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Elite Series EL-2800M-PMCL EL-2800C-PMCL

1. BREE GR FU Cd Cr VI PPB PBDE SJ T11363 2006 x SJ T11363 2006 x op 1 115 15 EL 2800C PMCL Supplement The following statement is related to the regulation on Measures for the Administration of the control of Pollution by Electronic Information Products known as China RoHS The table sho
2. 2 4 5 Acquisition Control Short ASCII FrameStartTrigM TM Param lt CR gt lt LF gt ade Enumerat R W TM Off On 0 1 0 TM lt CR gt lt LF gt ion R a zu TrigSoftware Conimand W STRG 0 STRG 0 lt CR gt lt LF gt 0 Low 1 High 2 SoftTrigger 8 PulseGeneratorO 9 PulseGenerator1 I 10 PulseGenerator2 Enumerat R W TI 11 PulseGenerator3 0 17 0 ua ion 12 TTL In1 13 CL CC1 In 14 NandO 15 Nand1 16 TTL In2 Option 17 LVDS In Option 0 RisingEdge FrameStartTrig 1 FallingEdge TA Param lt CR gt lt LF gt Activation Enumerat R W TA 2 LevelHigh 3 0 TA2 lt CR gt lt LF gt ion 3 LevelLow FrameStartTrigO TO Param lt CR gt lt LF gt ver Lap R W TO 0 Off 1 ReadOut 0 1 0 107 lt CR gt lt LF gt 0 Off ExposureMode Enumerat R W EM 1 Timed 0 2 0 Sr a a i ion 2 TriggerWidth acc IS ExposureTimeRa ZE PE Param lt CR gt lt LF gt Ww I Integer R W PE Min Max us 12 8000000 18000 PE CRs lt LF gt 0 Off ASC Param CR LF ExposureAuto Enumerat R W ASC 2 Once 0 2 2 gt ion 1 Continuous ASC lt CR gt lt LF gt 2 4 6 Digital I O Control Short ASCII Linelnverter Li LIO Param lt CR gt lt LF gt get Boolean R W LIO False True 0 1 0 LIO CR LF Linelnverter Li LI1 Param lt CR gt lt LF gt ne8 Boolean R W LI1 Fals
3. Fig 32 Behavior of Sequence trigger 38 Frame count 1 Next Index Index 4 Frame count 1 Next Index Index 5 EL 2800M PMCL EL 2800C PMCL ED See the possibilities Table 25 Minimum trigger interval 1X2 2YE 8 bit Exposure time 10 us GEESS FULL 2 3 ROI 1 2ROI 1 4ROI 1 8 ROI 127 inning Minimum frame line Timed Exposure Mode Trigger Mode OFF Exposure Time 1 Note 1 Overlap mode Readout is not available Note 2 The minimum interval calculation assumes that the exposure times for all sequences are equal If there are differences it is necessary to add the differences to the calculation If the exposure times are different it is recommended to organize the exposure times from the shortest exposure to the longest one Note 3 The sequence must start with Index 0 After Index 0 is executed the sequence proceeds to the next setting index Table 26 Sequence Index table Default Sequence ROI Gain Selector Binning Exposure LUT Red Time Horizontal Vertical Enable Height Gain ALL Index 0 Index 1 Index 2 Index 3 Index 4 Index 5 Index 6 Index 7 Index 8 Index 9 180000 180000 180000 180000 180000 180000 180000 180000 180000 180000 Index 0 Index 0 Index 0 Index 0 Index 0 Index 0 Index 0 Index 0 Index 0 Index 0
4. Dlelelelelelejelele Kol ot Kol fol Kol fol fol ko ol elo o ololo olol o O O OQ O OIO O9 O O O 7 9 2 Sequence ROI setting parameters Setting parameters for Sequence ROI is as follows 1 Sequence ROI Index Selector In Sequence ROI Index Selector Index 0 to 9 can be selected Sequence ROI Width Height Offset X Offset Y Gain Selector Gain Red Blue Exposure Time Black Level Binning Horizontal Binning Vertical LUT Enable Frame Count Next Index for the selected index are displayed 2 Sequence ROI Width Width is fixed at 1920 No setting is necessary for this parameter 3 Sequence ROI Height Set the height of sequence ROI The setting range is 8 to 1440 lines Rules for setting area and step number are the same as the normal ROI mode set by Video Send Mode Normal 4 Sequence ROI Offset X This parameter is fixed at 0 39 EL 2800M PMCL EL 2800C PMCL 5 Sequence ROI Offset Y Set Offset Y of sequence ROI Sequence ROI Binning Vertical 1 Off Setting range is 0 to 1432 Sequence ROI Height Sequence ROI Binning Vertical 2 On Setting range is 0 to 712 Sequence ROI Height The limitations of step number and other factors are the same as the normal ROI mode set by Video Send Mode Normal In 1X2 2YE and 1X 2YE as only Height is set at the
5. Fig 43 Color interpolation concept drawing 8 8 Lens The EL 2800M PMCL and EL 2800C PMCL can be used with 4 different types of auto iris lenses in addition to standard lenses with manual iris control If an auto iris function is to be utilized the lens type used must be selected in Lens Select Table 28 Lens Select Lens selector Description Control with Note camera P Iris Lens 1 Iris position can be remotely controlled manually 2 Auto iris control is also available If P iris lens is used the specific model name should be selected in lens select Motor controlled lens 1 Iris position can be remotely controlled manually 2 Auto iris control is also available Video iris lens Only auto iris control is available Factory Option Use AUX option 1 DC iris lens Only auto iris control is available Factory Option Use AUX option 1 49 EL 2800M PMCL EL 2800C PMCL 8 8 1 8 8 2 8 8 2 1 8 8 2 2 8 8 2 3 8 8 2 4 8 8 2 5 8 8 2 6 About P Iris New Elite Series EL 2800M PMCL and EL 2800C PMCL come equipped with P Iris control as part of the standard lens control function The P Iris system is a newly developed lens control method designed to control the iris more precisely Especially for video cameras in surveillance applications utilizing megapixel CCD or CMOS imagers it becomes a very important factor to control an iris in order to a
6. e e o e e e ae 47 8 6 Blemish compensation 48 8 7 Bayer color interpolation Only for EL 2800C 49 8 8 LENS REE 49 8 8 1 About e E 50 8 8 2 Setting for P iris lens being use 50 8 8 2 1 P Iris lens select sr deed d divieto eiui iic Vale s val ew e vitu e e 50 EL 2800M PMCL EL 2800C PMCL ED See the possibilities 8 822 SION LU oad od a TRITATA RITIRI 50 8 8 2 3 EE RE 50 8824 Current F Value ns de 50 8 8 2 5 P lris Auto min P Iris Auto max 0 NENNEN ei Rie er 50 8 8 2 6 Auto Iris Lens Control Signal Output pp 50 8 8 3 Motorized lernses 51 88 32 mE 51 883 2 EE EE E E Een 51 858 353 FOCUS c PROMOTOR 51 8 8 4 Exclusive video output signal for iris control 51 52 9 Camera Control TOON icis soak kane enA E menn 53 10 External appearance and dimensions 54 11 SpecificationS 3 00 ee 55 11 1 Spectral E 55 11 2 Specifications table inline ieri 56 Appendix 1 Short ASCII Command Communication Protocol 58 1 Communication settine sm sta cece deceesecsecsesecesce 58 2 Protocol Short ASCII Comman
7. LF gt ap2 Blue I Integer R W PGB2 min 0 max 891 1000 PGB2 lt CR gt lt L F gt Bayer model only GJUT3 Param lt CR gt Sanlaw Sa Integer R W GJUT3 min 0 max 891 1000 P GJUT3 lt CR gt lt LF gt PGR3 Param lt CR gt lt GainRawDigitalT LF gt ap3 Red I Integer R W PGR3 min O0 max 891 1000 PGR3 CR LF Bayer model only PGB3 Param lt CR gt lt GainRawDigitalT EPER F LF gt ap3 Blue I Integer R W PGB3 min 0 max 891 1000 PGB3 lt CR gt lt LF gt Bayer model only Zei GJUT4 Param lt CR gt GamRawDigitalT Integer R W GJUT4 min 0 max 891 1000 lt LF gt P GJUT47 lt CR gt lt LF gt GainRawDigitalT eg dn ie gt D I Integer R W PGR4 min 0 max 891 1000 PGR4 lt CR gt lt LF gt Bayer model only GainRawDigitalT PaL E gt de I Integer R W PGB4 min 0 max 891 1000 PGB4 lt CR gt lt LF gt Bayer model only 0 Off AGC Param CR L GainAuto Enumerati R W AGC 1 Continuous 0 2 F gt on 2 Once AGC lt CR gt lt LF gt 0 Off AWA Param CR L GainAutoBalance Enumerati R W AWA 1 Once 0 2 F gt on 2 Continuous AWA lt CR gt lt LF gt BL Param lt CR gt lt LF BlackLevelRawAl integer R W BL min o max 256 255 BL lt CR gt lt LF gt BL1 Param lt CR gt lt L Wo ad ME I Integer R W BLA min 0 max 512 511 F P BL1 lt CR gt lt LF gt BlackLevelRawTa I integer R W BLR1 min o m
8. 71 EL 2800M PMCL EL 2800C PMCL SQVB9 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Vbinning8 SE R W SQVB9 2 Hbinning ON 1 S SQVB9 lt CR gt lt LF gt Mono model only SQVB10 Param C SequenceMode SQVB1 1 Hbinning OFF R gt lt LF gt Vbinning9 Enumera R W ug 2 Hbinning ON i S SQVB10 lt CR gt lt LF gt tion Mono model only I SQLUT1 Param lt C ia Enumera R W a Off On 0 1 R gt lt LF gt tion SQLUT1 lt CR gt lt LF gt I SQLUT2 Param C en Enumera R W ud Off On 0 1 R gt lt LF gt tion SQLUT2 lt CR gt lt LF gt I SQLUT3 Param lt C a Enumera R W di Off On 0 1 R gt lt LF gt tion SQLUT3 lt CR gt lt LF gt SQLUT4 Param lt C er Enumera R W or Off On 0 1 R gt lt LF gt tion SQLUT4 lt CR gt lt LF gt I SQLUT5 Param lt C DEBE Enumera R W Off On 0 1 R gt lt LF gt tion SQLUT5 lt CR gt lt LF gt I SQLUT6 Param C e a Enumera R W Off On 0 1 R gt lt LF gt tion SQLUT6 lt CR gt lt LF gt I SQLUT7 Param lt C C NE Enumera R W Off On 0 1 R gt lt LF gt tion SQLUT7 lt CR gt lt LF gt SQLUT8 Param lt C Enumera R W di Off On 0 1 R gt lt LF gt tion SQLUT8 lt CR gt lt LF gt I SQLUT9 Param lt C EE Enumera R W xu Off On 0 1 R gt lt LF gt tion SQLUT9 lt CR gt lt LF gt SQLUT10 Param lt SequenceMode SQLUT CR gt lt LF gt LutEnableg Enume
9. Step X 2 Tap 1 X Y2 1440 Pixel 720 Pixel x 2 Tap 1 a das gt i i BREESE Fig 14 1 2 1 readout 6 2 4 1X2 2YE 1X2 2YE is 4 tap readout and reads out electronic charges up and down and right and left Tap I Tapa Aye ho H Sep 1 A des und i aa ESTIS B CDU ET ET m i l d NE E ECL ETE E EE ETE C ESI OSEE SCELTE ESI EE TET mi S COSE EESTI ESI ELE TEST mmn qun HSC l SRE 1 1440 Pixel 720 Pixel x 2 Tap L A deig Tap 3 Tap 4 n Fig 15 1 2 2 readout 25 EL 2800M PMCL EL 2800C PMCL 6 3 Output
10. pendix 2 Precautions Personnel not trained in dealing with similar electronic devices should not service this camera The camera contains components sensitive to electrostatic discharge The handling of these devices should follow the requirements of electrostatic sensitive components Do not attempt to disassemble this camera Do not expose this camera to rain or moisture Do not face this camera towards the sun extreme bright light or light reflecting objects When this camera is not in use put the supplied lens cap on the lens mount Handle this camera with the maximum care Operate this camera only from the type of power source indicated on the camera Power off the camera during any modification such as changes of jumper and switch setting Typical Sensor Characteristics The following effects may be observed on the video monitor screen They do not indicate any fault of the camera but are associated with typical sensor characteristics V Aliasing When the CCD camera captures stripes straight lines or similar sharp patterns jagged edges may appear on the monitor Blemishes All cameras are shipped without visible image sensor blemishes Over time some pixel defects can occur This does not have a practical effect on the operation of the camera These will show up as white spots blemishes Exposure to cosmic rays can cause blemishes to appear on the image sensor Please take care to avoid exposure to cosmic rays during tra
11. Exposure mode Timed Trigger mode ON Trigger option RCT In this mode the setting of Trigger Overlap is invalid Table 22 Minimum interval of the trigger pulse 1X2 2YE 8 bit Exposure time 10us FULL 2 3 ROI 1 2ROI 1 4ROI 1 8ROI 1 27 inning Minimum frame lines Timed Exposure Mode Trigger Mode OFF Exposure Time 195 Note The read out area for each ROI is a centered readout same number of lines for upper and lower 36 EL 2800M PMCL EL 2800C PMCL ED See the possibilities Trigger CCD Exposure Exposure Active FVAL t2 DVAL Output format t1 t2 1x2 2YE 1X 2YE 194L 4 5L 5 5L 1X2 1Y 1X 1Y 384L 4 5L 5 5L Fig 30 RCT mode timing 7 8 PIV Particle Image Velocimetry The Particle Image Velocimetry mode can be used in applications where 2 images need to be taken with a very short time interval It can only be used with strobe flash as illumination The first accumulation time is 10 usec to 2 sec Then the second exposure will be taken The accumulation is LVAL asynchronous The first strobe is activated during the first exposure duration and the second strobe is pulsed while the first frame is being read out In this way two strobe flashes generate two video outputs Primary Settings Exposure Mode Timed Trigger Mode ON Trigger Option PIV In this mode the setting of Trigger Overlap is invalid
12. R W N1 Line1 17 LF gt on NDOIN1 lt CR gt lt LF gt LineSource_Na NDOI Same as for NDOIN2 Param lt CR gt lt ndOln2 Enumerati R W N2 Line1 17 LF gt on NDOIN2 CR LF ND1IN1 Param lt CR gt lt ce Enumerati R W vais as for 17 LF gt on ND1IN1 CR LF LineSource Na E e ND1I Same as for ND1IN2 Param lt CR gt lt 1 2 numerati R W N2 Line1 17 LF gt on ND1IN2 lt CR gt lt LF gt 63 EL 2800M PMCL EL 2800C PMCL 2 4 7 Analog Control Short ASCII 84 GA Param CR LF GanRawAnalogA Integer R W min 0 max ud iy gt Bayer GA lt CR gt lt LF gt m FGA Param lt CR gt lt L via I Integer R W FGA mine0 max 2393 3379 F gt FGA lt CR gt lt LF gt PGR Param lt CR gt lt L GainRawDigitalR F gt edAll Integer R W PGR min 0 max 4533 28400 PGR lt CR gt lt LF gt Bayer model only PGB Param CR L GainRawDigitalB M F gt lueAll Integer R W PGB min 0 max 4533 28400 PGB lt CR gt lt LF gt Bayer model only FRE GJUT2 Param lt CR gt GalnRawDigitall Integer R W GJUT2 min o max 891 1000 lt LF gt P GJUT2 lt CR gt lt LF gt PGR2 Param lt CR gt lt GainRawDigitalT LF gt ap2 Red I Integer R W PGR2 0 891 1000 PGR22 lt CR gt lt LF gt Bayer model only PGB2 Param lt CR gt lt GainRawDigitalT
13. R W SQI SequenceModelnde 0 9 0 lt LF gt Index tion x CSQI lt CR gt lt LF gt CurrentSequen I Same as ce Enumera R O SQIDX SequenceModelnde 0 9 0 SQIDX lt CR gt lt LF gt Index tion x SequenceRese Enumera W O SQRST 0 0 0 0 SQRST Param CR t gt lt LF gt tion I SQLUT Param lt CR AI Enumera R W SQLUT t a 0 1 0 gt lt LF gt tion SQLUT lt CR gt lt LF gt I 0 Off LUTC Param lt CR gt LUTMode Enumera R W LUTC 1 Gamma 0 2 0 lt LF gt tion 2 LUT LUTC lt CR gt lt LF gt ALCS Param lt CR gt lt LF gt AlcSpeed I Integer R W ALCS Min Max 1 8 4 ALCS lt CR gt lt LF gt for AGC and ASC ASCEA Param C R gt lt LF gt ExposureAuto integer R W ASCEA Min Max us 101 a00000 18000 ASCEA lt CH gt lt LF gt varied depending on frame rate ASCEI Param CR gt lt LF gt ExposureAuto Integer R W ASCEI Min Max 100 7999 100 ASCEI lt CR gt lt LP gt varied depending on frame rate 0 Complete RequestExposu 1 Bright reAuto Enumera R O ASRS 2 Too dark 0 6 0 ASRS lt CR gt lt LF gt Result tion 3 Timeout Error 4 Busy 74 EL 2800M PMCL EL 2800C PMCL 5 Limit 6 Trig is not set as Normal ep See the possibilities 0 Off I TRGO 1 RCT TRGOP Param CR TriggerOption Enumera R W 2 PIV 0 4 0 gt lt LF gt tion 3 Smear
14. Table 23 Minimum trigger interval 1X2 2YE 8 bit 4 tap output FULL 2 3 ROI 1 2 ROI 1 4R01 1 8 1 2 Binning Minimum frame lines Timed Exposure Mode Trigger Mode OFF x 2 Exposure Time 1 37 EL 2800M PMCL EL 2800C PMCL Frame Start Trigger IN Exposure Timing a 1 Exposure Active FVAL tframel tframe2 L td JR RE te2 tframe 1 LEAL non tframe 2 k time name description time td Exposure beginning delay 8 1 psec Typical te1 First exposure time period 10 5 25 te2 Second exposure time 1 frame itf Inter framing time 3 4 psec FVAL non active 4LVAL tframe1 First Frame read out 1 frame tframe2 Second Frame read out 1 frame Fig 31 PIV mode 7 9 Sequential Trigger 7 9 1 Video send mode The sequential trigger mode has the following modes and it is selected in the video send mode Table 24 Video send mode Video send mode How to select the index Trigger Sequence Select the index by the frame start trigger signal The setting index can be determined by the next index setting Command Sequence Select the index number to assign directly by the command sequence index command Frame Start f f Trigger In Bequenes Index 0 Index 1 Index 2 Index 3 Index 4 behavior Frame count 1 Next Index Index 3 Frame count 1 Next Index Index 2 Frame count 1 Next Index Index 1
15. There are two methods of correction Flat shading correction The method to compensate the shading is to measure the highest luminance level in the image and use that data as the reference Luminance levels of other areas are then adjusted so that the level of the entire area is equal The block for compensation is 24 pixels H x 18 pixels V and the complementary process is applied to produce the compensation data with less error Adjustable range Less 30 Fig 39 Flat shading correction concept drawing Color shading correction For EL 2800C only In this case R channel and B channel are adjusted to match with G channel characteristics The block for compensation is 24 pixels H x 18 pixels V and the complementary process is applied to produce the compensation data with less error 4 EL 2800M PMCL EL 2800C PMCL Before adjustment After adjustment Fig 40 Color shading correction concept drawing Note Under the following conditions the shading correction circuit may not work properly 1 If there is some area in the image with a video level less than 70 2 If part of the image or the entire image is saturated 3 If the highest video level in the image is less than 300LSB at 10 bit output 8 6 Blemish compensation The EL 2800M PMCL and EL 2800C PMCL have a blemish compensation circuit This function compensates blemishes on the CCD sensor typically pixels with extremely high response or extrem
16. gt lt LF gt PGEN1 lt CR gt lt LF gt PGEN2 Param CR GPIOPUISEGEN integer R W PGENZ Min Max 1048575 1 gt lt LF gt PGEN2 lt CR gt lt LF gt PGEN3 Param lt CR Integer R W PGEN3 Min Max 1048575 1 gt lt LF gt PGEN3 lt CR gt lt LF gt GpioPulseGen PGRPT TEN PGRPTO Param C Repeat Count0 I Integer R W 0 Min Max 255 0 R gt lt LF gt 78 EL 2800M PMCL EL 2800C PMCL ep See the possibilities PGRPT0 lt CR gt lt LF gt PGRPT1 Param lt C a I Integer R W ee Min Max 255 R gt lt LF gt PGRPT1 lt CR gt lt LF gt PGRPT2 Param C irr cid I Integer R W iid Min 255 R gt lt LF gt PGRPT2 lt CR gt lt LF gt PGRPT3 Param lt C rett I Integer R W LU Min 255 R gt lt LF gt P PGRPT3 lt CR gt lt LF gt 0 Free Run I 1 Level High PGCMO Param C d ra Enumera R W is 2 Level Low 4 R gt lt LF gt tion 3 Rising Edge PGCM0 lt CR gt lt LF gt 4 Falling Edge I PGCM1 Param lt C niis Enumera R W ir Same as above 4 R gt lt LF gt tion PGCM1 lt CR gt lt LF gt I PGCM2 Param C SR GE Enumera R W s i Same as above 4 R gt lt LF gt tion PGCM2 lt CR gt lt LF gt PGCM3 Param lt C EE si Enumera R W is us Same as above 4 R gt lt LF gt tion PGCM3 lt CR gt lt LF gt I PGSMO Param C Er Enumera R W PGSMO S SE 1 R gt l
17. ON 1 2 SQHB1 lt CR gt lt LF gt Mono model only SQHB2 Param CR SequenceMode 1 Hbinning OFF gt lt LF gt Hbinning1 E sk R W SQHB2 2 Hbinning ON 1 2 1 SQHB22 lt CR gt lt LF gt Mono model only I SQHB3 Param lt CR Enumera R W SQHB3 2 1 2 1 gt lt LF gt 5 tion 3 SQHB3 lt CR gt lt LF gt 70 EL 2800M PMCL EL 2800C PMCL ep See the possibilities Mono model only SQHB4 Param CR SequenceMode 1 Hbinning OFF gt lt LF gt Hbinning3 sos R W SQHB4 2 binning ON SQHB4 lt CR gt lt LF gt Mono model only SQHB5 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Hbinning4 E R W SQHBS 2 binning ON SQHB5 lt CR gt lt LF gt Mono model only SQHB6 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Hbinning5 e et R W 5QHB 2 Hbinning ON SQHB6 lt CR gt lt LF gt Mono model only SQHB7 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Hbinning6 Enumera R W 2 Hbinning ON SQHB7 lt CR gt lt LF gt Mono model only SQHB8 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Hbinning7 Eug R W 5QHB8 2 Hbinning ON SQHB8 lt CR gt lt LF gt Mono model only SQHB9 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Hbinning8 Enumera R W 2 Hbinning ON SQHB9 lt CR gt lt LF gt Mono model
18. Param CR Gammaselect Integer R W GMA O y 1 8 y 0 45 15 8 or 15 y TBD GMA lt CR gt lt LF gt TMP0 lt CR gt lt LF gt Temperature I Integer R O TMPO value Value 128 Temperature C PGDEV Param C ur Integer R W PGDEV Min Max 4096 1 R gt lt LF gt PGDEV lt CR gt lt LF gt PGLO Param lt CR gt m I Integer R W PGLO Min Max mE 1 lt LF gt g PGL0 lt CR gt lt LF gt PGL1 Param lt CR gt a I Integer R W PGL1 Min Max 1048575 1 lt LF gt g PGL1 lt CR gt lt LF gt PGL2 Param lt CR gt a Integer R W PGL2 Min Max m 1 lt LF gt g PGL2 lt CR gt lt LF gt PGL3 Param lt CR gt rn I Integer R W PGL3 mE 1 lt LF gt g PGL3 lt CR gt lt LF gt PGSTO Param CR SE ENE Integer R W PGSTO 1048574 0 gt lt LF gt PGST0 lt CR gt lt LF gt PGST1 Param lt CR ao Integer R W PGST1 Min Max 1048574 0 gt lt LF gt PGST1 lt CR gt lt LF gt GpioPulseGenS PGST2 Param lt CR tart I Integer R W PGST2 Min Max 1048574 0 gt lt LF gt Point2 PGST2 lt CR gt lt LF gt PGST3 Param lt CR le un Integer R W PGST3 Min Max 1048374 0 gt lt LF gt PGST3 lt CR gt lt LF gt PGENO Param CR GpiobulseGen Integer R W PGENO Min Max 1048575 1 gt lt LF gt PGENO lt CR gt lt LF gt PGEN1 Param CR GpiobulseGen Integer R W PGEN Min Max 1048575 1
19. after installing any other software This will in most cases ensure that the JAI SDK and Control Tool functions properly If not please contact the frame grabber manufacturer or JAI to determine other ways to eliminate any software conflict 2 The frame grabber used must be compliant with Camera Link Specification v1 1 or greater in order to communicate with the JAI SDK and Control Tool If it is not the JAI SDK and Control Tool cannot be used and the Short ASCII communication protocol and associated control tool should be used instead 53 EL 2800M PMCL EL 2800C PMCL 10 External appearance and dimensions 9 8 24 5 _ 3 M3 Depth5 5 2_ 0 3 50 3 M3 Depth5 ol DCIN TRIG 9 oO DIGITAL I O 2 y DIGITAL I O 1 0 3 37 13 9 8 24 5 Es pt Outside dimensions tolerance 0 3mm Fig 46 Outside dimensions 54 EL 2800M PMCL EL 2800C PMCL See the possibilities 11 Specifications 11 1 Spectral response Relative Response Relative Response Wavelength nm Fig 47 Spectral response EL 2800M PMCL Wavelength nm Fig 48 Spectral response EL 2800C PMCL 55 11 2 EL 2800M PMCL EL 2800C PMCL Specifications table Specifications EL 280
20. gay See the possibilities ND1INV2 Param lt SE Inp Enumera R W ua Same as above 1 CR gt lt LF gt tion ND1INV2 lt CR gt lt LF gt I 0 Stop MLI Param lt CR gt lt L MotorLenslris Enumera R W MLI 1 Open 2 F gt tion 2 Close MLI lt CR gt lt LF gt I 0 Stop MLZ Param lt CR gt lt MotorlensZ00 Enumera R W MLZ 1 Wide 2 LF gt tion 2 Tele MLZ lt CR gt lt LF gt I 0 Stop MLF Param lt CR gt lt MotorLensFoc Enumera R W MLF 1 Wide 2 LF gt tion 2 Tele MLF lt CR gt lt LF gt I LUTSR Param lt CR LUTSequenceR Enumera R W LUTSR Min Max 4095 gt lt LF gt tion LUTSR lt CR gt lt LF gt LUTSG Param CR poets Enumera R W LUTSG Min Max 4095 gt lt LF gt tion LUTSG lt CR gt lt LF gt I LUTSB Param CR LUTSequenceB Enumera R W LUTSB Min Max 4095 gt lt LF gt tion LUTSB lt CR gt lt LF gt 0 Complete 1 Too Bright 2 Too dark Request 3 Timeout Error BalanceAutoRe Enumera R O WBRS 4 Busy 6 BRFS lt CR gt lt LF gt sult tion 5 Limit 6 Trig is not set as Normal 0 Complete 1 Too Bright RequestBlack lia Error BalanceAutoRe Enumera R O BBRS 4 Busy 6 BBRS lt CR gt lt LF gt sult tion iid 5 Limit 6 Trig is not set as Normal BlemishNum I Integer R O BNUM Min 512 BNUM lt CR gt lt LF gt 81 EL 2800M PMCL EL 2800C PMCL Ap 1 2
21. lt LF gt 0 SQPE1 lt CR gt lt LF gt SequenceMode SQPE2 Param lt CR ExposureTime I Integer R W SQPE2 Min 10 800000 18000 gt lt LF gt 1 SQPE2 lt CR gt lt LF gt SequenceMode SQPE3 Param lt CR ExposureTime I Integer R W SQPE3 Min Max 10 800000 18000 gt lt LF gt 2 SQPE3 lt CR gt lt LF gt SequenceMode SQPE4 Param lt CR ExposureTime I Integer R W SQPE4 Min Max 10 800000 18000 gt lt LF gt 3 SQPE4 lt CR gt lt LF gt SequenceMode SQPE5 Param lt CR ExposureTime I Integer R W SQPE5 Min 10 800000 18000 gt lt LF gt 4 SQPE5 lt CR gt lt LF gt SequenceMode SQPE6 Param lt CR ExposureTime I Integer R W SQPE6 Min 10 800000 18000 gt lt LF gt 5 SQPE6 lt CR gt lt LF gt SequenceMode SQPE7 Param lt CR ExposureTime I Integer R W SQPE7 Min Max 10 800000 18000 gt lt LF gt 6 SQPE7 lt CR gt lt LF gt SequenceMode SQPE8 Param lt CR ExposureTime I Integer R W SQPE8 Min Max 10 800000 18000 gt lt LF gt 7 SQPE8 lt CR gt lt LF gt SequenceMode SQPE9 Param lt CR ExposureTime I Integer R W SQPE9 Min Max 10 800000 18000 gt lt LF gt 8 SQPE9 lt CR gt lt LF gt SequenceMode 1 SQPE10 Param C ExposureTime Integer R W 0 Min 10 800000 18000 R gt lt LF gt 9 SQPE10 lt CR gt lt LF gt SQHB1 Param CR SequenceMode 1 Hbinning OFF gt lt LF gt HbinningO gis R W SQHB1 2 Hbinning
22. 1 5 AUX Type 3 Hirose 10 Pin Connector Factory option HIROSE 10 Pin Connector 3260 1053 55 Note This is a factory option Table 6 AUX connector Type 3 pin assignment No 1 0 Name Note 1 TTL OUT2 Line8 2 O TTLOUT3 Line9 3 TTL IN2 Line10 4 NC 5 GND 6 LVDS_IN1 Line11 7 LVDS IN1 8 NC 9 GND 10 GND 13 EL 2800M PMCL EL 2800C PMCL 5 2 Camera Link interface Table 7 Camera Link interface EL 2800M C PMCL Port Camera Link Configuration Base Medium Base Camera Link port bit 1Tap 12bit 2ap 12bit 4 Tap 12bit 1 Tap 8bit GenlCam Tap Geometry 1X1 1Y 1X 2YE 1X2 1Y 1x2 2YE RGB 0 Port B1 Port B2 Port B3 Port B4 Port B5 Port B6 Port B7 Port CO Port C1 Port C2 Port C3 Port C4 Port C5 1 Port C6 Port C7 LVAL LVAL FVAL FVAL Port 10 DVAL DVAL TxIN 23 Exposure Active Exposure Active Exposure Active Exposure Active EL 2800M C PMCL Port Camera Link Configuration Base Medium Base Camera Link port bit 1Tap 12bit 2ap 12bit 4 Tap 12bit 1 Tap 8bit GenlCam Tap Geometry 1X1 1Y 1X 2YE 1X2 1Y RGB Tx D i g i t a l I Port E7 TxIN 11 __ Tap 3 D7 po Port FO Port F1 Port F2 Port F3 Port F4 Port F5 Port F6 Port F7 Tap 4 D11 LVAL Port 12 FVAL Port 13 DVAL TxIN 23
23. 3 User 3 i 0 Normal I M VSM Param lt CR gt lt VideoSendMod Enumera R W VSM 1 Trigger Sequence 2 0 LES e tion 2 Command VSM lt CR gt lt LF gt Sequence 0 Index0 1 Index1 2 Index2 3 Index3 SQI Param lt CR gt lt L SequenceMode Enumera R W 01 4 Index4 9 0 F gt Index tion 3 Index5 SQI lt CR gt lt LF gt 6 Index6 7 Index7 8 Index8 9 ndex9 SequenceMode SQF1 Param lt CR gt Frame I Integer R W SQF1 Min Max 255 1 lt LF gt CountO SQI1 lt CR gt lt LF gt SequenceMode SQF2 Param lt CR gt Frame I Integer R W SQF2 Min Max 255 1 lt LF gt Count1 SQI2 lt CR gt lt LF gt SequenceNode SQF3 Param lt CR gt Frame I Integer R W SQF3 Min Max 255 1 lt LF gt Count2 SQI3 lt CR gt lt LF gt 67 EL 2800M PMCL EL 2800C PMCL SequenceMode SQF4 Param lt CR gt Frame I Integer R W SQF4 Min Max 255 1 lt LF gt Count3 SQI4 lt CR gt lt LF gt SequenceMode SQF5 Param lt CR gt Frame I Integer R W SQF5 Min Max 255 1 lt LF gt Count4 SQI5 lt CR gt lt LF gt SequenceMode SQF6 Param lt CR gt Frame I Integer R W SQF6 Min Max 255 1 lt LF gt Count5 SQI6 lt CR gt lt LF gt SequenceMode SQF7 Param lt CR gt Frame I Integer R W SQF7 Min 255 1 lt LF gt Count6 SQI7 lt CR gt lt LF gt SequenceMode SQF8 Param lt CR gt Frame I
24. AGC and ASC 51 EL 2800M PMCL EL 2800C PMCL Iris State Control Video Use the iris control in auto mode Close Force the iris to close Open Force the iris to open ALC In the EL 2800M PMCL and EL 2800C PMCL auto gain auto shutter and auto iris functions can be combined to provide a wide ranging automatic exposure control from dark to bright or vice versa The functions are applied in the sequence shown below and if one function is disabled the linkage between the other two is maintained In order to make the ALC function effective set the Auto Iris Lens Control Signal Output to ON The auto iris function works together with AGC and Exposure Auto If the lighting condition is changed from bright to dark AIC ASC AGC If the lighting condition is changed from dark to bright AGC ASC AIC Dark 4 Light changes x Bright L AGC AGC operation PRO AGO works Max Min User set Gainiis fred at Min Auto shutt R Auto Shutter Auto shutter operation Auto Shutter nde ee Max Max Min User set fixed at Min Auto iris works redene fixed Auto iris Iris stops just operation before close Operation if light changes Operation if light changes from dark to bright from bright to dark Fig 45 function concept ALC Reference will determine the target video level for AGC Auto Shutter a
25. Bayer SQGA1 lt CR gt lt LF gt 84 SQGA2 Param lt C STE I Integer R W SQGA2 Min Max mod 672 0 Bayer SQGA2 lt CR gt lt LF gt SQGA3 Param lt C SE Integer R W SQGA3 Min Max mono amp 0 R gt lt LF gt Bayer SQGA3 lt CR gt lt LF gt SequenceMode ae 84 SQGA4 Param C Gain3 I Integer R W SQGA4 Min mono 672 0 Roel 69 EL 2800M PMCL EL 2800C PMCL 0 SQGA4 lt CR gt lt LF gt Bayer SQGA5 Param lt C I Integer R W SQGA5 Min Max mono 672 0 R gt lt LF gt Bayer SQGA5 lt CR gt lt LF gt 84 SQGA6 Param lt C Tr I Integer R W SQGA6 mono 672 R gt lt LF gt Bayer SQGA6 lt CR gt lt LF gt la SQGA7 Param lt C SARE I Integer R W SQGA7 Min Max mono 672 0 R gt lt LF gt Bayer SQGA7 lt CR gt lt LF gt SQGA8 Param lt C SE I Integer R W SQGA8 Min Max mono 672 0 R gt lt LF gt Bayer SQGA8 lt CR gt lt LF gt SequenceMode tione SQGA9 Param lt C Gain I Integer R W SQGA9 Min Max 0 672 0 R gt lt LF gt Bayer SQGA9 lt CR gt lt LF gt 84 SQGA10 Param C LEE Integer R W Min mono 672 0 R gt lt LF gt SQGA10 lt CR gt lt LF gt SequenceMode SQPE1 Param lt CR ExposureTime I Integer R W SQPE1 Min Max 10 800000 18000 gt
26. Generator 1 is selected Length Start Point End Point Repeat Count Clear Source ulse Generato Clear Inverter Clear Activation and Clear Sync Mode of pulse generator 1 are displayed under the 1 selector Pulse Generator If Pulse Generator 2 is selected Length Start Point End Point Repeat Count Clear Source Clear Inverter Clear Activation and Clear Sync Mode of pulse generator 2 are displayed under the 2 selector If Pulse Generator 3 is selected Length Start Point End Point Repeat Count Clear Source Pulse Generator 593 3 Clear Inverter Clear Activation and Clear Sync Mode of pulse generator 3 are displayed under the selector 18 EL 2800M PMCL EL 2800C PMCL ED See the possibilities Pulse generator Clear source IN Clear activation Rising edge Pulse generator repeat count N Clear SYNC mode Pulse generator length x N Async lt gt Pulse generator Pulse generator Pulse generator length length length lt gt lt gt Pulse generator Output 0 Pulse generator End point Pulse generator Start point Fig 7 Pulse Generator Pulse construction 5 4 3 Pulse Generator Length Set the counter up value for the selected pulse generator If Repeat Count value is 0 and if Pulse Generator Clear signal is not input the pulse generator generates the pulse repeatedly until reaching this counter up value 5 4 4 Pulse Generator Start Point Set the active outpu
27. Integer R W SQF8 Min Max 255 1 lt LF gt Count7 SQI8 lt CR gt lt LF gt SequenceMode SQF9 Param lt CR gt Frame I Integer R W SQF9 Min 255 1 lt LF gt Count8 SQI9 lt CR gt lt LF gt SequenceMode SQF10 Param lt CR Frame I Integer R W SQF10 Min 255 1 gt lt LF gt Count9 SQI10 lt CR gt lt LF gt SequenceMode I ae SQNI1 Param lt CR Next Enumera R W SQNI1 SequenceRoilndex 9 0 gt lt LF gt Index0 tion SQNI1 lt CR gt lt LF gt SequenceMode I Samea 3 B SQNI2 Param lt CR Next Enumera R W SQNI2 gt lt LF gt Index tion Sequence Randen SQNI2 lt CR gt lt LF gt SequenceMode I m SQNI3 Param lt CR Next Enumera R W SQNI3 SequenceRoilndex 9 0 gt lt LF gt Index2 tion SQNI3 lt CR gt lt LF gt SequenceMode I Cane SQNI4 Param lt CR Next Enumera R W SQNI4 SequenceRoilndex 9 0 gt lt LF gt Index3 tion SQNI4 lt CR gt lt LF gt SequenceMode I Gare as SQNI5 Param lt CR Next Enumera R W SQNI5 SequenceRoilndex 9 0 gt lt LF gt Index4 tion SQNI5 lt CR gt lt LF gt SequenceMode I Sali SQNI6 Param lt CR Next Enumera R W SQNI6 SequenceRoilndex 9 0 gt lt LF gt Index5 tion SQNI6 lt CR gt lt LF gt SequenceMode I lied SQNI7 Param lt CR Next Enumera R W SQNI7 SequenceRoilndex 9 0 gt lt LF gt Index6 tion SQNI7 lt CR gt lt LF gt SequenceMode I Sane ns SQNI8 Param lt CR Next Enumera R W SQNI8 SequenceRoilndex 9 0 gt lt L
28. area is the same as the gain and black controls LUT This function can be used to convert the input to the desired output characteristics The Look Up Table LUT has 256 points for setup The output level can be created by multiplying the gain data by the input level In the EL 2800C PMCL the same LUT characteristic is applied independent of the color value LUT Enable ON or OFF LUT function LUT Index The number of LUT data elements is 256 The lowest level is Index 0 and the highest level is Index 255 LUT value There are 256 LUT data elements to which a value can be assigned The minimum LUT value is 0 and the maximum LUT value is 255 The data between each LUT data element is calculated from adjacent data elements In the color camera LUT characteristics for R G and B are the same If there is no data use adjacent data on both sides Average data is used for compensation Output Data Video IN x LUT data Fig 37 LUT value 46 EL 2800M PMCL EL 2800C PMCL En See the possibilities 8 4 Gamma This command is used set gamma between gamma 0 45 and gamma 1 0 OFF The gamma value is an approximate value o lt 1NdLNO z X INPUT Fig 38 Gamma compensation 8 5 Shading Correction This function compensates for shading non uniformity caused by the lens or the light source used This compensation can be performed even if shading issues are not symmetrical in horizontal and or vertical directions
29. current index pointer and reverts to index 0 in the table Frame Count is also re initialized 40 EL 2800M PMCL EL 2800C PMCL See the possibilities 1 1 1 1 e TR 1 ia Video Send Mode Normal Trigger Sequence Trigger Sequence 1 Sequence Index i Sequence Index Can be changed Cannot be changed Sequence Reset Command Sequence Index Execute from Index 0 Execute from Index 0 Frame Start Trigger In Frame Active Out i Sequence Index i Sequence Index Stop i Performing i Sequence Index Sequence Index Can be changed Sequence Index Pointer amp Repetition Count Clear Stop Fig 33 Sequence trigger timing 41 Sequence Index Cannot be changed P S Sequence Index Execute From Index 0 Sequence Index Performing EL 2800M PMCL EL 2800C PMCL 7 10 Operation and function matrix Table 27 Operation and function matrix Auto Trigger H ROI White Auto AS Tap Exposure Balance Exposure ee H operation Binning Binning Exposure partial Balance Note1 Note1 scan Note2 Trieger Width ar Sequence Sequence trigger trigger Note 1 Only EL 2800M Note 2 Only EL 2800C 42 EL 2800M PMCL EL 2800C PMCL ED See the possibilities 8 Other functions 8 1 Bl
30. is powered 2 When the lens is selected in P Iris lens select 3 If the lens is changed in P iris lens select Current F value The current F value is indicated by using iris position information This can be indicated during auto iris operation The relation between iris position and F value depends on the lens used P Iris Auto min P Iris Auto max This function can set the control range when the iris is operated automatically Auto max sets the limit when the iris goes open and Auto min sets the limit when the iris goes closed Auto max can be set to fully open but Auto min is stopped at F5 6 as lens performance typically degrades if the iris is closed beyond this point Auto Iris Lens Control Signal Output If the auto iris lens is used this parameter should be ON This is common for all types of auto iris lens 50 EL 2800M PMCL EL 2800C PMCL ED See the possibilities 8 8 3 Motorized lenses The EL 2800C PMCL and EL 2800C PMCL can use the 3 axis motorized lens control for zoom focus and iris The following functions are available via the motorized lens commands 8 8 3 1 Iris Open While this command is supplied the iris will continue to open Close While this command is supplied the iris will continue to close Stop When this command is supplied the iris operation stops 8 8 3 2 Zoom Wide While this command is supplied the zoom will continue to move towards wide angle Tele While this command is supp
31. model only SQPGR2 Param C SequenceMode SQPGR TR _ R gt lt LF gt GainRed1 I Integer R W 2 Min 4533 17713 SQPGR2 lt CR gt lt LF gt Bayer model only SQPGR3 Param C SequenceMode SQPGR ER _ R gt lt LF gt GainRed2 I Integer R W 3 Min Max 4533 17713 SQPGR3 lt CR gt lt LF gt Bayer model only SQPGR4 Param lt C SequenceMode SQPGR EN R gt lt LF gt GainRed3 I Integer R W 4 Min 4533 17713 SQPGR4 lt CR gt lt LF gt Bayer model only SQPGR5 Param lt C SequenceMode SQPGR da R gt lt LF gt GainRed4 I Integer R W 5 Min Max 4533 17713 SQPGR5 lt CR gt lt LF gt Bayer model only SQPGR6 Param C SequenceMode SQPGR _ R gt lt LF gt GainRed5 I Integer R W 6 Min 4533 17713 SQPGR6 lt CR gt lt LF gt Bayer model only SQPGR7 Param lt C SequenceMode SQPGR mE _ R gt lt LF gt GainRed6 I Integer R W 7 Min 4533 17713 SQPGR7 lt CR gt lt LF gt Bayer model only SQPGR8 Param lt C SequenceMode SQPGR _ R gt lt LF gt GainRed7 I Integer R W 8 Min Max 4533 17713 SQPGR8 lt CR gt lt LF gt Bayer model only SQPGRO9 Param C SequenceMode SQPGR M R gt lt LF gt GainRed8 I Integer R W 9 Min Max 4533 17713 SQPGR9 lt CR gt lt LF gt Bayer model only SQPGR10 Param lt CR gt lt LF gt SequenceMode SQPGR SEN GainRed9 I Integer R W 10 4533 17713 Bayer model only SQPGB1 Param C SequenceM
32. off or on See section 7 1 2 for formulas that can be used to calculate the maximum frame rate for a specific ROI ROI can be set from 8 lines to 1440 lines in one line increments for the EL 2800M PMCL or in two line increments for the EL 2800C PMCL A Offset_Y gt Height on Y 4 Width Max Fig 24 ROI setting 28 EL 2800M PMCL EL 2800C PMCL ep See the possibilities 6 4 Digital output bit allocation Table 16 Output level CCD out Analog Out Digital Out equivalent 8bit 10bit 12bit Black og Setup3 6 32LSB 128LSB 25mV Monochrome Sm wee 700mV 222LSB 890LSB 3560LSB Color 386mV Monochrome SEE jeg 808mV 255LSB 1023LSB 4095LSB Color 445mV 1023 WhiteClipLevel 890 100 Level 32 BlackLevel 0 25 700 800 Analog Out mV Fig 25 Bit allocation 10 bit 7 Operating modes The following controls are related to capturing the image 7 1 Acquisition control change the frame rate 7 1 1 Acquisition frame rate With Trigger OFF free running mode see section 7 2 1 the default frame rate of the camera is based on the specified ROI The smaller the ROI the faster the default frame rate However it is possible to specify a free running frame rate i e no trigger needed that is slower than the default rate This can be useful when a longer exposure time is needed for a
33. rate 1X 2YE fps 1 CL Height 2 720 Height 2 1 4 25 x Line rate J 1X 1Y fps 1 Height OffsetY 1 7 1440 OffestY Height 15 46 x Line rate b V Binning On 1X2 2YE fps 1 Height 4 360 Height 4 1 2 16 x Line rate J 1X2 1Y fps 1 Height 2 OffsetY 1 2 720 OffsetY Height 2 4 5 28 J x Line rate 1X 2YE fps 1 CL Height 4 360 Height 4 1 4 16 x Line rate J 1X 1Y fps 1 Height 2 OffsetY 1 4 720 OffsetY Height 2 8 33 J X Line rate where Line rate a V Binning Off 1X2 2YE 24 574us 1X2 1Y 24 574us 1X 2YE 42 519us 1X 1Y 42 519us b V Binning On 1X2 2YE 29 296us 1X2 1Y 29 296us 1X 2YE 47 259us 1X 1Y 47 259us 7 2 Exposure control 7 2 1 Exposure Mode Exposure Mode sets which exposure mode is to be used If the trigger is used Frame Start must also be used When Exposure Mode is set to Timed or Trigger Width the combination of Exposure Mode and Frame Start can set various operations The following table shows the operation depending on the combination 30 7 2 2 7 2 3 EL 2800M PMCL EL 2800C PMCL ED See the possibilities Table 17 Exposure mode Trigger Control Trigger OFF Trigger ON Exposure Mada Frame Start Behavior Self running OFF OFF or ON No exposure control Self running Timed EPS OFF Exposure control Timed RCT
34. specific ROI To change the frame rate the user may modify the default value which is displayed in the AcquisitionFrameRate control based on the ROI specified The user can type a number corresponding to the desired frame rate or move the slider control to the appropriate value Allowed values range from the ROI s default fastest frame rate to a rate of 0 125 frames per second 8 seconds per frame If the value entered is faster than the default frame rate the setting is ignored and the default frame rate is used The setting range in Acquisition Frame Rate is Fastest to Slowest Maximum frame rate based on the area set by Image to 0 125 Hz 8 seconds frame Format Control ROI How to set 29 EL 2800M PMCL EL 2800C PMCL 7 1 2 ROI should be set first using Height and Offset Y settings in Image Format Control The number shown in Acquisition Frame Rate RAW will correspond to the fastest frame rate for the specified ROI The value can be adjusted as low as 0 125 fps 8 seconds per frame If ROI is changed from a smaller size to a larger size the default frame rate of the ROI is automatically recalculated inside the camera and changed to the slower frame rate of the larger ROI Calculation of default frame rate a V Binning Off 1X2 2YE fps 1 Height 2 720 Height 2 1 4 25 x Line rate J 1X2 1Y fps 1 Height OffsetY 1 4 1440 OffestY Height 9 46 J x Line
35. 0M PMCL EL 2800C PMCL Scanning system Progressive scan 4 tap Synchronization Internal Interface Camera Link Version 2 0 RC2 BASE MEDIUM Image sensor 2 3 inch Monochrome CCD 2 3 inch Bayer color CCD Aspect Ratio 4 3 Image size Effective Image 8 72 h x 6 54 v mm 10 972 mm diagonal Pixel size 4 54 h x 4 54 v um Effective Image output 1920 h x 1440 v 1920 h x 1440 v Pixels Pixel Clock 54 MHz 1 1X2 2YE 1X2 1Y 40 693 kHz 1H 24 574 us 1327clks line Horizontal V Binning 1 Tap 1X 1Y 1X 2YE 23 519 kHz 1H242 519 us 2296clks line Frequency 2 Geometry 1X2 2YE 1X2 1Y 34 134 kHz 1H 29 296 us 1582 clks line 2 1X 1Y 1X 2YE 21 160 kHz 1H 47 259 us 2552 clks line 1 1X2 2YE 54 7 Hz Total 744 Effective 720 1 1X 2YE 31 6 Hz Total 744 Effective 720 1 1X2 1Y 27 4 Hz Total 1485 Effective 1440 Vertical V Binning 1 Tap 1X 1Y 15 8 Hz Total 1485 Effective 1440 Frequency 2 Geometry 1X2 2YE 91 0 Hz Total 375 Effective 360 2 1X 2YE 47 2 Hz Total 375 Effective 360 2 1X2 1Y 45 7 Hz Total 747 Effective 720 2 1X 1Y 45 3 Hz Total 752 Effective 720 Acquisition 1X2 2YE 54 7 fps 0 125 fps 54 7 fps 0 125 fps Frame Rate 1X 2YE 31 6 fps 0 125 fps 31 6 fps 0 125 fps 1X2 1Y 27 4 fps 0 125 fps 27 4 fps 0 125 fps T
36. 8 5 dB for color traditional measurement 8 bit 10 bit or 12 bit output for monochrome and Bayer or 8 bit per color output for RGB color 54 7 frames second with full resolution in continuous operation for 4 tap output monochrome or Bayer 15 8 frames second for 1 tap output RGB output in camera interpolation Various readout modes including horizontal and vertical binning EL 2800M PMCL only and ROI Region Of Interest for faster frame rates OdB to 30dB gain control for EL 2800M PMCL and OdB to 27dB for EL 2800C PMCL 10 us 1 100 000 to 8 seconds exposure control in 1 us step Auto exposure control Timed and trigger width exposure control RCT PIV and sequential trigger modes for specific applications ALC control with combined function of AGC auto exposure and auto iris Various pre processing circuits are provided Programmable LUT Gamma correction from 0 45 to 1 0 Flat field correction Bayer white balance with manual or one push auto EL 2800C PMCL only Bayer color interpolation EL 2800C PMCL only Blemish compensation Auto iris lens video output with H sync New Hirose 10 connector for lens interface including P Iris lens control C mount for lens mount Setup by Windows XP Vista 7 via serial communication EL 2800M PMCL EL 2800C PMCL ED See the possibilities 4 Locations and functions 4 1 Locations and functions G 4 DIGITAL PO 2 ce DIGITAL JO 4 Q Lens mount C mount Note 1 10 pin
37. ALC Param lt CR gt LowLeft tion lt LF gt ALCChannelAr I ALCML ALC lt CR gt lt LF gt ea Enumera R W R 0 Off 1 On 0 1 1 MidLowRight tion ALCChannelAr es dRig Enumera R W RT 0 Off 1 On 0 1 1 ht tion ALCChannelAr die Enumera R W ioa 0 Off 1 On 0 1 1 t EL 2800M PMCL EL 2800C PMCL ALCChannelAr I ea Enumera R W pe 0 Off 1 On 0 1 1 MidLowLeft tion ALCChannelAr I ea Enumera R W dre 0 Off 1 On 0 1 1 MidHighRight tion ALCChannelAr ALCM 1 MidHighMidRig Enumera R W HMR 0 Off 1 On 0 1 1 ht tion ALCChannelAr ALCM i MidHighMidLef Enumera R W HML 0 Off 1 On 0 1 1 t tion ALCChannelAr I ea Enumera R W d 0 Off 1 On 0 1 1 MidHighLeft tion ALCChannelAr I ea Enumera R W ALCHR 0 Off 1 On 0 1 1 HighRight tion ALCChannelAr I ea Enumera R W es 0 Off 1 On 0 1 1 HighMidRight tion ALCChannelAr I ea Enumera R W or 0 Off 1 On 0 1 1 HighMidLeft tion ALCChannelAr I ea Enumera R W ALCHL 0 Off 1 On 0 1 1 HighLeft tion I AWBChannelAr Enumera R W AWBA 0 Off 1 On 0 1 0 eaAll i tion AWBChannelAr I ea Enumera R W AWBLR 0 Off 1 On 0 1 1 LowRight tion AWBChannelAr I ea Enumera R W AES 0 Off 1 On 0 1 1 LowMidRight tion AWBChannelAr I ea Enumera R W da 0 Off 1 On 0 1 1 LowMidLeft tion AWBChannel
38. AUX connector Standard Connector for lens control LED Indication for power and trigger input 12 pin connector DC 12V and trigger input Camera Link Connector 2 Digital video output Medium configuration Note 2 Camera Link Connector 1 Digital video output Base configuration Note 2 Mounting hole M3 depth 5 mm for fixing the camera to the mount plate or tripod mount plate Note 3 1 Note Rear protrusion on C mount lens must be less than 10 0 mm 2 Note When a Camera Link cable is connected to the camera please do not excessively tighten screws by using a driver The Camera Link receptacle on the camera might be damaged For security the strength to tighten screws is less than 0 147 Newton meter Nm Tightening by hand is sufficient in order to achieve this 3 Note The part number for the tripod adapter plate with 1 4 20 thread is MP 42 option Fig 1 Locations EL 2800M PMCL EL 2800C PMCL 4 2 Rear Panel The rear panel mounted LED provides the following information Amber Power connected initiating This light goes OFF after initiating Steady green Camera is operating in Continuous mode 3k Flashing green The camera is receiving external triggering CES DIGITAL 10 2 Note The interval of flashing does not correspond with external OE DIGITAL 0 A trigger duration Fig 2 Rear panel 10 EL 2800M PMCL EL 2800C PMCL ED See the possibilities Input and out
39. Ar I Ci x sk R W AWBLL 0 Off 1 On 0 1 1 AWB Param CR AWBChannelAr gt lt LF gt RO ea Enumera R W WBM off 4 On 0 1 1 PMR RE LR MidLowRight tion B der AWBChannelAr Bayer ony AWBM a MidLowMidRig Enumera R W LMR 0 Off 1 On 0 1 1 ht tion AWBChannelAr AWBM MidLowMidLef Enumera R W LML 0 Off 1 On 0 1 1 t tion AWBChannelAr I ea Enumera R W 0 Off 1 On 0 1 1 MidLowLeft tion AWBChannelAr I ea Enumera R W Soe 0 Off 1 On 0 1 1 MidHighRight tion EL 2800M PMCL EL 2800C PMCL ep See the possibilities AWBChannelAr AWBM i MidHighMidRig Enumera R W HMR 0 Off 1 On 1 1 ht tion AWBChannelAr AWBM i MidHighMidLef Enumera R W HML 0 Off 1 On 1 1 t tion AWBChannelAr I ea Enumera R W de 0 Off 1 On 1 1 MidHighLeft tion AWBChannelAr I ea Enumera R W Zy 0 Off 1 On 1 1 HighRight tion AWBChannelAr I ea Enumera R W gi 0 Off 1 On 1 1 HighMidRight tion AWBChannelAr I ea Enumera R W du 0 Off 1 On 1 1 HighMidLeft tion AWBChannelAr I ea Enumera R W do 0 Off 1 On 1 1 HighLeft tion 0 Complete 1 Too Bright 2 Too dark RequestBalanc I AWRS lt CR gt lt LF gt eWhite Enumera R O AWRS Error 6 0 AutoResult tion 5 Limit Bayer model only 6 Trig is not set as Normal 0 Factory area EA lt CR gt lt LF gt CurrentAreaNo 1 User 1 area The came
40. EL 2800C PMCL 8 2 Gain Setting Value 840 8 2 1 8 2 2 Gain control The EL 2800M PMCL can adjust the gain level from OdB to 30dB using OdB as the reference Factory default In the EL 2800C PMCL the master gain can be adjusted from OdB to 27dB and R and B gains can be adjusted in the range of 7dB to 12 99dB using the master gain as the reference Resolution Master Gain 0 035dB Step Blue Red Gain 0 00012 Step The master gain uses an analog gain and digital gain internally All digital gain has the resolution of x0 00012 Step and provides more precise gain setting The magnification of digital gain is calculated in the following formula M Gain Value 8192 Digital GainMagnification 8192 Gai Gain Control R Gain Gain Gain Gain ain ain Control Range A Magnification ia Magnification Gain Conival Renga Magnification va Master Master Red Blue R amp B X70 8 16 88 X4 46 39 99dB 125400 X31 6 27dB 0 756 22 38 X1 0 Lee EEE I X7 15 SS X0 45 4533 I I iii X446 12 99dB 498400 xi 0 xi Re e X10 0 0dB X0 45 iii X0 45 7798 X0 45 4533 ME Gain ii Digital Gain Digital Gain Digital Gain Fig 35 Gain control Gain Selector The following parameters can be set EL 2800M AnalogAll DigitalAll Digital Tap2 Digital Tap3 Digital Tap4 EL 2800C Analo
41. Exposure Active 14 EL 2800M PMCL EL 2800C PMCL ep See the possibilities 5 3 Digital IN OUIT interface In the EL 2800 the software control tool can assign the necessary signals to the digital I O ports 5 3 1 Line Selector In the Line Selector the following input and output signals can be assigned Line 1 TTL Out 1 Line7 TTL In 1 Line8 TTL Out 2 Line9 TTL Out 3 Line 11 LVDS In Note Lines 8 9 and 11 are only available if Option 2 for AUX connector is selected Table 8 Line selector Line 1 TTL 1 Out TTL 1 output from 9 pin of HIROSE 12 Pin on the rear Line8 TTL 2 Out TTL 2 output from 1 pin of AUX connector on the rear Line9 3 Out TTL 2 output from 2 pin of AUX connector on the rear NAND 0 In 1 First input to a first gate of NAND NAND 0 In 2 Second input to a first gate of NAND NAND 1 In 1 First input to a second gate of NAND NAND 1 In 2 Second input to a second gate of NAND 5 3 2 Line source Line source signal can be selected from the following table to connect it to the line item which is selected in the line selector Table 9 Line Source Low Connect Low Level signal to line item selected in Line Selector Default setting High Connect Low High signal to line item selected in Line Selector Frame Trigger Wait Connect Frame Trigger Wait signal to line item selected in Line Select
42. F gt Index7 tion SQNI8 lt CR gt lt LF gt SequenceMode I cale P SQNI9 Param lt CR Next Enumera R W SQNI9 gt lt LF gt Index8 tion Ne SQNI9 lt CR gt lt LF gt SequenceMode I SQNI10 Param C Next Enumera R W x d Se dex 9 0 R gt lt LF gt Index9 tion SQNI10 lt CR gt lt LF gt SequenceMode SQH1 Param lt CR gt Height0 Integer R W SQH1 Min Max 1440 1440 lt LF gt SQH1 lt CR gt lt LF gt SQH2 Param lt CR gt E e I Integer R W SQH2 Min Max 1440 1440 lt LF gt SQH2 lt CR gt lt LF gt SQH3 Param lt CR gt S I Integer R W SQH3 Min Max 1440 1440 lt LF gt SQH3 lt CR gt lt LF gt 68 EL 2800M PMCL EL 2800C PMCL ep See the possibilities SQH4 Param lt CR gt Ve E I Integer R W SQH4 Min Max 8 1440 1440 lt LF gt SQH4 lt CR gt lt LF gt SQH5 Param lt CR gt SE I Integer R W SQH5 Min Max 8 1440 1440 lt LF gt 5 SQH5 lt CR gt lt LF gt SQH6 Param lt CR gt GE I Integer R W SQH6 Min 8 1440 1440 lt LF gt SQH6 lt CR gt lt LF gt SQH7 Param lt CR gt I Integer R W SQH7 Min Max 8 1440 1440 lt LF gt SQH7 lt CR gt lt LF gt SQH8 Param lt CR gt ere I Integer R W SQH8 Min Max 8 1440 1440 lt LF gt SQH8 lt CR gt lt LF gt SQH9 Para
43. L EL 2800C PMCL ED See the possibilities Contents Before using this manual oo 6 1 GEN a 7 2 Camera composition oo 7 Se Main features DURAS 8 4 Locations and TOMCEIONG ceo Ix ra CERRO RA UA NR A RU E RON A ACER AURORA XA ACH 9 4 1 Locations and functions cccccccccccccccccccccccccccccccceccccccceceseseeeseses 9 4 2 Rear Panel ss sa A EA 10 5 T put and sse a dac ee 11 5 1 Connectors and pin assignment oo 11 5 1 1 97 2c a 0 16 8 n 01 0 eee esee 11 DOU Figure sec tad EE 11 9 1152 Pin ssl nment sats samer Errore Shenae emew ence ntansscesner nner ones Qu FUE EO SU ee ENTE E 11 5 1 2 Camera Link connector er vvv d EAR ERENNERT EVE EUER 11 0 2 11 5 1 2 2 Pin assignment ex virer envied ever Vx a 12 5 1 3 AUX Standard Hirose 10 Pin Connector cence eeeeeeeenceeeeeeeenseees 12 5 1 4 AUX Type 2 Hirose 10 Pin Connector Factory option 13 5 1 5 AUXType3 Hirose 10 Pin Connector Factory option 13 5 2 Camera Link neenon 14 5 3 Digital IN OUIT interface ee 15 53 1 Eine Selector gain ee ee ina 15 5 3 2 ENE SOUC EEN 15 5 353 Bine 15 5 3 4 Bine InVer
44. LD lt CR gt lt LF gt 3 UserSet3 1 UserSet1 UserSetSave I Command R W SA 2 UserSet2 1 3 1 e 3 UserSet3 Do 66 2 4 11 JAI Custom EL 2800M PMCL EL 2800C PMCL Short ASCII ep See the possibilities BMW Param lt CR gt BlemishWhiteE I 0 False R W BMW i 1 0 lt LF gt nable Boolean 1 True BMW lt CR gt lt LF gt BlemishWhite I BMRC BMRCW 0 lt CR gt lt LF Detect Command w o W 0 0 0 gt BlemishWhite BMTH BMTHW Param lt C Detect I Integer R W W 0 100 10 R gt lt LF gt Threshold BMTHW lt CR gt lt LF gt Param 1 Blemish BMPXW Param 1 P BlemishWhite i petect Integer Rw P eroe z x LUE ah SEN position Min Max Param1 lt CR gt lt LF gt Param 1 Blemish BMPYW Param1 P BlemishWhite BMPY index aram2 lt CR gt lt LF gt Eu Integer R W W Param 2 Y 1439 0 elige position Min Param1 lt CR gt lt LF gt I 0 Flat Shading SDCM Param CR D ues Enumera R W SDCM 1 Color Shading 1 0 gt lt LF gt tion Bayer model only SDCM lt CR gt lt LF gt ShadingCorrec W O RS 0 0 BMRCW 0 lt CR gt lt LF t Command gt 0 Complete 1 Too Bright 2 Too dark E LE Enumera R O SDRS a Ss 6 SDRS lt CR gt lt LF gt tion 5 Limit 6 Trig is not set as Normal I p 1 SDM Param lt CR gt lt ShadingMode Enumera R W SDM 3 0 LF gt tion 2 User 2 SDM lt CR gt lt LF gt
45. N Firm Ver No VN lt CR gt lt LF gt Version i DeviceReset Command W O CRS00 1 CRS00 1 lt CR gt lt LF gt 60 EL 2800M PMCL EL 2800C PMCL ep See the possibilities 2 4 4 Image Format Control Short ASCII HTL Param lt CR gt lt LF Height I Integer R W HTL Min OffsetY 1440 1440 gt HTL lt CR gt lt LF gt OFL Param lt CR gt lt LF gt OFL lt CR gt lt LF gt Offset Y I Integer R W OFL Min Max Height 1432 This value Is calcurated automatically for centering of picture during 1X 2YE 1X2 2YE mode ER mou HB Param lt CR gt lt LF gt BinningHorizont Integer R W HB 1 Normal 2 Binning 2 1 HB lt CR gt lt LF gt al mode only Mono Binni VB Param lt CR gt lt LF gt BinningVertical Integer Rw vg 1 Normal 2 Binning 2 1 VB lt CR gt lt LF gt mode only Mono Mono model 0 Mono8 1 Mono10 R W 2 Mono12 BA Param lt CR gt lt LF gt PixelFormat Bayer model 2 0 BA lt CR gt lt LF gt 0 BayerRG8 1 BayerRG10 2 BayerRG12 0 Off 1 GreyHorizontalRamp 2 GreyVerticalRamp 3 TPN Param lt CR gt lt LF Enumerat R W TPN vr dE 7 0 i ion 5 TPN lt CR gt lt LF gt 4 Horizontal Colorbar 5 Vertical Colorbar 6 Moving Colorbar Bayer model only 61 EL 2800M PMCL EL 2800C PMCL
46. R gt lt LF gt Bayer model only BLB4 Param lt CR gt lt BlackLevelRawTa i LF gt p4 Blue I Integer R W BLB4 min 0 max 512 511 0 BLB42 lt CR gt lt LF gt Bayer model only ABA Param CR L Brack evelAutoB Fnumerati R W ABA 9 OF off once off F gt on i ABA lt CR gt lt LF gt 0 Off AWB Param lt CR gt lt L BalanceWhiteAU Enumerati R W AWB 2 Once 0 2 0 to on 1 Continuous AWB lt CR gt lt LF gt Bayer model only 65 EL 2800M PMCL EL 2800C PMCL 2 4 8 LUT Control Param 1 LUT index Param 2 LUTdata Min Max Bayer model only F Param 1 LUT index LUT Param1 Para A 7 1 m2 lt CR gt lt LF gt LUTValueGreen I Integer R W 2 LUTdata Min 0 4095 LUT Param1 lt CR gt lt Param 1 LUT index Param 2 LUTdata Min Max Bayer model only 0 4095 LUTValueRed I Integer R W LUTR LUTValueBlue I Integer R W LUTB 0 4095 2 4 9 Transport Layer Control 0 Geometry 1X 1Y 1 Geometry 1X2 1Y 3 Geometry 1X 2YE 6 Geometry 1X2 2YE TAGM Param lt CR gt lt 0 6 6 LF gt TAGM lt CR gt lt LF gt DeviceTapGeome E t TAGM try numera ion Short ASCII 2 4 10 User Set Control 0 Default 1 UserSet1 LD Param lt CR gt lt LF gt UserSetLoad Command R W LD 2 UserSet2 0 3 0
47. See the possibilities Elite Series EL 2800M PMCL EL 2800C PMCL 2 8M Digital Progressive Scan Monochrome and Color Camera ocument Version 1 5 EL 2800 na _ Ver Se 5 Oc t2013 EL 2800M PMCL EL 2800C PMCL Notice The material contained in this manual consists of information that is proprietary to JAI Ltd Japan and may only be used by the purchasers of the product Ltd Japan makes no warranty for the use of its product and assumes no responsibility for any errors which may appear or for damages resulting from the use of the information contained herein JAI Ltd Japan reserves the right to make changes without notice Company and product names mentioned in this manual are trademarks or registered trademarks of their respective owners Warranty For information about the warranty please contact your factory representative Certifications CE compliance As defined by the Directive 2004 108 EC of the European Parliament and of the Council EMC Electromagnetic compatibility JAI Ltd Japan declares that EL 2800M PMCL and EL 2800C PMCL comply with the following provisions applying to its standards EN 61000 6 3 Generic emission standard part 1 EN 61000 6 2 Generic immunity standard part 1 FCC This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful inter
48. True Negative 15 EL 2800M PMCL EL 2800C PMCL 5 3 5 5 3 6 5 3 7 Line Status Indicates the status of the selected signal input or output True High or False Low Line Format Indicates the current interface of the selected line item input or output Input CC1 In Line 4 TTL In 1 Line 7 Output TTL Out1 Line 1 GPIO This is a general interface for input and output and controls input and output for trigger signals or valid signals and pulse generators By using this interface you can control an external light source make a delayed function to input a trigger signal or make a precise exposure control with PWC trigger Basic block diagram is as follows EL 2800M C PMCL GPIO Sel Bit 5 0 Sel Bit 7 Soft Trigger gt L INV gt LVAL IN GPIO 1 TTL OUT 1 FVAL IN gt GPIO 8 TL OUT 2 Exposure Active gt GPIO 9 TTL OUT 3 Frame Trigger Wait bn Sel Bit 7 d Frame Active INV m INVN Gate 1 Gate 2 Cross Point 4 Switch NAND Sel Bit 7 INV Non INV GPIO 4 TTL IN 1 Pulse Generator 0 GPIO 7 CL CC1 Pulse Generator 1 GPIO 10 TTL IN2 Pulse Generator 2 Pulse Generator 3 GPIO 11 LVDS IN Pulse Generator p 20 bit counter x 4 CLR Pixel Clock 3 12 bit Counter Pixel Clock is 54 MHz I F written in blue l
49. ack level control This function adjusts the setup level Variable range 256 to 255 LSB at 10 bit output 8 1 1 Black Level Selector The following factors can be set EL 2800M DigitalAll Tap1All Tap2All Tap3All Tap4All EL 2800C DigitalAll Tap1All Tap1Red Tap1Blue Tap2All Tap2Red Tap2Blue Tap3All Tap3Red Tap3Blue Tap4All Tap4Red Tap4Blue 8 1 2 Black Level The black level can be set in the following range EL 2800M DigitalAll 256 255 Tap1All 512 511 Tap2All 512 511 Tap3All 512 511 Tap4All 512 511 EL 2800C DigitalAll 256 255 DigitalRed All DigitalBlue 512 511 Tap1All Tap1Red Tap1Blue 512 511 Tap2All Tap2Red Tap2Blue 512 511 Tap3All Tap3Red Tap3Blue 512 511 Tap4All Tap4Red Tap4Blue 512 511 8 1 3 Black Level Auto The tap balance of black level can be adjusted This requires closing the lens iris or capping the lens in order to cut the incident light OFF Adjust manually Once Adjust only one time when this command is set The detection area can be selected by BalanceWhiteChannelArea The detection area is selected individually from the following areas or the entire screen High High High High Left Mid left Mid right Right Mid High Mid High Mid High Mid High Left Mid left Mid right Right Mid Low Right Mid Low Mid Low Mid Low Left Mid left Mid right Low Low Low Low Left Mid left Mid right Right Fig 34 Detection area 43 EL 2800M PMCL
50. ap 1X 1Y 15 8 fps 0 125 fps 15 8 fps 0 125 fps Geometry RGB 15 8 fps 0 125 fps EMVA 1288 Parameters at 12 bit output at 12 bit output Absolute sensitivity 15 94 p A 525 nm 23 71 p A 525 nm Maximum SNR 41 39dB 41 52dB SNR 61dB Typical 58 5dB Typical Traditional method OdB gain Black OdB gain Green Black Full image 1920 h x 1440 v Bayer 1920 h x 1440 v Height 8 1440 lines 1 line step 8 1440 lines 2 lines step Image ROI OFF Output SET Y 0 1430 lines 1 line step 0 1430 lines 2 lines step format dy 1 1920 H 1920 H Digital Binni 2 960 H ng 1 1440 1440 2 720 V Bit assignment 8 bit 10 bit 12 bit 8 bit 10 bit 12 bit 24 bit RGB Iris Video Out Analogue Video signal 0 7 V p p Sync signal 0 3 V H sync only Trigger Mode OFF Continuous Timed EPS Trigger Width Trigger option PIV RCT with ALC RCT w ALC Continuous Video output Trigger Overlap Readout OFF Long time exposure Sequential trigger Trigger Input Signal Line 1 Line 2 PG1 PG2 56 EL 2800M PMCL EL 2800C PMCL ED See the possibilities Timed Exposure EPS RCT PIV 10 us Min 8 sec Max Variable unit 1 us Mode Sequential Trigger Width 1 line 8 us Min Max Auto Exposure OFF Once Continuous Auto Exposure Res
51. available Timed PIV ON _ Operate in EPS RCT or PIV Self running OFF No exposure Trieger Width control ON Exposure control by trigger width Frame Start trigger Sets whether the start of the frame is controlled externally or not Trigger Mode ON If Acquisition Active is active and Exposure Mode chooses Timed or Trigger Width the exposure will be started by using the signal set in Frame Trigger as the trigger Trigger Mode OFF If Acquisition Active is active the camera operates in free running mode Exposure Mode can be selected from the following OFF Timed Trigger Width Exposure Time No shutter control The exposure will be set in advance The setting can be done in psec units Frame Start OFF Free running mode and exposure control is available Frame Start ON EPS operation mode In this status if RCT or PIV is selected in Trigger option the camera will operate in RCT or PIV mode The exposure will be controlled by the width of the trigger pulse Frame Start OFF Not active No exposure control Frame Start ON PWC operation mode This command is effective only when Exposure Mode is set to Timed It is for setting exposure time The setting step for exposure time is 1 u sec per step Minimum Maximum Exposure Auto 10 sec 8 seconds This is a function to control the exposure automatically It is effective only for Timed ALC Reference controls the brightness There ar
52. ax 512 511 BLR1 Param lt CR gt lt p1 Red LF gt 64 EL 2800M PMCL EL 2800C PMCL ep See the possibilities BLR1 lt CR gt lt LF gt Bayer model only BLB1 Param lt CR gt lt BlackLevelRawTa LF gt p1 Blue I Integer R W BLB1 min O0 max 512 511 0 BLB17 lt CR gt lt LF gt Bayer model only BL2 Param lt CR gt lt L aoe I integer R W BL2 min o max 512 511 0 P BL2 lt CR gt lt LF gt BLR2 Param lt CR gt lt BlackLevelRawTa LF gt p2 Red I Integer R W BLR2 min 0 max 512 511 0 BLR2 lt CR gt lt LF gt Bayer model only BLB2 Param lt CR gt lt BlackLevelRawTa LF gt p2 Blue Integer R W BLB2 min O0 max 512 511 0 BLB2 lt CR gt lt LF gt Bayer model only BL3 Param lt CR gt lt L ree I integer R W BL3 min o max 512 511 0 Vs BL3 lt CR gt lt LF gt BLR3 Param lt CR gt lt BlackLevelRawTa LF gt p3 Red I Integer R W BLR3 mineO0 max 512 511 0 BLR3 lt CR gt lt LF gt Bayer model only BLB3 Param lt CR gt lt BlackLevelRawTa LF gt p3 Blue Integer R W BLB3 min O0 max 512 511 0 BLB3 lt CR gt lt LF gt Bayer model only BL4 Param lt CR gt lt L ao l integer R W BL4 min o max 512 511 0 Pe P BL4 lt CR gt lt LF gt BLR4 Param lt CR gt lt BlackLevelRawTa F LF gt p4 Red I Integer R W min 0 max 512 511 0 BLR4 lt C
53. cations such as solid state device inspection or material surface inspection They incorporate video processing functions such as a look up table flat field shading compensation and blemish compensation in addition to fundamental functions such as trigger exposure setting and video level control As a common Elite Series feature a new connector for lens control is employed EL 2800M PMCL and EL 2800C PMCL support P iris and motor driven lenses as standard lens control capabilities Factory options are available to configure this connector to support DC iris systems as well as provide a video iris output signal or to provide additional TTL IN and OUT lines The latest version of this manual can be downloaded from www jai com The latest version of the Camera Control Tool for the EL 2800M PMCL and EL 2800C PMCL can be downloaded from www jai com For camera revision history please contact your local JAI distributor 2 Camera composition The standard camera composition is as follows Camera body 1 Sensor protection cap 1 Dear Customer sheet 1 The following optional accessories are available Tripod base MP 42 Power supply unit PD 12 series EL 2800M PMCL EL 2800C PMCL 3 Main features New Elite Series 2 3 progressive scan camera Utilizes Mini Camera Link interface with Base and Medium configurations Aspect ratio 4 3 1920 h x 1440 v 2 8 million effective pixels 4 54 um square pixels S N 61dB for monochrome and 5
54. center of upper and lower taps OFFSET Y setting is not enabled 6 Sequence ROI Gain Selector In Sequence ROI Gain Selector the gain settings for each index are available EL 2800C PMCL Gain ALL Red and Blue can be set EL 2800M PMCL Only Gain is displayed and can be set 7 Sequence ROI Black Level Black Level setting is available for each index 8 Sequence ROI Exposure Time Exposure Time setting is available for each index 9 Sequence ROI Binning Horizontal ON or OFF of Horizontal Binning for each index can be set 10 Sequence ROI Binning Vertical ON or OFF of Vertical Binning for each index can be set 11 Sequence ROI LUT Enable Enable or disable of LUT function for each index 0 to 9 can be set 12 Sequence ROI Frame Count This can set how many times the selected index is repeated This is applied to each index Triggers are input according to numbers set in Frame Count and index is repeated and moves to the next index Therefore the same number of triggers as Frame Count must be input 13 Sequence ROI Next Index The number of the index that will follow the current index can be set If Video Send Mode is set to Trigger Sequence and the trigger pulse is input in EPS trigger the sequence is executed from index 0 Accordingly after the number of frame count of index 0 is set next index setting of index0 will be the first separation of sequence 14 Sequence ROI Reset Command This command resets the
55. chieve the maximum camera performance In surveillance applications depending on shooting conditions resolution and depth of field are important factors The iris is deeply related with these factors If the iris diaphragm is smaller but not too small resolution gets better and the depth of field is also deeper The P Iris system controls the iris diaphragm precisely and maintains the best image with the highest resolution and depth of field P Iris can also combine with gain and electronic shutter to keep the appropriate iris position under changing lighting conditions ALC function Setting for P iris lens being used P iris lenses use an absolute setting value control system and therefore if the following parameters are input precise iris position control is possible P Iris lens select Select the lens used At present time the following two lenses are available for these cameras P Iris lens select Description Control step number Open F value LM16JC5MM KOWA 16mm 2 3 inch 74 F1 4 LM35JC5MM KOWA 35mm 2 3 inch 73 F2 0 Step max Iris control step depends on lens The setting value uses the value stored in the camera Refer to the table above for the control step number Position The iris position can be set between 0 to Step Max 0 means to open the iris and Step Max means to close the iris The camera initializes P iris control and acquires iris position under the following conditions 1 When the camera
56. d ppp 58 2 1 Transmit the setting command to camera 58 2 2 Transmit the request command to camera ppp 58 2 3 Switching baud rate between PC and camera 59 2 4 Command list Short ASCII command een 59 2 4 1 GenCP Bootstrap Register 59 2 4 2 Technology Specific Bootstrap Register 60 2 4 3 Device Control nee 60 2 4 4 Image Format Controls erre neret rro ain adag cyan dee cacy ee 61 2 4 5 Acquisition oe deeg gen NENNEN n rin reni 62 2 4 6 Digital 1 0 Control a ee a e nre eere DER en ES ae Ern c a ain Res eere pre cy E 62 24 7 Analog Control sieve a a 64 2 4 8 LUT Control so ee 66 2 4 9 Transport Layer Control i da RR 66 2 4 10 User Set Control Soa EE ETNA 66 2 4 11 TC EE 67 Appendix 2 Kc niin 82 1 PrecautiOlS c a a 82 2 Typical Sensor Characteristics 82 3 Caution when mounting a lens on the camera 82 4 Caution when mounting the CAMETA ccccccccccccccccccccccccccccccccccccececeees 83 5 Exportation E 83 OE Co uj me 83 Manual change history ee 84 Use
57. d Power return Table 3 Camera Link connector 2 pin assignment Pin No In Out Name Note 1 26 Power Power 2 15 TxOUTO 3 16 O TXOUT1 Data out A 17 TxOUT2 5 18 O TxClk Clock for CL 6 19 O TxOUT3 Data out 7 20 N C 8 21 9 22 N C 10 23 N C 11 24 N C 12 25 N C 13 14 Shield Power return 5 1 3 AUXStandard Hirose 10 Pin Connector Type HIROSE 10 Pin Connector 3260 1053 55 Fig 5 Hirose 10P connector 12 EL 2800M PMCL EL 2800C PMCL See the possibilities Table 4 AUX Standard Hirose 10P connector pin assignment No 10 Name Note 1 O DRIVE IRIS Motorized Lens 2 O DRIVE FOCUS Motorized Lens 3 O DRIVE ZOOM Motorized Lens 4 O COMMON Motorized Lens 5 GND 6 O P IRIS OUT1A P Iris Lens 7 O P IRIS OUT1B P Iris Lens 8 O P IRIS OUT2A P Iris Lens 9 O P IRIS OUT2B P Iris Lens 10 O GND 5 1 4 AUX Type 2 Hirose 10 Pin Connector Factory option HIROSE 10 Pin Connector 3260 1053 55 Note This is a factory option Table 5 AUX connector Type 2 pin assignment No 10 Name Note 1 O Video Signal Video Iris Lens 2 O Power DC 12V Video Iris Lens 3 NC 4 NC 5 GND 6 O DC IRIS DAMP DC Iris 7 O DC IRIS DAMP DC Iris 8 O DC IRIS DRIVE DC Iris 9 O DC IRIS DRIVE DC Iris 10 GND 5
58. e True 0 1 0 LI1 2 lt CRs lt LF gt Linelnverter Li LI2 Param lt CR gt lt LF gt neg Boolean R W LI2 False True 0 1 0 LI2 lt CR gt lt LF gt NDOINV1 Param lt CR gt i A cm I Boolean R W Ata False True 0 1 0 NDOINV1 lt CR gt lt LF gt NDOINV2 Param lt CR gt a pide rter_N Boolean R W False True 0 1 0 lt LF gt NDOINV2 lt CR gt lt LF gt ND1INV1 Param lt CR gt SI n m Boolean R W Ar False True 0 1 0 lt LF gt NDOINV1 CR LF EL 2800M PMCL EL 2800C PMCL ep See the possibilities ND1INV2 Param lt CR gt nag rter_N Boolean R W A False True 1 lt LF gt NDOINV2 lt CR gt lt LF gt 0 Low 1 High 3 FrameTrigg erWait 4 FrameActiv e 5 ExposureAc tive 6 Fval 7 Lval 8 PulseGener atorO 9 LSO Param lt CR gt lt LF gt LineSource_Lin Enumerati RIW 150 PulseGener 17 Vendu e1 ator1 10 For 12pin TTL out PulseGener ator2 11 PulseGener ator3 12 TTL In 13 CL CC1 In 14 NandO 15 Nand1 16 TTL In2 Op tion 17 LVDS In Opt ion LS1 Param lt CR gt lt LF gt en Enumerati R W 151 le as for 17 LS1 lt CR gt lt LF gt on For Option TTL out LS2 Param lt CR gt lt LF gt ne Enumerati R W LS2 xs as for 17 LS2 lt CR gt lt LF gt on For Option TTL out LineSource_Na NDOI Same as for NDOIN1 Param lt CR gt lt ndoln1 Enumerati
59. e three modes OFF Once and Continuous OFF Once Continuous No exposure control Exposure adjusts when the function is set then remains at that setting Exposure continues to be adjusted automatically In this mode the following settings are available 31 EL 2800M PMCL EL 2800C PMCL ALC Speed Rate of adjustment can be set Common with Gain auto Exposure Auto Max The maximum value for the exposure time to be controlled can be set Exposure Auto Min The minimum value for the exposure time to be controlled can be set ALC Reference The reference level of the exposure control can be set Common with Gain auto ALC Channel area The measurement area of the exposure control can be set 7 3 Trigger Mode 7 3 1 Trigger Source The following signals can be used as the trigger source signal OFF Line 4 Input to TTL In 1 and output from Digital IO Line 7 Input to CL CC1 In and output from Digital IO 7 3 2 Trigger Activation This command can select how to activate the trigger Rising Edge At the rising edge of the pulse the trigger is activated Falling Edge At the falling edge of the pulse the trigger is activated Level High During the high level of trigger the accumulation is activated Level Low During the low level of trigger the accumulation is activated If Exposure Mode is set to Trigger Width Level High or Level Low must be used Table 18 Trigger activation RisingEdge FallingEd
60. eg EEN dE clea see s vied neu repa ere AE rea aa gay eaa Var eau aves 26 6 3 1 1 Output format 1X2 2YE 1X2 1Y ILE EE EEN Eed deg 26 6 3 1 2 Output format 1X 2YE XI a 26 EL 2800M PMCL EL 2800C PMCL 6 3 2 Vertical timine EE 27 6 3 2 1 Outputformmat X22YE 1X2YE eege deeg deed ii ps REESEN 27 6 3 2 2 Output format 1X2 1Y XTY Sa 28 6 3 3 ROI Region Of Interest 1 sde EKSEE ai 28 6 4 Digital output Dit allocatioN 29 7 Operating modeSss ss ENNEN E REENEN ENN NEEN EE EE A RO smed 29 7 1 Acquisition control change the frame 29 7121 ACQUISITION Tale evn 29 7 1 2 Calculation of default frame 30 7 2 Exposure control iie beds noes Hecke ERR CORR DU EO USO aes 30 7 2 1 Exposure MOG x ciii eror ee re aerea Eh rade aa 30 7 22 Exposure TimMe ee n 31 7 23 rake a kand NUR nes 31 7 3 Trigger Mode eg gege Ee dE redere RE PP 32 7 3 1 Trigger e 32 7 3 2 Tigger Activation ice geet aces ee er eee n tet one tote Fete ba dg 32 VP Tioger OverlaD tege dee ee EE kee E dE dee eege 32 7 3 4 Trigger Delay gege ege ree etra an ne ea 32 7 4 Normal continuous operation Ti
61. ely low response This applies to both monochrome and color versions Pixels that fulfill the blemish criteria can be compensated by adjacent pixels in both columns and in the case of the EL 2800C PMCL the defective pixels can be compensated by the same Bayer color pixels in both adjacent columns The number of pixels that can be compensated is up to 64 pixels per tap for a total of 256 pixels Blemish Compensation Principle E Defective Pixel e Fig 41 Blemish compensation Note If defective pixels are found consecutively in the horizontal direction the blemish compensation circuit does not work 48 EL 2800M PMCL EL 2800C PMCL ED See the possibilities 8 7 Bayer color interpolation Only for EL 2800C This function is available only for EL 2800C PMCL The EL 2800C PMCL uses a CCD with an RGB Bayer pattern If the in camera Bayer color interpolation is not used the following RAW data can be output Gr R Fig 42 Bayer pattern The RAW data contains only luminance information for each color and outputs as a monochrome signal The Bayer color interpolation function can complement lacking color information on each pixel and output RGB color data as the result Color interpolation compensates for the lack of color information by using information from adjacent pixels The following is the concept drawing for the color interpolation process
62. enerator PulseGeneratorO Out Connect Pulse Generator 0 output to Clear Source for the selected pulse generator PulseGenerator1 Out Connect Pulse Generator 1 output to Clear Source for the selected pulse generator PulseGenerator2 Out Connect Pulse Generator 2 output to Clear Source for the selected pulse generator PulseGenerator3 Out Connect Pulse Generator 3 output to Clear Source for the selected pulse generator TTL 1 In Connect TTL 1 IN signal to Clear Source for the selected pulse generator CL CC1 In Connect CL CC1 IN signal to Clear Source for the selected pulse generator Nando Out Connect NAND 0 output signal to Clear Source for the selected pulse generator Nand1 Out Connect NAND 1 output signal to Clear Source for the selected pulse generator Line 10 TTL 2 In Connect TTL 2 IN signal to LINE 10 Line 11 LVDS 1 In Note Connect LVDS 11 1 IN signal to Line 11 The pulse generator output cannot be used as the clear input to the same pulse generator Refer to 5 3 7 GPIO matrix table 21 EL 2800M PMCL EL 2800C PMCL 5 4 10 Pulse Generator Inverter Clear Source Signal can have polarity inverted 5 4 11 Pulse Generator Setting table Table 14 Pulse Generator setting parameters Pixel Clock 54MHz Clock Pre scaler Pulse Generator Selector Pulse Generator 0 Pulse Generator 1 Pulse Generator 2 Pulse Generator 3 Pul
63. etters is available if AUX Type 3 is selected Fig 6 interface 16 EL 2800M PMCL EL 2800C PMCL ED See the possibilities The following table shows the input and output matrix Table 10 GPIO input and output matrix Trigger Line Pulse Selector Selector Selector Generator Cross Point Selector Switch Output Line1 12Pin TTL Out Line 8 TTL 2 Qut X Line 9 TTL 3 Out X NDOIN1 NAND 0 In 1 NDOIN2 NAND 0 in 2 ND1IN1 NAND 1 In 1 ND1IN2 NAND 1 in 2 Pulse Generator 0 PGIN1 Pulse Generator 1 PGIN2 Pulse Generator 2 PGIN3 Pulse Generator 3 Source Signal Cross Point Switch Input Trigger Source Frame Start Trig Source Low HIGH Soft Trigger Frame Trigger Wait Frame Active Exposure Active FVAL LVAL PulseGeneratorO O PulseGenerator1 PulseGenerator2 PulseGenerator3 O TTL In CL CC1 In Nando Out Nand1 Out Line 10 TTL 2 In X Line 11 LVDS 1 In X Trigger Line Pulse Source Source Generator Clear Source Note Items with are available if AUX Type 3 is selected 5 4 Pulse Generator The EL 2800M C PMCL has a frequency divider using the pixel clock as the basic clock and four pulse generators In each Pulse Generator various Clear settings are c
64. ference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures 1 Reorient or relocate the receiving antenna 2 Increase the separation between the equipment and receiver 3 Connect the equipment into an outlet on a circuit different from that to which the receiver is connected 4 Consult the dealer or an experienced radio TV technician for help Warning Changes or modifications to this unit not expressly approved by the party responsible for FCC compliance could void the user s authority to operate the equipment EL 2800M PMCL Supplement The following statement is related to the regulation on Measures for the Administration of the control of Pollution by Electronic Information Products known as China RoHS The table shows contained Hazardous Substances in this camera mark shows that the environment friendly use period of contained Hazardous Substances is 15 years
65. g temperature Humidity 5 C to 45 C 20 80 No condensing Performance guaranteed Daer temperature 45 to 70 20 80 No condensing Storage Temp Humidity 45 C to 70 C 20 to 80 no condensing Regulation CE EN61000 6 2 and EN61000 6 3 FCC part 15 class B RoHS WEEE Housing Dimensions 62 x 62 x 55 5 mm W x H x D excluding protrusion Weight 2159 Note1 Approximately 5 minutes pre heating is required to achieve these specifications Note2 The above specifications are subject to change without notice 5 EL 2800M PMCL EL 2800C PMCL Appendix 1 Short ASCII Command Communication Protocol This chapter described the communication control protocol based on the short ASCII command as the reference 1 Communication setting Baud Rate 9600 Data Length 8bit Start Bit 1bit Stop Bit 1bit Parity Non Xon Xoff Control Non 2 Protocol Short ASCII Command 2 1 Transmit the setting command to camera NN is any kind of the commands NN Param lt CR gt lt LF gt e g Send to camera GA 0 lt CR gt lt LF gt Camera response COMPLETE lt CR gt lt LF gt When camera receives the valid command camera will return COMPLETE If camera receives the command camera will return following e g Send to camera GAX 0 lt CR gt lt LF gt Camera response 01 Unknown Command lt CR gt lt LF gt e g Send to camera GA 1000 lt CR gt lt LF gt Camera
66. gAll DigitalAll Digital Red All Digital Blue All DigitalTap2All DigitalTap3All DigitalTap4All DigitalTap2Red DigitalTap2Blue DigitalTap3Red DigitalTap3Blue DigitalTap4Red DigitalTap4Blue Gain This is reference vale to advise the magnification The operational adjustment is done in Gain RAW EL 2800M AnalogAll 0 7079 32 1 DigitalAll 0 7079 1 4125 Digital Tap2All 0 8912 1 1220 Digital Tap3All 0 8912 1 1220 Digital Tap4All 0 8912 1 1220 44 EL 2800M PMCL EL 2800C PMCL ED See the possibilities EL 2800C AnalogAll 1 0 22 7 DigitalAll 0 7079 1 4125 Digital Red AlL 0 4466 4 4688 Digital Blue All 0 4466 4 4688 Digital Tap2All 0 8912 1 1220 Digital Tap2Red 0 8912 1 1220 Digital Tap2Blue 0 8912 1 1220 Digital Tap3All 0 8912 1 1220 Digital Tap3Red 0 8912 1 1220 Digital Tap3Blue 0 8912 1 1220 Digital Tap4All 0 8912 1 1220 Digital Tap4Red 0 8912 1 1220 Digital Tap4Blue 0 8912 1 1220 8 2 3 Gain Raw The gain raw can be adjusted in the following range EL 2800M AnalogAll 0 840 DigitalAll 2393 3379 Digital Tap2All Digital Tap3AIl Digital Tap4All 891 1000 EL 2800C AnalogAll 0 756 DigitalAll 2393 3379 Digital Tap2All Digital Tap3All Digital Tap4All 891 1000 Digital Red All Digital Blue All 4533 28400 Digital Tap2Red Digital Tap2Blue 891 1000 Digital Tap3Red Digital Tap3Blue 891 1000 Digital Tap4Red Digital Tap4Blue 891 1000 8 2 4 Gai
67. ge LevelHigh LevelLow Timed O O x x TriggerWidth x x O O Timed PIV O O x x Timed RCT O O x x 7 3 3 Trigger Overlap This function defines whether or not a trigger pulse can be accepted while data is being read out OFF The trigger pulse is not accepted during CCD readout Read Out The trigger pulse can be accepted during CCD readout 7 3 4 Trigger Delay This function is used to delay the trigger signal against the trigger input signal The step of the delay is 1usec The setting range to 0 65 535 usec 16 bit 7 4 Normal continuous operation Timed Exposure Mode Trigger Mode OFF This is used for applications which do not require triggering In this mode the video signal 32 for upper 7 5 7 5 1 EL 2800M PMCL EL 2800C PMCL ED See the possibilities for the auto iris lens is available For the video timing refer to the chapter 6 3 The frame rate of full pixels readout is 54 7 fps for 4 tap output Primary settings to use this mode Trigger Mode Off Table 19 Minimum interval of the image 1X2 2YE 8 bit 4 tap output FULL 2 3 ROI 1 2 ROI 1 4 ROI 1 8 ROI E e Minimum frame Lines 774 564 474 339 272 375 Note The read out area for each ROI is a centered readout same number of lines and lower Timed EPS mode This mode allows a single image frame to be captured with a preset exposure time by using the external trigger Additio
68. gistered trademarks of their respective owners JAI A S cannot be held responsible for any technical or typographical errors and reserves the right to make changes to products and documentation without prior notification Europe Middle East amp Africa Asia Pacific Americas Phone 45 4457 8888 Phone 81 45 440 0154 Phone toll free 1 800 445 5444 Fax 45 4491 3252 Fax 81 45 440 0166 Phone 1 408 383 0300 GI Visit our web site at www jai com See the possibilities 85
69. his mode Exposure mode Trigger Width Trigger mode ON Table 21 Minimum interval of the trigger pulse 1X2 2YE 8 bit 4 tap output FULL 2 3ROI 1 2 ROI 1 4R01 1 8 ROI 1 2 Binning Minimum frame lines 745 565 475 340 273 376 Note The read out area for each ROI is a centered readout same number of lines for upper and lower 7 6 1 If the overlap setting is Ise gt ti Trigger A gt 2 lt lt 4 lt CCD Exposure Exposure 5d ooa d LLLLLLLL Active Exposure Period X t3 44 gt FVAL t1 t2 t3 t4 8 1 u sec Typical 2L min 4 5L 5 5L 8 usec Fig 28 Overlap OFF 35 EL 2800M PMCL EL 2800C PMCL 7 6 2 If the overlap setting is Ise 1X24 ti Trigger CCD Exposure Exposure Active Exposure Period t3 gt FVAL t1 t2 t3 t4 1L 2L min 4L 1L 8 usec Fig 29 Readout 7 7 RCT mode Until the trigger is input the camera operates continuously and the video signal for the auto iris lens is output During this time the video signal FVAL and LVAL are output but DVAL is not output When the trigger is input the fast dump is activated to read out the electronic charge very quickly after which the accumulation and the readout are performed When the accumulated signal against the trigger is read out FVAL LVAL and DVAL are output too Primary settings to use this mode
70. ion PGIN1 lt CR gt lt LF gt I PGIN2 Param CR Enumera R W EE Same as above 1 gt lt LF gt tion PGIN2 lt CR gt lt LF gt I PGIN3 Param lt CR ue lseGenl Enumera R W Eo Same as above 1 gt lt LF gt tion PGIN3 lt CR gt lt LF gt 0 Low 1 High 2 FrameTriggerWait 3 FramActive I 4 ExposureActive NDON1 Param CR ae Enumera R W 5 Fval 11 gt lt LF gt tion 6 PulseGeneratorO NDOIN1 lt CR gt lt LF gt 7 PulseGenerator1 8 PulseGenerator2 9 PulseGenerator3 10 TTL In1 11 CL CC1 In I ND1N1 Param lt CR Ge mp Enumera R W a L Same as above 11 gt lt LF gt tion ND1IN1 lt CR gt lt LF gt 0 Low 1 High 2 FrameTriggerWait 3 FramActive I 4 ExposureActive NDON2 Param CR E Enumera R W T 5 Fval 11 gt lt LF gt tion 6 PulseGeneratorO NDOIN2 lt CR gt lt LF gt 7 PulseGenerator1 8 PulseGenerator2 9 PulseGenerator3 10 TTL In1 11 CL CC1 In I ND1N2 Param CR pie Inp Enumera R W ih IN Same as above 11 gt lt LF gt tion ND1IN2 lt CR gt lt LF gt I 4 NDOINV1 Param lt Enumera R W im S kat ny 1 CR gt lt LF gt tion NDOINV1 lt CR gt lt LF gt l ND1INV1 Param re Enumera R W Gro Same as above 1 CR gt lt LF gt tion ND1INV1 lt CR gt lt LF gt I NDOINV2 Param lt FA Enumera R W br t ad ny 1 CR gt lt LF gt tion NDOINV2 lt CR gt lt LF gt 80 EL 2800M PMCL EL 2800C PMCL
71. ipod mount If you mount the tripod mounting plate please use the provided screws Camera chassis 5 0mm 0 2mm Fixing plate Mounting the camera to fixing plate 5 Exportation When exporting this product please follow the export regulation of your own country 6 References 1 This manual and a datasheet for EL 2800M PMCL EL 2800C PMCL can be downloaded from www jai com 2 JAI SDK software can be downloaded from www jai com 83 EL 2800M PMCL EL 2800C PMCL Manual change history Date Revision Changes June 2013 1 0 New release July 2013 1 1 Correct typo in Table 2 and Table 3 July 2013 1 2 Change the description of AUX connectors Aug 2013 1 3 Revised specifications SNR and sensitivity Add EMVA 1288 measurement specifications Correct timing figures Aug 2013 1 4 Add Short ASCII Command Protocol as the reference Oct 2013 1 5 Add EMVA1288 spec for EL 2800C PMCL 84 EL 2800M PMCL EL 2800C PMCL ED See the possibilities User s Record Camera type EL 2800M PMCL EL 2800C PMCL Revision Serial No Firmware version For camera revision history please contact your local JAI distributor User s Mode Settings User s Modifications Company and product names mentioned in this manual are trademarks or re
72. less TRGOP lt CR gt lt LF gt 4 RCT Continuous AGCF Param lt CR gt AlcReference I Integer R W AGCF Min Max 1 100 50 lt LF gt AGCF lt CR gt lt LF gt AGCG AGCGA Param lt CR GainAutoMax I Integer R W Min 0 672 672 gt lt LF gt AGCGA lt CR gt lt LF gt 84 AGCGI Param lt CR gt GainAutoMin Integer R W AGCGI Min Max Mono en 0 lt LF gt Bayer AGCGI lt CR gt lt LF gt 0 Complete 1 Too Bright RequestGainA n Error uto Enumera R O AGRS 4 Busy 0 6 0 AGRS lt CR gt lt LF gt Result tion SEN 5 Limit 6 Trig is not set as Normal AutolrisLensCo I 0 Off AIC Param lt CR gt lt L ntrol Enumera R W AIC 1 0 1 0 F gt SignalOutput tion AIC lt CR gt lt LF gt 0 None I 1 P IRIS Lens AlS Param lt CR gt lt L LensSelect Enumera R W AIS 2 MOTOR Iris Lens 0 4 0 F gt tion 3 Video Iris Lens AlS lt CR gt lt LF gt 4 DC Iris Lens I 0 Video ISC Param lt CR gt lt L Enumera R W ISC 1 Close 0 1 2 P tion 2 Open ISC lt CR gt lt LF gt I ALCA Param lt CR gt Ra mE Enumera R W ALCA 0 Off 1 On 0 1 0 lt LF gt tion ALCA lt CR gt lt LF gt I ALCChannelAr Enumera R W ALCLR 0 Off 1 On 0 1 1 ea LowRight Ban ALCChannelAr I ea Enumera R W sa 0 Off 1 On 0 1 1 LowMidRight tion ALCChannelAr I ea Enumera R W ALI 0 Off 1 On 0 1 1 LowMidLeft tion ALCChannelAr I ea Enumera R W ALCLL 0 Off 1 On 0 1 1
73. lied the zoom will continue to mode towards telephoto Stop When this command is supplied the zoom operation stops 8 8 3 3 Focus Near While this command is supplied the focus will continue to shift closer to the camera Far While this command is supplied the focus will continue to move towards infinity Stop When this command is supplied the focus operation stops 8 8 4 Exclusive video output signal for iris control This signal can be used for automatic lens iris control in Continuous and RCT modes The iris video signal is composed to average the video level in the center area of each frame and can be output as a composite signal with H sync This signal is always output from the No 4 pin of the Hirose 12P connector and can also be output from the Hirose 10P AUX connector as a factory option The following drawing shows the waveform of the iris control video signal This signal is output with the same video level within the same frame and the average is recalculated with each new frame Frame Frame l The same output signal level within the same frame 1XX ES 55255 1 pe 1005 0 7V Average video signal 0 DN H sync 0 3V Fig 44 Iris video output signal The following parameters of this auto iris control signal output can be changed Auto Iris Control Signal Output ON The auto iris control can be connected with AGC and ASC as ALC function OFF The auto iris control is not connected with
74. m lt CR gt ELI e Integer R W SQH9 Min Max 8 1440 1440 lt LF gt 5 SQH9 lt CR gt lt LF gt SQH10 Param lt CR I Integer R W SQH10 Min Max 8 1440 1440 gt lt LF gt SQH10 lt CR gt lt LF gt SQOY1 Param lt CR ye I Integer R W SQOY1 0 1432 0 gt lt LF gt SQOY1 lt CR gt lt LF gt SQOY2 Param CR N en I Integer SQOY2 0 1432 0 gt lt LF gt SQOY2 lt CR gt lt LF gt SQOY3 Param lt CR Du a I Integer R W SQOY3 Min Max 0 1432 0 gt lt LF gt SQOY3 lt CR gt lt LF gt SQOY4 Param lt CR ae I Integer R W SQOY4 Min Max 0 1432 0 gt lt LF gt SQOY4 lt CR gt lt LF gt SQOY5 Param lt CR I Integer R W SQOY5 Min Max 0 1432 0 gt lt LF gt SQOY5 lt CR gt lt LF gt SQOY6 Param lt CR ae Integer R W SQOY6 Min Max 0 1432 0 gt lt LF gt SQOY6 lt CR gt lt LF gt SQOY7 Param lt CR er I Integer R W SQOY7 Min Max 0 1432 0 gt lt LF gt SQOY7 lt CR gt lt LF gt SQOY8 Param lt CR I UE I Integer R W SQOY8 Min Max 0 14332 0 gt lt LF gt SQOY8 lt CR gt lt LF gt SQOY9 Param lt CR I Integer R W SQOY9 Min Max 0 1432 0 gt lt LF gt SQOY9 lt CR gt lt LF gt SQOY10 Param lt C pr I Integer R W SE Min Max 0 1432 0 R gt lt LF gt SQOY10 lt CR gt lt LF gt B4 SQGA1 Param lt C SE Integer R W SQGA1 Min Max mono 672 0 R gt lt LF gt
75. med Exposure Mode Trigger Mode OFF 32 25 Timed EPS mode ep tui uA ERE eege Ee 33 7 5 4 If the overlap setting is 33 7 5 2 If the overlap setting is lse is 54 34 7 6 Trigger Width mode EEN EEN NEEN EENS ENEE EEN DEEN 34 7 6 1 If the overlap setting is 00 35 7 6 2 If the overlap setting 15 1X24 pp 36 Dade RCT MOGG H 36 7 8 PIV Particle Image Velocimetry 37 E Ent 38 7 9 4 Video send mode EE 38 7 9 2 Sequence ROI setting parameters nn 39 7 10 Operation and function matrix ee 42 B Other functions sa 43 8 1 Black level control EN 43 8 1 1 Black Level Selector dics needed NIC SERES 43 8 1 2 Black eec eie haat cece alal bor EN OUO DIEN 43 8 1 3 Black Level eoo eee Leve sex dev tev ee se e eaa tev eee sex ede Roe eee ERE RUE 43 8 2 Gaimecontrol a de 44 Bl Gain Selector er 44 822 Gallic a 44 823 EEN 45 82 4 Gan AUto NEE 45 8 2 5 Balance White Auto lilla lana 46 Bide Msc 46 B 3 1 LUT 2 3 rr 46 B 3 2 LUT Index ieri 46 8 33 LUT va 46 O 47 8 5 Shading Correction rav rara n a usar s a a
76. n Auto This function automatically controls the gain level This function is effective only for Frame trigger OFF and RCT modes This is controlled by the command JAI AGC Reference There are three modes OFF Adjust manually Once Operate only one time when this command is set Continuous Operate the auto gain continuously The following detailed settings are also available ALC Speed The rate of adjustment of GainAuto can be set Common with Exposure Auto Gain Auto Max The maximum value of GainAuto control range can be set Gain Auto Min The minimum value of GainAuto control range can be set ALC Reference The reference level of Gain Auto control can be set Common use with Expsoure Auto ALC channel area The area of GainAuto control can be set either entire area or individual section 45 EL 2800M PMCL EL 2800C PMCL 8 2 5 8 3 8 3 1 8 3 2 8 3 3 High High High High Left Mid left Mid right Right Mid High Mid High Mid High Mid High Left Mid left Mid right Right Mid Low Right Mid Low Mid Low Mid Low Left Mid left Mid right Low Low Low Low Left Mid left Mid right Right Fig 36 ALC channel area Balance White Auto This is auto white balance control function The operation can be selected from the followings OFF Adjust manually Once Operate only one time when this command is set Continuous Operate the white balance control continuously AWB channel
77. nal settings determine if the trigger pulse can be accepted during the exposure period The frame rate of full pixels readout is 54 7 fps for 4 tap output Primary settings to use this mode Exposure mode Timed Trigger mode ON Table 20 Minimum interval of the trigger pulse 1X2 2YE 8 bit 4 tap output FULL 2 3 ROI 1 2 ROI 1 4 ROI 1 8 ROI aie Minimum frame lines 745L S65L 475L 340 273L 376L Note The read out area for each ROI is a centered readout same number of lines for upper and lower If the overlap setting is Ise i 33 EL 2800M PMCL EL 2800C PMCL Trigger 0 CCD Exposure Exposure dl LLLLLL Active Exposure Period gt t3 gt FVAL t1 t2 t3 8 1 p sec Typical 2L Min 4 5 5 5L Fig 26 Overlap OFF 7 5 2 If the overlap setting is Ise is 54 Trigger CCD i Exposure t2 Exposure _ Active Exposure Period A gt 3 gt FVAL t2 t3 1L 2L min 4 5L 5 5L Fig 27 Readout 7 6 Trigger Width mode In this mode the exposure time is equal to the trigger pulse width Accordingly longer exposure times are supported Additional settings determine if the trigger pulse can be accepted during the exposure period 34 EL 2800M PMCL EL 2800C PMCL ED See the possibilities The frame rate of full pixels readout is 54 7 fps for 4 tap output Primary settings to use t
78. nd or Auto iris For instance if ALC Reference is set to 100 video level AGC Auto Shutter and or Auto iris will function to maintain 100 video level Please note that ALC function is available only in continuous mode as well as RCT mode 52 EL 2800M PMCL EL 2800C PMCL ED See the possibilities 9 Camera Control Tool In the EL 2800M PMCL and EL 2800C PMCL control of all camera functions can be done by the JAI SDK and Control Tool software All controllable camera functions are stored in an XML file inside of the camera The JAI SDK and Control Tool software can be downloaded from WWW jai com If you need to use the Short ASCII communication protocol and associated control tool please contact your local JAI representative Specific notes regarding Control Tool use 1 For EL 2800 PMCL the JAI SDK and Control Tool 2 0 can be used to control the camera provided the PC on which the JAI software is installed is connected to the camera via a GenCP compliant Camera Link frame grabber Many frame grabber vendors also provide their own GenlCam control tool software as do a number of third party software companies Software conflicts can occur between these GenlCam tools and the JAI SDK and Control Tool causing one or both tools to function improperly Therefore if you intend to use the JAI SDK and Control Tool you should A not install any other GenlCam software on your host PC or B install the JAI SDK and Control Tool last
79. ning ON 6 3 2 Vertical timing 6 3 2 1 Output format 1X2 2YE 1X 2YE a Vertical binning OFF FVAL 181 7201 Le V Uu DVAL ee Video Tap1 728 729 730 Video Tap2 1460 1459 1449 1448 1447 733 732 731 Fig 20 Vertical Timing Vertical timing OFF b Vertical binning ON FVAL 9L 360L SL Mi he DVAL PP TL b 11 4L 5L Video Tap1 727 728 729 730 Video Tap2 460 1459 1449 1448 1447 1446 734 733 732 731 Fig 21 Vertical timing Vertical binning ON 21 EL 2800M PMCL EL 2800C PMCL 6 3 2 2 Output format 1X2 1Y 1X 1Y a Vertical binning OFF FVAL mm 1440L 18L lt gt lt DVAL EN A eee ni Video Tap1 123 i 111243 1447 1448 1449 148180 Fig 22 Vertical timing Vertical binning OFF b Vertical binning ON FVAL su 720L i 9L lt gt DVAL re e Video Tap 142344 11412 3414 1446 1447 1448 1449 send OG Fig 23 Vertical timing Vertical binning ON 6 3 3 ROI Region Of Interest In the EL 2800M PMCL and EL 2800C PMCL a subset of the image can be output by setting Height and Offset Y in the Image Format Control section of the control tool As the height is decreased the number of lines read out is decreased and as the result the frame rate is increased The frame rate depends on the tap geometry and whether vertical binning is
80. nsportation and storage It is recommended using sea shipment instead of air flight in order to limit the influence of cosmic rays on the camera Pixel defects blemishes also may emerge due to prolonged operation at elevated ambient temperature due to high gain setting or during long time exposure It is therefore recommended to operate the camera within its specifications Patterned Noise When the sensor captures a dark object at high temperature or is used for long time integration fixed pattern noise may appear on the video monitor screen Caution when mounting a lens on the camera When mounting a lens on the camera dust particles in the air may settle on the surface of the lens or the image sensor of the camera It is therefore important to keep the protective caps on the lens and on the camera until the lens is mounted Point the lens mount of the camera downward to prevent dust particles from landing on the optical surfaces of the camera This work should be done in a dust free environment Do not touch any of the optical surfaces of the camera or the lens 82 EL 2800M PMCL EL 2800C PMCL ep See the possibilities 4 Caution when mounting the camera When you mount the camera on your system please make sure to use screws of the recommended length described in the following drawing Longer screws may cause serious damage to the PCB inside the camera Camera chassis 5 0mm 0 2mm Tripod mount Attaching the tr
81. ode SQPGB _ R gt lt LF gt GainBlue0 I Integer R W 1 Min 4533 17713 SQPGB17 lt CR gt lt LF gt Bayer model only SQPGB2 Param C SequenceMode SQPGB T R gt lt LF gt GainBlue1 I Integer R W 2 Min Max 4533 17713 SQPGB2 lt CR gt lt LF gt Bayer model only SQPGB3 Param C SequenceMode SQPGB NO R gt lt LF gt GainBlue2 I Integer R W 3 Min Max 4533 17713 SQPGB3 lt CR gt lt LF gt Bayer model only SQPGB4 Param lt C sequenceMode integer SQPGB Min Max 4533 17713 R gt lt LF gt GainBlue3 4 SQPGB4 lt CR gt lt LF gt 73 EL 2800M PMCL EL 2800C PMCL Bayer model only SQPGB5 Param lt C cequenceMode integer R W 20268 Min Max 4533 17713 0 Bayer model only SQPGB6 Param lt C cequenceMode integer R W PRESE Min Max 4533 17713 0 docili Bayer model only SQPGB7 Param lt C cequenceMode integer R W 20268 uin Max 4533 17713 0 ia Bayer model only SQPGB8 Param lt C cequenceMode integer R W 20268 Min Max 4533 17713 0 ER Bayer model only SQPGB9 Param lt C ceuenceMode integer R W 20968 Min Max 4533 17713 0 Se CN Bayer model only SQPGB10 Param lt CR gt lt LF gt ee I Integer R W iius Min Max 4533 17713 0 ere Bayer model only CommnadSequ I Same as CSQI Param lt CR gt ence Enumera
82. only SQHB10 Param lt C SequenceMode SQHB1 1 Hbinning OFF R gt lt LF gt Hbinning9 E R W Q 2 Hbinning ON SQHB10 lt CR gt lt LF gt Mono model only SQVB1 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Vbinning0 a R W SQYBI 2 Hbinning ON SQVB1 lt CR gt lt LF gt Mono model only SQVB2 Param CR SequenceMode 1 Hbinning OFF gt lt LF gt Vbinning1 gs R W SQVB2 2 Hbinning ON SQVB2 lt CR gt lt LF gt Mono model only SQVB3 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Vbinning2 Enumera R W 30083 2 Hbinning ON SQVB3 lt CR gt lt LF gt Mono model only SQVB4 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Vbinning3 us R W SQVB4 2 Hbinning ON SQVB4 lt CR gt lt LF gt Mono model only SQVB5 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Vbinning4 gr R W SQVB5 2 Hbinning ON SQVB5 lt CR gt lt LF gt Mono model only SQVB6 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Vbinning5 pss R W SQVB6 2 Hbinning ON SQVB6 lt CR gt lt LF gt Mono model only SQVB7 Param lt CR SequenceMode 1 Hbinning OFF gt lt LF gt Vbinning6 ia R W SQVB7 2 Hbinning ON SQVB7 lt CR gt lt LF gt Mono model only SQVB8 Param CR SequenceMode 1 Hbinning OFF gt lt LF gt Vbinning7 giis R W SQVBB 2 Hbinning ON SQVB8 lt CR gt lt LF gt Mono model only
83. onnected to GPIO The following shows Pulse Generator default settings 17 EL 2800M PMCL EL 2800C PMCL Table 11 Pulse Generator default settings Value Clock Pre scaler 1 Pulse Generator Clear Clear Clear Pulse Generato Source Inverter Activation Selector Pulse Generator 0 Async Mode Pulse Generator 1 Async Mode Pulse Generator 2 Async Mode Pulse Generator 3 Async Mode Note When Pulse Generator Repeat Count is set to 0 the camera is operating in Free Running mode However based on the above default settings Length 1 Start Point 0 and End Point 1 Pulse Generator stops at High output Therefore if Start Point 0 and End Point 1 are configured Length should be 2 as the minimum active width 5 4 1 Clock Pre scaler Clock pre scaler Divide Value can set the dividing value of the frequency divider 12 bit length and the pixel clock is used for this Four built in pulse generators work by the same clock In the EL 2800M C PMCL the pixel clock is 54 Mhz 5 4 2 Pulse Generator Selector This is where you select one of the 4 pulse generators in order to set or modify its parameters Table 12 Pulse Generator setting Trigger Selector xm Pulse Generator If Pulse Generator 0 is selected Length Start Point End Point Repeat Count Clear Source Clear Inverter Clear Activation and Clear Sync Mode of pulse generator 0 are displayed under the 0 selector Pul nerator If Pulse
84. or Frame Active Connect Frame Active signal to line item selected in Line Selector Exposure Active Connect Exposure Active signal to line item selected in Line Selector FVAL Connect FVAL signal to line item selected in Line Selector LVAL Connect LVAL signal to line item selected in Line Selector PulseGeneratorO Out Connect Pulse Generator 0 signal to line item selected in Line Selector PulseGenerator1 Out Connect Pulse Generator 1 signal to line item selected in Line Selector PulseGenerator2 Out Connect Pulse Generator 2 signal to line item selected in Line Selector PulseGenerator3 Out Connect Pulse Generator 3 signal to line item selected in Line Selector TTL 1 In Connect TTL 1 IN signal to line item selected in Line Selector CL CC1 In Connect CL CC1 IN signal to line item selected in Line Selector Nando Out Connect NAND 0 signal to line item selected in Line Selector Nand1 Out Connect NAND 1 signal to line item selected in Line Selector Line 10 TTL2In Connect TTL 2 IN signal to Line 10 Factory option Line 11 LVDS 1 In Connect LVDS 1 IN signal to Line 11 Factory option Note As for LVAL some line items cannot be connected Refer to 5 4 6 2 GPIO matrix table 5 3 3 5 3 4 Line Mode Indicates the status of the interface input or output Line Inverter Sets the polarity of the selected input or output False Positive
85. orNa string R O DVN JAILtd Japan DVN lt CR gt lt LF gt Se ac I String R O MD MD lt CR gt lt LF gt Indicate device version DeviceVersion String R O DV e g 0 1 0 0 DV lt CR gt lt LF gt DevicelD String R O ID Serial Number ID lt CR gt lt LF gt User can save and load UD Param lt CR gt lt LF DeviceUserID I String R W UD free text gt 12 or less characters UD lt CR gt lt LF gt 59 EL 2800M PMCL EL 2800C PMCL 2 4 2 Technology Specific Bootstrap Register Short ASCII Indicate Support Non support status for each baud rate bit0 9600bps bit1 19200bps bit2 38400bps bit3 57600bps bit4 115200bps bit5 230400bps bit6 460800bps bit7 921600bps SupportedBaudr I Integer R O SBDRT 0x01 OxFF Ox1F SBDRT lt CR gt lt LF gt ates READ Indicate current CBDRT Param lt CR gt baud rate lt LF gt WRITE Set any bit of CBDRT lt CR gt lt LF gt baud rate bit0 9600bps In case of WRITE 1 bit1 19200bps execution change CurrentBaudrate Integer R W CBDRT bit2 38400bps 0x01 Ox80 9600b baud rate it needs to bit3 57600bps PS control in the proper bit4 115200bps sequence between Host bit5 230400bps and Camera bit6 460800bps Refer to the section bit7 921600bps 3 3 2 4 3 Device Control DeviceFirmware string R O V
86. ponse TE Speed Digital 1 0 Line Selector Hirose 12P GPIO IN GPIO OUT Black Ref level 33 5LSB 10 bit Average value of 100 100 Level Adj range 256 255 58 10 bit Adjust Resolution 1 STEP 0 25L5B i 3dB 24dB Less 0 01dB Step OdB 24dB Less 0 01dB step Gain WB Gain R B 7dB to 13dB Less 0 01dB step Adjust WB Area 4 4 WB Range 3000K 9000K White Balance OFF Once Continuous Detection Detect white blemish above the threshold value Blemish Black blemish is detected only by factory Comp Compensation Complement by adjacent pixels Continuous blemishes are not compensated Numbers 512 pixels White and black total ALC AGC auto exposure and iris control can be combined and automatically controlled Gamma 0 45 1 0 8 steps settings are available LUT OFF y 1 0 ON 256 points can be set Shading Compensation Flat Field Flat Field Color shading Block Comp 24 x 18 Pixels Block comp 24 x 18 pixels Color interpolation 3 x 3 Linear compensation Input range DC 12V to 24V 10 At the input terminal 435mA At 12V input full image lens drive OFF Power Power 460mA At 12V input ROI lens drive OFF Consumption 5 22W At 12V input full image lens drive OFF 5 52W At 12V input ROI lens drive OFF Lens mount C mount Rear protrusion of the lens is less than10 mm Flange back C mount 17 526 mm Tolerance 0 to 0 05 mm Optical filter Protection glass Not provided IR re Operatin
87. put Connectors and pin assignment 12 Pin connector 5 5 5 1 1 5 1 1 1 Figure 1 1 1 Type HR10A 10R 12PB 01 Hirose male or equivalent Use the part number HR10A 10P 125S for the cable side LN 8 00 8 d CO Fig 3 Hirose 12 pin connector 5 1 1 2 Pin assignment Table 1 12 pin assignment Pin no Signal Remarks 1 GND 2 DC input 12V to 24V 3 GND 4 Iris video Exclusive video output for auto iris 5 NC 6 NC 7 NC 8 NC 9 TTL out 1 Line 1 Note 1 10 TTL In 1 Line 4 Note 2 11 DC input 12V to 24V 12 GND 1 Factory default setting is an Exposure Active signal with negative polarity 2 Factory default setting is a trigger input 5 1 2 Camera Link connector 5 1 2 1 Figure Type 26 pin Mini Camera Link Connector Honda HDR EC26FYTG2 SL Fig 4 Camera Link connector 11 EL 2800M PMCL EL 2800C PMCL 5 1 2 2 Pin assignment Table 2 Camera Link connector 1 Pin assignment Pin No In Out Name Note 1 26 Power Power 2 15 TxOUTO 3 16 O TXOUT1 Data out 4 17 TxOUT2 5 18 O TxClk Clock for CL 6 19 O TxOUT3 Data out 7 20 SerTC RxD 8 21 o SerTFG TxD LVDS Serial Control 9 22 CC1 Trigger Trigger IN 10 23 N C 11 24 N C 12 25 N C 13 14 Shiel
88. r layout 6 1 2 Bayer color sensor 1440 Pixels 1920 Pixels Fig 11 Bayer color sensor layout 23 EL 2800M PMCL EL 2800C PMCL 6 2 Camera output format The EL 2800M PMCL and EL 2800C PMCL have the following camera output formats described in GenlCam SFNC Ver 1 5 1 as Tap Geometry Table 15 Camera output format Camera output format Tap geometry Reference figure 1X 1Y Single tap 6 2 1 1X 2YE Dual tap 6 2 2 1X2 1Y Dual tap 6 2 3 1X2 2YE Four tap 6 2 4 24 bit RGB 8 bit x 3 1X 1Y Single tap 6 2 1 6 2 1 1X 1Y 1X 1Y is defined in GenlCam SFNC Ver 1 5 1 for 1 tap readout and the readout system lt Step X 1 is the following Tap 7 L A deis gt D Fig 12 1 1 readout 6 2 2 1X 2YE 1X 2YE is for 2 tap readout and the readout system is as follows Tap I I A des TMO Pini 720 2Tap L A das Tap 2 Fig 13 1 2 readout 24 EL 2800M PMCL EL 2800C PMCL ED See the possibilities 6 2 3 1X2 1YE 1X2 1YE is also for 2 tap readout but the readout system is right and left as below
89. r s Record 0000 n 85 EL 2800M PMCL EL 2800C PMCL Before using this manual EMVA 1288 With regard to signal to noise ratio in this manual specifications measured by EMVA 1288 are used together with specifications by a traditional measurement method EMVA 1288 is a more complete measurement that considers multiple noise sources including random noise pattern noise and shading Additionally EMVA 1288 incorporates temporal variances in pixel output by capturing 100 frames of data and computing the RMS variations over the captured frames Because of the comprehensive nature of the noise analysis and the additional consideration for RMS variances over time EMVA 1288 SNR measurements are inherently lower than the traditional SNR measurements given by manufacturers However the comprehensive nature combined with rigid test parameters means that all manufacturers are measuring their products equally and EMVA 1288 tested parameters can be compared among different manufacturers products In order to learn more about EMVA 1288 please visit http www emva org Frame grabber board The EL 2800 PMCL complies with Power over Camera Link which enables power to be supplied to the camera through the Camera Link cable s Because the power requirements of the camera exceed the amount of power which can be provided over a single PoCL connection power must be supplied via both Camera Link cables in order to utilize the PoCL capabilities If yo
90. ra RW 49 Off On o 1 SQLUT10 lt CR gt lt LF gt SQBL1 Param lt CR les I Integer R W SQBL1 Min Max 256 255 Seles SQBL1 lt CR gt lt LF gt SQBL2 Param CR I Integer R W SQBL2 Min Max 256 255 gt lt LF gt SQBL2 lt CR gt lt LF gt SQBL3 Param lt CR I Integer R W SQBL3 Min Max 256 255 LES SQBL3 lt CR gt lt LF gt SQBL4 Param lt CR ii I Integer R W SQBL4 Min Max 256 255 gt lt LF gt SQBL4 lt CR gt lt LF gt SQBL5 Param lt CR it Integer R W SQBL5 Min Max 256 255 gt lt LF gt SQBL5 lt CR gt lt LF gt SQBL6 Param lt CR I Integer R W SQBL6 Min Max 256 255 gt lt LF gt SQBL6 lt CR gt lt LF gt SQBL7 Param lt CR M Integer R W SQBL7 Min Max 256 255 gt lt LF gt SQBL7 lt CR gt lt LF gt SequenceMode SQBL8 Param CR LF BlackLevel7 I Integer R W SQBL8 Min Max 256 255 CA IF Tet 72 EL 2800M PMCL EL 2800C PMCL ep See the possibilities SQBL9 Param CR Sa I Integer R W SQBL9 Min Max 256 255 gt lt LF gt SQBL9 lt CR gt lt LF gt SQBL10 Param lt C dt I Integer R W ra Min Max 256 255 R gt lt LF gt SQBL10 lt CR gt lt LF gt SQPGR1 Param lt C SequenceMode SQPGR VERE R gt lt LF gt GainRedO I Integer R W 1 Min Max 4533 17713 SQPGR1 lt CR gt lt LF gt Bayer
91. ra return the Request Integer R O 2 User 2 area 3 9 latest used DATA 3 User 3 area AREA I PLS Param lt CR gt lt PirisLensSelect Enumera R W PLS p 1 0 LF gt tion PLS lt CR gt lt LF gt Indicate P IRIS i od PlrisStepMax I Integer R O PIS control step 255 128 on PirisLensSelect maximum value value PIP Param lt CR gt lt L F gt PlrisPosition I Integer R W PIP Min Max 255 128 PIP lt CR gt lt LF gt Maximum value is PlrisStepMax 0 FULL OPEN 1 F1 4 2 F2 PLI Param lt CR gt lt L 3 F2 8 F gt 4 F4 PLI lt CR gt lt LF gt PirisAutoMin Enumera Rw pu 2 5 11 4 Minimum value and tian 6 F8 Maximum value are 7 F11 different depending 8 F16 on PirisLensSelect 9 F22 value 10 F32 11 CLOSE I PLI Param lt CR gt lt L PirisAutoMax Enumera R W PLA Same as above 11 5 F gt tion PLI lt CR gt lt LF gt 7 EL 2800M PMCL EL 2800C PMCL Minimum value and Maximum value are different depending on PirisLensSelect value PirisCurrentFv alie Enumera R O PCV Same as above 11 0 PCV lt CR gt lt LF gt tion AR Param lt CR gt lt L F gt I AR lt CR gt lt LF gt AcquisitionFra Integer R W AR Min Max 32576 774 Maximum value is meLine i calcurated depending on Height and Offset Y settings oes GMA
92. response 02 Bad Parameters lt CR gt lt LF gt 2 2 Transmit the request command to camera The status of camera s settings can be queried by transmitting NN lt CR gt lt LF gt where NN is any kind of the commands The camera will return the current setting data e g Send to camera GA lt CR gt lt LF gt Camera response GA 0 lt CR gt lt LF gt 58 EL 2800M PMCL EL 2800C PMCL En See the possibilities 2 3 Switching baud rate between PC and camera Camera always starts up with 9600bps This can be switched to higher baud rates after a communication has been established When switching to other baud rate the procedure is as follows e g Change baud rate to 115200bps 1 Confirm baud rates camera supported Send to camera SBDRT lt CR gt lt LF gt Camera response SBDRT 31 0x1F lt CR gt lt LF gt 2 Request new baud rate Send to camera CBDRT 16 0x10 lt CR gt lt LF gt Camera response COMPLETE lt CR gt lt LF gt Change baud rate to 115200bps 3 Rewrite new baud rate again with new baud rate Confirmation command Send to camera CBDRT 16 0x10 lt CR gt lt LF gt Camera response COMPLETE lt CR gt lt LF gt In case the camera does not receive the confirming command with new baud rate within 250ms after sending the acknowledge it falls back to the original baud rate 9600bps 2 4 Command list Short ASCII command 2 4 1 GenCP Bootstrap Register Short ASCII DeviceVend
93. se rn A r4 M mM Generator Output n4 e SELL EIE i Clear 0 Fig 8 Counter clear in Async mode Example2 Clear Activation Rising Edge Clear Sync Mode Sync Mode Clear Inverter False 1 Pulse Generator Clear Source In et Pulse NE Generator ri Output il IJ op LI eee cee ete 10 Clear e Pulse 0 Note Repeat Count is also reset Generator Length Fig 9 Counter clear in Sync mode 20 5 4 9 Table 13 EL 2800M PMCL EL 2800C PMCL Pulse Generator Clear Source The following clear source can be selected as the pulse generator clear signal Pulse Generator Clear Source item Low Pulse generator clear source Description Connect Low level signal to Clear Source for the selected pulse generator Default setting ep See the possibilities High Connect High level signal to Clear Source for the selected pulse generator Frame Trigger Wait Connect Frame Trigger Wait signal to Clear Source for the selected pulse generator Frame Active Connect Frame Active signal to Clear Source for the selected pulse generator Exposure Active Connect Exposure Active signal to Clear Source for the selected pulse generator FVAL Connect FVAL signal to Clear Source for the selected pulse generator LVAL Connect LVAL signal to Clear Source for the selected pulse g
94. se Generator aa 1048575 7 Pula Genser Length mei Pulse Generator Start Point ms Clock Source Clock Pre scaler x Pulse Generator Start Point Pulse Generator End Point 1 to 1048575 Pulse Generator End Point ms Pulse Generator Start Point ms Pulse Generator Repeat Count 0 to 255 Pulse Generator Clear Activation Off Clear Mode for the Pulse Generators High Level Low level Rising Edge Falling Edge Pulse Generator Clear Sync Mode Async mode Sync mode Pulse Generator Clear Source Low High Frame Trigger Wait Frame Active Exposure Active FVAL LVAL PulseGenerator0 PulseGenerator1 PulseGenerator2 PulseGenerator3 TTL In1 CL CC1 In Nando Out Nand1 Out Line 10 TTL 2 In Line 11 LVDS 1 In Pulse Generator Inverter Polarity False Pulse Generator Clear Inverter True Note 1 If Pulse Generator Repeat Count is set to 0 the pulse generator works in Free Running mode 22 EL 2800M PMCL EL 2800C PMCL ED See the possibilities 6 Sensor layout output format and timing 6 1 Sensor layout CCD sensors used in the EL 2800M PMCL and EL 2800C PMCL have the following tap and pixel layout 6 1 1 Monochrome sensor 1440 Pixels 1920 Pixels Fig 10 Monochrome senso
95. t LF gt y tion PGSM0 lt CR gt lt LF gt GpiopulseGens I PGSM1 Param lt C fien dei en gt Enumera R W PGSM1 Same as above 1 R gt lt LF gt y tion PGSM1 lt CR gt lt LF gt I PGSM2 Param lt C See ens Enumera R W PGSM2 Same as above 1 R gt lt LF gt y tion PGSM2 lt CR gt lt LF gt PGSM3 Param lt C or ens Enumera R W PGSM3 Same as above 1 R gt lt LF gt y tion PGSM3 lt CR gt lt LF gt 0 Low 1 High 2 Soft 3 AcquisitionTrigge rWait 4 FrameTriggerWai t 5 FrameActive I 6 ExposureActive PGINO Param CR rn Enumera R W PGINO 7 FVAL 18 gt lt LF gt tion 8 LVAL PGINO lt CR gt lt LF gt 9 PGO 10 PG1 11 PG2 12 PG3 13 TTL in 14 CL CC1 in 15 nandO 16 nand1 17 OPTTL in2 18 OPLVDS in GpioPulseGenl I R W PGIN1 Same as above 18 PGIN1 Param lt CR nput1 Enumera gt lt LF gt 79 EL 2800M PMCL EL 2800C PMCL tion PGIN1 lt CR gt lt LF gt GpioPulseGenl I PGIN2 Param lt CR Sue Enumera R W PGIN2 Same as above 18 gt lt LF gt tion PGIN2 lt CR gt lt LF gt GpioPulseGenl I PGIN3 Param lt CR Enumera R W PGIN3 Same as above 18 gt lt LF gt tion PGIN3 lt CR gt lt LF gt I Mian PGINO Param lt CR rn Enumera R W Se Ge ny 1 gt lt LF gt tion PGINO lt CR gt lt LF gt I PGIN1 Param lt CR ee Enumera R W do Same as above 1 gt lt LF gt t
96. t start count value for the selected pulse generator However please note that a maximum 1 clock jitter for the clock which is divided in the clock pre scaler can occur 5 4 5 Pulse Generator End Point Set the active output ending count value for the selected pulse generator 5 4 6 Pulse Generator Repeat Count Set the repeating number of the pulse for the selected pulse generator After Trigger Clear signal is input the pulse generator starts the count set in Repeat Count Accordingly an active pulse which has a start point and end point can be output repeatedly However if Repeat Count is set to 0 it works as Free Running counter 5 4 7 Pulse Generator Clear Activation Set the clear conditions of clear count pulse for the selected pulse generator 5 4 8 Pulse Generator Clear Sync Mode Set the count clear method for the selected pulse generator In case of Async Mode if the clear signal is input during the length setting value the counter will stop counting according to the clear signal input In case of Sync Mode if the clear signal is input during the length setting value the counter will continue to count until the end of the length setting value and then clear the count Both modes clear the repeat count when the counter is cleared 19 EL 2800M PMCL EL 2800C PMCL Example Clear Activation Rising Edge Clear Sync Mode Async Mode Clear Inverter False Pulse f Generator Clear Source In L 53 dl dici Pul
97. ter a 15 D WEE ge tese casu NND 16 5 3 6 Gine FOrmat sa 16 wo EEUU 16 5 4 Pulse 2 0 EE AE EE EES ee EE 0000 000099 17 5 4 1 osu nes Cro CERES 18 5 4 2 Pulse Generator Selector essen 18 5 4 3 Pulse Generator Length e Caen 19 5 4 4 Pulse Generator Start Point 2 vece eeenceeeeeeeeesaeeeeeeeeesaeeeeeeeeengages 19 5 4 5 Pulse Generator End Point cc cece cece sce e eee eeenneeeeeeeeessaeeeeeeeeesaeeeeeeeeeeuuees 19 5 4 6 Pulse Generator Repeat 19 5 4 7 Pulse Generator Clear AcCtivation 19 5 4 8 Pulse Generator Clear Sync Mode pp 19 5 4 9 Pulse Generator Clear SoUrCe es 21 5 4 10 Pulse Generator Inverter es 22 5 4 11 Pulse Generator Setting table pp 22 6 Sensor layout output format and timing 23 e a WEE Le e UE 23 6 1 1 Monochrome sensor pe 23 6 1 2 Bayer COlOrSENSOF eto 23 6 2 Camera output er e 24 6 2 1 Tm 24 6 22 AX A dE 24 OM MES VLDE a 25 6 24 eh e dE 25 6 3 Output WAY aria 26 6 3 1 Horizontal timing wii iier Va de
98. timing 6 3 1 Horizontal timing 6 3 1 1 Output format 1X2 2YE 1X2 1Y a Vertical binning OFF LVAL DVAL Video Tap 1 2 Tap 3 4 ATMCIK Exposure Start Line 20 5 960 lt gt lt 305CIK Other line va Exposure Active Exposure Start Line 1421Clk Exposure Start Line 1315Clk Other Line Fig 16 Horizontal Timing Vertical timing OFF b Vertical binning ON LVAL DVAL Video Tap 1 2 Tap 3 4 665CIk Exposure Start Line 20 5 960 5j 20 h i gt a 572CIk F Other line i Exposure Active Exposure Start Line 1675Clk Exposure Start Line 1582Clk Other Line Fig 17 Horizontal timing Vertical binning ON 6 3 1 2 Output format 1X 2YE 1X 1Y a Vertical binning OFF LVAL DVAL Video Tap 1 Tap 2 370Clk Exposure Start Line 40 1d 1920 i 276CIk Other line Exposure Active Exposure Start Line 2390CIk Exposure Start Line 2296Clk Other Line Fig 18 Horizontal timing Vertical binning OFF 26 EL 2800M PMCL EL 2800C PMCL ED See the possibilities b Vertical binning ON LVAL DVAL Video Tap 1 Tap 2 i 625Clk Exposure Start Line 40 10 1920 10 40 gt lt a gt ja 532CIk Other line Exposure Active Exposure Start Line 2645Clk Exposure Start Line 2552CIk Other Line Fig 19 Horizontal timing Vertical bin
99. u plan to use this function please be sure that the frame grabber board you are using also complies with this specification Alternatively the camera can be powered via a separate power supply connected to the 12 pin Hirose connector EL 2800M PMCL EL 2800C PMCL ED See the possibilities 1 General The EL 2800M PMCL and EL 2800C PMCL are the first new Elite Series cameras to be introduced They provide high picture quality such as high sensitivity and low noise suitable for machine vision applications The EL 2800M PMCL is a monochrome progressive scan CCD camera and the EL 2800C PMCL is the equivalent Bayer mosaic progressive scan CCD camera Both are equipped with a 2 3 inch CCD sensor offering 2 83 million pixels resolution and a 4 3 aspect ratio They provide 54 7 frames per second for continuous scanning with 1920 x 1440 full pixel resolution for both monochrome and raw Bayer output 8 bit 10 bit or 12 bit output can be selected for both monochrome and Bayer outputs The EL 2800C PMCL is also capable of performing in camera color interpolation to produce 24 bit 8 bit per color RGB output at 15 8 fps Video output is via a Mini Camera Link interface supporting both Base and Medium configurations A full pixel readout partial scan readout or binning mode monochrome only can be selected depending on the application EL 2800M PMCL and EL 2800C PMCL have various comprehensive functions needed for automated optical inspection appli
100. ws contained Hazardous Substances in this camera mark shows that the environment friendly use period of contained Hazardous Substances is 15 years K SS FAR BRE 519 Cd Cr VI PPB PBDE SJ T11363 2006 x SJ T11363 2006 x op 1 115 15 EL 2800M PMC

Elite Series EL-2800M-PMCL EL-2800C-PMCL

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