LD3542PGK-011 [PERKINELMER]
Low-Cost Digital Linescan Camera; 低成本的数字线扫描相机![LD3542PGK-011](http://pdffile.icpdf.com/pdf1/p00044/img/icpdf/LD3542_229794_icpdf.jpg)
型号: | LD3542PGK-011 |
厂家: | ![]() |
描述: | Low-Cost Digital Linescan Camera |
文件: | 总8页 (文件大小:179K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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Lighting
Telecom
Imaging
Imaging Product Line
LD3500 Series Low-Cost Digital Linescan Camera
512, 1024 and 2048 Pixels,
and Parallel LVDS Outputs
Features
electronic design enables the
LD3500-series to deliver consistent,
reliable performance while the
sturdy metal housing provides
maximum protection in a variety of
harsh environment and factory floor
conditions.
Description
• 20 and 40 MHz output rate models
• Geometrically precise 14 µm square
pixel linear CCD
• Small size: 2.5" H x 2.5" W x 3.2" L
• High dynamic range (250:1)
• CameraLink and Parallel LVDS
video output models
• 8-bit grey scale resolution
• Antiblooming control
• Single power supply operation
• Electronic exposure control
• Adjustable gain levels
In the LD3500-series digital linescan
camera, PerkinElmer has combined the
best features of photodiode array
detection, high-speed charge-coupled
scanning, and digital line scan camera
technology to offer an uncompromising
solution to the increasing demands of
advanced imaging applications.
The LD3500-series linescan cameras
transform light imaged during a
scene into a digital video signal.
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.
The LD3500-series are high perform-
ance, low-cost, digital linescan cameras.
The LD3500 features a CameraLink™ or
Parallel LVDS (RS-644) style video
output with resolutions of 512, 1024 or
2048 pixels, which can achieve data
rates of up to 20 or 40 MHz with excep-
tional noise immunity. The cameras are
designed for volume applications where
small size and low cost are required.
• CE mark certified
• Line scan rates to 68 kHz
The LD3500 cameras may be
interfaced to most frame grabber
cards, allowing for a tested, plug and
play solution. Typical high
performance line scan applications
include lumber processing, non-
contact measurement, document
scanning, dimensional gauging,
biomedical imaging, bar code
scanning and many other industrial
and scientific applications.
In order to allow the user to compensate
for variations in illumination found in
"real-world" application environments,
the cameras feature adjustable gain
levels. The LD3500-series cameras
feature a geometrically precise photo-
diode CCD image sensor with 14µm
photo-elements. State of the art
www.opto.perkinelmer.com
PDP-206.01B - 7/2002W Page 1
Digital Linescan Camera
Figure1a: Spectral Sensitivity Curve (1X Gain)
Sensor Description
100
100
90
90
The LD3500-series cameras contain a
single output, high-performance, high-
resolution line scan image sensor
(PerkinElmer Optoelectronics Reticon®
parts RL0512PAG, RL1024PAG, or
RL2048PAG) featuring a pinned
Right Scale
80
80
70
60
50
40
30
20
70
60
50
40
30
20
10
0
photodiode pixel. The spectral
response of the sensor is shown in
Figure 1a, with the sensor window
transmission curve shown in Figure 1b.
Left Scale
Functional Description
10
0
1050
250
650
950
350
450
550
750
850
The video signal from the sensor is
processed through a single channel of
sampled-and-held, raster order, digital
video data. The video channel signal
processing circuitry offers adjustable gain
levels that allow users to customize of
the camera to unique lighting
Wavelength (nm)
Figure 1b: Window Transmission Curve
100
90
80
70
60
applications
Operating Modes
The LD3500 series cameras can operate
in Master or Slave Mode. When the
camera is set to Master Mode, the camera
operates at its maximum line scan and
data rate. When the camera is set to
Slave Mode, the cameras scan and data
rates are determined by the users input
signals to the camera. The opertaing
mode is set via the serial connection on
the CameraLink models, and is auto-
detected on the LVDS models. Auto-
detection is accomplished by looking for
either a Line Transfer (LT) and/or
External Clock signal. If the camera
receives a LT signal, but no external
clock, it will continue to run a the
maximum data rate, but will only intiate
a LT upon signal. If the camera recieves
an external clock signal, it will run at
that clock signal with either an internal
or external LT signal.
50
40
30
20
10
0
1050
150
250
350
450
550
650
750
850
950
Wavelength (nm)
The rising edge of the LT signal
transfers the charge from each
photosite to the readout registers.
The readout registers, in turn,
Should a data rate slower than that
default rate be necessary, an
externally supplied master clock can
be used. The data rate may be run
from 2 MHz to cameras maximum
clock rate. The Line Transfer input
signal transfers the charge from each
photosite to the readout registers.
The readout registers, in turn,
transport the charge from each
photosite in succession to the video
outputs.
transport the charge from each
photosite in succession to the video
outputs. The exposure time of the
camera can be externally controlled
using the LR input. The LR input is
active low (ON) in polarity and
therefore, when not in use, must be
held high or left unattended (OFF).
In this condition, the exposure time is
defined by the period of the LT signal.
Input/Output Signal
Specifications
The exposure time of a LD3500-series
camera can be controlled by using the
external LR input. The LR input is
active low (ON) in polarity and
therefore, when not in use, must be
held high or left unattended (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 LT to the rising edge of LR.
Output signals are compliant with
CameraLink specifications.
The LD3500 camera requires a single
DC supply (+12 to 24V) for operation.
An internal oscillator sets the default
data output rate to default model rate
(20 or 40 MHz).
Parallel LVDS (RS-644) Models:
Parallel LVDS models of the LD3500
provide Master Clock (MCLK), Line
Transfer (LT) and Line Reset (LR)
input signals. The MCLK 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.
CameraLink Models:
CameraLink allows for 4
manufacturer-defined camera control
signals (CC1-CC4). CC1 is a Line
Transfer (LT) signal. CC2 is a Line
Reset (LR) signal. CC3 and CC4 are
reserved for future assignment.
The LD3500-series camera provides
two output synchronization signals:
Camera Clock (CCLK) and Line
w w w . p e r k in e lm e r . c o m / o p t o
PDP-206.01B - 7/2002W Page 2
Dig ita l Line s c a n Ca m e ra
Input/Output Signal Specifications
(Continued)
Figure 2. Connector Diagram
Enable (LEN).
The Camera Clock (CCLK) operates at
either the MCLK frequency or default
camera frequency, and is synchronized to
the analog video. The output of the CCLK
signal can be used to capture digital video
data by a frame grabber or digitizer.
3
5
6
7
9
10
23
1
2
4
8
11
24
12
25
13
26
14
15
16
17
18
19
20
21
22
3M Connector MDR26 Position Plug
The Line Enable (LEN) signal brackets the
valid digital video. The signal becomes
high one CCLK period before the first valid
pixel and goes low one CCLK period before
the last valid pixel.
Recommended Cable: 3M14X26S2LB-XXX-OLC
Parallel LVDS
In all modes of operation on the LVDS
models, a single line delay is present due
to the necessity of storing all video data
into memory before the video is output.
18
36
1
19
Video Gain
Recommended Cable: 3M10136-6000EC series
The LD3500-series camera features an
adjustable video gain. This allows users
to amplify the video signals for individual
application needs. Photo Response Non-
Uniformity (PRNU) remains linear with
gain.
Figure 3. Power Connector Diagram
1
6
CameraLink Models:
2
5
3
4
Gain levels are set by serial
communication though the CameraLink
connector. Gain can be set from 0 to
24.5 dB in increments of 3.5 dB. Gain
settings are not lost when the camera is
powered down.
Connector: Hirose HR10A
Mating Part: Hirose HR10A-7P-6S
Parallel LVDS (RS-644) Models:
Table 2. Power Connector Pinout
Gain levels are set by differential RS-644
gain control inputs on the camera
connector. The gain levels can be set at 1,
2, 4 and 8X full-scale gain, allowing the
user to easily configure the camera output
to suit their application needs. Gain
settings are not held after power down;
proper input signals must be given at
start-up, and held throughout operation
for gain settings to remain at desired
levels.
Pin
1
Signal
12-24VDC
12-24VDC
Do not connect
Do not connect
Ground
2
3
4
5
6
Ground
Note:
The power connector and pinout are
common to all CameraLInk and Parallel
LVDS models
Data and Power Connectors
CameraLink Models:
Hirose HR10A circular jack. Refer to Table
1a for pinout of the communications and
control connector. Figure 2 provides pinout
locations for this connector.
The communications connector on the
LD3500-series camera is a 26-pin D-type
male connector, common to all CameraLink
applications. This 26-pin connector
contains all communications and controls
needed for camera operation. Power is
provided to the LD3500 via a 6 pin,
www.perkinelmer.com/opto
PDP-206.01B - 7/2002W Page 3
Digital Linescan Camera
Data and Power
Connectors (cont.)
Table 1a. Camera Link Connector Pinout
Parallel LVDS (RS-644) Models:
Pin
14
15
16
17
18
19
20
21
22
23
24
25
26
Pin
1
Signal
Inner Shield
X0-
Signal
Inner Shield
X0+
The communications connector on the
LD3500 is a MDR36 (mini-D-shell)
connector. This 36 pin connector
provides all communications and
controls needed for camera operation.
2
3
X1-
X1+
4
X2-
X2+
Power is provided to the LD3500 via a 6
pin, Hirose HR10A circular jack.
Refer to Table 1b for pinout of the
communications and control connector.
Figure 2 provides pinout locations for
this connector
5
Xclk-
Xclk+
6
X3-
X3+
7
SerTC+
SerTFG-
CC1-
SerTC-
SerTFG+
CC1+
8
Camera Construction
9
10
11
12
13
CC2+
CC2-
The camera head is housed in a rugged,
one piece deep drawn aluminum case,
measuring 2.5" H x 2.5" W x 3.2" 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
CC3-
CC3+
CC4+
CC4-
Inner Shield
Inner Shield
Table 1b. Parallel LVDS (RS-644) Connector Pinout
Pin
Signal
Pin
Signal
assembly. 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.
1
2
Do not connect
Gain 0+
Inner Shield
Gain 1+
MCLK+
LR+
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
Do not connect
Gain 0-
Inner Shield
Gain 1-
MCLK-
LR-
3
4
5
Optical Interface
6
7
LT+
LT-
The LD3500-series cameras are equipped
with a U-Mount lens interface (MA2-1-
6H) that is aligned to the CCD sensor.
These standard adapters allow the user to
select the optimum lens to suit their
particular application.
8
Do not connect
D7+
Do not connect
D7-
9
10
11
12
13
14
15
16
17
18
D6+
D6-
D5+
D5-
D4+
D4-
D3+
D3-
D2+
D2-
D1+
D1-
D0+
D0-
CCLK +
LEN+
CCLK -
LEN-
www.perkinelmer.com/opto
PDP-206.01B - 7/2002W Page 4
Digital Linescan Camera
Table 3. LD3500 Camera Specifications
Camera Characteristics
Value
Value
Camera Characteristics
Adjustable Gain Range
Number of Active Pixels
Pixel Size
512, 1024, or 2048
14µm x 14µm
0 to 24.5 dB (LD35xxPGK-011)
1, 2, 4, 8X (LD352xPGL-011)
PRNU
+/-10%
250:1
Spectral Response
Sensor Window
250-1000 nm
Dynamic Range
Maximum Output Rate
Glass
Yes
20 MHz (LD352xPGx-011)
40 MHz (LD354xPGK-011)
U Mount
Exposure Control
Antiblooming
Yes
Lens Mount
Camera Operation Features
Number of Outputs
Communications Protocol
Temperature Requirements
Operating Temperature
Storage Temperature
Power Requirements
Input voltage
1
-20 to 55 C
-40 to 80 C
CameraLink (LD35xxPGK-011)
Parallel LVDS (LD35xxPGL-011)
8 bit
Output Depth
12 to 24 VDC
Figure 4. Outline Drawings
Rear View
Front View
CameraLink
Registration Hole
2.50
(63.50)
2.50
(63.50)
0.156 +002 x 0.09 deep
-000
Registration Hole
+002
0.126
x 0.09 deep
-000
2.50
(63.50)
1
2
3
4
5
6
7
8
9
10
23
11
24
12
25
13
26
2.50
(63.50)
CameraLink
Connector
MDR26
14
15
16
17
18
19
20
21
22
Pixel 1
Power
Connector
HR10A
Registration Hole
Registration Slot
+002
+002
-000
0.156
x 0.09 deep
0.126
x 0.09 deep x 0.150 long
-000
Rear View
Parallel LVDS
Side View
1.25
(31.75)
2.50
(63.50)
18
36
1
MDR36
Connector
19
1.25
(31.25)
3.20
(31.28)
Power
Connector
HR10A
2.50
(63.50)
Measurements in inches (Millimeters)
www.perkinelmer.com/opto
PDP-206.01B - 7/2002W Page 5
Digital Linescan Camera
Figure 5a. CameraLink Slave Mode Timing
Integration Time
24 clock cycles
N + 70 clock cycles minimum
2 cycles
min
2 cycles
min
2 cycles
min
LT
57 +/-1 clock cycles
CCLK
LEN
N clock cycles
43 cycles
min
3 isolation 10 dark pixels
3 isolation
10 dark pixels
2 extra N valid
pixels 2 extra
10 dark
Video
32 cycles min
6 cycles minimum
6 cycles min
LRn
Note: N is the number of active pixels on the sensor
Figure 5b. LVDS Slave Mode Timing (LRn=low)
N + 76 clock cycles minimum
6 clock cycle min
Note 1
Integration Time
6 clock cycle min
2 clock cycle min
70 +/-1 clock cycles
LT
N clock cycles
LEN
Valdi Video
N Valid pixels
2 extra
2 extra
N valid pixels
Video
CCLK
Note:
1. 950 ns for the LD352x, 475 ns for the LD354x
2. N is the number of active pixels on the sensor
www.perkinelmer.com/opto
PDP-206.01B - 7/2002W Page 6
Digital Linescan Camera
Figure 6: LD3500 Camera Block Diagram
RS-644 Receivers
+LT
FPGA
Camera Mode
LINE
TRANSFER
LOGIC
ØH1
-LT
D
R
I
V
E
ØH2
+MCLK
CAMERA
TIMING
LOGIC
LVDS Models Only
-MCLK
CLK
LOGIC
ØTG
I
L
E
V
E
L
T
R
A
N
S
L
O
G
I
ØPG
ØRG
ØAB
+LR
-LR
M
A
G
E
Exposure
Control
Logic
C
R
Gain Inputs
LVDS Models Only
Gain Inputs
Line Enable Logic
CameraLink Models Only
Set through CameraLink
serial communications
VSP TIMING LOGIC
Lens
10 LVDS pairs
LEN, CCLK
8 bit video
LVDS Output
Gain
VIDEO SIGNAL
PROCESSING
Output
Drivers
8 bit
GAIN
CONTROL
C
D
S
Compliant with
CameraLink
specifications
CameraLink
Output
video
Single
D.C
Power
Supply
Input
12-24V
Table 5. LD3500 Camera Model Specifications
Model Number
Number of Pixels
Active Area Pixel Length
Max Output Speed
Max Line Rate
LD3521PGx
LD3522PGx
512
7.168 mm (0.28")
14.336 mm (0.56")
20 MHz
20 MHz
34 kHz
1024
18.2 kHz
LD3523PGx
LD3541PGK
LD3542PGK
LD3543PGK
2048
512
28.672 mm (1.13")
7.168 mm (0.28")
14.336 mm (0.56")
28.672 mm (1.13")
20 MHz
40 MHz
40 MHz
40 MHz
9.4 kHz
68 kHz
1024
2048
36.4 kHz
18.8 kHz
www.perkinelmer.com/opto
PDP-206.01B - 7/2002W Page 7
Digital Linescan Camera
Table 5. Stock Part Numbers
CameraLink
Output
RS-644
20 MHz
Data Rate
Pixels
20 MHz
40 MHz
LD3521PGL-011
LD3522PGL-011
LD3523PGL-011
512 LD3521PGK-011
1024 LD3522PGK-011
LD3541PGK-011
LD3542PGK-011
LD3543PGK-011
2048
LD3523PGK-011
Ordering Information
Table 6. Sales Offices
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.
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
Europe
Germany
Japan
PerkinElmer Optoelectronics GmbH
Wenzel-Jaksch-Str. 31
D-65199 Wiesbaden, Germany
Phone: +49-611-492-570
Fax: +49-611-492-165
For more information e-mail us at
opto@perkinelmer.com or visit our web
site at www.perkinelmer.com/opto.
All values are nominal; specifications
subject to change without notice.
Asia
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
© 2000 PerkinElmer Inc. All rights reserved.
PerkinElmer, the PerkinElmer logo and the stylized “P” are trademarks of PerkinElmer, Inc.
PDP-206.01B - 7/2002W
w w w . perkinelmer.com/opto
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