About NARI Photovoltaic Inverter Instructions
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6 FAQs about [NARI Photovoltaic Inverter Instructions]
How does an Aurora inverter work?
The Aurora inverter feeds a power grid by using the power generated from photovoltaic panels. The photovoltaic panels transform sun-radiated energy into electrical energy in the form of direct current (DC) through a photovoltaic field (also known as a PV generator).
How do I connect my inverter to a photovoltaic panel?
The electrical power and signals wiring from the inverter to the AC Grid and to the photovoltaic panel are connected through the Switch Box as described in Fig.11 SB-01 – "DC Switch Box Layout" –using the access windows in pos “A” for the power cables and the windows in pos “D” for the signal cables.
How many inverters can a photovoltaic system handle?
The AURORA is capable of handling 2 separate arrays. If the output of photovoltaic system exceeds the capacity of a single inverter, additional Aurora inverters can be added to the system; each inverter will be connected to an adequate section of the photovoltaic field on the DC side and to the grid on the AC side.
How does a photovoltaic inverter work?
After completing a set of electronics and safety auto-test routines, the inverter starts the grid connection process. As mentioned above, during this stage Aurora automatically tracks and analyzes the maximum power point (MPPT) of the photovoltaic field. Aurora indicates that insulation resistance was found to be too low.
How many volts does an Aurora inverter need?
NOTE: A minimum input voltage of 200 Vdc is required for the Aurora inverter to start the grid connection sequence. Once connected, the inverter will transfer the maximum available power for any DC input voltage value within a 90 Vdc to 580 Vdc range to the grid.
When should a photovoltaic array be paralleled?
WARNING: When the current from the photovoltaic array exceeds 16Adc for the PVI-4.2 model, or 10Adc for the PVI-3.0/3.6 models, when the array power exceeds the limit for the single channel (see table in 8.1 paragraph), or when there is a consistent unbalance of the power between two arrays, it is necessary to parallel the 2 inputs.