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ELIIXA+ 8k/4k User Manual
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1. be UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 39 gt ELIIXA 8k 4k CL Read function lutc addr Read 128 LUT coefficients starting from address addr from to 4095 128 Returned value is the concatenation in hexadecimal of individual LUT values without space between values one unsigned short per coefficient Write function w lute addr val Write 128 LUT coefficients starting from address addr form O to 4095 128 val is the concatenation in hexadecimal of individual LUT values without space between values one unsigned short per coefficient Save amp Restore LUT in User Banks The LUT loaded in RAM memory can be saved or restored in from 4 User banks These functions are available in the LUT Save amp Restore LUT Settings section Restore LUT from Bank RestorelLUTFromBank Restore the LUT from a User Bank in the current RAM Memory gt Read function r rlut Get the current LUT Bank used Returned by the camera 1 to 4 for User banks gt Write function w rlut lt gt Bank lt val gt 1 to 4 for User banks Save LUT in User Bank SaveLU7T ToBank Save current LUT in User Bank de read gt Write function w slut lt val gt User bank val if from 1 to 4 The bank number val is given in 2 77527 Selector L UT User Bank Usage Upload load from to a Txt file
2. 2 0 4400 0000000000 53 11 APPENDIX F Revision 2 2 2 2 54 3 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 1 1 1 12 4 ELIIXA 8k 4k CL CAMERA OVERVIEW Feafures Cmos Sensor 4x 8192 Pixels 5 x bum Multi Line structure and Multi Definition using Binning o 8192 pixels 1 2 or 4 lines summation o 4096 pixels 10x10um in 1 or 2 lines summation o 2048 pixels 20x20um Interface CameraLink BAO version Base or Medium 85MHz down to 60MHz o BA 1 version Base Medium Full Deca 85MHz down to 60MHz Line Rate Up to 100000 1 5 Data Rate Up to 850 MB s Bit Depth 8 10 and 12bits Flat Field Correction Look up Table Low Power Consumption 7 5W Compliant with Standard Lenses of the Market M42 Mounts Full Exposure Control even in 4S mode Key Specifications Note All values in LSB are given in 12 bits format Characteristics Typical Value Sensor Characteristics at Maximum Pixel Rate Resolution 4 x 8192 pixel size square 5x5 Max Line Rate BAO BA1 versions 8 or 12bits CameraLink Base 2 x 85MHz 8k 4k 20 40 CameraLink Medium 4 x 85MHz 8k 4k 40 80 Max Line Rate BA1 version only 8 bits CameraLink Full 8 x 85MHz 8k 4k 80 100 CameraLink Deca 10 x 85MHz 8 4 100 100 Radiometric Performance at Maximum Pixel
3. 0 41 9 29 9 aye RESTE SETIS tama EROR __ ___ gt 42 APPENDIX A Test 7 lt 43 61 Test Pattern 1 Vertical 43 6 2 Test Pattern 2 Fixed Horizontal 43 6 2 1 8192 Pixels in 8 DIIS format cueste qe ee tede ose ue 43 5 02 O95TIXelSTEO DIDS TOPIm 44 623 2048 Pixels in 8 DITS ___ __6 _ RN UE EU 45 7 APPENDIX B Timing Diagrams 46 71 Synchronization Modes with Variable Exposure 46 7 2 Synchronisation Modes with Maximum Exposure 47 42 TELE 48 8 APPENDIX CameraLink Data 5 49 CIO Ldbg 49 Choosing ihe Dale Rale esent tan sr _________________ _ 50 9 APPENDIX D Lens 51 51 92 7124 42 1 52 APPENDIX E 53 53 10 2 CommCam
4. Ram Memory At the power up Last User Bank used is loaded in RAM UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 5 3 7 Statistics and Line Profile This function allows the User to get some statistics on pre defined ROI On request the Camera acquires and then calculates some key values as the min the max the average or the standard deviation in this Region of Interest The grab and calculation command and also the collection of the results is not performed in real time as it is done through the serial connection This function and the results are available in CommCam in the Line Profile Average Section Line Profile average measurement LineAverageProfile Control the grab and computation of the statistics gt Read function pixs Get the status of the calculation Returned by the camera finished 1 running gt Write function w pixs 1 Start the accumulation and then the computing w pixs Abort the computing The Calculated values are detailed as following o Pixel average Value Pixe ROIMean Average gray level value calculated on whole Region of interest gt Read function pavr Get the average value Returned by the camera Unsigned format value U12 4 o Pixel Standard deviation Pixe ROIStandardDeviation standard deviation of all the pixel gray level values of Region of interest gt Read function pstd Get th
5. thd thd Full Well Capacity e 13650 27300 27300 54600 154600 109200 SNR 40 5 430 430 fd thd thd Ton s 137 274 547 1 550 3 100 2200 Non Linearity 0 3 03 0 3 03 03 03 Without Flat Field Correction FPN rms 04 15 07 15 Mol wd wed gd fbd FPN pk pk LSB 32 15 5 5 56 thd i thd thd PRNU hf 3 4 Sat 013 025 01 025 01 fbd thd in 1 3 08 3 thd thd Test conditions Figures in LSB for 12bits format Measured at exposure time 5Oys and line period 5 Ext Trig Mode Max Exposure Time Maximum data rate Stabilized temperature 30 40 55 C Room Front Face Internal SNR Calculated at 75 with minimum Gain In mode 25 45 only with the use of the Multi Line Gain 6 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 16 Image Sensor 17 Sensor modes 7 AN ADC Column the same Analog to Digital Column converter ADC Column An appropriate embedded Time delay in the exposure between each line Pixel Line allows combining two successive exposures in order to double the sensitivity of a single Pred Tinen line This Time Delay E
6. 8k 4k CL 2 2 2 Status LED Behaviour After less than 2 seconds of power establishment the LED first lights up in ORANGE Then after a Maximum of 40 seconds the LED must turn in a following colour Colour and state Meaning Green and continuous OK Green and blinking slowly Waiting for Ext Trig Trig1 and or Trig2 Red and continuous Camera out of order Internal firmware error 2 2 3 CameraLink Output Configuration 8 x 1024 10 x 819 13 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 3 STANDARD CONFORMITY The ELIIXA cameras have been tested using the following equipment Ashielded power supply cable ACameraLink data transfer cable ref MVC 1 1 5 2M from Component Express Inc e2v recommends using the same configuration to ensure the compliance with the following standards 21 Conformity The ELIIXA cameras comply with the requirements of the EMC European directive 2004 108 CE 50081 2 61000 6 2 22 FCC Conformity The ELIIXA cameras further comply with Part 15 of the FCC rules which states that Operation is subject to the following two conditions e This device may not cause harmful interference and e This device must accept any interference received including interference that may cause undesired operation This equipment has been tested and found to comply with the limits for Class A digital device pursuant to part 15
7. 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 11 APPENDIX F Revision History Manual Comments Details Firmware version 15 CommCam Revision compliant Version First release Base Mode and Quarter Balance not available Version BAO Version BA1 Base mode Tap Gains Balance Version BAO Version BA1 54 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL e2v com imaging For details of our global offices please visit e2v com Contact us online at e2v com contact bmeg Whilst e2v has taken care to ensure the accuracy of the information contained herein it accepts responsibility for the consequences of any use thereof and also reserves the right to change the specification of goods without notice e2v accepts no liability beyond that set out in its standard conditions of sale in respect of infringement of third party patents arising from the use of tubes or other devices in accordance with information contained herein 55 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013
8. Action per Sensor s Analog Gain the ADC 10 bits The only analog Gain available in conversion the ELIIXA is located at the sensor level in the ADC converter This Preamp Gain is in fact a variation of the ramp of the comparator of the ADC 8 bits Then 3 Values are ovailable conversion x1 x2 and x4 LSB 1024 2 at different Gains Clamp Black Ref Value issued Setting from the Pixel Preamp Gain with GainSelector Set the Pre amplification Gain This command is available in the CommCam Gain amp Offset section gt Read function pamp Returned by the camera Integer corresponding to one of the 3 different step values x1 e 1 x2 6dB 2 4 1248 gt Write function w pamp int 30 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL Gain Gain with GainSelector Set the Amplification Gain This command is available in the CommCam Gain amp Offset section gt Read function gain Returned by the camera Value from to 6193 corresponding to Gain range of OdB to 8dB calculated as following Gain dB 20 log 1 4096 gt Write function w gain int Tap with ain Selectorz gt Read function fga tap tap is 1 or 2 Returns the Ga
9. FPN PRNU individually Save in the bank to 44 Reset FPN Reset PRNU 37 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 5 3 6 Look Up Table 38 The User can define an upload a LUT in the Camera that can be used at the end of the processing The LUT is defined as a correspondence between each of the 4096 gray levels in 12 bits with another outputted value For example a negative or reverse LUT is the following equivalence Real value Output value 0 4095 1 4094 2 4093 Then the size of each value is 125115 but the exchanges with the Application PC are done 16 bits For 4096 gray levels from O to 4095 the total file size for a LUT is 8Ko If this LUT is enables the Contrast Expansion feature digital Gain and Offset will be disabled LUT Enable LU 7Enab e Enable the LUT and sizable the Digital Gain Offset This function is available in the LUT section gt Read function r lute Get the LUT status Returned by the camera 0 is LUT disabled 1 if enabled gt Write function lute lt val gt val is for disable 1 for enable e Upload Download the LUT coefficients Direct access to the LUT coefficients for reading or writing In CommCam the User can access to a specific interface by clicking on click for extended control in the LUT section Filz Lpiasd em
10. MEUM 14 e gl OOS 80 fe cl hk ee ee mU MEME 14 B3 ee eee 14 4 GETTING dE 16 1 Ne DO m 16 UPIN TNE SYSTEM T 16 5 CAMERA SOFTWARE INTERFACE 17 ni Controland RE RE 17 5 2 Serial Protocol and Command Format essere enne enne 18 us OTT 18 Does Command OCS SING senes 18 De O 18 92 Camera COMINGS 19 IVT E 19 9x6 _______ ____ _ UE 22 U33 sAcdHisitiohn CORTPOL _____________ 28 9027 _ _ _____ ______ 30 2 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL Cmos Multi Line Camera 5959 gt Se cl E 32 23 91 Activation and SUI DIM MEE 34 9222 PONG e COD OT o d NIE ET RT 35 5 3 9 3 Manual Flat Feld Correc aeo EUREN 36 5 3 5 4 User Bank Management 37 5 3 6 Look Up Table 38 utes add MIU gt 40 90
11. Manual FFC calibration and Manual FPN calibration sections Resbape selection File Type section amp Fie 5e Lipid Upad rem camera Docet Dread te camera This will allow the user to upload download out in the Camera the FFC coefficients in from a binary or text file that can be processed externally It is recommended to setup the baud rate at the maximum value possible 115000 for example 36 otherwise the transfer can take a long time FPN coefficients modification Direct access to the FPN coefficients for reading or writing The FPN coefficients are read packets of x128 coefficients gt Read function r ffco lt addr gt Read 128 consecutive FPN user coefficients starting from addr address Returned value is in hexadecimal without space between values one unsigned short per coefficient gt Write function ffco addr val Write 128 consecutive FPN user coefficients starting from the addr address val is the concatenation of individual FPN values without space between the values one unsigned short per coefficient PRNU coefficients modification Direct access to the coefficients for reading or writing The PRNU coefficients are read packets of x128 coefficients gt Read function r ffcg lt addr gt Read 128 consecutive user coefficients starting from
12. REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL If Ther 5 the Line Period internal or external coming from the Trigger line in order to respect this line Period the Exposure Time as to set by respecting Tint Ty lt Then the real exposure time is Tintrea Tint Tx In the same way The high level period of the Trig signal in sync 3 mode Thy gt For a Line Period of LinePer the maximum exposure time possible without reduction of line rate is Tintmax is defined above but the effective Exposure Time will be about Tintreal Tint m Tx 72 Synchronisation Modes with Maximum Exposure Time T Synchro d Line Trigger CC1 or Internal Sync 2 Sync 5 Exposure Time Internal Tint real sensor Digital Conversion Digital Conversion In these modes the rising edge of the Trigger internal or External starts the readout process T of the previous integration The Real exposure time is finally equal to the Line Period 774 even if it s delayed from T from the rising edge of the incoming Line Trigger 47 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL Z3 Timing Values m
13. 4k CL After performing a line profile measurement all the values computed which are described below are not refreshed automatically in CommCam You have to right click on each value and ask for an individual refresh 5 3 8 Privilege Level There are 3 privilege levels for the camera gt Factory 0 Reserved for the Factory gt Integrator 1 Reserved for system integrators gt User 2 For all Users The Cameras are delivered in Integrator mode They can be locked in User mode and a specific password is required to switch back the Camera in Integrator mode This password can be generated with a specific tool available from the hotline hotline cam e2v com This function is available in the Privilege section Privilege level Management Privi egeLeve Get the current Camera privilege level gt Read function lock Get the current privilege Returned by the camera O to 2 gt Write function w lock lt val gt val is as follow 2 Lock the Camera in Integrator or privilege User computed value Unlock the Camera back in Integrator mode 41 UM 8k 4k CL REVB 03 13 e2v semiconductors 545 2013 ELIIXA 8k 4k CL 9 3 9 Save 4 Restore Settings The settings or Main configuration of the Camera can be saved in 4 different User banks and one Integrator bank This setting includes also the FFC and LUT enable This function is available in the Save amp Restore Settings sec
14. Device Serial Port Selection Indicates the Serial Port on which the Camera is connected Device Serial Port Baud Rate ComBaudRate Set the Camera BaudRate gt Read function r baud Returned by the camera Value of the Baud Rate gt Write function baud index with the index as follows 1 9600 Bauds default value at power up 2 19200Bauds 6 57600Bauds 12 115200Bauds Standby Mode Standby Activation of the Standby mode of the Camera gt Read function stby Returned by the camera Boolean 0 Disable Standby mode False 1 Enable stanby mode True gt Write function w stby val val is 1 Internal Temperature standby mode what for 2 The Standby mode stops all activity on the Standby Off sensor level The power dissipation drops down to about 6W During the standby mode the grab is stopped Once the Standby mode turned off the Camera recovers in less than 1ms to send images again from the sensor Standby On Time mn 20 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 21 ELIIXA 8k 4k CL Camera status Get the Camera status register 32bits Integer gt Read function r stat Returned by the camera 32bits integer El Status Error on hardware Bit StatusWa tForTrigger True if Md gt ad trig received from more than 1s
15. Rate and minimum camera gain Bit depth 8 10 and 12 Response broadband 450 Full Well Capacity 27300 in 25 or 4S mode and MultiGain at 1 2 Response non linearity 0 3 PRNU HF Max 3 Dynamic range 15 25 4S mode 67 6 70 7 68 7 UM ELIIXA 8k 4k CL REVB 03 13 Unit Pixels Lm kHz kHz kHz kHz Bits LSB nJ cm electrons 48 e2v semiconductors SAS 2013 13 Functionality Programmable via Control Interface Sensor modes Multi definition Multi sensitivity Analog Gain Offset Trigger Mode Mechanical and Electrical Interface Size wx hx Weight Lens Mount Sensor alignment see chapter 2 1 Sensor flatness Power supply Power dissipation CameraLink General Features Operating temperature Storage temperature Regulatory Description ELIIXA 8k 4k CL 8k Pixels Multi Lines 1 2 or 4 4k Pixels 10 Binning 1 or 2 Lines 2k Pixels Binning 4x4 1 line Up to 12 x4 4096 to 4096 125 x 60 x 135 360 F Mount 2 and 42 1 100 50 Single 12 DC to 24 DC lt 7 5 to 55 front face or 70 Internal 40 to 7O CE FCC and RoHS compliant dB LSB Timed Free run and triggered Ext Trig Ext modes e2v s next generation of line scan cameras are setting new high standards for line rate and image quality Thanks to e2v s recently developed multi line CMOS technology the camera provides an unmatched 100 000 lines s and combine
16. Read function r dhwv Returned by the camera String of 32 bytes including O Cannot be written Device Firmware Version DevicefirmwareVersion Get camera synthetic firmware gt Read function r dfwv Returned by the camera String of 16 bytes including O Cannot be written Device SFNC Version 1 5 0 These Parameters Major Minor Sub Minor are only virtual ones in order to give the SFNC compliance of the Camera Device ID DeviceID Camera Factory identifier ID Read function r cust Returned by the camera String of 128 bytes including O gt Write function w cust lt idstr gt Device User ID DeviceUserID Camera user identifier ID gt Read function r cust Returned by the camera String of 128 bytes including O gt Write function w cust lt idstr gt UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL Electronic board ID E ectronicBoardIb Get PcB Board ID gt Read function Returned by the camera String of 32 bytes including O Cannot be written Device Temperature Selector Device TemperatureSe lector MainBoard gt be written Device Temperature Device Temperature Get Main Board Temperature gt Read function r temp Return by the camera Temperature in Q10 2 format 8 bits signed 2 bits below comma Value is between 512 to 511 in
17. The Compliant Lenses Mounts are detailed in Appendix D 16 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 5 CAMERA SOFTWARE INTERFACE 51 Interface As all the e2v Cameras the ELIIXA CL is delivered with the friendly interface control software COMMCAM UCL as Ultimate Camera Link which is based on the GenICam standard COMMCAM recognizes and detects automatically all the UCL Cameras connected on any transport layers Camera Link or COM ports of your system Once connected to the Camera you have an easy access to all its features The visibility of these features can be associated to three types of users Beginner Expert or Guru Then you can make life easy for simple users Minimum version of CommCam is 2 1 4 in order to recognize the ELIIXA 8k 4k Camera both versions Fie View Setup camera a Feature E ds Device Control Image Format Control Acquisition Control Gains amp Offsets LUTControl Click for extended control Transport Layer Control User Set Control Hatfreld carrection 0 LinePrefilAverage Click for extended control Privilege Guru CMOSCLIGOSEW LO 0 Versioni 00 SNVirtualSenia 4 17 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 52 Serial Protocol and Command Format The Camera Link interface provides two LVDS signal pairs for communication betwe
18. height of the Sensor This value is available in the CommCam Image Format Control section gt Access Virtual command in xml Value always 1 Output mode Ou pu Mode Set the CameraLink Output mode refer also to Chap 3 CameraLink Output Configuration This command is available in the CommCam Image Format Control section Read function mode Returned by the camera Output mode from O to 3 see table below gt Write function w mode value detailed in the table below Modes Connector CL1 Connector CL Mode value Base 2 Channels 8 Bits 2 x 8 bits 5 Base 2 Channels 10bits 2 x 10 bits 6 Base 2 Channels 12 Bits 2x 12 bits 7 Medium 4 Channels 8bits 4 x 8 bits 0 Medium 4 Channels 10 bits 4 x 10 bits 4 Medium 4 Channels 12bits 4 x 12 bits 1 Full 8 Channels 8bits BA1 Version Only 8 x 8 bits 2 Full 10 Channels 8bits 1 Version Only 10 x 8 bits 3 22 UM 8k 4k CL REVB 03 13 e2v semiconductors 545 2013 ELIIXA 8k 4k CL Structure of the Camera Link Channels for interfacin gt Base Mode 2 Channels Separate outputted from Left to Right 2x4096 pixels each Channel No Binning 2x2048 pixels in Binning Mode 1SB or 2SB 2x512 pixels in Binning mode 4SB Ch 1 Ch2 Output direction Lo Medium Mode 4 Taps Separate outputted from Left to Right 4x2048 pixels each Channel No Binning 4x1024 pixels in Binning Mode 1SB or 2SB 4x512 pixels in B
19. 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 own expense Warning Changes or modifications to this unit not expressly approved by the party responsible for compliance could void the user s authority to operate this equipment 33 RoHs Conformity ELIIXA cameras comply with the requirements of the RoHS directive 2002 95 EC 14 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL Declaration Number 15209097 We e2v semiconductors rue de Rochepleine 38120 Saint Egreve France declare the product s Product Family 8k Cameras Model Identification EV7T1YTCAMCLB8005 Bxx x 9 4 2 in conformance with the requirements of the following standards ENS5022 ed 2006 class EN61000 6 2 ed 2005 IEC 81000 4 2 2009 IEC 61000 4 3 ed 2006 A1 2008 2 2011 IEC 61000 4 4 ed 2004 IEC 61000 4 5 ed 2006 IEC 61000 4 6 ed 2009 61000 4 11 ed 2004 when used in conformity with the recomme
20. or Triggered it defines how the grabbing is synchronized This command is available in the CommCam Acquisition Control section gt Read function sync Returned by the camera Q Internal Line Trigger with Exposure time Internally Controlled Free Run Not available when Sensor mode is set 45 whatever the firmware version 1 External Trigger with Exposure Time Internally Controlled Available also when Sensor mode is set in 45 2 External Trigger with maximum Exposure time 3 One External with Exposure Time Externally Controlled The same Trigger signal defines the line period and its low level defines the exposure time Available also when Sensor mode is set in 45 4 Two External Triggers with Exposure Time Externally Controlled CC2 defines the start of the exposure and also the start Line and CC1 defines the Stop of the exposure Not available when Sensor mode is set in 45 5 Internal Line Trigger with maximum Exposure Time gt Write function w sync value The Timing diagrams associated to each Synchronization mode and the Timing values associated are detailed the APPENDIX B of this document 28 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL Exposure time Exposure Time Defines the exposure time when set in the Camera This command is available in the CommCam Acquisition Control section gt Read fun
21. used but the noise divided by 2 memory node therefore the SNR is improved by a ELTE factor of 2 sns Reverse Reading X ReverseReading Allows to output the line in the Reverse X direction This value is available in the CommCam Image Format Control section gt Read function revr Return by the Camera or 1 enabled disabled gt Write function w revr lt value gt 70 Disabled 1 Enables the reverse reading out see below for normal direction 26 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 27 ELIIXA 8k 4k CL Scan Direction ScanDirection Set the scan direction for the sensor This value is available in the CommCam Image Format Control section gt Read function r scdi Return by the Camera 1 or 2 Forward reverse external gt Write function scdi value 0 Forward 1 Reverse 72 Externally controlled of the CameraLink Sync signals Forward reverse information has to be set correctly as soon as the Mode 2S 4S 258 of the sensor are set In these modes the sensor Camera need to know what is the real order of the lines for the exposure delays The Forward direction is defined as detailed beside Note The delay for the Camera to take in account a change in the ScanDirection value is In 25 mode 1s First In4S mode 1 55 Web Pixel Direction This in
22. ELIIXA 8k 4k Cmos Multi Line Monochrome Camera User Manual ELIIXA 8k 4k CL Cmos Multi Line Camera Summary 1 CAMERA R ET REPETI E SN 4 U 4 L2 4 ME beo T 5 t4 Typical 0 611 or 10 01 0k 5 CAMERA 6 15 Camera 6 LO 6 7 1 7 lt 7 1 Remon es QE E E dette ere 8 181 Quantum 8 152 210 460 RESDOlSE E 8 2 CAMERA HARDWARE INTERFACE 10 Mechanical DEOWIROS occ 10 MU Connectors and E iEn 11 ____ ______________ 12 BA eB gl OU 13 223 CameraLink Output CONT IQUCOT 13 3 STANDARD 14 Bl
23. EVB 03 13 Skew 390ps 290ps 270 218 190 Cable Length 7 8 5 8 5 Am 4 36m 3 8m e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 8 2 Choosing the Data Rate Maximum Line Rates tables versus Data rate and Pixel Format Data Frequency 85MHz Sensor Mode Line Rate Max Tper Min Line Rate Max Mi Line Rate Tper Min Line Rate Tper Min kHz kHz Ber ACE bla Max kHz us 10 15 25 45 8K 20 20 50 50 40 40 250 250 80 125 100 100 100 0 158 258 4K 10 40 40 25 0 25 0 80 40 12 5 25 0 458 2K 80 40 12 5 25 0 100 40 10 0 25 0 Data Frequency 2 kHz us kHz Max kHz us Max kHz us 10 7 100 100 0 100 10 100 100 10 Sensor Mode 158 258 4K 104m 37 6 37 6 26 6 26 6 75 1 40 13 3 25 0 4SB 2K 201m 75 1 40 13 3 25 0 100 40 10 0 25 0 100 Data Frequency 75MHz Sensor Mode kHz us kHz Max kHz us Max kHz us 11 4 100 100 0 15 25 45 8 158 258 4 10 35 5 35 5 28 2 28 2 70 4 40 14 2 25 458 2K20um 704 40 142 250 100 40 10 0 25 0 100 100 0 Data Frequency 70MHz Sensor Mode kHz us kHz REPAIR US us Max kHz us 12 1 100 0 15 25 45 8 158 258 4 10 331 331 30 2 302 66 2 40 15 1 25 100 458 2K20um 66 2 40 151 250 100 40 10 0 25 0 100 100 0 Data Frequency 65 2 Sensor Mode kHz us kHz P kHz kH
24. S 2013 ELIIXA 8k 4k CL 5 3 5 1 Activation and Auto Adjust FFC Activation FFCEnab e Enable disable the Flat Field Correction This command is available in the CommCam Flat Field Correction section gt Read function r ffcp Returns the Status 0 if disabled 1 if enabled gt Write function w ffcp 1 Enable the w ffcp 0 Disabled the FFC Adjust Function This Feature is available in the CommCam Flat Field Correction Automatic Calibration section o Gains adjust FFCAdjus Enable Disable the function Read function r ffad Returns the status of the function O if disabled gt Write function w ffad 0 Disable the Adjust function w ffad 1 Enable the Adjust function o Auto Adjust Target Level FFCAufoTargetLevel set the value for the User Target gt Read function r Returns the Target value from to 4095 gt Write function w tfad lt value gt Set the Target Value in 12bits gt Adjust A good usaae When there are several Cameras to set up ina system ona single line the most difficult is to have a uniform lightning whole along the line If each Camera performs its own Flat field correction relative to the max of each pixel line the result will be a succession of Camera lines at different levels gt The FFC Adjust function allows to set the same target value for all the Cam
25. addr address Returned value is in hexadecimal without space between values one unsigned short per coefficient gt Write function w ffcg addr val Write 128 consecutive user coefficients starting from the addr address val is the concatenation of individual PRNU values without space between the values one unsigned short per coefficient UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8 4 CL 5 3 5 4 User Bank Management The new processed FFC values can be saved or restored in from 4 x User banks Both Gains and Offsets in the same time but also the FFC Adjust User target and associated gain These functions are available in the Flat Field correction Save amp Restore FFC section Restore from Bank RestoreFFCFromBank Restore the from a Bank in the current gt Read function r rffc Get the current Bank used Returned by the camera for Factory bank 1 to 4 for User banks gt Write function w rffc lt val gt Bank val 1 to 4 for User banks Note Factory means neutral FFC no correction Save in User Bank SaveFFCToBank Save current in User Bank not de read gt Write function w sffc lt val gt User bank val if from 1 to 4 FFC User Bank Usage At the power up User Last User Bank used is loaded in RAM Reset a User bank Reset the
26. ction r tint Returned the camera Integer from 15 to 65535 lt 1 to 6553 5 by step 105 gt Write function w tint value This value of exposure time is taken in account only when the synchronisation mode is free run or Ext Trig with Exposure time set 1 Otherwise it s ignored Due to the limitation of the timing pixel inside the sensor the Exposure time has to be set by taking in account the limitation detailed in the APPENDIX B of this document The Minimum exposure time which can be set is 1 Line Period LinePeriod Defines the Line Period of the Camera in Timed mode This command is available in the CommCam Acquisition Control section gt Read function r Returned the camera Integer from 1 to 65536 to 6553 6 5 by step 100ns gt Write function w value The line period is active only in Free Run modes It s also disabled if in this mode the Integration time is set higher than the Line Period The Tables of the minimum Line Period Max Line Rate versus the Data rate and the output mode chosen are given in Appendix C Chap 9 2 of this document 29 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 5 3 4 Gain and Offset Sensor FPGA Preamp Gain ELIIXA 8k 4k CL LUT or Contrast Exp Offset Gain Action on whole line Action per
27. d Correction 2 What is the Flat Field correction 2 The Flat Field Correction is a digital correction on each pixel which allows gt the Pixel Pixel Response Non Uniformity DSNU Dark Signal Non Uniformity gt Correct the shading due to the lens gt the Light source non uniformity Before After How is calculated Applied the 2 The FFC is a digital correction on the pixel level for both Gain and Offset gt Each Pixel is corrected with o Offset on 8 bits Signed Int 5 3 They cover a dynamic of 16LSB 12bits with a resolution of 1 8 LSB 12685 A Gain on 14 bits Unsigned Int 14 with a max gain value of x3 The calculation of the new pixel value is P Off 1 Gain 8192 The FFC processing can be completed with an automatic adjustment to a global target This function is designed as Adjust This adjustment a User target is done by an internal hidden gain which is re calculated each time the FFC is processed while the FFC adjust function is enabled The FFC is always processed with the max pixel value of the line as reference If enabled the FFC adjust module located at the output of the FFC module calculates the adjustment gain to reach the target defined by the User When the FFC result is saved in memory the adjust gain and target are saved in the same time in order to associate this gain value with the FFC res
28. e standard deviation Returned by the camera Unsigned format value U12 4 o Pixel Min value Pixe ROIMin Minimum gray level pixel value on the whole region of interest gt Read function r Get the Minimum value Returned by the camera Unsigned format value U12 4 o Pixel Max Value Pixe ROIMax Maximum gray level pixel value on the whole region of interest gt Read function pmax Get the maximum value Returned by the camera Unsigned format value U12 4 Pixel access Line number Set the number of lines to accumulate gt Read function r pixl Get the number of line Returned by the camera 1 256 512 or 1024 gt Write function w pixl lt gt Set the number of lines val is 1 256 512 1024 Pixel ROI Start Pixe Ro Start Set the Region of Interest start position gt Read function prod Get the starting pixel Returned by the camera value between O and 16383 gt Write function w prod val Set the starting pixel val is between and 16383 Pixel ROI Width Pixe RoiWidth Set the Width of the Region of Interest gt Read function r prow Get the width in pixel Returned by the camera value between 1 and 16384 gt Write function w prow val Set the ROI width in pixels val is between 1 and 16384 40 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k
29. ec Tio 5 5 Bit 1 Status Trigger r Missing triggers Trig signal too fast Bit 2 StatusSensorConnection True is the Sensor pattern is checked as failed Bit 3 4 5 6 7 Reserved Bit 8 StatusWarningOverflow True is an overflow occurs during FFC Tap balance processing Bit 9 StatusWarningUnderflow True is an underflow occurs during Tap balance processing Bits 10 Reserved Bits 11 Scrolling Direction Forward 1 Reverse Updated only by external CameraLink Bits 12 13 14 15 Reserved Bit 16 StatusErrorHardware True if hardware error detected Bits 17 to 31 Reserved UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 5 3 2 Image Format e Sensor Width SensorWidth Get the physical width of the Sensor This value is available in the CommCam Image Format Control section gt Read function snsw Return by the sensor Integer 8192 gt Can not be written Sensor Height SensorHeight Get the physical height of the Sensor This value is available in the CommCam Image Format Control section gt Access Virtual command in xml Value always 1 Width Max WidthMax Get the Maximum Width of the Sensor This value is available in the CommCam Image Format Control section gt Access The value is mapped on Sensor Width Height Max HeigthMax Get the Maximum
30. en it reaches 255 turns back to 48 and starts again Ai 20 30 40 50 Distance pels 45 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 7 APPENDIX B Timing Diagrams 71 Synchronization Modes with Variable Exposure Time Synchro T Mode gt Line Trigger 1 or Internal Sync 0 Sync 1 Tint Exposure Time Exposure Time ______ ITC Trigger E _ 1 a Sync 3 Line Triggers E cei Sync 4 E HERE E e a a i 5 lis Ex a E Ss E Exposure Time Tinte Internal sensor Digital Conversion No Exposure start before this point Timing Pixel During this uncompressible period the pixel and its black reference are read out to the Digital converter During the first half of this timing pixel read out of the black reference we can consider that the exposure is still active Digital Conversion During the conversion the analog Gain is applied by the gradient of the counting ramp see next chapter Gain Offset The conversion time depends on the pixel format 8or10 bits 6ys 12 bits 24ys This conversion is done in masked time eventually during the next exposure period Delay between the Start exposure required and the real start of the exposure 46 UM ELIIXA 8k 4k CL
31. en the camera and the frame grabber This is an asynchronous serial communication based on RS 232 protocol The serial line configuration is gt Full duplex without handshaking gt 9600 bauds default 8 bit data no parity bit 1 stop bit The baud rate can be set up to 115200 5 2 1 Syntax Internal camera configurations are activated by write or readout commands The command syntax for write operation is command name command parameters CR The command syntax for readout operation is lt command_name gt lt CR gt 5 2 2 Command Processing Each command received by the camera is processed gt The setting is implemented if valid gt The camera returns return code gt lt CR gt The camera return code has to be received before sending a new command The camera return code has to be received before sending a new command Some commands are longer than the others Waiting for the return code ensure a good treatment of all the commands Without saturating the buffer of the camera Table 5 1 Camera Returned Code Returned code meaning gt 0 or gt All right the command will be implemented 23 Error Bad CRC for write command only gt 16 Invalid Command ID Command not recognized or doesn t exist gt 33 Invalid Access the receipt of the last command has failed gt 34 Parameter out of range the parameter of the last command sent is out of range gt 35 Access Failure bad communicat
32. eras in the system and then to get a perfect uniform line whole along the system with precision of 1 LSB to the Target The Maximum correction is x2 the highest value of the line The reasonable value for the User Target is not more than around 20 of the max value of the line 34 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 5 3 5 2 Automatic Calibration FPN DSNU Calibration FPN Calibration Control FPNca ibratronCtrl Launch or abort of the FPN process for the Offsets calculation These commands are available in the CommCam Flat Field Correction Automatic Calibration section Read function calo Returns the FPN Calculation Process Status 0 if finished 1 if processing Write function w calo 1 Launch the FPN Calibration Process w calo 04 Abort the FPN Calibration Process FPN Coefficient Reset FP N amp ese Reset the FPN Offsets coefficient in Memory This command is available in the CommCam Flat Field Correction Manual Calibration section gt Write function w rsto Reset set to the FPN coefficients in memory This doesn t affect the FFC User Memory Bank but only the active coefficients in Memory PRNU Calibration o PRNU Calibration Control Launch or abort of the process for the Gains calculation This command is available in the CommCam Flat Field Correction A
33. formation can be set dynamically by using the CC3 Trig signal of the CameraLink connector change the direction on the fly In these case the Trigger signification is 70 Forward 1 Reverse This positioning takes also in account that the mode Reverse X is Off Normal readout direction UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL Test Image Selector 7estImageSelector Defines if the data comes from the Sensor or the FPGA test Pattern This command is available in the CommCam Image Format section gt Read function srce Returned by the camera 0 if Source from the Sensor and 1 to 5 if test pattern active gt Write function w srce value 0 To switch CCD sensor image 1 Grey Horizontal Ramp Fixed See AppendixA 2 White Pattern Uniform white image 255 8Bits or 4095 in 12bits 3 Grey Pattern Uniform middle Grey 128 in 8bits or 2048 in 12 bits 4 Black Pattern Uniform black in both 8 and 12 bits 5 Grey vertical Ramp moving The test pattern is generated in the FPGA It s used to point out any interface problem with the Frame Grabber When any of the Test pattern is enabled the whole processing chain of the FPGA is disabled 5 3 3 Acquisition Control This section deals with all the Exposure Line period and synchronisation modes Synchronisation Mode TriggerPreset Timed
34. in Tint real 20us 17us NECS E 1 I I I I I I I I I I I I I I I 2 I I I 15us Tint prog 48 UM 8k 4k CL REVB 03 13 e2v semiconductors 545 2013 ELIIXA 8k 4k CL 8 APPENDIX C CameraLink Data Cables amp 1 Choosing the Cable 49 You may check the compliance of your CameraLink cables with the transportation of the 85MHz data rate The main parameter to be checked in the cable specification is the skew in picoseconds This parameter is given for a dedicated maximum value per meter of cable as max 50ps m The CameraLink Standards defines the maximum total skew possible for each data rate 420 400 380 360 Skew ps 10 15 20 25 30 35 40 45 50 55 60 65 70 75 85 90 Data rate MHz Here is a following example of cable and the cable length limitation in accordance with the standard Conductor Size 28 AWG Stranded Propogation Velocity 1 25 ns ft 4 1 ns m Skew within pair 50 ps meter maximum Skew channel skew chipset 50 ps meter maximum DataRate 40Mhz 66MHz 2 80MHz 85MHz UM ELIIXA 8k 4k CL R
35. in value for the tap r returns Gain value 1 gt Write function w fga tap lt value gt tap 1or2 value from 128 127 by step of 1 0 0021dB each step Digital Gain Gain with 5 DigrtalA l Set the global Digital Gain This command is available in the CommCam Gain amp Offset section gt Read function Returned by the camera Integer value from O to 255 The corresponding Gain is calculated as 20log 1 val 64 in dB gt Write function w gdig int Digital Offset B ackLeve Raw with BlackLevelSelector All Set the global Digital Offset This command is available in the CommCam Gain amp Offset section gt Read function offs Returned by the camera Value from 4096 to 4095 in LSB gt Write function w offs int The Contrast Expansion both Digital Gain 4 Offset will be automatically disabled if the LUT is enabled Balance Gains Enable Switch 7apBa lancecarnEnabfle gt Read function fgae Returns the Gain value for the tap r returns Gain value 1 gt Write function fgae lt val gt with val or 1 0 Disables the Tap Balance Gains 1 Enables the Tap Balance Gains 31 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 5 3 5 Flat Field Correction 32 How is performed the Flat Fiel
36. ine Period possible this depending also on the Binning mode number of pixels outputted from 8192 to 2048 Structure of the Sensor Web Direction In 25 Mode the summation of the E two lines is done in the FPGA Exposure In 4S Mode the summation of the dolis two double lines is done in the FPGA AB BC This mode works in Time delay T Memory xposure for the summation of 27 22 the d 2222 is 24 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL e Sensor Mode SensorMode Defines the number of Line used on the Sensor This command is available in the CommCam Image Format Control section gt Read function r smod Returned by the camera Integer from to 5 gt Write function smod value Q 1S mode or Single Line 1 25 mode or Dual Lines 2 45 mode or Four Lines 3 TSB mode Binning mode 2x2 which outputs on line of 4k pixels 10umx10pm 4 258 mode Binning mode 2 x 2x2 which outputs the summation of 2 lines of 4k pixels in 10umx10pm 5 458 mode Binning mode 4x4 which outputs 1 line of 2k pixels in 20umx20um Full Exposure Control As the 45 mode is performing an internal Time delay exposure on the lines A 4 B and C 4 D normally the variation of the Exposure time should not be possible in this sensor mode Thanks to an e2v licensed solutio
37. inning mode 4SB Ch 1 Ch 2 Ch 3 Ch 4 o n o Output direction 4111 gt FULL Mode 8 Taps Separate outputted from Left Right Available only versions 8x1024 pixels each Channel No Binning 8x512 pixels in Binning Mode 158 or 258 8 256 pixels in Binning mode 458 Chi Ch2 Ch3 Ch4 Ch5 Ch6 Ch 7 Ch8 mm iem um Output direction 11 gt FULL Deca Mode 10 Taps Separate outputted from Left to Right Available only on BAI versions 10x819 pixels each Channel No Binning 10x409 pixels in Binning Mode 158 258 10x204 pixels in Binning mode 4SB Chi Ch2 Ch 3 Ch4 Ch 5 Ch6 Ch 7 Ch 8 Ch 9 Ch 10 f um em dumm ium Output direction 23 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL e Output Frequency OufputFrequency Set the CameraLink Data Output Frequency This value is available in the CommCam Image Format Control section gt Read function r clfq Return by the Camera Frequency from to 5 gt Write Function w clfq lt value gt O 85MHz default 1 60MHz 2 65MHz 3 70MHz 4 75MHz 5 80MHz Data Output Frequency Reduction The Purpose of this feature 15 to optimize increase the Length of the Cable when highest Line Rate is not required Each decreasing of the Data Frequency will increase the minimum L
38. ion between two internal devices 5 2 3 GenICam ready G lt gt CameraLink Standard is not yet compliant with GenICam Standard but as much as possible each command of the will have its correspondence with the Standard Feature Naming Convention of the GenIcam Standard This correspondence is given in parenthesis for each feature command as the following example e Vendor name DeviceVendorName e2v 18 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 5 3 5 3 1 19 ELIIXA 8k 4k CL Camera Commands Information These values allow to indentify the Camera They can be accessed CommCam software in the Info section All these values are fixed in factory and can t be changed shaded except the Camera User ID which can be fixed by the Customer Vendor name DeviceVendorName gt Read function vdnm Returned by the camera e2v string of 32 bytes including O gt be written Model Name DeviceMode Name Internal name GenICam gt Read function mdnm Returned by the camera String of 32 bytes including 0 Cannot be written Device Manufacturer Info DeviceManufacturerInfo Get Camera ID Read function idnb Returned the camera String of 128 bytes including O written Device Version DeviceVersion Get Camera Hardware version
39. n two of the Exposure controlled mode Ext Trig with internal or External exposure control are still available 45 sensor Binning modes Web Direction The two binning modes 1SB and 258 give an output of 4k pixels 10x10um As for the 2SB mode the sensor manages the delay Exposure between the two exposures Delay necessary good match acquisition The 4SB is a binning 4x4 with an output of 2K pixels 20x20um UM 8k 4k CL REVB 03 13 Memory Node Pixel Line A Pixel Line B Pixel Line C Pixel Line D Memory Node e2v semiconductors SAS 2013 ELIIXA 8k 4k CL Multi Line Gain Mu tiLineGain Enables the MultiLine Gain of 0 5 This value is available in the CommCam Image Format Control section gt Read function r Return by the sensor if disabled Gain x1 by default 1 if Gain 5 activated gt Write Function w mlig lt value gt 04 Default Gain x1 is active 1 Gain 0 5 is enabled only when the 25 mode of the sensor is enabled Why Using Multi Line Gain of 5 2 Web Direction When the Light source is enough to use SEE the 15 mode of the Sensor one single line the best is to use 2 lines 25 mode and then to divide the result by two by using the Multi Line Gain set at X0O 5 delays In this case the Full Well capacity is multiplied by x2 two output registers are
40. nJ cm2 2400 2300 2200 2100 2000 1900 1800 1700 1600 1500 1400 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 Response in 2k Pixels 20 4SB LF S S O O S O S S S S O Ve FH PH V iF N nm UM 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 2 CAMERA HARDWARE INTERFACE 21 Mechanical Drawings dh ET gt QU gt dab co eup mnur al 4 15 Ma v B i The Step file is available a on the web www eev com cameras gt 4 5 M2 505 L T M 10 UM 8k 4k CL REVB 03 13 e2v semiconductors 545 2013 ELIIXA 8k 4k CL Sensor alignment Z 10 3 mm 100um X 9 5 mm 100 62 5mm 100 pm Flatness Rotation X Y plan 0 15 Tilt versus lens mounting plane 5Oum 22 Input output Connectors and LED USB Connector For Firmware upgrade Power Connector 12 24V DC Multi Colored LED for Status and diagnostic CameraLink Connector CL2 CameraLink Connector CL1 11 UM 8k 4k CL REVB 03 13 e2v semiconductors 545 2013 ELIIXA 8k 4k CL 2 2 1 Power Connector Camera connector type Hirose HR10A 7R 6PB male Cable connector t
41. nded set up per the Product Specification or Data Sheet applicable to Information Technology Equipments I T E This These product s complies y with the requirements of the Electromagnetic Compatibility Directive 2004 108 EC Marking European Directive 93 68 and carry the CE marking accordingly saint Egreve France on January 7th 2013 Martine WOOLF Quality Manager Martine Woolf Responsable copyright i semiconductors Pumed amp em FCS e2vysemiconductorse Avenue de Rochepleings BP 123 38521 Saint Eqreve Cedex France 15 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 4 GETTING STARTED 41 Out of the box The contains of the Camera box is the following One Camera Power connector Hirose HR10A 7P 65S female There is no CDROM delivered with the Camera Both User Manual this document and CommCam control software have to be downloaded from the web site This ensure you to have an up to date version Main Camera page WWW com cameras On the appropriate Camera ELIIXA 8k 4k you ll find a download link first version of CommCam compliant is indicated in the last Chapter Commcam download requires login password gt Login gt Password chartreuse 42 Setting up in the system Web Pixel Sensor Plan Direction Focal Plan
42. s high response with an extremely low noise level this delivers high signal to noise ratio even when short integration times are required or when illumination is limited The pixel size is arranged in four active lines ensuring optimal spatial resolution in both scanning and sensor directions with standard F mount lenses Vertical and horizontal binning functions allow the camera to be operated in a 8 192 pixels x pixel pitch 4 active CMOS lines mode or 4 096 pixels x 10 um pixel pitch 2 active CMOS lines mode depending on the user settings This versatile feature sets new standard for next generation machine vision systems 4 Typical Applications 5 UM Raw material surface inspection General inspection Flat panel display inspection PCB inspection Solar cell inspection Parcel and postal sorting High resolution document scanning Print and paper inspection 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL CAMERA PERFORMANCES 15 Camera Characterization 158 258 Unit 3 Mode 15 OdB 3 Mode 25 088 3 Mode 45 088 js pou ss d Typ Max Typ Max Typ Max Dark Noise RMS LSB 17 22 24 3 4 thd thd thd 2394 1 3412 10 2730 19 Readout Noise 5 7 8 10 thd
43. s the level reaches 255 before switching down to 6 2 Test Pattern 2 Fixed Horizontal Ramps 6 2 1 8192 Pixels in 8 bits format Gray Value e 2000 4000 aon Distance pixels Starting at O an increment of 1 LSB is made every 16 pixels When it reaches 255 turns back to O and starts again um rm _ 150 Distance 43 UM 8k 4k CL REVB 03 13 e2v semiconductors 545 2013 ELIIXA 8k 4k CL 6 2 2 4096 Pixels in 8 bits format Gray Value e 1000 000 2000 Distance pixels 4000 Starting at 32 an increment of 1 LSB is made every 16 pixels When reaches 63 jump to 96 then carry on increasing When reaches 127 jump to 160 then carry on increasing When reaches 191 jump to 224 then carry on increasing When it reaches 255 turns back to 32 and starts again EE i gt F si 44 UM 8k 4k CL REVB 03 13 e2v semiconductors 545 2013 ELIIXA O 8k 4k CL 6 2 3 2048 Pixels in 8 bits format 200 Gray Value 00 1000 1500 2000 Distance Hal Starting at 48 an increment of 1 LSB is made every 16 pixels 3 When reaches 63 jump 112 then carry increasing d When reaches 127 jump 176 then carry on increasing 3 l When reaches 191 jump to 240 then carry on increasing T Wh
44. tion Load settings from Bank Allows to restore the Camera settings gt Read function Get the current Tap Bank in use gt Write function w rcfg lt val gt Load settings from bank val 0 Factory 1 to 4 for Users 5 for Integrator Save settings to Bank Allows to save the Camera settings in User or Integrator Bank gt Write function w scfg val Save the current settings in the User bank val 1 to 4 for User 5 for Integrator The integrator bank User Set5 can be written only if the Camera is set in integrator mode Privilege level 1 This integrator bank can be used as a Factory default by a system integrator LL Configuration Bank Usage User p a At the power up Last User Bank used is loaded in RAM Integrator Bank 5 can be locked by switching the Camera in User mode cf Privilege feature Then it can t be saved any more without switching back the Camera in Integrator Mode 42 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL 6 APPENDIX A Test Patterns 6 1 Test Pattern 1 Vertical wave The Test pattern 1 is a vertical moving wave each new line will increment of 1 gray level in regards with the previous one gt In 12 bits the level reaches 4095 before switching down to gt In 10 bits the level reaches 1023 before switching down to gt In 8 bit
45. ult UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA 8k 4k CL User Target value Adjustment gain Standard FFC computed on the max of the line Pixels How fo perform the Flat Field Correction FPN DSNU Calibration Cover the lens Launch the FPN Calibration Grab and calculation is performed in few seconds PRNU Calibration The User must propose a white gray uniform target to the Camera not a fixed paper The Gain Light conditions must give a non saturated image in any Line The Camera must be set in the final conditions of Light Gain and in the final position in the System required set a user target for the FFC adjust and enable it White uniform moving target gt Launch the FFC gt Enable the gt You save the result both FPN PRNU in the same time in one of the 4 x User Banks gt user target and Gain are saved with the associated in the same memory Advices The ELIIXA Cameras have 4 Banks to save 4 x different calibrations You can use this feature if your system needs some different conditions of lightning and or Gain because of the inspection of different objects You can perform one FFC per condition of Gain setting of the Camera 4 Max and recall one of the four global settings Camera Configuration FFC Line Balance when required 33 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SA
46. utomatic Calibration section gt Read function r calg Returns the Calculation Process Status 0 if finished 1 if processing gt Write function w 1 Launch the PRNU Calibration Process w 0 Abort the PRNU Calibration Process o PRNU coefficient Reset P9NURese Reset the Gains coefficient in Memory This command is available in the CommCam Flat Field Correction Manual Calibration section Write function w rstg O Reset set to x1 the PRNU coefficients in memory This doesn t affect the FFC User Memory Bank but only the active coefficients in Memory Some Warnings can be issued from the PRNU FPN Calibration Process as pixel Overflow of Pixel Underflow because some pixels have been detected as too high or too low in the source image to be corrected efficiently The Calculation result will be proposed anyway as it s just a warning message The Status Register is the changed and displayed in CommCam Status section Register status is detailed chap 86 3 3 35 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA O 8k 4k CL 5 3 5 3 Manual Flat Field Correction The FFC Coefficients can also be processed outside of the Camera or changed manually by accessing directly their values in the Camera This is the Manual FFC In CommCam the User can access to a specific interface by clicking on click for extended control in both
47. xposure is used only in the PPM 4S multi line modes 4 Lines and also in the three binning modes as described below The 8k sensor is composed of two pairs of sensitive lines Each pair of lines use Pixel Line D The 8192 Pixels of the whole sensor are Memory Node divided in 2 blocks of 4096 pixels zzz ADC Column 8K Pixels Output Mode 15 B Mode 25 B C FPGA Mode 45 A B C D Note A B summation in the sensor 4k Pixels Output Mode 158 A Mode 258 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 2 Pixels Output Mode 45 A 18 Response amp QE curves 1 8 1 Quantum Efficiency ELIIXA O 8k 4k CL 0 6 0 5 0 4 0 3 0 2 0 SS QE x aS 5 5655 e 6 SP d OU d 9 9 0 9 Quantum Efficiency 96 1 8 2 Spectral Response LSB12bits nJ cm2 600 5 9 S 5 Response in 8k Pixels 5um 45 2S 15 9 UM 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 9 ELIIXA O 8k 4k CL LSB12bits nJ cm 2 1200 1100 1000 900 800 700 600 500 400 300 200 100 Response in 4k Pixels 10 158 25 82525 28 uS 46 SOS S LSB12bits
48. ype Hirose HR10A 7P 65 female Signal Pin Signal Pin PWR 1 GND 4 PWR e GND 5 2 PWR 3 GND 6 Power supply from 12 to 24v Power 7 5W max with an typical inrush current Camera side description peak of 1A during power up aJ Typical current Power during the grab possible variation 5 Camera supply Line Period Minimum Power Time Max 40s Green Light Inrush Current Peak Current Establishment time and level Bep ee Curent Establishment 24V Supply TO T 1 5 3 75 8 3 355 5 Z ee SS 2 pga 24V pee 2 4 GET Die ashes i meme w s 1 LI Li zi il zi 1 EM rr S Inrush Curent Peak 12V Supply B 1 i NE c c zu z ad i BA Establishment 12V Supply 1 1 1 1 cra mm oom asa E LLL mm 12 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA
49. z 13 100 100 0 158 258 4 10 30 9 309 324 324 617 40 16 2 25 0 4SB 2K20um 617 40 162 250 100 40 10 0 25 0 100 100 0 Data Frequency 60MHz Sensor Mode kHz us kHz kHz kHz 13 9 100 100 0 158 258 4 10 28 9 289 346 346 57 8 40 17 3 25 45 2K20um 57 8 40 17 3 25 100 40 10 0 25 0 100 100 0 e2v semiconductors SAS 2013 50 UM 8k 4k CL REVB 03 13 ELIIXA 8k 4k CL 9 APPENDIX D Lens Mounts 91 F Mount F Mount Kit10 Part number EV71KFPAVIVA ABA 226 2 LL A 42 1 m f 51 UM ELIIXA 8k 4k CL REVB 03 13 e2v semiconductors SAS 2013 ELIIXA O 8k 4k CL 92 724 M42x1 Mounts M42x0 75 T2 Mount Kit30 Part number AT 1KFPAVIVA AKA M42x1 Mount Kit40 Part number 71 52 UM ELIIX conductors SAS 2013 ELIIXA 8k 4k CL 10 APPENDIX E TROUBLESHOOTING 101 Camera Power up Fixed 8 43 QQ Blinking If CommCam Green Hardware failure connection possible or Firmware loading then the LED is HS defect else Contact Hotline for RMA Camera waits for Trigger or Trigger too fast Check power supply And its characteristics Contact Hotline 102 Commcam Connecton Refer to CommCam software Help for the connection issues 53 UM ELIIXA 8k 4k CL REVB
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