NED XCM3C4080T3 User manual
User’s Manual
Line Scan Camera
Type: XCM3C4080T3
NIPPON ELECTRO-SENSORY DEVICES CORPORATION
2 NED
XCM3C4080T3 UME-0030-01
For Customers in the U.S.A.
This equipment has been tested and found to comply with the limits for a Class A
digital device, in accordance with Part 15 of the FCC Rules. These limits are designed
to provide reasonable protection against harmful interference when the equipment is
operated in a commercial environment. This equipment generates, uses, and can
radiate radio frequency energy and, if not installed and used in accordance with the
instruction manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause harmful interference,
in which case the user will be required to correct the interference at his or her own
expense.
For Customers in the EU
This equipment has been tested and found to comply with the essential
requirements of the EMC Directive 2004/108/EC, based on the following
specifications applied:
EU Harmonized Standards
EN55022:2010 ClassA
EN61000-6-2:2005
Warning
This is a class A product. In a domestic environment this product may cause radio
interference in which case the user may be required to take adequate measures.
Directive on Waste Electrical and Electronic Equipment (WEEE)
Please return all End of Life NED products to the distributor from whom the product
was purchased for adequate recycling and / or disposal. All costs of returning the
Product to NED are borne by the shipper.
3 NED
XCM3C4080T3 UME-0030-01
Introduction
Thank you for purchasing NED’s Line Scan Camera. We look forward to your
continued custom in the future.
For safety use
For your protection, please read these safety instructions completely before
operating the product and keep this manual for future reference.
The following symbols appear next to important information regarding safe
product handling.
Warning
If the product is not handled properly, this may result
in serious injury or possible death.
Caution
If the product is not handled properly, this may result
in physical injury or cause property damage.
Safety precaution
Warning
Never disassemble or modify this product, unless otherwise specified to do so in
this manual.
When hands are wet, avoid handling this product and do not touch any of the
connection cable pins or other metallic components.
Do not operate this product in an environment that is exposed to rain or other
severe external elements, hazardous gases or chemicals.
If the product is not to be used for an extended period of time, as a safety
precaution, always unplug the connection cable from the camera unit.
If the product installation or inspection must be executed in an overhead location,
please take the necessary measures to prevent the camera unit and its
components from accidentally falling to the ground.
If smoke, an abnormal odor or strange noise is emitted from the camera unit, first
turn OFF power, then unplug the cable from the camera unit.
This product is not intended for use in a system configuration built for critical
applications.
4 NED
XCM3C4080T3 UME-0030-01
Instructions before use
Only operate this product within the recommended environmental temperature
range.
Use only the specified power source and voltage rating.
Do not drop this product. Avoid exposure to strong impact and vibrations.
Install the camera unit in a well-ventilated environment, in order to prevent the
camera from overheating.
If the camera must be installed in an environment containing dust or other
particles, take required measures to protect the camera unit from dust adhesion.
Do not unplug the cable while power is being supplied to the camera unit. To
prevent product damage, always shut down the power supply before unplugging
the power cable.
When the surface of the camera window becomes dirty due to dust or grime, black
smudges appear in the displayed image. Use an air blower to remove the dust
particles. Dip a cotton swab into ethanol alcohol and clean the camera window. Be
careful not to scratch the glass.
Use of non-infrared lighting such as a fluorescent lamp is recommended. If
halogen lighting is employed, always install an infrared filter into your system
configuration.
Please note that exposure to long wavelength light outside of the sensors visible
optical range can affect the image.
Sensitivity may fluctuate depending on the spectral response level of the light
source. In cases like this, changing the light source to one with a different spectral
response level may reduce this problem.
For stabilized image capturing, turn ON the power supply and execute aging for
ten to twenty minutes before actually using the camera unit.
Do not share the power supply with motor units or other devices that generate
noise interference.
The signal ground (SG) and the frame ground (FG) are connected inside the
camera unit. Design the system configuration so that a loop will not be formed by
the ground potential differential.
Do not disconnect the camera while rewriting an embedded memory.
When you change exposure mode that is set at NED factory, input control signal
(CC1) from the capture board.
5 NED
XCM3C4080T3 UME-0030-01
Product Warranty
Warranty Period
The product warranty period, as a general rule, is two years from purchase;
however for detailed conditions please contact the sales representative for your
region/country.
However, in some cases due to the usage environment, usage conditions and/or
frequency of use, this warranty period may not be applicable.
Warranty Scope
Product repair will be performed on a Return To Manufacturer basis. On-site
maintenance will incur additional charges.
If defects in material or workmanship occur during the warranty period, the faulty
part will be replaced or repaired by us free of charge. Return shipping charges
must be paid by the sender. However, the following cases fall outside of the scope
of this warranty:
Exclusions from Warranty Coverage
We will under no circumstances assume responsibility for the following cases:
damage caused by fire, earthquake, other acts of a third party, other accidents,
negligent or intentional misuse by the user, or other usage under extraordinary
circumstances.
Damages (e.g. loss of business profits, business interruption, etc.) resulting from
use or non-use.
Damages caused by use other than as described in this document.
Damages resulting from malfunction due to a connected device.
Damages resulting from repairs or modifications performed by the customer.
Fault Diagnosis
As a general rule, in the first instance fault diagnosis should take the form of a
telephone call or an email to enable us to assess the circumstances of the
malfunction.
However, depending on the customer’s requests, we, or our agent, may require
an additional fee for this service.
Exclusion of Liability for Compensation for Missed Opportunities
Regardless of whether within the warranty period or not, our warranty does not
cover compensation for missed opportunities for our customers, or our customers’
customers, caused by a fault of our products, nor for damage to products other
than our own, or related business.
6 NED
XCM3C4080T3 UME-0030-01
Note about Product Usage
This product has been designed and manufactured as a general-purpose product
for general industry. In applications expected to be life-critical or safety-critical, the
installer or user is requested to install double or triple failsafe systems.
Repair Service Outline
The cost of dispatching engineers etc. for repair service is not included in the price
of purchased and supplied goods. On request, arrangements can be made
separately.
Scope of Repair Service
The above assumes business dealings and usage to take place in the customer’s
region / country. In cases of business dealings and/or usage outside the
customer’s region/country, separate consultation is required.
7 NED
XCM3C4080T3 UME-0030-01
Table of Contents
1. Product Outline ...................................................................10
1.1Features(XCM3C4080T3).....................................................................................................10
1.2 Application ................................................................................................................................10
1.3 Image Sensor............................................................................................................................11
1.4 Performance Specifications....................................................................................................11
2. Camera Setting and Optical Interface ...............................13
2.1 Setting the Camera...................................................................................................................13
2.2 Fixing the Camera.....................................................................................................................13
2.3 Optical Interface........................................................................................................................14
3. Hardware..............................................................................15
3.1 Camera Connection..................................................................................................................15
3.2 Input / Output Connectors and Indicator...............................................................................17
3.3 Connectors・Pin Assignments・Cables...................................................................................18
3.4 Power Supply............................................................................................................................21
4 Camera Control ....................................................................22
4.1 Flow of Camera Control...........................................................................................................22
4.1.1 Command Overview ..........................................................................................................22
4.1.2 Camera Receiving Message (PC Sending Command)...................................................22
4.1.3 Camera Sending Message (PC Receiving Message).....................................................23
4.1.4 Camera Control Commands.............................................................................................24
4.1.5 Memory Setup Values (Factory Settings)........................................................................26
4.2 Details on Commands..............................................................................................................27
4.2.1 Setting Analog Gain...........................................................................................................27
4.2.2 Setting Digital Gain (1) ......................................................................................................27
4.2.3 Setting Digital Gain (2) ......................................................................................................27
4.2.4 Setting Digital Gain (3) ......................................................................................................28
4.2.5 Setting Digital Offset..........................................................................................................28
4.2.6 Setting Exposure Mode.....................................................................................................28
4.2.7 Setting Exposure Time......................................................................................................28
4.2.8 Setting Output Signals (Setting Data Format)................................................................29
4.2.9 Setting Scanning Direction...............................................................................................29
4.2.10 Saving Pixel Correction Data (1) ....................................................................................29
4.2.11 Saving Pixel Correction Data(2) .....................................................................................29
4.2.12 Setting Pixel Correction (1).............................................................................................30
8 NED
XCM3C4080T3 UME-0030-01
4.2.13 Setting Pixel Correction (2).............................................................................................30
4.2.14 Setting Pixel Correction (3).............................................................................................30
4.2.15 Generating Test Pattern ..................................................................................................30
4.2.16 Colour Output Selection..................................................................................................31
4.2.17 Setting Adjacent Pixel Binning.......................................................................................31
4.2.18 Setting Gamma correction..............................................................................................31
4.2.19 Noise Reduction Function ..............................................................................................31
4.2.20 Readout Camera Internal PCB Temperature.................................................................32
4.2.21 Memory Initializing (Initializing Camera Settings)........................................................32
4.2.22 Memory Load....................................................................................................................32
4.2.23 Memory Save....................................................................................................................33
4.2.24 Returning the Camera Settings to the its original status............................................33
4.2.25 Setting Transmission speed...........................................................................................33
4.3 Digital Processing flow in FPGA.............................................................................................34
4.4 Startup........................................................................................................................................34
4.5 Saving and Loading Camera Settings....................................................................................34
4.6 Serial Communication Settings ..............................................................................................35
4.7 Video Output Format................................................................................................................36
4.8 Exposure Mode and Timing Chart..........................................................................................37
4.8.1 Free Run Exposure Mode (Programming time setting).................................................37
4.8.2 External Trigger Exposure Mode (External trigger edge)..............................................38
4.8.3 External Trigger Exposure Mode (Trigger Level) ...........................................................39
4.9 Digital Gain / Offset Settings...................................................................................................41
4.9.1 Setting Digital Gain (1) ......................................................................................................41
4.9.2 Setting Digital Gain (2) Automatic White Balance..........................................................41
4.9.3 Setting Digital Offset..........................................................................................................41
4.10 Setting Analog Gain ...............................................................................................................42
4.11 Pixel Correction ......................................................................................................................43
4.11.1 Operating Procedure .......................................................................................................44
4.12 Adjusting White Balance........................................................................................................44
4.12.1 Pixel (Bit) Correction Function.......................................................................................44
4.12.2 Digital Gain Function.......................................................................................................44
4.13 Test Pattern .............................................................................................................................45
4.14 Adjacent Pixel Binning...........................................................................................................47
4.15 Gamma Correction Setting....................................................................................................47
5 Confirming Camera Settings...............................................48
5.1 Before Power-on.......................................................................................................................48
5.2 After Power-on ..........................................................................................................................49
5.3 In Operation...............................................................................................................................50
9 NED
XCM3C4080T3 UME-0030-01
6 Sensor Handling Instructions .............................................51
6.1 Electrostatic Discharge and the Sensor ................................................................................51
6.2 Protecting Against Dust, Oil and Scratches..........................................................................51
6.3 Cleaning the Sensor Window..................................................................................................51
7Troubleshooting ...................................................................52
7.1 When there is no Image...........................................................................................................52
7.2 When Noise is present in the Image.......................................................................................54
7.3 When the Camera becomes hot..............................................................................................56
8 CLISBeeCtrl ..........................................................................57
8.1 Overview....................................................................................................................................57
8.2 System Requirements..............................................................................................................57
8.3 Install..........................................................................................................................................57
8.4 Uninstall.....................................................................................................................................57
8.5 Operation...................................................................................................................................58
8.5.1 Start Program .....................................................................................................................58
8.5.2 Selecting interface and Timeout setting .........................................................................59
8.5.3.Connect...............................................................................................................................62
8.5.4.Disconnect and end program...........................................................................................63
8.5.5.Check of the contents of communication.......................................................................63
8.5.6.Export Parameters to text file...........................................................................................64
8.5.7.Import Parameters from text file ......................................................................................64
8.6 Control.......................................................................................................................................65
8.6.1 Gains and Offsets ..............................................................................................................65
8.6.2 Clock & Integration............................................................................................................66
8.6.3 Exposure mode (Trigger Mode) & Video output mode..................................................67
8.6.4 Intelligence .........................................................................................................................68
8.6.5 Memory in camera .............................................................................................................68
8.7 Upgrade .....................................................................................................................................69
8.8 How to Program........................................................................................................................69
8.9 Attention on use........................................................................................................................69
9 Others....................................................................................70
9.1 Notice.........................................................................................................................................70
9.2 Contact for support..................................................................................................................70
9.3 Product Support .......................................................................................................................71
Revision History ........................................................................72
1.
10 NED
XCM3C4080T3 UME-0030-01
1. Product Outline
1.1Features(XCM3C4080T3)
High speed readout 80MHz(R,G,B)
Uses dichroic prisms for high colour fidelity
Easy control of gain / offset / video output with external software.
Easy connection with a variety of frame grabber boards via Camera Link
interface
Single power source DC 12V to 15V for operation
PRNU / Shading correcting function
Binning function (2048-pixel readout)
1.2 Application
Inspection of PCBs
Visual inspection of colour printed materials
Colour identification and inspection of foreign material.
Inspection of sheet film
Wood surface inspection
An example of Visual Inspection is shown below.
Figure 1-2-1 Visual Inspection of PCBs
Object of inspection (example) ・printed circuit boards
Device specification 1. Camera: Colour Line scan camera
2. Controller: Dedicated software for PC system
11 NED
XCM3C4080T3 UME-0030-01
1.3 Image Sensor
The camera uses a CMOS sensor to acquire high quality images with high
sensitivity. The pixel size is 7μmx7μm. The camera uses three 4096 pixel sensors.
1.4 Performance Specifications
The Performance Specifications are shown in Table 1-4-1. It shows the data when
the camera is operating at maximum scan rate, unless otherwise specified.
Table 1-4-1 Performance Specifications
Items
Specifications
XCM3C4080T3
Number of Pixels
4096
Pixel Size H x V (μm)
7x7
Sensor Length (mm)
28.672
DataRate (MHz)
80(each colour)
Scan Rate (μs) / [kHz]
53.6/[18.65]
Saturation Exposure (lx・s) (typically)
[Minimum Gain, Pixel Correction Initial Value,
Daylight Fluorescent Light]
0.125*Visible Area (400~700nm)
Responsivity (V/ [lx・s]) (typically)
[Minimum Gain, Pixel Correction Initial Value, ]
40 *Visible Area (400~700nm)
*Analog 5V Conversion Sensitivity
Gain Adjustable Range
*Analog Amplifier +Digital (RGB Shared)
Analog Amplifier:x1 to x8 (6 Steps)
Digital :x1 to x3 (1023 Steps)
Digital Offset Adjustable Range
(RGB shared)
-15 to 15 DN (31Steps): 8bit
-60 to 60 DN (31 Steps): 10bit
Video output Camera Link
Camera Link Medium/Base Configuration
Control Input
CC1: External Trigger Signal,
CC2-4: Not in use
Connectors
Data/Controller
3M: MDR26 [Camera Link]
Power Supply
Hirose: HR10A (6Pin)
Lens Mount
Nikon F Mount
Operating Temperature (˚C)
No Condensation
0 to 40
Power Supply Voltage (V)
DC 12 to 15 [+/-5%]
Consumption Current (mA) (typically)
900
Size W x H x D (mm)
100x100x123(F Mount)
Mass (g) (Camera only)
1100 (F Mount)
12 NED
XCM3C4080T3 UME-0030-01
Additional Functions
1 Shading Correction
2 Gain/Offset/Video Output Adjustable
3 Programmable Exposure Control
4 Scan Direction Switching
5 Binning function
Note :
*1) DN : Digital Number (8bit : 0-255 / 10bit : 0-1023)
*2) Measurements were made at room temperature and daylight fluorescent light.
The spectral responsivity is shown below.
Wavelength (nm)
Figure 1-4-1 Spectral Responsivity
Relative Responsivity (%)
13 NED
XCM3C4080T3 UME-0030-01
2. Camera Setting and Optical Interface
2.1 Setting the Camera
Use the M4 screw holes or the tripod screw hole to set the camera.
2.2 Fixing the Camera
Use the M4 screw holes (4 at the front ) to set the camera.
The screw length for fixing the camera should be less than 5mm.
No X-, Y-axis orientation and tilt adjustment mechanism is available. Please
prepare an adjustment mechanism if required.
The dimensions of the camera are shown below.
112
80
100
(123)
φ59
80
13
11
100
CL2: DATA2 DATA1
CTRL
CL1:
POWER
DC12-15V
MADE IN JAPANMADE IN JAPAN
NIPPON ELECTRO-SENSORY DEVICES CORP.
1st Pixel
4-M4 Deep5
Indicator
Power Connector
Nikon F-mount (FB=46.5)
Unit:mm
Figure 2-2-1 Dimensions of the Camera (F Mount)
14 NED
XCM3C4080T3 UME-0030-01
2.3 Optical Interface
Nikon F mount is provided as standard.
Notes:
1) The amount and wavelengths of light required to capture useful images depend
on the intended use. Factors include the physical properties, speed, the object’s
spectral characteristics, exposure time, the light source characteristics, the
specifications of the acquisition system and so on.
The exposure amount (exposure time x light amount) is the most important factor
in getting desirable images. Please determine the exposure amount after studying
what is most important to your system.
2) Keep these guidelines in mind when setting up your light source:
LED light sources are relatively inexpensive, provide a uniform field and longer life span
compared to other light sources. However, they also require a camera with excellent
sensitivity.
Halogen light sources generally provide very little blue light but have high infrared light
(IR) proportions.
Fiber-optic light distribution systems generally transmit very little blue light relative to IR.
Metal halide light sources are very bright but have a shorter life span compared to other
light sources.
3) Generally speaking, the brighter the light sources, the shorter the life span.
CMOS image sensors are sensitive to infrared (IR). We recommend using
daylight colour fluorescent lamps that have low IR emissions. If you use a halogen
light source, to prevent infrared from distorting the images use an IR cutoff filter
that does not transmit wavelengths.
4) We recommend using a lens designed for 3-chip cameras. When using a
standard lens, the rear of the lens assembly may interfere with the camera body.
The distance from the mount flange to the internal surface is 13mm. The rear of
the lens should protrude no more than 12.5mm
5) When using a standard lens, the optical performance (resolution etc) may
suffer.
15 NED
XCM3C4080T3 UME-0030-01
3. Hardware
3.1 Camera Connection
Use the camera in the following way:
①Camera Link cables must be used to connect the camera unit with the frame
grabber board.
Notes:
1)When using 30-bit colour, 2 Camera Link cables are required. The cables
should be of the same length and from the same manufacturer.
2)In 2-Tap mode, 1 Camera Link cable is used. Connect the cable to the CL1
connector (CL2 is unused).
3)Use asymmetric Camera Link cables and connect the camera with the
connector labeled as ”Camera side”.
4)A Medium Configuration-compatible framegrabber has 2 connectors. Check
the specification of your framegrabber before connecting.
②Connect the camera with the designated power supply.
Notes:
Use the designated power cable to connect the camera with the power source for
the camera. Insert the plug end of the cable into the camera. Attach the opposite
end (loose wires) to the power unit. Other than those above, a personal
computer, a frame grabber board, a compatible lens, a lens mount, a light source
and an encoder are necessary, depending on the situation.
PC
Camera Link
Medium Configuration
Frame Grabber Board
Line Scan Camera
XCM3C4080SAT3
Camera Link Cable
3M:14B26-SZLB-xxx-0LC
Power Cable
DGPSH-10
CL1
CL2
Camera Power
Supply
DC+12V 30W
※It is unnecessary
in using 24bitColor
Figure 3-1-1 Connections between Camera and Frame Grabber Board and Power Supply
16 NED
XCM3C4080T3 UME-0030-01
<Note: Choosing the appropriate Camera Link cable length >
According to the Camera Link Specification, the maximum cable length is 10m. But
the maximum cable length to be able to transfer data depends on the type of cable
performance and clock speed. The actual maximum transmission distance becomes
less than 10m at faster clock speeds, though the transmission distance of 10m is
feasible at slower clock speeds.
The following table shows values being calculated in accordance with the Camera
Link Specification 2007.Version1.2, using a typical cable (14B26-SZLB-xxx-0LC from
3M) and frame grabber board (Solios from Matrox). Please choose the appropriate
Camera Link cable type and length for your application. We recommend you perform
a connection test in advance.
Table 3-1-1 calculated value of maximum cable length
Solios model
clock speed (MHz)
maximum cable length (m)
SOL 6M CL E*
(20~66MHz)
40
9.8
66
8.0
SOL 6M FC E*
(20~85MHz)
75
7.6
85
5.8
17 NED
XCM3C4080T3 UME-0030-01
3.2 Input / Output Connectors and Indicator
The layout of input /output connectors and the LED indicator are as follows.
CL2: DATA2 DATA1
CTRL
CL1:
POWER
DC12-15V
MADE IN JAPANMADE IN JAPAN
NIPPON ELECTRO-SENSORY DEVICES CORP.
Cmera Link Connector (MDR26)
Indicator (Green)
Power Connector
(HIROSE HR10A 6P)
Figure 3-2-1 Input / Output Connectors and Power connector
18 NED
XCM3C4080T3 UME-0030-01
3.3 Connectors・Pin Assignments・Cables
This camera adopts Medium Configuration of Camera Link interface standards.
Figure 3-3-1 shows the interface for the camera and a typical implementation for
the frame grabber interface.
28 28
Frame Grabber BoardCamera
MDR26 Connector CL1
CC1(control input)
Cable
SerTC
SerTFG
CLK80MHz
Chanel Link Bus
LVAL,FVAL
DVAL,SP
Port A,B,C
CC2
CC3
CC4
X1±
X0±
X2±
X3±
XClk±
100Ω
100Ω
100Ω
100Ω
100Ω
100Ω
100Ω
100Ω
100Ω
100Ω
100Ω
SerTFG±
SerTC±
CC1±
CC2±
CC3±
CC4±
MDR26 Connector
X1±
X0±
X2±
X3±
XClk±
SerTFG±
SerTC±
CC1±
CC2±
CC3±
CC4±
LVDS_DRIVER(NS)
DS90CR287MTD
equivalent
LVDS_DRIVER/
RECIVER(NS)
DS90LV019TM
equivalent
LVDS_RECIVER(NS)
DS90LV048AT
equivalent
LVDS_RECIVER(NS)
DS90CR288AMTD
recommended
LVDS_DRIVER/
RECIVER(NS)
DS90LV019TM
recommended
LVDS_DRIVER(NS)
DS90LV047AT
recommended
28 28
MDR 26 Connector CL2
Cable
CLK80MHz
Chanel Link Bus
LVAL,FVAL
DVAL,SP
Port D,E,F
Y1±
Y0±
Y2±
Y3±
YClk±
100Ω
100Ω
100Ω
100Ω
100Ω
MDR 26 Connector
Y1±
Y0±
Y2±
Y3±
YClk±
LVDS_DRIVER(NS)
DS90CR287MTD
equivalent
LVDS_RECIVER(NS)
DS90CR288AMTD
recommended
28 28
CLK80MHz
Chanel Link Bus
LVAL,FVAL
DVAL,SP
Port G,H
Z1±
Z0±
Z2±
Z3±
ZClk±
100Ω
100Ω
100Ω
100Ω
100Ω
Z1±
Z0±
Z2±
Z3±
ZClk±
LVDS_DRIVER(NS)
DS90CR287MTD
equivalent
LVDS_RECIVER(NS)
DS90CR288AMTD
recommended
Figure 3-3-1 Camera / Frame Grabber Interface
19 NED
XCM3C4080T3 UME-0030-01
Notes:
1) In 24-bit colour, Base Configuration is used, so it is not necessary to connect a
cable to CL2.
2) Ports G, H are unused.
3) Do not make the driver side of LVDS open but set the logic to H or L, even if not
used.
4) Set the LVDS, Channel Link receiver side to 100-ohm termination.
Figure 3-3-2 Circuit of LVDS
The camera has 26-pin MDR connectors for control signals of Camera Link, data
signals and serial communications.
Figure 3-3-3 Camera Link Connector
1
14
2
15
3
16
11
24
12
25
13
26
#4-40
+
-
100Ω
+
-
(DRIVER)
(RECEIVER)
H or L
20 NED
XCM3C4080T3 UME-0030-01
Table 3-3-1 Camera Link Connector (26-pin MDR Connector) pin assignments
CL1(Base/Medium Configuration) CL2(Medium/Full Configuration)
No
NAME
No
NAME
I/O
No
NAME
No
NAME
I/O
1
Inner Shield
14
Inner Shield
-
1
Inner Shield
14
Inner Shield
-
2
X0 -
15
X0 +
OUT
2
Y0 -
15
Y0 +
OUT
3
X1 -
16
X1 +
OUT
3
Y1 -
16
Y1 +
OUT
4
X2 -
17
X2 +
OUT
4
Y2 -
17
Y2 +
OUT
5
Xclk -
18
Xclk+
OUT
5
Yclk -
18
Yclk +
OUT
6
X3 -
19
X3 +
OUT
6
Y3 -
19
Y3 +
OUT
7
SerTC +
20
SerTC -
IN
7
100Ωterminated
20
100Ωterminated
-
8
SerTFG -
21
SerTFG +
OUT
8
Z0 -
21
Z0 +
OUT
9
CC1 -
22
CC1 +
IN
9
Z1 -
22
Z1 +
OUT
10
CC2 +
23
CC2 -
IN
10
Z2 -
23
Z2 +
OUT
11
CC3 -
24
CC3 +
IN
11
Zclk -
24
Zclk +
OUT
12
CC4 +
25
CC4 -
IN
12
Z3 -
25
Z3 +
OUT
13
Inner Shield
26
Inner Shield
-
13
Inner Shield
26
Inner Shield
-
Explanation of Signals
Inner Shield: Shield cable (GND)
X0+, X0-…X3+, X3-: Data output (Channel Link)
Xclk+, Xclk-: Clock output for above data output synchronization
(Channel Link)
Y0+,Y0-・・・Y3+,Y3-: Data output (Channel Link)
Yclk+,Yclk-: Clock output for above data output synchronization
(Channel Link)
Z0+,Z0-・・・Z3+,Z3-:Data output (Channel Link)
Zclk+,Zclk -:Clock output for above data output synchronization (Channel Link)
SerTC+, SerTC- : Serial data input (LVDS)
SerTFG+, SerTFG-: Serial data output (LVDS)
CC1+, CC1- : External synchronous signal input (LVDS)
CC2+, CC2-, CC3+, CC3-, CC4+, CC4-: Not in use (LVDS)
Camera Link compatible cable
3M: 14B26 –SZLB –xxx –0LC by or equivalent
Notes:
1)To avoid uncoupling of the cable connectors during power on, make sure to
clamp them with the locking screws.
2)Do not unplug the cables while power is being supplied to the camera.
Table of contents
Other NED Security Camera manuals
