1. In this question we will demonstrate the losses that occur when measuring the J-V relation...
1. In this question we will demonstrate the losses that occur
when measuring the J-V relation of a
c-Si wafer with a 2-point-probe measurement setup. We consider a
c-Si solar cell with an area
of ?cell = 225 cm2 for which the following specifications are
determined by a 4-point-probe
measurement setup: FF = 0.802, ?sc = 40.0 mA⁄cm2, ?oc = 0.600 V,
and ?mpp = 0.550 V. In
the case of a 2-point-probe measurement system there is a total
contact resistance between the
probes and the cell of ?contact = 0.0100 Ω. For the electrical
wiring we have the following:
Total wiring length: ? = 60.0 cm; Diameter: ? = 1.00 mm;
Resistivity: ? = 1.70 × 10-8 Ω m.
1.Calculate the current at maximum powerpoint (?mpp) in [A].
2. Calculate the voltage drop at maximum power point (∆?mpp) in
[V], caused by the contact
resistance (?contact) and the resistance in the wiring (?wires), in
the 2-point-probe
measurement system.
3. How large is this fraction (∆?mpp) compared to the voltage at
maximum powerpoint ?mpp
in [%]?
4. What is the voltage at maximum powerpoint (?mpp-measured) that
is measured by this 2-
point-probe device in [V]?
answers are:
1. The current at maximum power point is: ?mpp = 7.87 A.
2. The voltage drop ∆?mpp = 0.181 V.
3. That is: ∆?
mpp⁄?mpp = 32.9%.
4. The measured voltage is: ?measured = 0.369 V.
how to solve & get same answers , including question
4.
Homework Answers
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1. In this question we will demonstrate the losses that occur
when measuring the J-V relation...
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specific circuit for each task, as well as indicate where the
measurement is taking place.
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We calculated the capacticance of our capacitior in farads and we have to compare it to...
We
calculated the capacticance of our capacitior in farads and we have
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in the picture. When we do percent difference we get 200%... where
did I mess up? That can't be right. The resistance of our resistor
is 12970 ohms. Please explain this like you were talking to a
child.
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Question 4 and 6
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This is one original diagram for you to see what kind of circuit
we have:
Draw out the circuit diagrams for these
tasks.
Each task is a separate task and you will need to construct a
specific circuit for each task, as well as indicate where the
measurement is taking place.
1. Specific Voltage
From a 5V power supply, have a drop of 3.3V over a specific
resistor accurate to the 0.1V mark. (Please point out which
specific resistor if...
Il. Law of Length 1. Connect terminals 1' and 2' together, then connect the power supply 2. Using the SV range of the voltmeter measure the voltage between I and 1'. Record in Table 3. sure the voltage drop between 1 and point midway between I and I'. Record in Table 3. 4. Repeat for quarter of length and 1/8 of a length. Record in Table 3 Table 3 No. Length of the wire Voltage measured (V Half length Quarter...
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We
calculated the capacticance of our capacitior in farads and we have
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in the picture. When we do percent difference we get 200%... where
did I mess up? That can't be right. The resistance of our resistor
is 12970 ohms. Please explain this like you were talking to a
child.
Amicon 26936KO (M) 2000 F25V 81-POLAR NPS wire leads of the resistor to the table the body of...
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