Eastman Kodak Company - Image Sensor Solutions
For the most current information regarding this product:
Phone: (585) 722-4385 Fax: (585) 722-4947 Web: www.kodak.com/go/imagers E-mail: imagers@kodak.com
Eastman Kodak Company
Technical Data
Kodak Digital Science KLI-10203 Image Sensor
Features
=
Tri-Linear Color Array 3 x 10200 pixels
=
7um
2
pixels.
=
22 line spacing between color channels.
=
Dual shift register/single output per
channel.
=
High offband spectral rejection
=
Increased blue and green response
=
Dark reference pixels provided.
=
Antireflective glass.
=
Wide dynamic range, low noise.
=
Dual dynamic range mode operation.
=
No image lag.
=
Electronic exposure control.
=
High charge transfer efficiency.
=
Two-phase register clocking.
=
Clocks are 74ACT logic compatible.
=
10 MHz maximum data rate.
Typical Key Specifications
=
Dynamic Range
> 12 bits
=
Output Signal
2.8V
=
Saturation Signal 24K electrons
=
PRNU 7%
=
Lag (first field)
0.5%
=
Dark Current
0.003pA/pixel
=
CTE per transfer
0.999995
=
No darkfield defects allowed
=
No brightfield defects allowed
Pin Description
Symbol
Description
Pin
PHIA
Accumulation Bias
32
TGn
Transfer Gate Clock (R,G,B)
37,5,9
LOGn
Exposure Control for Channel (R,G,B) 34,6,7
H1n
Phase 1 CCD Clock
19,39
H2n
Phase 2 CCD Clock
2,22
PHIR
Reset Clock
12
VIDn
Blue Output Video (R,G,B)
25,16,14
VDD
Amplifier Supply
26
VSSn
Ground Reference (R,G,B)
24,17,13
LS
Light Shield / Exposure Drain
27
OG
Output Gate
28
RD
Reset Drain
29
SUB
Substrate / Ground
1,3,4,10,11,15,18,20,21
23,30,31,32,33,38,40
ID
Test Input - Input Diode
35
IG
Test Input - Input Gate
36
Revision Number: 6
12/5/01
SUB
H1A
SUB
TGR
IG
ID
LOGR
SUB
SUB
SUB
SUB
RD
OG
LS
VDD
VIDR
VSSR
SUB
H2B
SUB
SUB
H2A
SUB
SUB
TGG
LOGG
LOGB
PHIA
TGB
SUB
SUB
PHIR
VSSB
VIDB
SUB
VIDG
VSSG
SUB
H1B
SUB
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
Eastman Kodak Company - Image Sensor Solutions
For the most current information regarding this product:
Phone: (585) 722-4385 Fax: (585) 722-4947 Web: www.kodak.com/go/imagers E-mail: imagers@kodak.com
2 of 26
Revision No. 6
Eastman Kodak Company
Technical Data
Kodak Digital Science KLI-10203 Image Sensor
Single Channel Schematic
* Blank
CCD Cells
* Blank
CCD Cells
VDD
VIDn
VSSn
SUB
RD
PHIR
OG
Odd Shift Register
Even Shift Register
ID
IG
TG
PHIA
LOGn
10200 Active Pixels
H1A
H2A
H1B
H2B
H1A
H2A
H1B
H2B
LS/
LOD
24 Dark
24 Test
* See Timing Diagram for clocking detail on blank CCD cells.
General Description
The KLI-10203 is a high resolution, tri-linear array designed for high-resolution color scanning
applications. Each device contains 3 rows of 10200 active photoelements, consisting of high
performance 'pinned diodes' for improved sensitivity, lower noise and the elimination of lag. The pixel
height and pitch is 7 micron and the center-to-center spacing between color channels is 154 microns,
giving an effective twenty-two line delay between adjacent channels during imaging.
Each row is selectively covered with a red, green or blue integral filter stripe for unparalleled spectral
separation. Electronic exposure control is provided to achieve system color balance.
Readout of the pixel data for each channel is accomplished through the use of a dual CCD shift register
allowing for a single output per channel. Sixteen light shielded photoelements are supplied at the output
end of each channel to act as a dark reference.
Dual mode operation is provided to increase dynamic range over 12 bits un-cooled with an output
saturation voltage level of 2.8 volts.
The devices are manufactured using NMOS, buried channel processing and utilize dual layer
polysilicon and dual layer metal technologies.
The die size is 76.87 mm X 1.60 mm and is housed in a custom 40-pin, 0.600" wide, dual in line
package with AR coated cover glass.
The KLI-10203 device is a member of a family of 6K trilinear (KLI-6003, KLI-6013), 8K trilinear (KLI-
8013, KLI-8023), and the 14K trilinear (KLI-14403) CCD imagers that can ease transition for scanning
designs.
Eastman Kodak Company - Image Sensor Solutions
For the most current information regarding this product:
Phone: (585) 722-4385 Fax: (585) 722-4947 Web: www.kodak.com/go/imagers E-mail: imagers@kodak.com
3 of 26
Revision No. 6
Eastman Kodak Company
Technical Data
Kodak Digital Science KLI-10203 Image Sensor
Image Specifications
Specifications given under nominally specified operating conditions for the given mode of operation @ 25oC, fCLK = 1
MHz, AR coverglass, color filters, and an active load as shown in Figure 4, unless otherwise specified. See notes on
next page for further descriptions.
Symbol
Parameter
Min. Nom.
Max.
Units
Remarks
Vsat
Saturation Output Voltage
2.5
2.8
- - -
Vp-p Notes
1,
9
deltaVo/deltaNeOutput Sensitivity
- - -
12.5
- - -
V/e-
Ne,sat
Saturation Signal Charge
200K 224K
- - -
electrons
R
Responsivity
Notes 2, 9, 10
(@ 450 nm)
- - -
8
- - -
V/microJ/cm2
10 %
(@ 550 nm)
- - -
9
- - -
V/microJ/cm2
10 %
(@ 650 nm)
- - -
14
- - -
V/microJ/cm2
10 %
DR
Dynamic Range
74
- - -
- - -
dB
Note 3
DSNU
Dark Signal Non-Uniformity
- - -
0.006
0.02
V
A
DC
DC Gain, amplifier
0.725 0.775
0.825 - - -
Idark
Dark Current
- - -
0.003
0.01
pA/pixel
Note 4
CTE
Charge Transfer Efficiency
0.999995 - - -
- - -
- - -
Note 5
L
Lag
- - -
0.5
1.0
%
1st Field
Vo,dc
DC Output Offset
7.0
7.5
8.0
Volts
Note 9
PRNU, Low
Photoresponse Non-Uniformity, Low Frequency
- - -
10
15
% p-p
Note 6
PRNU, Med
Photoresponse Non-Uniformity, Medium Frequency
- - -
10
15
% p-p
Note 7
PRNU, High
Photoresponse Non-Uniformity, High Frequency
- - -
10
10
% p-p
Note 8
Dark Def
Darkfield Defect, brightpoint
- - -
- - -
0
Allowed
Notes 12
Bfld Def
Brightfield Defect, dark or bright
- - -
- - -
0
Allowed
Notes 13
Exp Def
Exposure Control Defects
- - -
- - -
64
Allowed
Notes 11,14
Eastman Kodak Company - Image Sensor Solutions
For the most current information regarding this product:
Phone: (585) 722-4385 Fax: (585) 722-4947 Web: www.kodak.com/go/imagers E-mail: imagers@kodak.com
4 of 26
Revision No. 6
Eastman Kodak Company
Technical Data
Kodak Digital Science KLI-10203 Image Sensor
Image Specification Notes:
Notes
:
1.
Defined as the maximum output level achievable before linearity or PRNU performance is
degraded beyond specification
2.
With color filter. Values specified at filter peaks. 50% bandwidth = 30 nm. Color filter arrays
become transparent after 710 nm. It is recommended that a suitable IR cut filter be used to
maintain spectral balance and optimal MTF. See chart of typical responsivity later in this
document.
3.
As measured at 2MHz data rate. This device utilizes 2-phase clocking for cancellation of driver
displacement currents. Symmetry between H1 and H2 phases must be maintained to minimize
clock noise.
4.
Dark current doubles approximately every +8C.
5.
Measured per transfer. For the total line: (.999995)
10268
= 0.95.
6.
Low frequency response is measured across the entire array with a 1000 pixel-moving window
and a 5 pixel median filter evaluated under a flat field illumination.
7.
Medium frequency response is measured across the entire array with a 50 pixel-moving window
and a 5 pixel median filter evaluated under a flat field illumination.
8.
High frequency response non-uniformity represents individual pixel defects evaluated under a flat
field illumination. An individual pixel value may deviate above or below the average response for
the entire array. Zero individual defects allowed per this specification.
9.
Increasing the current load (nominally -4mA) to improve signal bandwidth will decrease these
parameters.
10.
If resistive loads are used to set current, the amplifier gain will be reduced, thereby reducing the
output sensitivity and net responsivity. (i.e. with 2.2K Ohm loads to ground, the sensitivity drops
to 12.5 microvolts per electron).
11.
Defective pixels will be separated by at least one non-defective pixel within and across channels.
12.
Pixels whose response is greater than the average response by the specified threshold, (16mV).
See line 1 in figure below.
13.
Pixels whose response is greater or less than the average response by the specified threshold,
(10%). See lines 2 and 3 in figure below.
14.
Pixels whose response deviates from the average pixel response by the specified threshold,
(4mV), when operating in exposure control mode. See lines 4 and 5 in figure below. If dark
pattern correction is used with exposure control, the dark pattern acquisition should be completed
with exposure control actuated. Dark current tends to suppress the magnitude of these defects as
observed in typical applications, hence line rate changes may affect perceived defect magnitude.
Note: Zero defects allowed for those pixels whose response deviates from the average pixel
response by a 20mV threshold.
Eastman Kodak Company - Image Sensor Solutions
For the most current information regarding this product:
Phone: (585) 722-4385 Fax: (585) 722-4947 Web: www.kodak.com/go/imagers E-mail: imagers@kodak.com
5 of 26
Revision No. 6
Eastman Kodak Company
Technical Data
Kodak Digital Science KLI-10203 Image Sensor
Defective Pixel Classification
Exposure
Exposure
Si
g
nal
O
u
t
Si
g
nal
O
u
t
4
5
Linear
response of
a typical
pixel
3
2
1
Linear
response of
a typical
pixel
Notes:
1 Dark Offset Error
2,3 - Brightfield Defects; bright (2), or dark (3)
4,5 - Exposure control mode defects, fast (4), or slow (5)
pixels.
Color Filter Response and Description
A filter set has been implemented for a series of tri-linear image sensors optimized for high
sensitivity color scanning. Values for the various nominal wavelength positions are shown
below with corresponding tolerances for responsivity and wavelength as indicated for Filter
Group II Color Image Sensors. See Figure 1 for clarification of parameters.
Independent of filter type, a degree of variation in the spectral response for the KLI-series tri-
linear image sensors can be expected from the natural manufacturing tolerances of the
process. This variation is due to the combined variations in filter properties (net density and
filter peak wavelength position) and the device properties (sensitivity and film thickness
variations).
Values for gauging filter performance are determined from Figure 1. The center (or peak)
transmission wavelength is specified as
0, and the 50% points are given as
1 and
2,
corresponding to the near and far wavelength sides of the filter pass band.
For the red filter, only the near wavelength value is presented. The red filter, as well as the blue
and green filters, exhibits a high level of transmission beyond the 700nm (i.e., the filters
become transparent). The far wavelength edge is assumed controlled by the system IR cut filter
characteristics.
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