On-grid Inverters
LSMT400TL-H1@ Single phase 230V grid, up to 9 LSMT400TL-H1 micro PV inverters per branch.
The maximum DC input power for each inverter is 400W (maximum output power of the PV module is 1x400W).
The maximum DC input voltage for the micro Py inverter should not exceed the VOC of the PV module.
LSMT400TL-H1@ Single phase 230V grid, up to 9 LSMT400TL-H1 micro PV inverters per branch.
The maximum DC input power for each inverter is 400W (maximum output power of the PV module is 1x400W).
The maximum DC input voltage for the micro Py inverter should not exceed the VOC of the PV module.
LSMT800TL-H1@ is a single-phase 230V grid micro inverter. Each branch can accommodate up to 5 LSMT800TL-H1 micro inverters.
The maximum DC input power for each inverter is 800W (maximum output power of the PV modules is 2x400W).
The maximum DC input voltage for the micro inverter should not exceed the VOC of the PV modules.
LSMT800TL-H1@ is a single-phase 230V grid micro inverter. Each branch can accommodate up to 5 LSMT800TL-H1 micro inverters.
The maximum DC input power for each inverter is 800W (maximum output power of the PV modules is 2x400W).
The maximum DC input voltage for the micro inverter should not exceed the VOC of the PV modules.
LSMT2000TL-H1 @ Single phase 230V grid, a maximum of 2 LSMT2000TL-H1 micro photovoltaic inverters are allowed per branch. AC cable (3*2.5mm²) is required.
The maximum DC input power for each inverter is 2000W (maximum output power of the photovoltaic modules is 4x500W).
The VOC of the photovoltaic modules should not exceed the maximum DC input voltage of the micro photovoltaic inverter.
LSMT2000TL-H1 @ Single phase 230V grid, a maximum of 2 LSMT2000TL-H1 micro photovoltaic inverters are allowed per branch. AC cable (3*2.5mm²) is required.
The maximum DC input power for each inverter is 2000W (maximum output power of the photovoltaic modules is 4x500W).
The VOC of the photovoltaic modules should not exceed the maximum DC input voltage of the micro photovoltaic inverter.
Single-phase photovoltaic inverters are designed for residential photovoltaic power plants, with a maximum input current of 14A per string. They are compatible with high-efficiency and bifacial modules. Their compact and lightweight design makes them easy to install, and their protection level has been upgraded to IP66. They integrate AFCI function to actively reduce the risk of fire.
Single-phase photovoltaic inverters are designed for residential photovoltaic power plants, with a maximum input current of 14A per string. They are compatible with high-efficiency and bifacial modules. Their compact and lightweight design makes them easy to install, and their protection level has been upgraded to IP66. They integrate AFCI function to actively reduce the risk of fire.
Three-phase photovoltaic inverters are the preferred reliable equipment for residential and small-scale commercial photovoltaic power stations. They are smaller in size, more efficient, and offer a variety of power supply models to choose from. With the adoption of two MPPT inputs, they are more flexible and efficient.
Three-phase photovoltaic inverters are the preferred reliable equipment for residential and small-scale commercial photovoltaic power stations. They are smaller in size, more efficient, and offer a variety of power supply models to choose from. With the adoption of two MPPT inputs, they are more flexible and efficient.
The three-phase photovoltaic inverter adopts a 3/4 MPPT design, providing more flexible configuration options, lower environmental impact, and higher power generation efficiency. Its operation is so quiet, like a whisper, creating a more comfortable and friendly working and living environment.
The three-phase photovoltaic inverter adopts a 3/4 MPPT design, providing more flexible configuration options, lower environmental impact, and higher power generation efficiency. Its operation is so quiet, like a whisper, creating a more comfortable and friendly working and living environment.
