Household photovoltaic system
Improving power quality: The output AC power can be optimized to improve parameters such as waveform, frequency, and phase, making the power quality more in line with the requirements of household appliances, reducing damage to electrical equipment, and extending the service life of electrical appliances.
- Lester
- China
- 30days
- max
- Lithium Iron Phosphate
- CE CQC
- 3kw-50kw
- Customized
- CHINA
- 1years
- 25years
- Information
1. Efficient conversion of electrical energy: It can efficiently convert the direct current generated by photovoltaic modules into alternating current, with high conversion efficiency, reducing energy loss, maximizing power generation, and increasing users' electricity output and revenue.
2. Intelligent monitoring and management:
-Real time monitoring: It can accurately monitor various parameters of the system (such as voltage, current, power, power generation, etc.) in real time, and users can understand the system's operating status at any time through display screens, mobile apps, and other means.
-Fault alarm: In the event of abnormal conditions (such as overvoltage, undervoltage, overcurrent, overheating, etc.), timely alarm signals are issued to remind users to take measures to prevent the fault from expanding and protect equipment and personnel safety.
-Remote control: Some household inverters support remote control function, and users can operate and set the inverter through the network in different locations, which is convenient and flexible.
3. Safe and reliable:
-Electrical protection: It has complete electrical protection functions, including overvoltage protection, undervoltage protection, overcurrent protection, leakage protection, islanding protection, etc., to prevent electrical accidents and ensure the safety of the system and users.
-Reliable quality: After strict quality testing and certification, it meets relevant safety standards and specifications, can operate stably under various environmental conditions, has high reliability and stability, reduces the occurrence rate of failures, reduces maintenance costs and power outage time.
-Good heat dissipation: With effective heat dissipation design, it prevents the inverter from being damaged due to overheating, ensuring the normal service life of the equipment.
4. Strong adaptability:
-Component adaptation: It can adapt to different types and powers of photovoltaic modules, meet the diverse installation needs of users, fully utilize various roof spaces and lighting conditions, and improve the flexibility and adaptability of the system.
-Grid adaptation: Good compatibility with the grid, able to adapt to the requirements of different regions and grids, ensuring stable integration of electrical energy into the grid without causing adverse effects on the grid.
5. Easy installation and maintenance:
-Easy to install: small in size, light in weight, using standard installation interfaces and methods, easy to install on rooftops, balconies, and other locations in homes, without the need for complex installation projects or special installation tools.
-Simple maintenance: The structural design is reasonable, and the daily maintenance workload is small. Generally, only simple operations such as regular cleaning and checking of connection lines are needed, reducing maintenance costs and difficulties.