PerkinElmer LC3013PGN-022 High performance, low-cost analog line scan camera Datasheet

12586 Final Art 2 5/9/01 4:51 PM Page 1
Imaging
Telecom
Imaging Product Line
®
LC3000-Series
High Performance, Low-Cost Analog Line Scan Camera
D A T A S H E E T
Lighting
512, 1024 and 2048 elements, 10 and 20 MHz output rates
Description
Features
In the LC3000-series analog line scan
camera, PerkinElmer has combined
the best features of photodiode array
detection, high-speed charge-coupled
scanning, and analog line scan camera
technology to offer an uncompromising
solution to the increasing demands of
advanced imaging applications.
The LC3000-series is a high
performance, low-cost, analog line scan
camera line. The LC3000-series features
a differential driver analog video output with resolutions of 512, 1024 or
2048 pixels, which can achieve data
rates of up to 20 MHz with exceptional
noise immunity. They are designed for
volume applications where small size
and low cost are required.
In order to allow the user to compensate for variations in illumination
found in "real-world" application
environments, the cameras feature
adjustable gain and offset levels. The
LC3000-series cameras feature a
geometrically precise photodiode CCD
image sensor with 14µm square photoelements. State of the art electronic
design enables the LC3000-series to
deliver consistent, reliable performance
while the sturdy metal housing provides
maximum protection in a variety of
harsh environment and factory
floor conditions.
• 10 and 20 MHz output rate models
The LC3000-series cameras convert
light imaged during a scene into an
analog video signal. The amplitude of
the video signal is a linear function of
the incident illumination taken from the
scene. Antiblooming structures within
the sensor ensure superior performance
over a wide range of lighting conditions.
User-defined control is possible for
line rate, integration time and
video data rate.
• Electronic exposure control
• Geometrically precise 14 µm square
pixel CCD
• Small size: 2.5"H x 2.5"W x 2.72"L
• High dynamic range (500:1)
• Peak QE greater than 65%
• Antiblooming control
• Single power supply operation
• Adjustable gain and offset levels
• Line scan rates to 36 kHz
LC3000 cameras may be interfaced
to most frame grabber cards, allowing
for a tested, plug and play solution.
Typical high performance line scan
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Analog Line Scan Camera
applications include lumber processing,
parcel scanning, non-contact measurement, document scanning, dimensional
gauging, biomedical imaging, bar code
scanning and many other industrial
and scientific applications.
Figure 1a: Spectral Sensitivity Curve (Min. Gain)
100
100
90
90
Right Scale
Functional Description
The video signal from the sensor is
processed through a single channel of
sampled-and-held, raster order, analog
video data. The video channel signal
processing circuitry offers both
adjustable gain and offset levels to
allow customization of the camera to
unique lighting applications. An
operational amplifier in a differential
configuration is recommended to
receive the video signal. Figure 2
details the camera video processing.
80
70
70
60
60
50
50
40
40
Left Scale
30
30
20
20
10
10
0
0
250
350
450
550
650
750
850
950
1050
Wavelength (nm)
Figure 1b: Sensor Window Transmission Curve
100
90
Transmission (%)
The LC3000-series cameras contain
a high-performance, high-resolution
line scan image sensor (PerkinElmer
Optoelectronics parts RL0512PAG,
RL1024PAG, or RL2048PAG) featuring
a pinned photodiode pixel. Each
photodiode converts incident light into
discrete charge packets. Advantages of
pinned photodiode pixels include linear exposure control, the elimination
of image lag, and the reduction of
photo response non-uniformity (PRNU).
For more specific sensor specifications
and information, please consult the
appropriate sensor datasheet. Figure 1a
details the spectral sensitivity of the
sensor, while Figure 1b details the
sensor’s glass window light transmission curve.
Responsivity (V/µJ/cm2)
80
The Sensor
QE (%)
Description (cont.)
80
70
60
50
40
30
20
10
0
150
250
350
450
550
650
750
850
950
1050
Wavelength (nm)
Operating Modes
The LC3000-series cameras can be
operated in one of two different modes:
Master Mode and Slave Mode. Master
mode is to be used when the LC3000series camera is operating as a standalone unit. Master mode requires
only input DC power (12-24 VDC) for
operation. In this mode of operation,
the camera will operate at its basic
clock frequency (defined by the model
number) and at the maximum line rate.
Master mode operation is selected
using the bank of rear-camera located
Table 1. Master/Slave Mode DIP-switch Settings
DIP Switch #1 Setting
DIP Switch #2 Setting
Operating Mode
ON
OFF
OFF
ON
ON
OFF
ON
OFF
Master Mode
Slave Mode
Alternate Slave 1
Alternate Slave 2
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Analog Line Scan Camera
Figure 2: LC3000 Camera Block Diagram
Camera Mode Select
+LT
ØH1
ØH2
I
M
A
G
E
R
RS-422 Receivers
FPGA
2
Dip Switch
Position 1 and 2
ØTG
L
E
V
E
L
T
R
A
N
S
ØPG
ØRG
ØAB
D
R
I
V
E
CAMERA
TIMING
LOGIC
LINE
TRANSFER
LOGIC
-LT
+MCLK
-MCLK
CLK
LOGIC
+LRn
L
O
G
I
C
-LRn
Exposure
Control
Logic
RS-422 Drivers
+CCLK
Line Enable Logic
-CCLK
VSP TIMING LOGIC
LENS
+CLT
-CLT
Gain Range Select
Dip Switch
Position 3-5
+LEN
VIDEO SIGNAL
PROCESSING
3
-LEN
3
Dip Switch
Position 6-8
Offset Range Select
+Vout
C
D
S
OFFSET
CONTROL
GAIN
CONTROL
Amp
-Vout
Single
D.C
Power
Supply
Input
12-24V
DIP-switches. These switches are
accessible behind a removable panel,
located above the 25-pin connector on
the back plate of the camera. Figure 3
illustrates the timing details in Master
Mode.
Slave Mode is to be selected when the
camera’s operations are to be synchronized with the user’s unique system.
In slave mode, the camera requires an
external Master Clock signal (MLCK)
to define the output video data rate,
as well as a properly timed Line
Transfer (LT) signal to initiate the line
readout. Figure 4 illustrates timing
details in slave mode. Table 1 details
correct DIP-switch settings for both
Master and Slave Mode.
Within slave mode, there are two
alternative settings for unique applications. Alternative Slave Mode 1
allows the user to supply the camera
with Line Reset (LR) and LT signals,
but allows the camera to run at the
maximum data rate determined by the
internal oscillator. Alternative Slave
Mode 2 instructs the camera to ignore
LR signals, which allows users to
bypass the exposure control feature
of the camera. Table 1 details all DIPswitch settings for all operating
modes.
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Analog Line Scan Camera
Figure 3: Master Mode Timing Diagram
CCLK
16 Clock Cycles
CLT
12 Clock Cycles
12 Cycles
N Clock Cycles
LEN
1 Clock Cycle
1 Clock Cycle
Analog
Video
10 Dark pixels
1
...
2
N-1 N
Note: N is the number of active pixels on the sensor
Figure 4: Slave Mode Timing Diagram
2 Clock
Cycles
min.
2 Clock Cycles min.
LT
Exposure period
2 Clock Cycles +
1.2usec min.
LR
4 Clock
Cycles
min.
Line period
4 Clock Cycles min.
CCLK
MCLK
1 Clock Cycle
16 Clock Cycles
CLT
12 Clock
Cycles min.
N Clock Cycles
LEN
1 Clock Cycle 1 Clock Cycle
12 Clock
Cycles min.
10 Dark
pixels
Analog
Video
1 2
...
N-1 N
Note 1: N = number of active pixels on the sensor
Note 2: E = extra pixel
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Analog Line Scan Camera
Input Signals
The LC3000 camera requires a single DC
supply (+12 to 24VDC) for operation. An
internal oscillator sets the default data
output rate to default model rate (10 or
20 MHz), and the camera will operate at
the maximum line rate. The camera can
be further controlled by three externally
generated differential input signals:
Master Clock (MCLK), Line Transfer
(LT), and Line Reset (LR).
The Master Clock input determines the
data rate frequency for values up to
maximum clock of the camera. The
MCLK input is optional, as the camera
is preset to run off of the internal oscillator at the default maximum data rate.
Should a data rate slower than that
default rate be necessary, an externally
supplied master clock can be enabled
by selecting that setting through the
bank of DIP-switches. The data rate
may be run from 20 kHz to cameras
maximum clock rate. External line
transfer operation also can be enabled
on the DIP-switch bank.
The Line Transfer input signal transfers
the charge from each photo site to the
readout registers. The readout registers,
in turn, transport the charge from each
photodiode in succession to the video
outputs. The LT input from the user
must remain in the ON state for at least
two MCLK cycles to initiate the internal line transfer and may remain ON
until 2 clock cycles prior to the next
desired line transfer. Because there are
extra stages in the CCD sensors readout
register, a minimum number of MCLK
cycles (the number of elements on the
CCD sensor plus 41) must exist
between successive LT commands.
The maximum line scan period without exposure control is 20 milliseconds. Integration times longer than 20
ms can introduce higher levels of dark
current, which reduces the dynamic
range of the sensor. Longer integration
times are possible, however, if the camera is cooled, which reduces dark current. Specific application characteristics, such as light level and rate of
object motion, will determine the
optimum setting. Exposure time of the
Table 2. Video Offset Switch Settings
Range
DIP Switch #6
DIP Switch #7
DIP Switch #8
Normal Offset (mV)
0
ON
ON
ON
0
1
ON
ON
OFF
6.4
2
ON
OFF
ON
12.8
3
ON
OFF
OFF
19.3
4
OFF
ON
ON
25.7
5
6
OFF
OFF
ON
OFF
OFF
ON
32.1
38.6
7
OFF
OFF
OFF
45.0
DIP Switch #5
Gain Times
Full Scale
Table 3. Video Gain Switch Settings
Range
DIP Switch #3
DIP Switch #4
0
ON
ON
ON
0.67
1
ON
ON
OFF
1.00
2
ON
OFF
ON
1.50
3
ON
OFF
OFF
2.20
4
OFF
ON
ON
3.35
5
6
OFF
OFF
ON
OFF
OFF
ON
5.00
7.50
7
OFF
OFF
OFF
11.20
camera can be separately controlled
by using the external line reset input.
The LR input is active low (ON) in
polarity and therefore, when not in
use, must be held high (OFF). In this
condition, the exposure time is
defined by the period of the LT signal.
When using the LR input signal, the
exposure period is defined to be the
time between the rising edge of LR to
the rising edge of LT. The LR signal
must be held active low (ON) for a
minimum of 4 clock cycles and must
be inactive high (OFF) for a minimum
of 4 clock cycles prior to the
LT signal.
Output Signals
The LC3000-series camera provides
three output synchronization signals:
Camera Clock (CCLK), Line Enable
(LEN), and Camera Line Transfer (CLT).
of the CCLK signal can be used to capture analog video data by a frame grabber or digitizer.
The Line Enable (LEN) signal brackets
the valid analog video. The signal
becomes high one CCLK period before
the first valid pixel and goes low one
CCLK period before the last valid
pixel. The video output is a contiguous
pixel data stream with a dynamic
range (defined as peak video divided by
rms. pixel noise) of greater than 500:1.
The Camera Line Transfer (CLT) output signal is an internally generated
sync signal. Its falling edge indicates
the start of a line readout sequence.
This signal may be used for controlling strobes, shutters or other accessories of the users system.
The Camera Clock (CCLK) operates at
either the MCLK frequency or default
camera frequency, and is synchronized to the analog video. The output
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Analog Line Scan Camera
Video Signals
The LC3000-series camera features an
adjustable DC offset. This offset is
controlled by the bank of DIP-switches.
Table 2 describes the nominal level of
the video black level with respect to the
various switch selections.
Additionally, the LC3000-series cameras feature a user-adjustable video
gain. Video gain is adjustable by the
bank of DIP-switches. Table 3 references the various settings and corresponding gain levels. Cameras are
shipped factory-default with range 1.
Table 4. Camera Features Summary
Active
Pixels
Maximum
Data Rate
Max.Line
Scan Rate
14µm x 14µm
10 MHz
18,000 L/Sec
55.3µs
14µm x 14µm
10 MHz
9,300 L/Sec
106.5µs
10 MHz
4,700 L/Sec
208.9µs
20 MHz
36,000 L/Sec
27.7µs
14µm x 14µm
20 MHz
18,700 L/Sec
53.3µs
14µm x 14µm
20 MHz
9,500 L/Sec
104.5µs
Model
Array
Pixel Size
LC3011
RL0512P
512
LC3012
RL1024P
1024
LC3013
RL2048P
2048
14µm x 14µm
LC3021
RL0512P
512
14µm x 14µm
LC3022
RL1024P
1024
LC3023
RL2048P
2048
Max. Line
Scan Period
Figure 5. Optical Interface Diagram
Drawing Not To Scale
Lens
CCD
FOV
Image
AL
ES
Object
WD
EXT
MFD
= Field of view (object size + tolerance)
= Resolution requirement = FOV / RR
= Elements required (calculated)
= # of CCD elements
= Element size (pixel spacing) - 14µm
= Array length (max, image size) = EN x ES
= Magnification = AL / FOV
= Working distance (object to lens)
= Length of extensions = WD / MAG
= Mount to flange distance
FOV
RR
ER
EN
ES
AL
MAC
WD
EXT
MFD
Figure 6. LC3000 Outline Drawings
REGISTRATION SLOT
+002
0.126 -000 X 0.150 long X 0.09 deep
MEASUREMENTS IN INCHES (MM)
REGISTRATION HOLE
0.156 +002
X 0.09 deep
-000
FRONT VIEW
0.850
(21.59)
1.70 ± 0.015
(43.13 ±0.381
2.50
(63.50)
0.850
(21.59)
PIXEL 1
2.50
(63.50)
REAR VIEW
REGISTRATION HOLE
0.156 +002
X 0.09 deep
-000
REGISTRATION HOLE
+002
0.126 -000 X 0.09 deep
DIP Switches
2.50
(63.50)
25-pin D-type
Male Connector
SIDE VIEW
1.25
(31.75)
2.50
(63.50)
2.50
(63.50)
1.25
(31.75)
2.72
(69.09)
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Analog Line Scan Camera
User Connections
The connector on the LC3000-series
camera is a 25-pin D-type male
connector. All user connections are
via this connector. It contains all communications, output, and power connections needed for camera operation.
Refer to Table 5 for pinout locations
and details.
Table 5. Pin Assignments
Pin
Signal
1
N/C
2
N/C
3
CCLK+
4
MCLK-
5
6
Camera Performance
The camera head is housed in a
rugged, one-piece, deep drawn
aluminum case, measuring 2.5"H x
2.5"W x 2.72"L (excluding lens
mounts or connector extensions)
specifically designed for industrial
applications. The sensor is mounted
on an aluminum plate that efficiently
transfers heat to the camera case. The
camera is provided with a standard
1
/4"-20 UNC tripod mounting block,
which can be attached to any of the
four sides of the camera. The mounting holes used to attach the tripod
block can also be used to mount the
camera assembly. The recommended
mounting method for the LC3000series is attaching the camera to the
desired location using the faceplate of
the housing. The faceplate mounting
screws should have a maximum insertion depth of 0.25" (6.35 mm). This
mounting method results in the most
advantageous use of the one-piece
faceplate design and provides a highly
stable reference surface to the optical
plane of the CCD sensor. Additionally,
the CCD sensor is thermally coupled
to the faceplate of the camera, and the
conductive cooling of this surface is
useful in minimizing thermally generated dark current and noise of the
camera system.
Optical Interface
The LC3000-series cameras are
equipped with a U-Mount lens interface (MA2-1-6H) that is aligned to the
CCD sensor. Adapters are available to
accept ‘C’, ‘U’, or ‘F’ (Nikon Bayonet)
lens. These standard adapters allow
the user to select the optimum lens to
suit their particular application. For
assistance in choosing camera
adapters, extensions, and lenses,
contact PerkinElmer.
Description
Pin
Signal
Description
No Connection
14
Power Return
Input Power Common
No Connection
15
MCLK+
Master Clock+
Camera Clock+
16
CCLK-
Camera Clock-
Master Clock-
17
LT+
External Line Transfer+
N/C
No Connection
18
LT-
Extenal Line Transfer-
N/C
No Connection
19
CLT-
Camera Line Transfer-
7
CLT+
Camera Line Transfer+
20
LEN+
Line Enable+
8
LEN-
Line Enable-
21
N/C
No Connection
9
N/C
No Connection
22
LR-
Line Reset-
10
LR+
Line Reset+
23
N/C
No Connection
11
N/C
No Connection
24
Video+
Analog Video+
12
Video-
Analog Video-
25
N/C
No Connection
13
Power
Input DC Power
Table 6. Camera Specifications
Characteristic
Min
Typ
High
Unit
Pixel Spacing
Aperture Width
Spectral Response
Window
Anti-Blooming
Full Scale Output
Output Impedance
DC Offset
Exposure Time
Line Period
LC3011
LC3012
LC3013
LC3021
LC3022
LC3023
350
0
-
14
14
Glass
Yes
0.75
100
-
1000
45
20
µm
µm
nm
V
ohm
mV
mS
55.4
106.6
209.0
27.7
53.3
104.5
-
-
µs
µs
µs
µs
µs
µs
Fixed Pattern Noise
Photo Response Non-Uniformity (PRNU)
Random Noise, rms
Noise Equivalent Exposure
Dynamic Range
50% Full Scale Exposure1
Photo Response
Weight
Dimensions
Lens Mount
Random Vibration
Shock (6 axis without lens), Peak
Operating Temperature
Storage Temperature
Input Voltage
Current @12 VDC2
Input Power
-20
-40
11.5
-
0.06
500:1
0.015
25
15
2.5 x 2.5 x 2.72
U-Mount
30
300
12
480
6
15
±10
1.5
55
80
24
-
mV
%
mV
nJ/cm2
Range
µJ/cm2
V/µJ/cm2
ounces
inches
g,RMS
g
˚C
˚C
VDC
mA
W
Notes:
1. Measured with 635 nm light source.
2. LC3013PGN-011
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Analog Line Scan Camera
Ordering Information
While the information provided in this
data sheet is intended to describe the
form, fit and function for this product,
PerkinElmer reserves the right to make
changes without notice.
Table 7. Stock Part Numbers
Camera Model
Resolution
Maximum Data Rate
LC3011PGN-022
512
10MHz
LC3012PGN-022
1024
10MHz
LC3013PGN-022
2048
10MHz
LC3021PGN-022
512
20MHz
LC3022PGN-022
1024
20MHz
20MHz
LC3023PGN-022
2048
LC3011PGC-0221
512
10MHz
LC3012PGC-0221
1024
10MHz
LC3013PGF-0222
2048
10MHz
512
20MHz
LC3022PGC-0221
LC3021PGC-022
1024
20MHz
LC3023PGF-0222
2048
20MHz
1
Notes:
1. Includes C-mount adaptor
2. Includes F-mount adaptor
For more information e-mail us at
[email protected] or visit our web
site at www.perkinelmer.com/opto.
All values are nominal; specifications
subject to change without notice.
Table 8. Sales Offices
North America
United States
PerkinElmer Optoelectronics
2175 Mission College Blvd.
Santa Clara, CA 95054
Toll Free: 800-775-OPTO (6786)
Phone: +1-408-565-0830
Fax: +1-408-565-0703
Germany
PerkinElmer Optoelectronics GmbH
Wenzel-Jaksch-Str. 31
D-65199 Wiesbaden, Germany
Phone: +49-611-492-570
Fax: +49-611-492-165
Japan
PerkinElmer Optoelectronics
NEopt. 18F, Parale Mitsui Building 8
Higashida-Cho, Kawasaki-Ku
Kawasaki-Shi, Kanagawa-Ken 210-0005 Japan
Phone: +81-44-200-9170
Fax: +81-44-200-9160
www.neopt.co.jp
Singapore
47 Ayer Rajah Crescent #06-12
Singapore 139947
Phone: +65-770-4925
Fax: +65-777-1008
Europe
Asia
© 2001 PerkinElmer Inc. All rights reserved.
PerkinElmer, the PerkinElmer logo and the stylized “P” are trademarks of PerkinElmer, Inc.
Reticon is a registered trademark of PerkinElmer, Inc.
DSP-201.01D - 4/2002
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