Pure Sine Wave
Type:DC/AC Inverters
Inverter Efficiency:98.2%
Other attributes
Model Number:XD5KTR, XD6KTR, XD8KTR, XD10KTR, XD12KTR
Input Voltage:160V~800V DC
Output Voltage:230V / 400V AC
Output Current:21.7A~52A
Output Frequency:50Hz / 60Hz
Size:534W*440H*220D mm
Certificate:CE/IEC/ISO/TUV
Warranty:5 years
Weight:30kg
Product Name:DC AC Hybrid Solar Inverter(With Storage)
Battery Type:Lithium/Lead-acid
Rated Power:5000~12000W
Waveform:Pure Sine Wave
Power Factor:0.8 leading~0.8 lagging
Max. PV Input Power:8~19.2kW
Max. PV Input Voltage:1100V
Max. PV Input Current:20A
Communication:RS485 / CAN / WIFI / 4G / LAN / Bluetooth
Packaging and delivery
Package Type:Standard Export Package
Supply Ability:10000 Piece/Pieces per Month
Lead time
Quantity (pieces)1 - 100 101 - 500 501 - 1000 > 1000
Lead time (days) 7 14 21 To be negotiated
Customized packaging
- Q:Can a solar inverter be monitored remotely?
- Yes, a solar inverter can be monitored remotely. Many modern solar inverters have built-in monitoring capabilities that allow users to track the performance and energy production of their solar system from a remote location. This can be done through software applications or web-based platforms that provide real-time data and analytics, enabling users to monitor the system's efficiency, diagnose issues, and optimize its performance without physically being present at the location of the inverter.
- Q:How do you choose the right size solar inverter for a specific solar power system?
- To ensure optimal performance and efficiency of your solar power system, careful consideration of various factors is necessary when selecting the appropriate size solar inverter. Follow these steps to make the right choice: 1. Calculate your solar power system's total capacity: Begin by determining the combined wattage of all your solar panels. This information can typically be found in the product specifications or obtained from your solar panel manufacturer. 2. Evaluate your average energy consumption: Assess your typical energy consumption to determine the size of the solar inverter required to meet your needs. Take into account peak power usage and potential future increases in energy demands. 3. Match the inverter's capacity with your system's: Ensure that the solar inverter's capacity is equal to or slightly higher than your system's total capacity to achieve optimal performance. 4. Consider the inverter's efficiency: Seek out an inverter with high efficiency ratings. A higher efficiency rating means it can convert a larger percentage of solar energy into usable electricity, minimizing power losses. 5. Select the appropriate inverter type: Decide which type of solar inverter is suitable for your system. The three main types are string inverters, microinverters, and power optimizers. String inverters are the most common and cost-effective choice for small to medium-sized systems, while microinverters and power optimizers are better suited for complex installations or systems with shading issues. 6. Assess additional features: Take into account any additional features offered by the solar inverter. Look for features like monitoring capabilities, grid integration capabilities, and built-in safety features such as arc fault protection or rapid shutdown. 7. Seek professional advice: If you are uncertain about selecting the right size solar inverter for your specific solar power system, consulting a professional solar installer or electrical engineer is advisable. They can help assess your energy needs, system requirements, and provide expert guidance in choosing the appropriate inverter size. Remember, making an informed decision when choosing the right size solar inverter is crucial for your system's overall performance and efficiency. Take the time to evaluate your system's requirements and seek expert advice to ensure the best outcome.
- Q:Can a solar inverter be used for three-phase power systems?
- Yes, a solar inverter can be used for three-phase power systems. There are specific three-phase solar inverters available in the market that are designed to convert DC power from solar panels into AC power for three-phase electrical grids. These inverters are capable of synchronizing with the grid and distributing power across all three phases efficiently.
- Q:Can a solar inverter be used with a solar-powered greenhouse system?
- Yes, a solar inverter can be used with a solar-powered greenhouse system. A solar inverter converts the direct current (DC) generated by solar panels into alternating current (AC) that can be used to power electrical devices in the greenhouse system. This allows for efficient utilization of solar energy for various applications such as lighting, ventilation, irrigation, and temperature control within the greenhouse.
- Q:How does a solar inverter handle voltage unbalance in the grid?
- A solar inverter handles voltage unbalance in the grid by employing its control algorithms to monitor and regulate the output voltage. When the solar inverter detects an unbalanced grid voltage, it adjusts the output voltage accordingly to maintain a balanced supply. This is typically achieved by injecting reactive power or adjusting the phase angle of the output voltage to synchronize it with the grid. By actively managing voltage unbalance, a solar inverter ensures stable and reliable power conversion in the presence of grid voltage fluctuations.
- Q:How does a solar inverter affect the overall system performance in different weather conditions?
- A solar inverter plays a crucial role in determining the overall system performance in different weather conditions. In situations with ample sunlight, a high-quality inverter optimizes the conversion of DC power generated by the solar panels into usable AC power. This ensures maximum energy output and efficient utilization of solar energy. However, in adverse weather conditions like cloudy or overcast skies, a good inverter can still extract a significant amount of power by employing advanced MPPT algorithms and voltage regulation techniques. It helps maintain system stability and mitigates power losses, thereby minimizing the impact of weather conditions on the overall system performance.
- Q:Can a solar inverter be installed in a multi-storey building?
- Yes, a solar inverter can be installed in a multi-storey building. The installation of a solar inverter in a multi-storey building is possible and depends on various factors such as the availability of suitable roof space, electrical infrastructure, and compliance with local regulations. It is essential to consult with a professional solar installer to assess the feasibility and design a tailored solar energy system for the specific building.
- Q:What are the key factors affecting the efficiency of a solar inverter?
- The key factors affecting the efficiency of a solar inverter include the quality and design of the components used, the temperature at which the inverter operates, the type and condition of the solar panels connected to it, the efficiency of the conversion process from DC to AC power, and the overall system design and installation.
- Q:Can a solar inverter be integrated with energy management systems?
- Yes, a solar inverter can be integrated with energy management systems. Solar inverters can be connected to energy management systems to monitor and control the generation and consumption of solar energy. This integration allows for better optimization of energy usage, real-time monitoring of solar production, and intelligent management of energy flows within a building or grid.
- Q:How do you connect a solar inverter to the electrical grid?
- To connect a solar inverter to the electrical grid, you typically follow a few steps. First, ensure that your solar panels are properly installed and generating electricity. Then, connect the DC output of the solar panels to the DC input of the inverter. Next, connect the AC output of the inverter to your home's electrical distribution panel or directly to the electrical grid through a utility meter. Finally, consult with a qualified electrician to ensure that the installation meets all relevant safety and electrical codes.
1. Manufacturer Overview |
|
|---|---|
| Location | |
| Year Established | |
| Annual Output Value | |
| Main Markets | |
| Company Certifications | |
2. Manufacturer Certificates |
|
|---|---|
| a) Certification Name | |
| Range | |
| Reference | |
| Validity Period | |
3. Manufacturer Capability |
|
|---|---|
| a)Trade Capacity | |
| Nearest Port | |
| Export Percentage | |
| No.of Employees in Trade Department | |
| Language Spoken: | |
| b)Factory Information | |
| Factory Size: | |
| No. of Production Lines | |
| Contract Manufacturing | |
| Product Price Range | |
Send your message to us
Three Phase AC DC Hybrid Solar Inverter 5KVA-12KVA/8-19.2KW
- Ref Price:
-
- Loading Port:
- China main port
- Payment Terms:
- TT or LC
- Min Order Qty:
- 1000 unit
- Supply Capability:
- 10000 unit/month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
Similar products
New products
Hot products
Hot Searches
Related keywords
