Product Manual
Contents
1. NED 19 Table 3 3 1 Camera Link Connector 26 pin MDR Connector pin assignments CL1 Base Configuration CL2 Medium or Full Configuration NAME NAME No NAME No NAME UO Inner Shield Inner Shield 1 Inner Shield 14 Inner Shield X0 X0 2 YO 15 YO Out X1 X1 3 Y1 16 Y1 Out X2 X2 4 Y2 17 Y2 Out 5 Yclk 18 Yclk Out X3 X3 6 Y3 19 Y3 Out SerTC SerTC 7 N C 20 N C SerTFG SerTFG 8 N C 21 N C CC1 CC1 9 N C 22 N C CC2 Not in use CC2 Not in use 10 N C 23 N C CC3 Not in use CC3 Not in use 11 N C 24 N C CC4 Not in use CC4 Not in use 12 NC 25 N C Inner Shield Inner Shield 13 Inner Shi eld 26 Inner Shi el d 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 YO YO 3 Y3 Data output Channel Link Yclk Yclk SerTC SerTC Clock output for above data output synchronization Channel Link Serial data input LVDS SerTFG SerTFG Serial data output LVDS CC1 CC1 CC2 CC2 CC3 CC3 CC4 CC4 External synchronous signal input LVDS When using External Trigger Not in use LVDS Not in use LVDS Not in use LVDS Camera Link compatible cable 14B26 SZLB xxx OLC by 3M or equivalent To2. J0 989uu02 YAN utd 9z XO Lab X2 X3 XClk SerTFG SerTC Elt CC2 CC3 CC4 1000 I10Q SI 1000 mz r LVDS D RIVER RECEIVER NS DS90LV019TM recommended d 1000 gt recomme LVDS_DRIVER NS DS90LVO47AT nded LVDS RECEIVER NS DS90CR286MTD recommended Cable J0199uu02 HO Utd 9z YO Yl Y2 KE YClk Figure 3 3 1 Camera Frame Grabber Interface SUCL2025T3 18 NED Setthe LVDS Channel Link receiver side to 100 ohm termination With the driver side of LVDS even if not used do not make it open but set the logic to H or L Driver Receiver HorL 1 gt 1000 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 The camera also has a 4 pin HIROSE connector for power supply Jo Figure 3 3 3 Camera Link Connector n Orn lt d 2 LT 15 E 12 11 3 Q OO OEE 26 25 24 16 Half pitch miniature half ribbon shape e Locking screw UNC 24 40 type SUCL2025T3 UME 0017 01
3. 112u m 112u m e e 2 Camera Setting and Optical Interface 2 1 Setting Camera The M4 screws on the front panel can be used to set the camera 2 2 Fixing Camera e Use the M4 screw holes 4 places at the front to fix the camera If using the front panel M4 mounting holes the screw length for fixing the camera should be less than 6mm at the front No X Y axis orientation and tilt adjustment mechanism is available Please provide an adjustment mechanism yourself as necessary SUCL2025T3 UME 0017 01 13 NED 2 3 Camera dimension The dimensions for the cameras are shown below dv VOLuH 3SOHH 4032Ju00 Ale mod 9 HOW JOPSUUODIZYCIN Joyeopul Ain amod AZT Deure 49849 andino pued ON t T EE Ep Jepjoy aseq Bury Epp NUON IER 3109 de gt yin pued 3u04j M S peau ES UNSIAIUNOD EU SIN Z N 4o wo ped ANYI Jepjoj ynau 3 ae BE un o D E E L OT Ir 8v sesDHD 40328UU029Z YAN Ed IST d i epoy unau P E N A Ki g X s m aseg Buy e e LD e Ei h D y 9 Ka Y HF4 amp sovdd gt Be gs 0 9 OIL nau esue UOxXIN v9 r
4. Mew folder o eec n yun cn axe 3224 5 0 1024 a NECIND in a NSUF 4000 in OO Dni im 9 UOLADGe 73900 m 9 USL j NU 75000 ponn ae 00 7300 Note If the parameters displayed are gray this indicates that the camera does not support the function NCCtrl memorizes automatically the setting file name that was last opened This file is automatically opened when NCCtrl is booted up SUCL2025T3 UME 0017 01 NED 49 8 5 4 Selecting interface and Timeout setting 8 5 4 1 Selecting interface 1 Click tool bar button F 2 Select the desired interface in the Drop down list box Communication settings CameralinkAPIVer 2 50 3 Using the Detailed setting button you can change the interface setting 4 Click on the OK button to complete this operation Click on the Cancel button to cancel this operation Note NCCtrl memorizes settings automatically So you do not have to repeat this operation every time 8 5 4 2 Setting the COM port 1 Set each item as follows NED standard Unless in cases where different settings have been specified Communications Port Properties UME 0017 01 SUCL2025T3 50 NED 1 Port Select connecting port 2 Bits per Second 9600 3 Data bits 8 4 Parity None 5 Stop bits 1 6 Flow control None Note Other parameter should not be used 2 Click on the OK button to complete this operation Click
5. 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 daylight 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 Please note that when the CCD is exposed to excessive quantities of light blooming can occur This product does not have an Anti Blooming function 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 the embedded memory When you change the exposure mode that is set at the NED factory input control signal CC1 from the capture board SUCL2025T3 UME 0017 01 NED 5 Exclusion Clause The manufacturer assume
6. User s Manual Line Scan Camera Type SUCL2025T3 NIPPON ELECTRO SENSORY DEVICES CORPORATION 2 NED For Customers in 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 EN5501 1 1998 A1 1999 A2 2002 Group Class A EN61000 6 2 2005 Group 1 contains all ISM Industrial Scientific and medical equipment in which there is intentionally generated and or used conductively coupled radio frequency energy which is necessary for the internal functioning of the Equipment itself Class A equipment is equipment suitable for use in all establishments other than domestic and those directly connected to a low v
7. 3 Digital Processing flow in FPGA 26 rcr Dal MD mmc 27 SUCL2025T3 UME 0017 01 NED 7 4 5 Saving and Loading Camera Gettings teeters eeeeeeaeeeeeseeeeeeeeeeeas 27 4 6 Serial Communication Settings ipee RR HERES MRRERERIA ERE n REM Rat ie HERE ape a SERRE Ge 28 4 7 Video Output Forrmial eed ttt lette aetate tela latekate lace iere celagee 28 4 8 Exposure Mode and Timing Chart 29 4 8 1 Free Run Exposure Mode 29 4 8 2 External Trigger Exposure Mode Trigger Edge 30 4 8 3 External Trigger Exposure Mode Trigger Level AA 31 GEES ote potete eee 32 4 10 Setting Galli oou pope cH o Epp tpe eines erect 33 Lh TESEPAtErN A Zoe etes sts at ena E A E E E E 34 5 Confirming Camera Settings 35 5 1 Before Power on sssssssssssssseseseeeeee LEELLE SERERE REEERE EREE RETE SERRER nennen 35 5 2 Aler PONEROS 36 5 3 During Operation dee 39 6 Sensor Handling Instruchons eee cece teeteeeeeeeteeniee 40 6 1 Electrostatic Discharge and the Gensor 40 6 2 Protecting Against Dust Oil and Gcratches A 40 6 3 Cleaning the Sensor Window cence cnet eeeeeeeeeeeeeeeeeeaeeeseeeeaeeeaeesneeeneeeeaeeees 40 Troubleshooting EE 41 GR Lee EE 41 7 2 Noise on Image ssssssssssseseeeeeeenene entnehmen nnne enne nennt nennen nennen nennen nn 43 7 3 Camera becomes ee 45 NEEN 46 8 1 OVEIVIBIW oec E I md I D P TL E S e 46 8 2 System Requirement AAA 46 DUDS Wea ALON ea a a a oa N 47 GE An UE NEE 47 EE cL t uL
8. 92 451 9333 Fax 81 92 451 9335 URL http ned sensor co jp E Mail sales ned sensor com 9 3 Product Support If there is still a problem with your camera after checking it in accordance with the troubleshooting guide turn off the power and call your NED representative In such case please inform us of the status of the camera You can get the status by executing the sta command The example of the camera status sta CR gt OK gt Type 5UC_2025T3 gt er 1 00 x0 298 SB eas gt v0 gt d0 gt TO 5ta UME 0017 01 SUCL2025T3 60 NED Revision History Revision Number Date Changes 01 9 Mar 2012 Initial release SUCL2025T3 UME 0017 01
9. I E 47 8 5 1 General description eoe OO DIE EUIS UMS dak ET A T SCR EE DUE dee AREE 47 8 5 2 Starting NGC 2 47 8 5 3 Open the control setting nie 48 8 5 4 Selecting interface and Timeout setting cece eee ceeeeeeee setters eeeeeeaeeeeeeeeeeeaeeeeeens 49 nRGWNespnn We 52 8 5 6 Disconnect and exit program 52 8 5 7 Check the contents of communication 52 8 5 8 Export Parameters to text file emen 52 UME 0017 01 SUCL2025T3 8 5 9 Import Parameters from text Die 53 3g 6 7111 del 53 8 6 1 Grain SR 54 8 6 2 Clock Video output Video shift Exposure mode ssseesnseseneeereeereetrrrtrnrrrrerrnnrennrenene 55 8 6 3 Exposure me ENEE 55 8 6 4 Binning 002 eee cece e cence ee ee cette eeeaeeeeaeeeeeaeeeeaaeeseaeeeeaeeeeaaeeeeaeeeeaeeeeaaeseaeeeseaeeeegaeeseneeessaeeeeeneeey 55 8 6 5 Camera MGMOny EE 55 8 6 6 Calibration WE 56 8 6 7 Level Correction E 56 8 0 8 Test Patten EE 56 8 6 9 Line Delay uia e d dan ae ann ea en en ahaha EEEeEEEE reines 57 8 7 Software UDOGrad6s oe pe ro edet bet des 57 8 7 1 INC Ctrl upgrades e ttti pep 57 8 7 2 Adding Replacing control setting file AAA 57 8 7 3 Adding Replacing the interface Plug in 57 8 8 Data Transmission Programmimng A 57 8 9 NCCtrl Troubleshooting 58 8 9 1 You can not change the exposure time with NC 58 8 10 Attention oh use cio nona ni i i PH rp P E D de Pg 58 PEG LII D 58
10. NED 47 8 3 Installaton Insert the FD or CD ROM or other media provided by NED into your PC Copy the NCCtrl02 folder into the desired location in your hard disk drive Note In case you copy from CD ROM you should cancel the read only attribute 8 4 Uninstall 1 Delete NCCtrl02 folder and all data files that included in that folder 8 5 Operation 8 5 1 General description edit box p 4mm spin button Drop down 1 i st box m55 ER check box p Enable tab 8 5 2 Starting NCCtrl Start Windows Explorer and double click the NCCtrl02 exe icon je send s send E Send send ps Send p send 7 Giong If the parameter are displayed gray this indicates that the function is not supported by the camera onner i UME 0017 01 SUCL2025T3 48 NED There are some buttons in the tool bar The function of each button is follows ell el 2 ttt ABCDEFG A Open a camera setting file ini file B Export the parameters to text file txt file C Load the parameters from a text file txt file D Connect to the camera E Disconnect from the camera F Communication settings G Version information 8 5 3 Open the control setting file 1 Click on tool bar button A 2 Select the appropriate setting file ini file and click on the Open button 3 The setting is loaded and each control parameter is initialized LF sete care CO E weeeta p st Geste Organize
11. gt O 9TT i gt STET 3oq derw mamm N es toy Mee peau 3e xpos uobexeu Mee Sie LN Figure 2 3 1 Dimensions Nikon F Mount SUCL2025T3 UME 0017 01 14 NED 2 4 Optical Interface The amount and wavelengths of light required to capture useful images depend on the intended use Factors include the property 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 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 relative to infrared light IR 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 Generally speaking the brighter light sources the shorter life span CCD image sensors are sensitive to infrared IR We recommend using daylight color fluorescent lamps that have low IR emissions If you use a halogen li
12. or Full Configuration board Always check the frame grabber board specifications before making connections UME 0017 01 SUCL2025T3 16 NED Note Choosing the appropriate Camera Link cable length gt 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 OLC 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 O SOL 6M CL E 40 9 8 200 66MHz 66 8 0 SOL 6M FC E 75 7 6 GOTT 85MHz 85 5 8 3 2 Input Output Connectors and Indicator The layout of input output connecters and the indicator lamp are as follows Panel Joutput check terrrinal HA Power Supply Indicator MDR26 Connector D DD side MDR26 Connector OOOH side Power Supply Connector Figure 3 2 1 Input Output C
13. 0017 01 SUCL2025T3 22 NED Table 4 1 3 1 Error Messages Camera Response Meaning OK Camera executed command CMD ERR Command is not valid CMD OVR ERR Command text line is too long VAL ERR Parameter accepted was outside of specified MEM ERR Memory error 4 1 4 Camera Control Commands The table below shows the list of Camera Control Commands Table 4 1 4 1 List of Camera Control Commands Control Item CMD VAL1 Control Description Output Signal Setting 0 to 1 8bit 10bit Free Run External Trigger Ext Edge External Exposure Mode Line Delay lt eo Lad Oo Trigger Ext level Green offset adjustment 8bit 4 19DN 10bit 16 78DN Test Pattern r 0 to 15 Blue offset adjustment 8bit 4 19DN 10bit 16 78DN Red offset adjustment 8bit 4 19DN 10bit 16 78DN Offset NAAN Wett SUCL2025T3 UME 0017 01 NED 23 4 1 5 Memory Setup Values Factory Settings The memory setup values factory settings are shown below Programmable VAL1 Control Description Gf set Blue channel offset setti ng Red channel offset setti ng Ww Store present setup data in memory Memory Load Memory Initializing Readout setup data in memory Reset to factory settings See 10 7 Returns the current camera settings Table 4 1 5 1 Memory Setup Values Factory Settings Operation Status o a R
14. 8 NCCtrl Or you can also change the parameters directly from your application by using binary read write commands to set values in the camera register The camera can be used without the serial interface after it has been set up correctly 4 1 Flow of Camera Control 4 1 1 Command Overview The serial interface uses a simple ASCII based command Communication begins when the computer sends control commands to the camera The camera receives and interprets the computer commands and then executes control operation accordingly Transmission ends when the camera returns the analyzed results of control commands to the computer Always allow the previous transmission to end before starting the next transmission Only one command can be sent per transmission 4 1 2 Command Format PC to Camera Transmission Format 1 CMD VAL1 CR CMD Control text 1 Byte CR Carriage Return OxOD fixed VAL Setting value decimal 1 Byte x maximum 4 digits H you don t have a set value it is not required Example ro CR 4 1 3 Reply Format Camera to PC Transmission e Formati gt R CR gt SB CR EOT Format2 for rO command OK CR gt MEM CR gt r0 CR EOT ER Results start text Ox3E fixed R Camera receive command analyzed results SB Camera receive command send back MEM Memory data readout value CR Separated text 0x0D EOT Send command all text End text 0x04 Example gt OK CR r 0 CR EOT UME
15. CR eil 58 9 2 Contact for SUPPO eerte tete tetra else vs cece uae aee ute utu ES SEE EERTE 58 9 3 Product SUE GE 59 Revision HISTO RM 60 SUCL2025T3 UME 0017 01 NED 1 Product Outline 1 1 Features readout 25MHz High resolution 2098 pixels On chip AD 8 or 10 bit conversion Single power source DC12V for operation Easy connection with a variety of frame grabber boards via Camera Link interface Easy control of gain offset video output 8 10 bit with external software High responsivity and low noise Flat field correction minimizes lens vignetting non uniform lighting and sensor FPN and PRNU Low power consumption on the current NED camera 1 2 Applications Inspection of Transparent panels and PCBs Inspection of high speed moving objects Flat panel display inspection Inspection of glass and sheet like objects Printed circuit board inspection This camera utilizes an Intelligent Transportation System Outdoor surveillance An example of Visual Inspection of PCBs is shown below Power Supply PCB pattern LED incident lighting Figure 1 2 1 Visual Inspection of PCBs UME 0017 01 SUCL2025T3 10 NED Applicable Work COB BGA and MOM printed circuit boards Performance 1 Maximum board size 100mmx200mm 2 Resolution 35um 3 Inspection time less than 30 seconds Unit Configuration 1 Camera Color line scan came
16. Op 39 7 i seus 3 LJ E a d Ges Ey e j SP IA 32 5 4A Figure 5 1 2 Connection Direction of Camera Cable UME 0017 01 SUCL2025T3 36 NED The connection channel of in the case of using a Solios board CL1 CHANNEL 0 CL2 CHANNEL 1 CHANNEL 0 CHANNEL 1 Figure 5 1 3 Channel of Camera Link Cables 5 2 After Power on 1 Confirm sent and received commands using the camera control utility Launch NCCtrl02 set COM port and connect Click Load and O K then wait for the response SEO z xx TE Shree Lov Dru If the parameter are diepisyed gray this indicates that the functon is not supported by the camera SI S Figure 5 2 1 Confirmation of Connection SUCL2025T3 UME 0017 01 NED 37 2 Set an Exposure mode and a video output mode with the camera control utility Exposure mode Free run Video output mode 24bit RGB Clock fint 25MHz z Video output 24bit RGB DI Video shift None Exposure mode FreeRun Fixed D Exposure time fo Send Figure 5 2 2 Video Output Mode Settting f you have your own application to check the images select suitable settings 3 Capture images using a camera interface board utility In the case of Matrox s Solios itis convenient to use Intellicam UME 0017 01 SUCL2025T3 38 NED of Matrox Intellicam s nucli7370t3 dcf Ai bed sima ii OS BB ellen Je 2 2 8 a f s_nucli7370t3 dc
17. avoid uncoupling of cable connectors during power on make sure to clamp them with locking screws Do not unplug the cable while power is being supplied to the camera UME 0017 01 SUCL2025T3 20 NED The pin assignment of the power supply connector is shown below Figure 3 3 4 Power Supply Connector HIROSE HR10G 7R 4P Round shape push pull lock type Table 3 3 2 Pin Assignment of Power Supply Connector Color of Cable 3 4 Power Supply The camera requires a single power supply DC 12 V When selecting a power source choose one with the capacity to allow for inrush current 15W or more recommended Insert the cable plug securely until it locks into position This is to prevent the connector from coming loose during power transmission Compatible Cable Compatible plug DGPS 10 HIROSE HR10A 7P 4S Power supply voltage DC 12 V 5 Consumption Current rated DC 12V 350mA The LED lamp illuminates when 12 V power is being supplied to the camera If the lamp fails to illuminate even after power is supplied turn OFF power immediately Inspect wiring Check the voltage and capacity of the supplied power source SUCL2025T3 UME 0017 01 NED 21 4 Camera Control The camera can be controlled through serial communication Two methods can be used to change the camera s parameters The first approach is to change parameters using NCCtrl02 Camera control software See
18. d of time as a safety precaution always unplug the connection cable from the camera unit Ifthe 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 f 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 UME 0017 01 SUCL2025T3 A NED Instructions before use 9 9999 9 9 9 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
19. de to External Trigger with NCCtrl Then provide a periodic trigger signal to the camera from the frame grabber board Please refer to the frame grabber board specifications In this case the trigger signal period is equal to exposure time 8 10 Attention on use 1 Reproducing and distributing without notice part or all of this software and this manual is prohibited 2 Reverse engineering decompiling disassembling and modifying without notice part or all of this software is prohibited 3 The specification of this software and the contents of this manual may be changed by NED at any time without notice 9 Others 9 1 Notice No part of this document may be reproduced in any form in whole or in part without the expressed written consent of NED Contents of this document are subject to change without prior notice Every care has been taken in the preparation of this User s Manual If you should discover any errors or omissions please notify your nearest NED representative 9 2 Contact for support Nippon Electro Sensory Devices Corporation Head Office 2 5 12 Itachibori Nishi ku Osaka 550 0012 Japan Phone 81 6 6534 5300 Fax 81 6 6534 6080 Tokyo Branch Jiburaruta Seimei Oi BLDG Room No 402 1 45 2 Oi Shinagawa ku Tokyo 140 0014 Japan SUCL2025T3 UME 0017 01 NED 59 Phone 81 3 5718 3181 Fax 81 3 5718 0331 Nishi Nippon Branch 1 8 28 Enokida Hakata ku Fukuoka 812 0004 Japan Phone 81
20. e ER EE E 13 2 4 Optical E E 14 3 HardWAEe ceo es bo eid eoo ei ee QUA Tp IMS 15 3 1 Camera e E 15 3 2 Input Output Connectors and Indicator 0 eee eee cece cent eters eeeeeeeeeeeeeeeeeeeeeeaeeees 16 3 3 Connectors Pin Aessigonmentsl Cables nsnnnsnneseeeeeteeetrtrtrttrtetterttrtttnternnennneennee nnne 17 39 4 POWEPr SUDDIY mee noose eee ee ee eater ee 20 4 Camera Conlrol ort a n HEN ERR 21 4 1 Flow of Camera Control 21 4 1 1 Command Ov rre eerte se ce estes ei tete debs ete ices aee dees eue etu pun ono DER UE Rute ne 21 4 1 2 Command Format PC to Camera Transmission ssssssssseeeenee 21 4 1 3 Reply Format Camera to PC Transmission eeeeeeeeeeeeeeeeeeeeeeieieeresiretrerinernsrrerenernsenes 21 4 1 4 Camera Control Commande sse nennen nennen nennen 22 4 1 5 Memory Setup Values Factory Gettings A 23 4 2 Details on Commands a tit intei pet EHE Io Bea testa Ie be bci net lentes ad te db stetig test ud 23 4 2 1 Setting Analog Ee WE 23 4 2 2 Setting Digital Offset nennen nennen 24 4 2 3 Exposure MoOdbe riri eege Seegen 24 De Delen 24 4 2 5 Setting Output Signals Setting Data Format 24 4 2 6 Memory Initializing Initializing Camera Gettngs cece eee eeeeeeeeeeeeeeeeeteeeeeeeees 25 4 2 7 Memory Load Readout the Camera setting from the flash memonm 25 Nee EE 25 4 2 9 Generating Test Pattern AAA 25 4 2 10 Readout the Operation Status 26 4
21. eadout E ES E Le KA ES BH RS ES ES Ee Za Ka SH VA 4 2 Details on Commands 4 2 1 Setting Analog Gain Sets analog gain e Format 2 CMD VAL1 CR e CMD a g b r e VAL Qj x 10 20 x 11 20 Example g5 CR Setting Geen channel analog gain 50 gt OK 295 UME 0017 01 SUCL2025T3 24 NED 4 2 2 Setting Digital Offset Sets digital offset 0 to 15 8 bit 1DN Step 16 to 78 10 bit 4DN step e Format2 CMD VAL1 CR CMD Q o p q e VAL O 15 Example q5 CR Sets Red channel offset 5 8 bit or 20 10 bit gt OK 205 4 2 3 Exposure Mode Sets Exposure Mode e Format 2 CMD VAL1 CR e CMD t e VAL 0 1 2 lt Example gt t0 CR Free run selection gt OK t0 4 2 4 Line Delay Adjust the delay between lines RGB e Format 2 CMD VAL1 CR e CMD d e VAL 15 15 lt Example gt d8 CR Sets Line delay to forward 8 gt OK gt d8 4 2 5 Setting Output Signals Setting Data Format Sets the data format of output signals e Format 2 CMD VAL1 CR e CMD V e VAL 0 1 output data 8 bit 10 bit switching Example vO CR 8bit output gt OK gt v0 SUCL2025T3 UME 0017 01 NED 25 4 2 6 Memory Initializing Initializing Camera Settings Reset the flash memory to the factory default e Format 1 CMD CR e CMD z lt Example gt z CR gt OK gt z 0 4 2 7 Memory Load Readout the Camera setting from the flash memory Reads out the camera settings from the flash memo
22. ent to a camera gain GAIN dB change is carried out in general according to the following formulas CNN IdH 0 03125 x VAL The camera can adjust the gain x1 to x 2 5 As shown in the figure below increasing the gain setting increases the gradient of the camera s response curve and results in a higher camera output for a given amount of light Fs Saturation Output a b c Amount of Incident Light Ix s Figure 4 10 1 PGA Gain Adjustment Gain and noise values are proportionally related Adjust the amount of gain in accordance with the requirements of your camera system UME 0017 01 SUCL2025T3 34 NED 4 11 Test Pattern This camera can generate a test pattern Use the test pattern to verify the proper timing and connections between the camera and the frame grabber board The test pattern of SUCL2025T3 10bit is as follows Figure 4 12 1 Test Pattern of SUCL2025T3 The test pattern is a ramp from 0 to 1023DN in 10 bit data and then starts at 0 again SUCL2025T3 UME 0017 01 NED 35 5 Confirming Camera Settings 5 1 Before Power on 1 Confirm the pin assignment of the power cable Color of Cable Figure 5 1 1 Pin Assignment of Power Cable 2 Confirm the direction and the channel of the cables Some Camera Link cables are directional If one of the connectors says Camera side connect this to the camera Camera side Frame grabber side FCI C LS
23. ext page To next page p A B Confirm the communication software the control protocol for the camera and commands UME 0017 01 SUCL2025T3 42 NED The communication port is set correctly Set the communication port correctly The camera may be out of order Please contact us for service The capture software program is The capture software program is provided custom made with the board as a sample program With the sample software program No Check the compatibility between the provided no image is captured S Nothing blocks off the light No If a lens cap is attached take it off Yes camera and the frame grabber board The amount of illumination is enough Yes No image at the full aperture Yes The optical axes of the camera and Check the light source If the the image sensor are aligned images are too dark try to increase the light intensity and vice versa The camera may be out of order Please contact us for service SUCL2025T3 UME 0017 01 NED 43 7 2 Noise on Image the beginning Yes A servomotor or magnetic valve is placed near the camera Turning on a servomotor or a magnetic valve generates noise Prevent the noise source from disturbing the camera cables and the power cable UME 0017 01 Noise is present from To next page The camera has been used for 3 or more the temperature is higher than room years
24. f Exposure Signal Grab Mode Sync Signal Digtal Synchro Other Overview Camera Video Signal Video Timing Piel Clock souios cuFuLL EVcL E Matrox Solios Figure 5 2 3 Solios Window SUCL2025T3 UME 0017 01 NED 39 5 3 During Operation 1 Does an acquisition time out error occur Cause 1 Captured images are too large If there are many filtering processes the assignments to the driver may be insufficient 2 The cable is detached from the connector Ensure that the power cable and Camera Link cables are connected to the camera firmly 3 Camera Link cables are susceptible to noise when the cables are laid near a light source inverter line or a power line The personal computer in use may be freeze and need to be reset 2 Are there dark lines in the direction of vertical scanning on the image Cause 1 Dust on the sensor window Dust may get onto the sensor window from the inside or the outside of the camera Remove the dust with air or a lens cleaner UME 0017 01 SUCL2025T3 40 NED 6 Sensor Handling Instructions 6 1 Electrostatic Discharge and the Sensor CCD sensors are susceptible to damage from electrostatic discharge and can deteriorate as a result Take care when handing the sensor 6 2 Protecting Against Dust Oil and Scratches The CCD sensor window is part of the optical path and should be handled like other optical components with care If you use the camera i
25. f the internal control signal The range of programmable exposure time the timing chart of the exposure and the readout are shown below trigger t Fil CC1 ay E Exposure p o Readout Figure 4 8 2 1 External Trigger Exposure Mode The data of Exposure OO is read out at Readout Please don t be made shorter C in figure from 92 41 S SUCL2025T3 UME 0017 01 NED 31 OOUOO0000 DOC D Du invalid data00 valid data 2098 piexis invalid data 00 tlh Figure 4 8 2 1 External Trigger Exposure Mode 4 8 3 External Trigger Exposure Mode Trigger Level In external trigger exposure mode Trigger Level the exposure time is determined by the setting for the line period parameter each exposure starts with the rising edge and the line period is determined by high trigger pulse time The range of programmable exposure time the timing chart of the exposure and the readout are shown below Table 4 8 3 1 Pseudo exposure control mode Edge Q Trigger CC1 CC1 b C b GE Exposure r Readout The data of Exposure is read out at Readout Please don t be made shorter C in figure from 92 4p s Please don t be made shorter Exposure time from 90 4u s of Maximum Scan Rate when External Tri
26. gger Exposure Mode UME 0017 01 SUCL2025T3 32 NED ooun t Exposure time oo0000 D CC ER Exposure time a Ou invalid data 90 valid data 2098 pixels invalid data TIL E tr eg Figure 4 8 3 1 Pseudo exposure control mode 4 9 Setting Offset In the figure below the horizontal axis indicates the amount of incident light and the vertical axis indicates the output Fs shows the output at saturation Dd shows the output at darkness Both Fs and Dd are digital Se shows the saturation current or the amount of exposure when the output saturates Output Se Saturation Exposure Fs Saturation Output Dd Dark Current Ll SEELEN E Ee Amount of Incident Light fk LU Figure 4 9 1 Saturation Exposure and Dark Current Output SUCL2025T3 UME 0017 01 NED 33 By setting the offset you can set the Y intercept arbitrarily DF shows the digital offset value The gradient of the line does not change DF Offset Value Output Amount of Incident Light IX 5 Figure 4 9 2 Offset Adjustment Adjust amount of offset in accordance with the requirements of your camera system 4 10 Setting Gain Gain setting changes according to the following formulas in general About the gain preset value VAL 0 700 s
27. ght source to prevent infrared from distorting the images use an IR cutoff filter that does not transmit IR wavelengths SUCL2025T3 UME 0017 01 NED 15 3 Hardware 3 1 Camera Connection 1 Camera Link cables shall be used to connect the camera unit with the frame grabber board Use two cables of the same length and the same manufacturer If you use asymmetric Camera Link cables connect the camera with the connector labeled as Camera side 2 Connect with a power supply Use a 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 the above a personal computer a frame grabber board a photographic lens a photographic lens mount a light source and an encoder are necessary depending on the situation fp ep EE esu Ete Ganera Li nk Cable L Line sensor canera 3M 14B26 SZLB xxx OLC Canera Li nk Frane Grabber Board D D f Q m ca iu N fro Oty fe e Sa eee Ree Rel Leg ae i ee Blea E Power Cable DGP 10 10m is Canera Pover suppl y DCH2V 15W Figure 3 1 1 Connections between Camera and Frame Grabber Board and Power Supply There are two connectors available for the Camera Link Medium
28. h memory After this sequence the camera is ready to get images and output data 4 5 Saving and Loading Camera Settings The camera setting data is saved in the internal memory flash memory and is loaded from the memory when turning on the power supply or loading sending the rfd commana e The number of times the flash memory can be rewritten will vary depending on actual operational conditions After turning on the power supply the camera always checks the memory status If the data is not within the designated range due to a malfunction or other type of trouble the memory will be automatically rewritten with the factory settings If disconnecting camera power while rewriting the memory all data saved in the memory will be deleted As it takes several seconds to rewrite the memory do not disconnect the power supply before receiving the response from the camera Commands for rewriting the memory are as follows e Reset to factory settings rst e Store present setup data in memory savi When changing the camera setting be sure to send the control input signal CC1 from the frame grabber board If you do not send CC1 or send control input signals are out of the designated range you cannot get images and cannot change the settings See 4 8 2 to 4 8 4 Table 4 5 1 Camera Operation Mode and Control Input Camera operation mode Control input Free Run Programmable time setting Factory Setting Ext Edge Externa
29. hin the range the specifications specify The camera may be out of order Please contact us for service UME 0017 01 SUCL2025T3 46 NED 8 NCCtrl 8 1 Overview NCCirl02 is software designed for line scan cameras that support the NED camera control protocol NCCP This software enables you to remotely control line scan cameras from a PC The following interface connections are available 1 COM port RS232C 2 Camera Link 8 2 System Requirements PC PC AT compatible OS Microsoft Windows series 9x NT 2000 XP Free disk space 1 MB 2 MB The required size may vary depending on the number of camera setting files The following system environment is required for the respective interfaces For COM port RS232C connection 1 COM port that is compatible with the hardware and OS 2 RS232C cross cable Dsub9s Dsub9s Dsub9p Dsub9s Dsub9s Dsub9p 1 1 1 1 RxD 2 RxD 2 2 RxD 2 RxD TxD 3 TxD 3 Lee 3 TxD 3 TxD 4 4 4 4 GND 5 GND 5 5 GND 5 GND 6 6 6 6 7 7 7 7 8 8 8 8 9 9 9 PC side RS232C cross cable Camera side For Camera Link connection 1 Camera Link compatible frame grabber board and device driver must be installed The DLL file for Camera Link API provided by the frame grabber manufacturer must be included For details ask the frame grabber manufacturer 2 Camera Link compatible cable SUCL2025T3 UME 0017 01
30. l trigger edge Not in use External trigger CC1 is required Programmable time setting Ext Level External trigger level time f External trigger CC1 is required setting UME 0017 01 SUCL2025T3 28 NED 4 6 Serial Communication Settings Serial communication is performed through the Camera Link Interface The table below shows the serial communication settings Table 4 6 1 Serial Communication Settings Parameter Items Setup Value Communication Speed Baud rate 9600bps Data Length 8bit Parity Bit None Stop bit 1bit Flow Control None 4 7 Video Output Format The camera outputs 8 bit or 10 bit digital data 8 IITIDefault HIR HIR MSB E II O00 II O00 II O00 II O00 OOO II O00 P II DIETE II O00 II O00 LSB II O00 S E Figure 4 7 1 Pin Assignments of Digital Data The A D converter of the camera has a 10 bit resolution For 8 bit output the upper 8 bit signal can be output as a video data n R G B 8 bit output mode output is Canera Li nk Base Confi gurati on n R G B 10 bit output mode output is Canera Li nk Medi umConf i gurati on SUCL2025T3 UME 0017 01 NED 29 The video output phase is shown below Internal clock ru CC CC CC CC CC S ES
31. n 4 D NCCtrl02 64bit NUCLi7300 ini wll ale glat ve pm e delt del Pe af Ead fae hss Fee UME 0017 01 SUCL2025T3 NED 54 kd NCCtri02 64bit NUCLI7300 ini File F Communication C Help H se ejeame v ws wl ERES Level correction Calibration ewe cea mee fo Level 768 Kei Send Maximum 1025 a send Mode user White zl IT Enable Test pattern Disable L Line delay Control Panel Control Panel 2 Console Camera s memory see reet fir the parameter are displayed gray this indicates that the function is not supported by the camera Elapsed time 00 00 mer 8 6 1 Gain and Offset Gain Odd Even G Mona 500 m Send fo Send SET sem o Send B 2 fo Send fo Send offset Odd Even G Mano 5 send o Zl Send B 0 Send o Send Es lo Send o Send Enter the value directly into the edit box or click on the spin button to set the value Then click on the Send button to send the command to the camera SUCL2025T3 UME 0017 01 NED 55 8 6 2 Clock Video output Video shift Exposure mode Clock fint 60MHz DI Video output 24bit RGB Video shift None v Exposure mode eeRun Fixed nt Every time you choose from the Drop down list box the command is sent to the camera 8 6 3 Exposure time Exposure time 120 Se
32. n a dusty area prepare a dust proof enclosure Dust can obscure pixels producing dark lines on the image 6 3 Cleaning the Sensor Window Dust Can usually be removed by blowing the window surface using a compressed air blower Oil Wipe the window with a lint free cloth wiper moistened with ethyl alcohol carefully and slowly When there is dust or smudges on the sensor window it appears in the same way as noise on the image Please remove it appropriately SUCL2025T3 UME 0017 01 NED 41 7 Troubleshooting The following pages contain several troubleshooting charts that can help you find the cause of problems users sometimes encounter 7 1 No Image The camera has the correct connections The indicator is glowing with the power source and the frame grabber The power source meets the specified voltage Yes Yes The camera may be out of order Please contact us Use a power source that meets for service the specifications The camera has the correct Connect the camera and the frame connection with the frame grabber grabber board with camera cables The frame grabber board is After being powered on set up the powered on and set up frame grabber board suitably The sample software program is used to control No is communicating with the camera The sample software program is used to No successfully control the camera and is communicating m with the camera successfully To next page To n
33. nd Enter the value in the edit box and click the Send button to send the command to the camera 8 6 4 Binning Binning Every time you click the Check box the command is sent to the camera 8 6 5 Camera Memory Save _ Factory default a Load Load data from camera memory b Save Save data into camera memory c Factory default Restore camera memory data to factory settings UME 0017 01 SUCL2025T3 56 NED 8 6 6 Calibration Calib Black Acquisition of black data When you do this please cover the lens Calib White Acquisition of white data Data reflect Save the calibration data to camera memory and apply the data Level Enter the value directly in the edit box or click the spin button to set the value a b C d Then click the Send button to send the command to the camera e Mode Every time you choose from the Drop down list box the command is sent to the camera 8 6 7 Level Correction r Level Correction Minimum D Maximum 4095 Send Enable Send Eb Eb 8 Minimum Enter the value directly in the edit box or click the spin button to set the value Then click the Send button to send the command to the camera b Maximum Enter the value directly in the edit box or click the spin button to set the value Then click the Send button to send the command to the camera C Enable Every time y
34. oltage power supply network which supplies buildings used for domestic purposes 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 SUCL2025T3 UME 0017 01 NED 3 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 A Warning If the product is not handled properly this may result in serious injury or possible death A Caution If the product is not handled properly this may result in physical injury or cause property damage Safety precaution A 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 f the product is not to be used for an extended perio
35. on the Cancel button to cancel this operation Note NCCtrl memorize settings automatically So you do not have to repeat this operation every time 8 5 4 3 Setting Camera Link 1 Enter the DLL file name of Camera Link API in the edit box or click Browse button and select DLL file 7 13 2011 6 00 PM Applicstion extension 2 Enter value corresponding to the position of Camera Link cable to connect into the Serial Index column SUCL2025T3 UME 0017 01 NED 51 3 Click on the OK button to complete this operation Click on the Cancel button to cancel this operation Note NCCtrl memorize settings automatically So you do not have to repeat this operation every time Frame grabber manufacturers provide the DLL file for Camera Link API Some frame grabber boards are connected directly to the PC s COM port In this case set the interface to COM port RS232C For details please inquire with the frame grabber manufacturer 8 5 4 4 Setting Timeout x M Select Interface Camera Link API Ver 2 50 DI Detailed setting Timeouts First Receive 20000 cel Next Receive 20000 e Send 20000 Default OK Cancel 1 Enter timeout values to each edit box in milliseconds Click Default button to restore all timeout values to default settings The meanings of each timeout are as follows First Receive Maximum time allowed to arrival of first characters after command transmission Ne
36. onnectors and Indicator SUCL2025T3 UME 0017 01 NED 17 3 3 Connectors Pin Assignments Cables This camera uses the Medium Configuration 8 bit output of the Camera Link interface standard The figure shown below shows the interface for the camera and a typical implementation for the frame grabber interface in the case of Medium Configuration Camera LVDS DRIVER NS i 0 hannel Tink us DS90CR285MTD oo0000000 equivalent 0000000 00000 0 Xo i xix x2x xax N CK60MHz 8060SA o XClk O CK40MHz 8040SA_6040SA E LVDS DRIVER RECEIVER NS CH DS90LVO19TM J equivalent O mo SerTFG z u lt E SerTC a 1000 O LVDS RECEIVER NS Oo DS90LVO48AT Ka equivalent Oo i r OO Icontrol input ds C Jm 100 rb CC2 Qo D Ce 1000 u LVDS DRIVER NS i 0 hannel Dink us DS90CR285MTD 000000000 equivalent 0000000 00000 0 Yor mmm 2 lz EN Y2 Y3x N CK60MHz 8060SA o YCik Kei CK40MHz 8040SA_6040SA zx UO H CH o 2 z 4100 5 1000 terminated D 1000 termi D o O E v ood 1000 ioo terminated 1000 UME 0017 01 Cable Frame Grabber Board DS RECEIVER NS LV DS90CR286MTD recommended
37. or ambient temperature Yes There are some consumable parts in the camera Please contact us for service The power supply has been used for 3 or more years or the ambient temperature is higher than room temperature Check the deterioration of the power supply The camera the camera cables and the power source cable are in swinging motion Check the deterioration of the camera cables and the power supply cable The camera may be out of order Please contact us for service SUCL2025T3 NED Cables are asymmetric e g thin cables Only one of the connectors of an asymmetric camera cable can be connected with the camera Labeled as Camera side Use camera cables in accordance with the transmission rate The cables should not be too long in order to avoid noise disturbance Use a stable power supply When the camera gain is on a high level bright spots occur without incident light Secondary radiation rays The camera may be out of order Please could cause bright spots but contact us for service this is not a malfunction SUCL2025T3 UME 0017 01 NED 45 7 3 Camera becomes hot The consumption current of the power supply is larger than the rating The camera will become hotter than the ambient temperature while in operation because of self heating Allow sufficient air circulation around the camera to give it a longer life Keep the ambient temperature wit
38. ou click the Check box the command is sent to the camera 8 6 8 Test Pattern Test Pattern Disable Di Every time you choose from the Drop down list box the command is sent to the camera SUCL2025T3 UME 0017 01 NED 57 8 6 9 Line Delay Line Delay D m Send Enter the value directly in the edit box or click the spin button to set the value Then click the Send button to send the command to the camera 8 7 Software Upgrades When you received the newest software from NED Please execute the following procedure 8 7 1 NCCtrl upgrades 1 Check the old version of NCCtrl is not in operation 2 Uninstall old version See 4 Uninstall 3 Install new version See 3 Software installation 8 7 2 Adding Replacing control setting file 1 Check the old version of NCCtrl is not in operation 2 Copy the control setting file ini to NCCtrl Camconf folder 8 7 3 Adding Replacing the interface Plug in 1 Check the old version of NCCtrl is not in operation 2 Copy the Plug in file dll to the NCCtrl folder 8 8 Data Transmission Programming To make your own communication program please refer to the sample programs in NCCtrl SampleProgram folder UME 0017 01 SUCL2025T3 58 NED 8 9 NCCtrl Troubleshooting 8 9 1 You can not change the exposure time with NCCtrl Cause If these items are gray the camera does not have a function to change exposure time Solution First change the exposure mo
39. p D ES beer seh een E ee des EK E TIE EE Ek e een he Men ER AE al Beats e UL IUUUUU YUU UU Uu WUT JI k 000000 LVAL S S S e FVALQ TO Low L 0 L fixed e DVAL O O T Low fixed Figure 4 7 2 Video Output Phase 4 8 Exposure Mode and Timing Chart The camera has three exposure modes The overview of each mode and the timing are as follows 4 8 1 Free Run Exposure Mode In free run exposure mode the camera generates its own internal control signal based on two programmable parameters exposure time and readout time The range of programmable exposure time and the timing chart of the exposure and the readout are shown below scan x Exposure G amp e G amp Readout LVAL Figure 4 8 1 1 Free Run Exposure Mode The data of Exposure is read out at Readout UME 0017 01 SUCL2025T3 30 NED Dadaaaad ii 0000 00000 goog ida D OOOU0U P invalid data 00 valid data L L piexs invalid data 00 Figure 4 8 1 2 Free Run timing chart 4 8 2 External Trigger Exposure Mode Trigger Edge In external trigger exposure mode Trigger Edge the exposure time is determined by the setting for the line period parameter each exposure starts with the rising edge and the line period is determined by the time from rising edge to rising edge o
40. ra 2098 pixel 2 Controller Dedicated software for PC system 3 Size L930 x D500 x H500 mm Applicable Fields Inspection of patterns on film PCBs 1 3 Image Sensor The camera uses a CCD sensor with a maximum data rate of 25MHz to acquire high responsivity and superior quality images The pixel size is 14um x 14um It outputs 2098 pixels data through 25MHz 1 4 Performance Specifications The Performance Specifications are shown below Unless otherwise specified the data shown is when the camera is operating at the maximum scan rate Table 1 4 1 Performance Specifications Specifications Items SUCL2025T3 Number of Pixels 2098 3 Pixel Size H x V um 14 14 R G G B distance each 112u m Sensor Length mm 29 372 Spectral Responsivity nm See Figure 1 4 1 Data Rate MHz 250 fixed 92 4 10 82 Note Please don t set exposure time less than 90 4u s in Maximum Scan Rate External Trigger electronic shutter opening mode Because us kHz it is impossible to right capture See Figure 4 8 1 2 Timing Chart Saturation Exposure Ix s typically 0 125 SUCL2025T3 UME 0017 01 NED 11 Responsivity typically Analog 5V Conversion Sensitivity 25 V Ix When shipping Ta 25 C by Daylight Fluorescent Light Analog 5V Conversion Sensitivity Gain Adjustable Range dB 0 to about 22 Offset Adjustable Range LSB 8 bit 4 to abou
41. ry e Format 1 CMD CR e CMD Example CR gt OK gt 0 4 2 8 Memory Save Stores current camera settings in the flash memory e Format 1 CMD CR e CMD W Example w CR gt OK gt W 4 2 9 Generating Test Pattern Generates test pattern e Format 2 CMD VAL1 CR e CMD T e VAL 0 1 0 Image data 1 Test pattern Example T1 CR Generating test pattern gt OK gt T1 UME 0017 01 SUCL2025T3 26 NED 4 2 10 Readout the Operation Status Reads out the current camera settings e Format 2 CMD VAL CR e CMD sta lt Example gt sta CR gt OK gt Type SUCL2025T3 gt Ver 1 00 gt r0 gt q8 gt g0 gt 08 gt b0 gt p8 gt t0 gt v0 dO gt TO gt sta 4 3 Digital Processing flow in FPGA The figure below shows the digital processing flow in the FPGA FPGA Processing block diagram Video 8 or 10bit 20 To Channel Link Driver 8 or 10bit select Note Wen Test Pattern is selected LINE DELAY is skipped Figure 4 3 1 FPGA Processing block diagram SUCL2025T3 UME 0017 01 NED 27 4 4 Startup After turning on the camera runs a startup procedure before it starts getting images and outputting data It takes about four seconds The startup procedure is as follows 1 The camera initializes the hardware 2 Reads out the latest camera settings from the flash memory User settings if any or factory default settings 3 Sets up the camera with the setting values from the flas
42. s no responsibility for damages resulting from natural disasters earthquakes or acts executed by a third party Warranty excludes any accidents resulting from improper handling or misuse of this product whether intentional or not and any camera operations conducted under abnormal conditions The manufacturer assumes no responsibility for any incidental damages loss of corporate profits interruption of business etc resulting form use or non use of this product The manufacturer assumes no responsibility for damages resulting from failure to follow the instructions and procedures indicated in this User s Manual The manufacturer assumes no responsibility for any damages resulting from malfunctions caused by combined use of this product with other peripheral equipment The manufacturer assumes no responsibility for damages resulting from malfunctions caused by non authorized repair or modifications made to this product UME 0017 01 SUCL2025T3 NED Table of Contents TProduct Outline co e ht sacle atl t 9 iau LET eE 9 1 2 Applications nint dele eta aadi aada iaaeaie aiai aieia adiaiiis eieiei inia 9 AS Image SONSOM E 10 1 4 Performance Specifications cece cee ceeeeeeeeeeeeeeee eens eens eee eeeeeeaeeeeeeeeeeeaeeeeeeeenees 10 2 Camera Setting and Optical lntertace 1111111111 12 2 1 Setting Gdmera E 12 2 2 Fixing Camera oce aod c spa loea rater tern code 12 2 3
43. t 20 DN 10 bit 16 to about 80 DN F i Canera Li nk Base line 24bit RCB orma Canera Li nk Medi uml ine 30bi t RGB Video output Canera Li nk Base Conf i gurati on Protocol E j Canera Link Medi umConf i gurati on PRNU Photo Response Non Uniformity Typically 5 96 Random Noise 20DN minimum gain 10 bit Control Input CC1 External Trigger Signal start signal CC2 4 Not in use Serial communication control Ser TQ SerTFG Master clock MHz 50 internal clock or external clock Data Controller 3M MDR26 Camera Link Connectors Power Supply Hirose HR10G 4Pin Lens Mount Nikon mount Operating Temperature C p g Temp DE No Condensation Power Supply Voltage V DC12 4 5 Consumption Current typically mA 350 Size WxH x D mm 64x 70x 116 except base holder Mass 9 Under 470 except base holder about 145g Additional Functions RGB line delay Exposure control Programmable Exposure Control Gain Offset Control 8 or 10 bit Video Output Scan Direction Switching cl deo0 Meo Test Pattern Output UME 0017 01 SUCL2025T3 12 NED The spectral Responsivity is shown below Relative Responsivity 00 0 OO00 OD SCH ooo da ooo Wavelength 000 D Figure 1 4 1 Spectral Responsivity Device structure is shown below SUCL2025T3 pixel array
44. xt Receive Maximum time allowed to elapse between the arrival of two characters Send Maximum time allowed to completing of command transmission 2 Click on the OK button to save the setting Click on the Cancel button to cancel the setting Note NCCtrl memorizes settings automatically So you do not have to repeat this operation every time UME 0017 01 SUCL2025T3 52 NED 8 5 5 Connect Click on tool bar button D Then you can control the camera 8 5 6 Disconnect and exit program Click on tool bar button E Then click the X button in the top right of the window 8 5 7 Check the contents of communication Click on the Console tab at the bottom of the window to confirm the settings the parameter ara diapiayed gray thi indicates that the function i mot supported by the camera ET 8 5 8 Export Parameters to text file 1 Click on tool bar button B SUCL2025T3 UME 0017 01 NED 53 2 Input the desired file name and click on the Save button The current settings value of each item is saved in text format 8 5 9 Import Parameters from text file 1 Select menu File Text Load f ext losd 2 Select the file name and click on the Open button Each command written in the text file is executed sequentially 8 6 Control The controllable functions and range of values differ for every camera For details refer to the camera specifications Sectio
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