MN3611RE Datasheet, PDF(3/6 Page) Panasonic Semiconductor – Color CCD Linear Image Sensor with 720 Pixels each for R, G, and B Colors

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MN3611RE Datasheet, PDF (3/6 Pages) Panasonic Semiconductor – Color CCD Linear Image Sensor with 720 Pixels each for R, G, and B Colors

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MN3611RE

CCD Linear Image Sensor

â¢ AC characteristics

Parameter

Signal output delay time

Symbol

tos

Condition

min typ max Unit

â 100 â

s Optical Characteristics

â¢ Ta=25ËC, VDD=12V, VÃ¸H=VSH=VRH=5V (pulse), fC=0.5MHz, fR=1MHz, Tint (accumulation time)=10ms

â¢ Light source: Daylight type fluorescent lamp with IR/UV cutting filter

â¢ Optical system: A slit with an aperture dimensions of 20mm Ã 20mm is used at a distance of 200mm from the sensor (equivalent

to F=10).

â¢ Load resistance = 100k Ohms

â¢ These specifications apply to the 2160 valid pixels excluding the dummy pixels D1 to D6.

Parameter

Symbol

Condition

min typ max Unit

Responsivity

red

green

blue

4.5 7.2 9.9

10.0 13.5 17.0 V/lxÂ· s

6.5 9.6 12.7

Photo response non-uniformity PRNU Note 1

â â 15

Odd/even bit non-uniformity

O/E Note 2

ââ

Saturation output voltage

VSAT

Note 3

1.5 2.0 â

Saturation exposure

Note 3

0.13 â lxÂ·s

Dark signal output voltage

VDRK

Note 4

â 0.8 2.0 mV

Dark signal output non-uniformity

DSNU Note 4

â 0.2 3.0 mV

Shift register total transfer efficiency STTE

92 99 â

Output impedance

ââ

kâ¦

Dynamic range

Note 5

â 2,500 â

Signal output pin DC level

VOS

Note 5

3.5 4.5 6.0

Compensation output pin DC level VDS

Note 6

3.5 4.5 6.0

Signal and compensation output pin DC level difference |VOS âVDS| Note 6

â 50 100 mV

Note 1) The photo response non-uniformity (PRNU) for each color is defined by the following equation, where Xave is the average

output voltage of the 720 valid pixels and âx is the absolute value of the difference between Xave and the voltage of the

maximum (or minimum) output pixel, when the surface of the photo-sites is illuminated with light having a uniform

distribution over the entire surface.

PRNU=

Xave

Ã100 (%)

The incident light intensity shall be 50% of the standard saturation light intensity.

Note 2) The odd/even bit non-uniformity (O/E) for each color is defined by the following equation, where Xave is the average

output voltage of the 720 valid pixels for each color and Xn is the output voltage of the ânâth pixel for each color, when the

surface of the photo-sites is illuminated with light having a uniform distribution over the entire surface.

719

â | XnâXn+1 |

O/E=

n=1

719 Ã X ave

Ã100 (%)

The incident light intensity shall be 50% of the standard saturation light intensity.

Note 3) The Saturation output voltage (VSAT) is defined as the output voltage at the point when the linearity of the photoelectric

characteristics cannot be maintained as the incident light intensity is increased. [The light intensity of exposure at this

point is called the saturation exposure (SE).]

Note 4) The dark signal output voltage (VDRK) is defined as the average output voltage of the 2160 pixels in the dark condition at

Ta=25ËC and Tint=10ms. Normally, the dark output voltage doubles for every 8 to 10ËC rise in Ta, and is proportional to

Tint.

The dark signal output non-uniformity (DSNU) is defined as the difference between the maximum output voltage among

all the valid pixels and VDRK in the dark condition at Ta=25ËC and Tint=10ms.

VDRK

DSNU

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