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PV System Design and Installation. LO 5B - Solar Energy Fundamentals. PV module Current-Voltage Curve. I-V Curve. Reference 3. Module Performance Parameters. Imp – Maximum Power Current, the current at the point On the I-V curve where the PV module produces - PowerPoint PPT Presentation
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PV System Design and Installation
LO 5B - Solar Energy Fundamentals
PV module Current-Voltage Curve
I-V Curve
Reference 3
Imp – Maximum Power Current, the current at the point On the I-V curve where the PV module produces Maximum power. At “knee” on I-V curve.
Vmp – Maximum Power Voltage, the voltage at the point On the I-V curve where the PV module produces the Maximum power. At the “knee on the I-V curve.
Reference 2
Module Performance Parameters
Maximum Power Point
Vmp
Imp
Module Design Parameters
Isc – Short Circuit Current, the maximum current where there is no voltage.
Voc – Open Circuit Voltage, the voltage where there no current.
Voc
Isc
Reference 2
A different view
STC – Standard Testing ConditionIrradiance = 1,000 watts/m2Module Temperature = 25 deg C (77 deg F)
PTC - PVUSA (utility consortium)Irradiance = 1,000 watts/m2Ambient Temperature = 20 deg CWind Speed = 1 meter/sec
NOCT – Nominal Operating Cell Temperature Irradiance – 800 watts/m2Ambient Temperature = 20 deg CPV Array: Open CircuitWind Speed = 1 meter/sec
Measurement Conditions for PV Cells and Modules
PV module Current-Voltage Curve
I-V Curve
Reference 3
Solar Intensity
Module output is reduced with decrease in solar intensity (irradiance)
Reference 2
Module output is reduced with increasing temperatures
Reference 2
Temperature
Temperature Correction Formula
I-V Curve PV modules in Series
Voltage of Array = Module Voltage x Number in Series
Reference 2
I-V Curve - PV modules in Parallel
Array Current = Module Current x Number in Parallel
Reference 2
Where is Maximum Power Point for this array on the I-V Curve?
Reference 3
Breakout into groups
1. Calculate for String and Array
Isc (Short Circuit Current)Voc (Open Circuit Voltage)Imp (Max Operating Current)Vmp (Max Operating Voltage)
2. Provide information on temperature correction factors for voltage and current for the PV modules being used in the array.
In Class Work Assignment
PV modules with lower current output will absorb current from modules with higher current output. Will lead to loss of power and potential overheating/damage of lower current PV modules
Reference Class Book by Dunlop
PV modules with different current outputs connected in series
PV modules with different output currents can be connected in parallel with no harmful effect if string voltages are the same.
Reference Class Book by Dunlop
PV modules with different current outputs connected in parallel
Impact of shading on PV array performance
Bypass diodes are placed in PV modules to prevent damage from shading.
Limits reverse bias voltage to 0.7 volts
Diodes allow current to pass around shaded or open circuit PV cell.
However, negative impact on power production as string voltage is less.
Bypass Diodes
Bipass diodes are typically installed across every 18 to 20 cells in a PV module
Bypass diodes must be able to
a) Handle maximum operating voltage for the number of modules/cells bypassed,
b) Must be rated in excess of the maximum circuit current.
More on Bipass Diodes
Shading will cause PV cell to act as a resistance in circuit.
The cell develops a “reverse bias”.
Cell continues to pass current but the voltage is negative in direction.
High currents can lead to damaging levels of power dissipation through heat generation.
Cell will dissipate power in the form of heat, possibly damaging PV module.
Reverse bias conditions can also occur if,
• PV module is in open-circuit condition in a series,
• PV modules of different output current are put in series.
.Reference Class Book by Dunlop
Breakdown Voltage
