mn3672re Panasonic Corporation of North America, mn3672re Datasheet - Page 4

mn3672re

Manufacturer Part Number

mn3672re

Description

Color Ccd Linear Image Sensor With 5000 Bits Each For R, G, And B Colors

Manufacturer

Panasonic Corporation of North America

Datasheet

1.MN3672RE.pdf (9 pages)

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MN3672RE

Note 1) Responsivity (R)

Note 2) Photo response non-uniformity (PRNU)

Note 3) Saturation output voltage (V

Note 4) Saturation Exposure (SE)

Note 5) Dark signal output voltage (V

Note 6) Dark signal non-uniformity (DSNU)

•

Responsivity

Photo response non-uniformity

Saturation output voltage

Saturation exposure

Dark signal output voltage

Dark signal output non-uniformity

Shift register total transfer efficiency

Output impedance

Dynamic range

Signal output pin DC level

Compensation output pin DC level

Signal and compensation output pin DC level difference

Connect all NC pins externally to V

to F=10).

Ta=25˚C, V

Light source: A light source with IR cutting filter (CM-500S)

Optical system: A slit with an aperture dimensions of 20mm

Load resistance = 100k Ohms

These specifications apply to the 5000 valid pixels for each color excluding the dummy pixels D1 to D6.

Pulse: V

Optical Characteristics

This is the value obtained by dividing the average output voltage (V) of all valid pixels of each of the colors R, G, and B

by the exposure (lx·s). The exposure is the product of the incident light intensity (lx) and the accumulation time (s).

Since the responsivity changes with the spectral distribution of the light source used, care should be taken when using a

light source other than the daylight type fluorescent lamp specified in the inspection conditions.

This is defined by the following equation where X

R, G, and B, and x is the difference between the output voltage of the maximum (or minimum) output pixel and X

when the photodetector region is illuminated with light of a uniform illumination intensity distribution.

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

This is the output voltage at the point beyond which it is not possible to maintain the linearity of the photoelectric

conversion characteristics as the exposure is increased. (The exposure at this point is called the saturation exposure.)

This is the exposure beyond which it is not possible to maintain the linearity of the output voltage as the exposure is

increased. When designing the equipment using these devices, make sure that the incident light exposure is set with

sufficient margin so that the CCD never gets saturated.

This is defined as the average of the output from all the valid pixels in the dark condition at Ta=25˚C, T

Normally, the dark signal output voltage gets doubled for every 8 to 10˚C increase in Ta and is proportional to T

This is defined as the difference between the maximum value among the output voltages of the all valid pixels at Ta=25˚C

and T

Parameter

=10V, V

PRNU=

int

=10ms and V

=12V,

(Preliminary)

=12V, V

ave

DRK

S1H

=12V, V

100 (%)

SAT

Symbol

DSNU

DRK

PRNU

STTE

(GND).

)

– V

DRK

SAT

)

S2H

=10V, V

Note 1

Note 2

Note 3

Note 4

Dark condition, see Note 5

Dark condition, see Note 6

Note 7

(OS1, OS2, OS3) see Note 8

Note 8

DSNU

S3H

DRK

=4V, f

ave

is the average output voltage of the active pixels of each of the colors

20mm is used at a distance of 200mm from the sensor (equivalent

Condition

=1MHz, T

int

(accumulation time)=10ms

CCD Linear Image Sensor

min

5000

0.83

0.67

0.77

typ

1.2

1.5

1.3

1.0

0.2

0.1

4.5

max

300

2.0

int

=10ms.

Unit

V/lx·s

lx·s

ave

mn3672re Panasonic Corporation of North America, mn3672re Datasheet - Page 4

mn3672re

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