Overview
The measures of current and voltage from the PV taken by the device to plot the curve, must be recorded and transmitted to a data base on a computer through wireless means. The device must also be able to interrupt the panel load in order to measure current and voltage values, under different levels of sun irradiation.
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I-V Curve
The I-V curve of a PV device represents all the possible operation points of current and voltage for that device under a certain solar incidence and temperature. When the voltage is graphed as a function of current, a curve is obtained. In this curve maximum current is located where the graphic begins and maximum voltage can be seen where the graphic ends. The maximum power point of the PV array is located in the "knee" of the curve. The PV can operate at any point of the curve, depending on the value of the load that it is connected to. The power produced by the PV is the product of both voltage and current values of each point of the curve.
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System description
There are six subsystems that make the I-V curve measurement system: power supply, timing, interruption, signal conditioning, data acquisition and data storage.
- Power supply
This design isn’t a standalone system, so it requires external feeding. For the power supply, it uses an adapter from 220/110 to 9 VDC, with 100 to 500mA, with a cylindrical 2.1 mm plug, and a positive end, with the negative on the outside. It’s also possible to feed the device with the 5V from the USB port.
- Timing
Since the sampling isn’t continuous, it is necessary to have a clock that allows the device to take samples every hour, from 7am to 7pm. For this purpose a real time clock was used, so it would tell the Arduino board when it’s time to take samples, and to enter into power saving mode during night.
- Interruption
The system has three stages, so it’s necessary to have switches to connect and disconnect them. The first relay (S1) connects the panel to the measurement device and disconnects it from its load. A second relay (S2) connects the capacitive load to the panel, when the sampling is over, the load is disconnected again and a third relay (S3) connects the capacitors to a drain resistance, so they’re ready for the next sampling.
- Signal conditioning
The input signal from the solar panel is too high for the Arduino, so it’s necessary to adapt it in order to avoid harming the microcontroller. For this purpose, a voltage divider is used, so that the signal will be no more than 5V.
- Data acquisition
To take voltage samples, the voltage sensor used is the Arduino ADC, which is a 10 bit ADC giving the system a resolution of 4.88mV. For the current, a shunt resistance is used, in the lower extreme of the load, and the voltage through it is measured using the Arduino ADC. It’s necessary to calculate the sweeping time for a curve under different sun conditions, the sweeping time will depend on the capacitor value, the Voc and the Isc, for this reason this value will change according to the characteristics of the panel too.
- Data storage
The data is stored in a file using .csv format, which is, “comma separated values” that allows to handle the data on a spreadsheet.
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Design
Variable Load
I-V measurement
Data recollection
For the data recollection,
Curve Plot
Electronics and construction
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Sample Data
Validation
Parts list
Operation Protocol
Open data access
References
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Contact details
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