Frequently Asked Questions
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Connecting the system requires four steps:
Connect KeSha PV Get1600 to the micro inverter using the provided MC4 Y output cable.
Connect the mini inverter to the power outlet using the original cable.
Connect the KeSha PV Get1600 to the battery pack using the original cable.
Connect the solar panel to KeSha PV Get1600 using the provided solar panel extension cable.
Priority charging is based on your set power demand.
When photovoltaic power generation exceeds your demand, excess electricity will be stored.
For example, if the photovoltaic power generation at noon is 800W and the electricity demand is 200W, then 200W of electricity can be allocated for discharge (in the KeSha application). Our system will automatically adjust the wattage and store 600W to avoid wasting electricity.
Even at night, these energies will be stored until you are ready to use them.
For a 410W panel, you need 1.95 square meters of space. For two panels, you need 3.9 square meters.
For a 210W panel, you need 0.97 square meters of space. For two panels, you need 1.95 square meters.
For a 540W panel, you need 2.58 square meters of space. For two panels, you need 5.16 square meters.
A KeSha PV Get1600 can only be connected to one KeSha Balcony solar panel system (2 panels). If you want to add more modules, you will need another PV Gate 1600.
Yes, all devices will be displayed in the KeSha application.
KeSha balcony solar system (540w * 2=1080W)
Computational reasoning
The power generation of solar panels is estimated based on the environmental conditions in Germany. A 1080Wp solar panel can generate an average of 1092kWh of electricity per year.
Considering the consumption time and conversion efficiency, the average self consumption rate of solar panels is 40%. With the help of PV Get1600, the self consumption rate can be increased by 50% to 90%.
The saved electricity costs are based on 0.40 euros per kilowatt hour, which is the official average electricity price in Germany in February 2023.
One kilowatt hour of solar panel power generation is equivalent to reducing carbon dioxide emissions by 0.997 kilograms. In 2018, the average emissions per vehicle in Germany were 129.9 grams of carbon dioxide per kilometer.
The service life of KeSha solar panels is 25 years, ensuring an output retention rate of at least 84.8%.
The service life of PV Get1600 is 15 years.
Save electricity costs
-KeSha balcony solar energy (with PV Get1600)
1092kWh × 90% × 0.40 euros per kilowatt hour × 25 years=9828 euros
-KeSha Solar Balcony
1092kWh × 40% × 0.40 euros per kilowatt hour × 25 years=4368 euros
Expected carbon dioxide emissions reduction
-KeSha balcony solar energy (with PV Get1600)
1092kWh × 90% × 0.997Kg CO2 per kWh × 25 years=24496kg CO2
-KeSha Solar Balcony
1092kWh × 40% × 0.997Kg CO2 per kWh × 25 years=10887kg CO2
-Driving and carbon dioxide emissions
1092kWh × 90% × 0.997kg ÷ 0.1299 kg CO2 per kilometer=7543km
KeSha balcony solar system (540w+410w=950W)
Computational reasoning
The power generation of solar panels is estimated based on the environmental conditions in Germany. A 950Wp solar panel can generate an average of 961kWh of electricity per year.
Considering the consumption time and conversion efficiency, the average self consumption rate of solar panels is 40%. With the help of PV Get1600, the self consumption rate can be increased by 50% to 90%.
The saved electricity costs are based on 0.40 euros per kilowatt hour, which is the official average electricity price in Germany in February 2023.
One kilowatt hour of solar panel power generation is equivalent to reducing carbon dioxide emissions by 0.997 kilograms. In 2018, the average emissions per vehicle in Germany were 129.9 grams of carbon dioxide per kilometer.
The service life of KeSha solar panels is 25 years, ensuring an output retention rate of at least 88.8%.
The service life of PV Get1600 is 15 years. The battery may need to be replaced during use.
Save electricity costs
-KeSha balcony solar energy (with PV Get1600)
961kWh × 90% × 0.40 euros per kilowatt hour × 25 years=8648 euros
-KeSha Solar Balcony
961kWh × 40% × 0.40 euros per kilowatt hour × 25 years=3843 euros
Expected carbon dioxide emissions reduction
-KeSha balcony solar energy (with PV Get1600)
961kWh × 90% × 0.997Kg CO2 per kWh × 25 years=21557kg CO2
-KeSha Solar Balcony
961kWh × 40% × 0.997Kg CO2 per kWh × 25 years=9580kg CO2
-Driving and carbon dioxide emissions
961kWh × 90% × 0.997kg ÷ 0.1299 kg CO2 per kilometer=6638km
KeSha balcony solar system (410w * 2=820W)
Computational reasoning
The power generation of solar panels is estimated based on the environmental conditions in Germany. On average, 820Wp solar panels can generate 830kWh of electricity per year.
Considering the consumption time and conversion efficiency, the average self consumption rate of solar panels is 40%. With the help of PV Get1600, the self consumption rate can be increased by 50% to 90%.
The saved electricity costs are based on 0.40 euros per kilowatt hour, which is the official average electricity price in Germany in February 2023.
One kilowatt hour of solar panel power generation is equivalent to reducing carbon dioxide emissions by 0.997 kilograms. In 2018, the average emissions per vehicle in Germany were 129.9 grams of carbon dioxide per kilometer.
The service life of KeSha solar panels is 25 years, ensuring an output retention rate of at least 84.8%.
The service life of PV Get1600 is 15 years. The battery may need to be replaced during use.
Save electricity costs
-KeSha balcony solar energy (with PV Get1600)
820kWh × 90% × 0.40 euros per kilowatt hour × 25 years=7470 euros
-KeSha Solar Balcony
820kWh × 40% × 0.40 euros per kilowatt hour × 25 years=3320 euros
Expected carbon dioxide emissions reduction
-KeSha balcony solar energy (with PV Get1600)
820kWh × 90% × 0.997Kg CO2 per kWh × 25 years=18619kg CO2
-KeSha Solar Balcony
820kWh × 40% × 0.997Kg CO2 per kWh × 25 years=8275kg CO2