FTF3020-M Ver la hoja de datos (PDF) - Philips Electronics
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FTF3020-M Datasheet PDF : 16 Pages
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Philips Semiconductors
Full Frame CCD Image Sensor
Product specification
FTF3020-M
Performance
The test conditions for the performance characteristics are as follows:
• All values are measured using typical operating conditions.
• VNS is adjusted as low as possible while maintaining proper
Vertical Anti-Blooming.
• Sensor temperature = 60°C (333K).
• Horizontal transport frequency = 18MHz.
• Vertical transport frequency = 50kHz (unless specified otherwise).
• Integration time = 10ms (unless specified otherwise).
• The light source is a lamp of 3200K in conjunction with neutral
density filters and a 1.7mm thick BG40 infrared cut-off filter. For
Linear Operation measurements, a temperature conversion filter
(Melles Griot type no. 03FCG261, -120 mired, thickness: 2.5mm)
is applied.
LINEAR OPERATION
Linear dynamic range 1
Charge Transfer Efficiency 2 vertical
Charge Transfer Efficiency 2 horizontal
Image lag
Resolution (MTF) @ 42 lp/mm
Responsivity
Quantum efficiency @ 530 nm
Low Pass Shading 3
Random Non-Uniformity (RNU) 4
VNS required for good Vertical Anti-Blooming (VAB)
Power dissipation at 2.5 frames/s
MIN.
4200:1(12bit)
TYPICAL
0.999995
0.999999
65
180
250
20
26
2.0
0.3
18
24
610
MAX.
0
5
5
28
UNIT
%
%
kel/lux·s
%
%
%
V
mW
1 Linear dynamic range is defined as the ratio of Qlin to read-out noise (the latter reduced by Correlated Double Sampling).
2 Charge Transfer Efficiency values are tested by evaluation and expressed as the value per gate transfer.
3 Low Pass Shading is defined as the ratio of the one-σ value of an 8x8 pixels blurred image (low-pass) to the mean signal value.
4 RNU is defined as the ratio of the one-σ value of the highpass image to the mean signal value at nominal light.
14,000
12,000
10,000
8,000
35°C
45°C
55°C
Linear Dynamic Range
6,000
4,000
2,000
0
0
5
10 15 20 25 30 35 40
Hor. Frequency (MHz)
Figure 6 - Typical Linear dynamic range vs. horizontal read-out frequency and sensor temperature
1999 November
8
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