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MOOLS : Remote Lab - Modeling and Control of Moveable Photovoltaic modules
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Based on the above step responses, and when the system produces a current, the transfer function Ipv / Ub can be considered approximately as:
Based on the gain K1 and the constant time T1 calculated, for different angles :
Use the following control panel with Angle Controlling / Closed-Loop tab.
Choose an Angle Setpoint 60° and a P Controller with the calculated Kp.
The curve can be inserted in the space below :
- either by saving the Print Screen of the control panel, in image format
- either by downloading the measurement file and saving the plot generated with Matlab, in image format
Use the same control panel with Angle Controlling / Closed-Loop tab.
Choose an Angle Setpoint 45° and a PI Controller with the calculated Kp and Ki .
The curve can be inserted in the space below :
- either by saving the Print Screen of the control panel, in image format
- either by downloading the measurement file and saving the plot generated with Matlab, in image format
Use again the control panel with Angle Controlling / Closed-Loop tab with a PD Controller.
What happens if you raise the coefficient Kd of the PD Controller ?
For angle controlling of the moveable solar panel, which solution do you choose ?
Is there an angle error when using a P controller ?
What do you observe with a PI Controller if the system is already an Integrator system ?