The figure above on the left side shows the first quadrant of the J-V and power curves of an ideal and a non- ideal solar cell. The black dashed lines indicate the maximum power point of each cell. On the right side, figures (a) and (b) show the equivalent circuits of an ideal and a non-ideal solar cell respectively. To answer the following questions, estimate values from the graphs as accurately as possible, since small deviations in readings could lead to large deviations in the results. A) From the figure, estimate the Fill Factor of the ideal cell. Give the answer in [%] with one decimal place. B) Likewise, estimate the Fill Factor of the non-ideal cell. Give the answer in [%] with one decimal place.
The figure above on the left side shows the first quadrant of the J-V and power curves of an ideal and a non- ideal solar cell. The black dashed lines indicate the maximum power point of each cell. On the right side, figures (a) and (b) show the equivalent circuits of an ideal and a non-ideal solar cell respectively. To answer the following questions, estimate values from the graphs as accurately as possible, since small deviations in readings could lead to large deviations in the results. A) From the figure, estimate the Fill Factor of the ideal cell. Give the answer in [%] with one decimal place. B) Likewise, estimate the Fill Factor of the non-ideal cell. Give the answer in [%] with one decimal place.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Please provide a detailed answer in the following exercise.
Thank you in advance.
![440
440
(a)
Ideal AV
Non ideal J-V
400
Ideal
400
- Ideal power
Non ideal power 360
360
320
320
280
280
240
Non-ideal
240
200
200
(b)
160
160
120
120
80
80
40
40
0.10
0.20
0.30
0.40
0.50
Voltage (V)
The figure above on the left side shows the first quadrant of the J-V and power curves of an ideal and a non-
ideal solar cell. The black dashed lines indicate the maximum power point of each cell. On the right side,
figures (a) and (b) show the equivalent circuits of an ideal and a non-ideal solar cell respectively.
To answer the following questions, estimate values from the graphs as accurately as possible, since small
deviations in readings could lead to large deviations in the results.
A) From the figure, estimate the Fill Factor of the ideal cell. Give the answer in [%] with one decimal place.
B) Likewise, estimate the Fill Factor of the non-ideal cell. Give the answer in [%] with one decimal place.
C) Assuming STC illumination ( 1000 [W·m-²] ), what is the net difference between the efficiency of the
ideal cell and of the non-ideal cell? Give the answer in [%] with one decimal place.
Current density (A/ m²)
Power density (W / m?)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5c4731a9-c681-4fad-9b75-bd65170528b3%2Ff9ec593c-6294-4f64-b1cc-6ec67aee5d3c%2Fi07tua_processed.png&w=3840&q=75)
Transcribed Image Text:440
440
(a)
Ideal AV
Non ideal J-V
400
Ideal
400
- Ideal power
Non ideal power 360
360
320
320
280
280
240
Non-ideal
240
200
200
(b)
160
160
120
120
80
80
40
40
0.10
0.20
0.30
0.40
0.50
Voltage (V)
The figure above on the left side shows the first quadrant of the J-V and power curves of an ideal and a non-
ideal solar cell. The black dashed lines indicate the maximum power point of each cell. On the right side,
figures (a) and (b) show the equivalent circuits of an ideal and a non-ideal solar cell respectively.
To answer the following questions, estimate values from the graphs as accurately as possible, since small
deviations in readings could lead to large deviations in the results.
A) From the figure, estimate the Fill Factor of the ideal cell. Give the answer in [%] with one decimal place.
B) Likewise, estimate the Fill Factor of the non-ideal cell. Give the answer in [%] with one decimal place.
C) Assuming STC illumination ( 1000 [W·m-²] ), what is the net difference between the efficiency of the
ideal cell and of the non-ideal cell? Give the answer in [%] with one decimal place.
Current density (A/ m²)
Power density (W / m?)
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