ETC KAF

KAF-1602E
KAF- 1602E
1536 (H) x 1024 (V) Pixel
Full-Frame CCD Image Sensor
Performance Specification
Eastman Kodak Company
Image Sensor Solutions
Rochester, New York 14650-2010
Revision 1
April 3, 2001
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
KAF-1602E
TABLE OF CONTENTS
1.1 Features...............................................................................................................................................3
1.2 Description..........................................................................................................................................3
1.3 Image Acquisition...............................................................................................................................4
1.4 Charge Transport ................................................................................................................................4
1.5 Output Structure..................................................................................................................................4
1.6 Dark Reference Pixels ........................................................................................................................4
1.7 Dummy Pixels ....................................................................................................................................4
2.1 Package Drawing ................................................................................................................................5
2.2 Pin Description ...................................................................................................................................6
3.1 Absolute Maximum Ratings ...............................................................................................................7
3.2 DC Operating Conditions ...................................................................................................................8
3.3 AC Operating Conditions ...................................................................................................................9
3.4 AC Timing Conditions .......................................................................................................................9
4.1 Performance Specifications ..............................................................................................................11
4.2 Typical Performance Characteristics ................................................................................................12
4.3 Defect Classification.........................................................................................................................13
5.1 Quality Assurance and Reliability ....................................................................................................14
5.2 Ordering Information ........................................................................................................................14
Revision Changes ...................................................................................................................................15
FIGURES
Figure
Figure
Figure
Figure
Figure
1 Functional Block Diagram ....................................................................................................3
2 Packaging Diagram ...............................................................................................................5
3 Packaging Pin Designations ..................................................................................................6
4 Recommended Output Structure Load Diagram ...................................................................8
5 Timing Diagrams.................................................................................................................10
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
2
Revision No. 1
KAF-1602E
1.1
Features
1.6M Pixel Area CCD
1536H x 1024V (9 µm) Pixels
13.8 mm H x 9.2 mm V Photosensitive Area
2-Phase Register Clocking
Enhanced Responsivity
100% Fill Factor
High Output Sensitivity (10µV/e-)
Low Dark Current (<10pA/cm2 @ 25oC)
1.2
Description
The transparent gate results in spectral response
increased ten times at 400nm, compared to a front side
illuminated standard poly silicon gate technology. The
sensitivity is increased 50% over the rest of the visible
wavelengths.
Total chip size is 13.8mm x 9.2mm and is housed in a
24-pin, 0.88” wide DIL ceramic package with 0.1” pin
spacing.
The sensor consists of 1552 parallel (vertical) CCD
shift registers each 1032 elements long. These registers
act as both the photosensitive elements and as the
transport circuits that allow the image to be sequentially
read out of the sensor. The elements of these registers
are arranged into a 1536 x 1024 photosensitive array
surrounded by a light shielded dark reference of 16
columns and 8 rows. The parallel (vertical) CCD
registers transfer the image one line at a time into a
single 1564 element (horizontal) CCD shift register.
The horizontal register transfers the charge to a single
output amplifier. The output amplifier is a two-stage
source follower that converts the photogenerated charge
to a voltage for each pixel.
The KAF-1602 is a high performance monochrome area
CCD (charge-coupled device) image sensor with 1536H
x 1024V photoactive pixels designed for a wide range
of image sensing applications in the 0.4nm to 1.0nm
wavelength band. Typical applications include military,
scientific, and industrial imaging. A 74dB dynamic
range is possible operating at room temperature.
The sensor is built with a true two-phase CCD
technology employing a transparent gate. This
technology simplifies the support circuits that drive the
sensor and reduces the dark current without
compromising charge capacity.
4 Dark lines
Figure 1 - Functional Block Diagram
φ V1
φ V2
KAF - 1602E
Usable Active Image Area
1536(H) x 1024(V)
Guard
9 x 9 µm pixels
3:2 aspect ratio
Vrd
φR
Vdd
Vout
Vss
4 Dark lines
1536 Active Pixels/Line
12 Dark
4 Dark
φ H1
φ H2
2 Inactive
10 Inactive
Sub
Vog
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
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E-mail: [email protected]
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Revision No. 1
KAF-1602E
1.3
Image Acquisition
Once the signal has been sampled by the system
electronics, the reset gate (φR) is clocked to remove the
signal and FD is reset to the potential applied by VRD.
More signal at the floating diffusion reduces the voltage
seen at the output pin. In order to activate the output
structure, an off-chip load must be added to the Vout
pin of the device - see Figure 4.
An electronic representation of an image is formed when
incident photons falling on the sensor plane create
electron-hole pairs within the sensor. These photoninduced electrons are collected locally by the formation
of potential wells at each photogate or pixel site. The
number of electrons collected is linearly dependent on
light level and exposure time and non-linearly dependent
on wavelength. When the pixel's capacity is reached,
excess electrons will leak into the adjacent pixels within
the same column. This is termed blooming. During the
integration period, the φV1 and φV2 register clocks are
held at a constant (low) level.
See Figure 5. - Timing Diagrams.
1.4
1.6
Surrounding the peripheral of the device is a border of
light shielded pixels. This includes 4 leading and 12
trailing pixels on every line excluding dummy pixels.
There are also 4 full dark lines at the start of every
frame and 4 full dark lines at the end of each frame.
Under normal circumstances, these pixels do not
respond to light. However, dark reference pixels in
close proximity to an active pixel, or the outer bounds
of the chip (including the first two lines out), can
scavenge signal depending on light intensity and
wavelength and therefore will not represent the true
dark signal.
Charge Transport
Referring again to Figure 5 - Timing Diagrams, the
integrated charge from each photogate is transported to
the output using a two step process. Each line (row) of
charge is first transported from the vertical CCD's to the
horizontal CCD register using the φV1 and φV2 register
clocks. The horizontal CCD is presented a new line on
the falling edge of φV2 while φH1 is held high. The
horizontal CCD's then transport each line, pixel by
pixel, to the output structure by alternately clocking the
φH1 and φH2 pins in a complementary fashion. On each
falling edge of φH2 a new charge packet is transferred
onto a floating diffusion and sensed by the output
amplifier
1.5
Dark Reference Pixels
1.7
Dummy Pixels
Within the horizontal shift register are 10 leading and 2
trailing additional shift phases that are not associated
with a column of pixels within the vertical register.
These pixels contain only horizontal shift register dark
current signal and do not respond to light. A few
leading dummy pixels may scavenge false signal
depending on operating conditions
Output Structure
Charge presented to the floating diffusion (FD) is
converted into a voltage and current amplified in order
to drive off-chip loads. The resulting voltage change
seen at the output is linearly related to the amount of
charge placed on FD.
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
4
Revision No. 1
KAF-1602E
2.1
Package Drawing
Figure 2 - Package Drawing
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
5
Revision No. 1
KAF-1602E
2.2
Pin Description
Pin
Symbol
1
2
3
VOG
VOUT
VDD
4
VRD
Reset Drain
5
6
7
φR
VSS
φH1
Reset Clock
Amplifier Supply Return
Horizontal CCD Clock - Phase 1
8
φH2
N/C
Horizontal CCD Clock - Phase 2
9, 10, 12
Description
Output Gate
Video Output
Amplifier Supply
Pin
Symbol
13
11, 14
15, 16,
21, 22
17, 18,
19, 20
23
24
N/C
VSUB
φV1
No connection (open pin)
Substrate (Ground)
Vertical CCD Clock - Phase 1
φV2
Vertical CCD Clock - Phase 2
Guard
N/C
Description
Guard Ring
No Connection (open pin)
No connection (open pin)
Pin 1
24
N/C
23
Guard
VDD 3
22
φ V1
VRD
4
21
φ V1
φR
5
20
φ V2
VSS
6
19
φ V2
φ H1 7
18
φ V2
φ H2 8
17
φ V2
N/C
9
16
φ V1
N/C
10
15
φ V1
N/C
11
14
Vsub
N/C
12
13
N/C
VOG
1
Vout
2
Pixel 1,1
Figure3 - Packaging Pin Designations
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
6
Revision No. 1
KAF-1602E
3.1
Absolute Maximum Ratings
Description
Symbol
Min.
Max.
Diode Pin Voltages
Gate Pin Voltages - Type 1
Gate Pin Voltages - Type 2
Inter-Gate Voltages
Output Bias Current
Output Load Capacitance
Storage Temperature
Humidity
Vdiode
Vgate1
Vgate2
Vg-g
Iout
Cload
T
RH
0
-16
0
20
16
16
16
-10
15
100
90
Notes:
1.
2.
3.
4.
5.
6.
7.
5
Units
Notes
V
V
V
V
mA
pF
o
C
%
1, 2
1, 3
1, 4
5
6
6
7
Referenced to pin VSUB.
Includes pins: VRD, VDD, VSS, VOUT.
Includes pins: φV1, φV2, φH1, φH2.
Includes pins: φR, VOG.
Voltage difference between overlapping gates. Includes: φV1 to φV2, φH1 to φH2, φV2 to φH1, φH2 to VOG.
Avoid shorting output pins to ground or any low impedance source during operation.
T=25°C. Excessive humidity will degrade MTTF.
CAUTION:
This device contains limited protection against Electrostatic Discharge (ESD). Devices should be handled
in accordance with strict ESD control procedures for Class 1 devices.
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
7
Revision No. 1
KAF-1602E
3.2
DC Operating Conditions
Description
Reset Drain
Output Amplifier Return
Output Amplifier Supply
Substrate
Output Gate
Guard Ring
Video Output Current
Symbol
Min.
Nom.
Max.
Units
VRD
VSS
VDD
VSUB
VOG
Guard
Iout
10.5
1.5
14.5
0
3.75
8.0
11
2.0
15
0
4
9.0
-5
11.5
2.5
15.5
0
5
12.0
-10
V
V
V
V
V
V
mA
Max DC Current
(mA)
0.01
-0.5
Iout
0.01
0.01
0.01
-
Notes
1
Notes:
1. An output load sink must be applied to Vout to activate output amplifier - see Figure below.
+15V
0.1uF
~5ma
Vout
2N3904 or equivalent
Buffered Output
140Ω
1k Ω
Figure 4 - Example Output Structure Load Diagram
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
8
Revision No. 1
KAF-1602E
3.3
AC Operating Condition
Description
Symbol
Level
Min.
Nom.
Vertical CCD Clock - Phase 1
φV1
Vertical CCD Clock - Phase 2
φV2
Horizontal CCD Clock - Phase 1
φH1
Horizontal CCD Clock - Phase 2
φH2
Reset Clock
φR
Low
High
Low
High
Low
High
Low
High
Low
High
-10.5
0
-10.5
0
-5.0
5.0
-5.0
5.0
-3.0
3.5
-10.0
0.5
-10.0
0.5
-4.0
6.0
-4.0
6.0
-2.0
4.0
Max.
Units
-9.5
1.0
-9.5
1.0
-3.5
6.5
-3.5
6.5
-1.75
5.0
V
V
V
V
V
V
V
V
V
V
Effective
Capacitance
21 nF
(all øV1 pins)
21 nF
(all øV2 pins)
200pF
200pF
5pF
Notes:
1. All pins draw less than 10uA DC current.
2. Capacitance values relative to VSUB.
3.4
AC Timing Conditions
Description
Symbol
φH1, φH2 Clock Frequency
φV1, φV2 Clock Frequency
Pixel Period (1 Count)
φH1, φH2 Setup Time
φV1, φV2 Clock Pulse Width
Reset Clock Pulse Width
Readout Time
Integration Time
Line Time
Notes:
1.
2.
3.
Min.
Nom.
Max.
Units
Notes
15
125
MHz
kHz
ns
us
us
ns
ms
1, 2, 3
1, 2, 3
67
0.5
4
10
121
10
100
100
1
5
20
178
117.4
172.5
fH
fV
te
tφHS
tφV
tφR
treadout
tint
tline
us
50% duty cycle values.
CTE may degrade above the nominal frequency.
Rise and fall times (10/90% levels) should be limited to 5-10% of clock period. Cross-over of register clocks should be
between 40-60% of amplitude.
5.
φR should be clocked continuously.
treadout = ( 1032 * tline )
6.
7.
Integration time is user specified. Longer integration times will degrade noise performance.
tline = ( 3* tφV ) + tφHS + ( 1564 * te ) + te
4.
2
4
5
6
7
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
9
Revision No. 1
Notes
KAF-1602E
Frame Timing
tint
tReadout
1 Frame = 1032 Lines
φ V1
φ V2
Line
1
2
1031
1032
φ H1
φ
H2
Line Timing Detail
Pixel Timing Detail
tφR
1 line = 1564 Pixels
tφV
φV1
tφV
φR
φH1
φV2
te
tφHS
φH1
te
1 count
φH2
Vpix
φH2
Vout
1564 counts
Vsat
Vdark
φR
Vodc
Vsub
Line Content
1-10 11-14
15 - 1550
Photoactive Pixels
1551-1562 1563-1564
Dummy Pixels
Vsat
Vdark
Vpix
Vodc
Vsub
Saturated pixel video output signal
Video output signal in no light situation, not zero due to Jdark
Pixel video output signal level, more electrons =more negative*
Video level offset with respect to vsub
Analog Ground
* See Image Aquisition section (page 4)
Dark Reference Pixels
Figure 5 - Timing Diagrams
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
10
Revision No. 1
KAF-1602E
4.1
Performance Specifications
All values measured at 25°C, and nominal operating conditions. These parameters exclude defective pixels.
Description
Symbol
Saturation Signal
Vertical CCD capacity
Horizontal CCD capacity
Output Node capacity
Red Quantum Efficiency (λ=650nm)
Green Quantum Efficiency (λ=550nm)
Blue Quantum Efficiency (λ=450nm)
Blue Quantum Efficiency (λ=400nm)
Photoresponse Non-Linearity
Nsat
Nom.
Max.
85000
170000
190000
100000
200000
220000
120000
240000
240000
Units
Notes
electrons / pixel
1
60
50
40
30
70
59
47
35
%
%
%
%
PRNL
1
2
%
2
Photoresponse Non-Uniformity
PRNU
1
3
%
3
Dark Signal
Jdark
20
4
50
10
electrons / pixel / sec
pA/cm2
4
6.3
15
74
7.5
50
Dark Signal Doubling Temperature
Dark Signal Non-Uniformity
Dynamic Range
Charge Transfer Efficiency
Output Amplifier DC Offset
Output Amplifier Bandwidth
Output Amplifier Sensitivity
Output Amplifier output Impedance
Noise Floor
Rr
Rg
Rb
Rb 400
Min.
49
41
32
24
5
DSNU
DR
CTE
Vodc
f-3dB
Vout/Ne~
Zout
ne~
72
0.99997
o
C
electrons / pixel / sec
dB
5
6
V
Mhz
7
8
uV/e~
Ohms
electrons
9
0.99999
9.5
10.5
45
9
175
10
200
15
11.5
11
250
20
Notes:
For pixel binning applications, electron capacity up to 330000 can be achieved with modified CCD inputs.
Each sensor may have to be optimized individually for these applications. Some performance parameters may be compromised to
achieve the largest signals.
2. Worst case deviation from straight line fit, between 1% and 90% of Vsat.
3. One Sigma deviation of a 128x128 sample when CCD illuminated uniformly.
4. Average of all pixels with no illumination at 25oC..
5. Average dark signal of any of 12 x 8 blocks within the sensor. (each block is 128 x 128 pixels)
o
6. 20log ( Nsat / ne~) at nominal operating frequency and 25 C.
7. Video level offset with respect to ground
8. Last output amplifier stage only. Assumes 10pF off-chip load.
o
9. Output noise at 25 C, nominal operating frequency, and tint = 0.
1.
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
11
Revision No. 1
KAF-1602E
Typical Performance Characteristics
Spectral Response
KAF-1602E
1
0.9
0.8
Absolute Quantum Efficiency
4.2
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
350
450
550
650
750
850
950
1050
Wavelength (nm)
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
12
Revision No. 1
KAF-1602E
4.3
Cosmetic Classification
All tests performed at T=25oC
Class
Point Defects
Total
Zone A
≤5
≤2
≤10
≤5
≤20
≤10
C1
C2
C3
Cluster Defects
Total
Zone A
0
0
≤4
≤2
≤8
≤4
1,1024
Column Defects
Total
Zone A
0
0
0
0
2
≤4
1536,1024
368,812
1168,812
Zone A
Center 800 x 600 Pixels
368,212
1168,212
1,1
1536,1
Point Defect
DARK: A pixel which deviates by more than 6% from
neighboring pixels when illuminated to 70% of saturation, OR
BRIGHT: A Pixel with dark current > 5000 e/pixel/sec at
25C.
Cluster Defect
A grouping of not more than 5 adjacent point defects
Column Defect
A grouping of >5 contiguous point defects along a single
column, OR
A column containing a pixel with dark current >
12,000e/pixel/sec, OR A column that does not meet the
minimum vertical CCD charge capacity, OR
A column that loses more than 250e under 2Ke illumination.
Neighboring pixels
The surrounding 128 x 128 pixels or ±64 columns/rows.
Defect Separation
Column and cluster defects are separated by no less than two
(2) pixels in any direction (excluding single pixel defects).
Defect Region Exclusion Defect region excludes the outer two (2) rows and columns at each side/end of
the sensor.
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
13
Revision No. 1
KAF-1602E
5.1
Quality Assurance and Reliability
5.1.1
Quality Strategy: All devices will conform to the specifications stated in this document. This is accomplished
through a combination of statistical process control and inspection at key points of the production process.
5.1.2
Replacement: All devices are warranted against failure in accordance with the terms of Terms of Sale.
5.1.3
Cleanliness: Devices are shipped free of contamination, scratches, etc. that would cause a visible defect.
5.1.4
ESD Precautions: Devices are shipped in a static-safe container and should only be handled at static-safe
workstations.
5.1.5
Reliability: Information concerning the quality assurance and reliability testing procedures and results are available
from the Image Sensor Solutions and can be supplied upon request.
5.1.6
Test Data Retention: Devices have an identifying number of traceable to a test data file. Test data is kept for a
period of 2 years after date of shipment.
5.2
Ordering Information
Address all inquiries and purchase orders to:
Image Sensor Solutions
Eastman Kodak Company
Rochester, New York 14650-2010
Phone: (716) 722-4385
Fax:
(716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
Kodak reserves the right to change any information contained herein without notice. All information furnished by Kodak
is believed to be accurate.
WARNING:
LIFE SUPPORT APPLICATIONS POLICY
Kodak image sensors are not authorized for and should not be used within Life Support Systems without the
specific written consent of the Eastman Kodak Company. Product warranty is limited to replacement of
defective components and does not cover injury or property or other consequential damages.
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
14
Revision No. 1
KAF-1602E
Revision Changes:
Revision
Number
0
1
Description of Changes
Initial formal version.
Removed Available Part Numbers.
Added Revision Changes
Eastman Kodak Company – Image Sensor Solutions - Rochester, NY 14650-2010
Phone (716) 722-4385
Fax (716) 477-4947
Web: www.kodak.com/go/ccd
E-mail: [email protected]
15
Revision No. 1