User`s Manual
Contents
1. zy D UU gt Total Frame Transfer Time Exposure Time Transfer Time Readout Fig 5 3 Free Run Mode Readout Time ISVI 25M SERIES 5 1 3 External Sync Mode In External Sync Mode camera keeps standby status until trigger signal is entered and performs image transmission Frame Transfer after exposure process if trigger input occurs as shown in Fig 7 4 To operate camera in External Sync mode it is required to set Trigger Source regarding which input CC1 input port or External Trigger port will be used for trigger signal as well as Polarity and Exposure source of signal entered CMOS Reset CMOS Read Internal amp External Exposure Time Exposure Data Transfer Fig 5 4 External Sync Mode gt Trigger Source select either of CC1 and External Connector as source of external trigger input signals D Trigger Polarity set whether polarity of Trigger signal entered is Active High or Active Low gt Exposure Source select to synchronize exposure time with pulse width of trigger input signal or with exposure time programmed inside the camera 5 1 4 Overlap trigger input When trigger input occurs in the course of Frame Transfer and Fig 7 5 it simultaneously performs exposure of next image for new trigger input In this case image shooting is possible up to the speed of2. v COM49600 Fig 8 8 Gain AWB Windows Analog Pixel Gain Its available to set Camera Gain Value from 0 to 255 Black Level Offset gt its available to set Camera Black Level Offset from 0 to 255 33 25M SERIES White Balance Enable White Balance Enable White Balance function P Bayer Select Setting for Camera Bayer Pattern R G Select gt Red Set Red Gain Value by Manual 0 2047 Green Set Green Gain Value by Manual 0 2047 Set Blue Gain Value by Manual 0 2047 Start AWB Auto White Balance Start The complete massage window comes up after 2 3 second vi 7 8 9 AWB Complete messaage Apply on 3100K of color temperature 5100K Apply on 5100K of color temperature 34 25M SERIES 8 5 Correction Windows Control 2 v1 7 File View Control Help Va 2s 4 1 Main X trigger Live gt Gain AWB Correction Terminal Flash Capture Gamma Correction Flash Read LUT val sca X Model Sensor Rev H W FPGA Rev TX Size COM4 9500 Fig 8 10 Correction Windows B LUT Look Up Table Set Gamma value considering the table Gamma Set Gamma value Available to save up to two Gamma Correction Download 1 gamma value setting 2 Apply button click 3 Write to cam button click 4 B
3. Do not expose the camera s image pickup plane to sunlight or other intense light directly Its inner CMOS sensor might be damaged in clearing do not splash water on the device but wipe it out with smooth cloth or towel Do not place magnets near the product Be careful not to let liquid like water drinks or chemicals leak inside the device Clean the device often to remove dust on it f the camera is not in use attach the lens cap to the camera to protect the image Pickup surface 1 3 Maintenance Turn off power to the equipment and wipe it with a dry cloth If it becomes severely contaminated gently wipe the affected areas with a soft Cloth dampened with diluted neutral detergent Never use alcohol benzene thinner or other chemicals because such chemicals may damage or discolor the paint and indications If the image pickup surface becomes dusty contaminated or scratched consult your sales representative 25M SERIES 2 Overview 25 is mono area scan CMOS camera 25 is a color area scan CMOS camera IC x25 has 25 million pixels resolution These Cameras are suitable for a wide range of application within factory Automation an also for application outside the factory floor such as AOl Automatic Optical Inspection High end surveillance and medical 3 opecification 3 1 Electrical specification imager CMOS image Sensor Number of active pixels 5056 H x 5056 V
4. full resolution in continuous operation 25 frames second Max 10Tap 30fps Pixel size 4 5u m H x 4 5um V Optical size 35mm Scanning system Progressive scan camera Responsivity 18 16 DN nJ cm2 550nm ADC resolution 8bit 10bit 12bit Bayer Pattern Output Pre select and pulse width trigger modes S N Ratio gt 42dB Dynamic Range gt 53dB Operating Temp gt 40 C Humidity 20 90 RH Non Condensing Camera Link Configuration 2Tap 10Tap Camera Link 2CH Full Mode Built in LUT Look Up Table Defective Correction Circuit built in Power supply voltage DC12 V 10 ripple 50 mV or less VAL synchronous A synchronous operation auto detect Setup by Windows XP VISTA 7 serial communication 25M SERIES 3 2 Electrical shutter specification Shutter Speed Shutter OFF or 1 1 000 000 to 10 sec The exposure time at shutter OFF is different depending on the reading mode Factory default Shutter OFF Random Trigger Shutter OFF switching Factory default Fixed mode The exposure time depends the shutter speed setting Pulse width mode The exposure time depends on the pulse width Minimum pulse width 1 sec Minimum exposure time 1 sec 3 3 Mechanical spec Lens mount F Mount Option M42 Mount Dimensions 82mm L 82mm W 65 6mm H Weight Approx 5209 Camera body grounding Conducti
5. 6 pin Power Input gt Camera Power Input DC 12V 1A 2 4 pin Control Connector gt External Trigger Signal Input 1ch and Strobe Output 1ch 3 26 pin Camera Link Connector gt Video Data Transmission Camera Control 4 Status LED gt Power and Operation Mode Display Continuous ON Status camera operates in Continuous Mode Hashing at 0 5 second intervals camera operates in Trigger Master Mode Hashing at 0 25 second intervals camera operates in Trigger Slaver Mode Hashing at 0 125 second intervals camera operates in Free Run Mode Cam Linki Cam Fig 4 1 IC 25M SERIES CONNECTOR 4 2 Camera Link Connector 1 Video output controlling Camera Link Full Configuration CAMERA LINKO LINKI 29M SERIES gt Connector type 26 PIN connector 10226 52A2PL Manufactured by 3M Inner shield 210 os O os _ Inner shield Inner shield Fig 4 3 Camera Link1 Pin Assignments gt Camera output complies with Camera Link Standard and following list shows the pin configuration of connector Fig 4 4 Camera Link1 Connector 10 25M SERIES Lr 0 Signal Lr 0 Signal OUT YCLKOUT OUT YCLKOUT mu 9 INPUT 71 INPUT 71 INPUT 72 INPUT 72 INPUT ZCLKOUT INPUT ZCLKOUT INPUT 73 IN
6. C 022000890000230003 3 C 022000B90000230003 4 C 022000B90000230003 66 C 022000B90000550003 67 C 022000B90000560003 68 C 022000B90000570003 69 022000B90000580003 70 C 022000B90000590003 24 25M SERIES 7 2 9 Test Pattern Format 021000D2000000XX03 OFF Normal XX 00 Pattern 1 04 Pattern 2 05 Pattern XX 06 Pattern 4 07 Pos 25M SERIES 8 Camera Control Tool GUI 8 1 camera amp frame grabber Connect Camera configuration utility software the camlSV is provided with change its settings and save the settings a file or in the camera The configuration utility includes an interactive help file which will guide you through the camera settings When you execute the program while the camera is turned on Camera Scan window appears as shown in Fig 8 1 Fig 8 1 Camlsv Connect 26 25M SERIES 8 2 Main Windows Control 5 1 7 Seles File View Control Help isvi Main Trigger Live Terminal Mode 1 gt Normal ROI Mode 2 off Binning 2496x2496 Q Sub Sampling 2496x2496 4 Test Pattern off O Pattern 1 Pattern 2 C pattern 3 Center Align Pattern 4 4 Camera Link Output Format n Temperature Base Medium 5 Full 60 4 C 140 7 F 10 Tabs x 8 Bits m Camera Operation x Model Sensor FPGA Rew Size jw Si
7. Gamma is set at 1 0 off Gamma Correction Gamma Correction 5 7 Gamma Correction 19 ISVI 25M SERIES 9 9 Defective Correction Circuits There could be incidence of light malfunctioning defective pixel in the CMOS In this case additional correction is required to enhance the degraded quality of output images For each camera defective pixel information of CMOS is encoded during the shipping process If a user demands an addition of defective pixel information a new coordinate of defective pixel must be entered into the camera 9 6 Test Pattern Image It can be set to output test image created inside instead of image data output from image sensor in order to check normal operation of camera 4 types of test image are available Pattern 4 Mono 19 ISVI 25M SERIES 6 External Appearance and Dimensions 1 A isvi EL Cam Unki bu I Q OWER TT gt d lo o M 0 Cam M h Q s 2 2 d 25 0 82 01 2 4 DP5 0 Fig 7 2 42 mount Dimension 20 25M SERIES 7 Communication specification All configuration of the 25M series camera is done via Camera Link All types of camera setting commands requiring data transmission are delivered in Hex command type The camera can be set up from a
8. PC running terminal emulator software or using iSVi camera control software Camlsv 7 1 Communication Setting Baud Rate 9 600 bps Data Length 8 bit otart Bit 1 bit otop bit 1 bit Parity None Handshake None 7 1 1 Write Command Packet Format D STX Write High Add Low Add Datai Data2 lt Data3 gt lt Data4 gt lt Etx gt 0x02 0x10 lt 0 gt 0xXX gt lt 0 gt lt 0 gt lt 0 gt lt 0 gt 0x03 7 1 2 Read Command Packet Format STX Read High Add Low Add Ebo 0x02 0x20 lt 0 gt lt 0 gt 0x03 7 1 3 Read Command Return Packet Format lt 5 gt Write High Add Low Add Datal lt Data2 gt Data3 lt Data4 gt Ebo 0x02 0x20 0 lt 0 gt lt 0 gt lt 0 gt lt OxXX gt 0x03 7 2 Command List 7 2 1 Camera Link Out Format 0210003d0000000X03 Base 2Taps 881 07 Base 2Taps 10Bit OA Base 2Taps 12Bit OX OC Medium 4Taps 8Bit OX 01 Medium 4Taps 1081 0X 03 zl 25M SERIES Medium 4Taps 12Bit OX 05 Full 8Taps 8Bit OX 00 Full 10Taps 8Bit 0X OF 7 2 2 Camera Mode Format 0210004100000XXX03 gt Continuous Mode Live Normal Mode 0601 Live Binging Mode 0701 Live Subsampling Mode 0681 Free Normal 0611 amp 02100003000
9. camera 19 ISVI 25M SERIES CAMERA STROBEOUT STROBE OUT HR10A 7P 4S Fig 4 5 Strobe Output Schematic 9 Functions and Operations 5 1 Basic Functions The 25 cameras is a progressive scan camera with 25 Mega pixels monochrome or Bayer mosaic color CMOS The interface to the host PC is via digital Camera Link Both models output video as 861 The color version IC 25M outputs raw Bayer video requiring host based color interpolation The camera also features several pre processing functions There are 2 trigger modes in addition to continuous operation The Pre Select and Pulse Width trigger modes are available with a unique Automatic LVAL sync or a sync selection function Below the functions are described in detail below 5 1 1 Control of the Electromechanical Shutter Fig 9 1 shows two different ways in which a shutter can be controlled during the global reset sequence In both cases the maximum integration time is set by the difference between global read start and global rst end In shutter example 1 the shutter is open during the initial ERS sequence and during the row reset phase The shutter closes during the integration phase The pixel array is integrating incident light from the start of the integration phase to the point at which the shutter closes Finally the shutter opens again after the end of the readout phase In shutter example 2 the shutter is open during the initial ERS s
10. 0001 003 Free Run Binging Mode 0711 amp 021000030000001 003 Free Run Subsampling Mode 0691 amp 021000030000001 003 D Trigger Mode Trig Master Normal Mode 0611 amp 021000030000000403 Trig Master Binging Mode 0711 amp 021000030000000403 Trig Master Subsampling Mode 0691 amp 021000030000000403 Trig Slave Normal Mode 0631 Trig Slave Binging Mode 0731 Trig Slave Subsampling Mode 0681 7 2 3 Trigger Polarity amp Source Format 02100003000000XX03 gt Trigger Master Mode Polarity Low amp source Internal cc1 XX 00 Polarity high amp source Internal cc1 XX 02 Polarity Low amp source External 01 Polarity high amp source External 03 gt Trigger Slave Mode Polarity Low amp source Internal cc1 XX 08 Polarity high amp source Internal cc1 XX Polarity Low amp source External 09 Polarity high amp source External OB 22 isvi 25M SERIES 7 2 4 Exposure Time Format 021000430000XXXX03 amp 021000440000XXXX03 amp XXXX 0001 Minimum Value 1usec 1msec 10msec 100msec 1sec 10sec 0001 XXXX 0208 0668 1446 XXXX 0018 6978 8 0207 8 0668 8 144 4022 04030 Maximum Value 7 2 5 Gain Value Format 021000
11. 1 Transfer Time sec the maximum Frame Rate conditions regardless of exposure time gt When the trigger signal with cycle faster than maximum Frame Rate conditions next Frame Transfer is performed while one Frame Transfer is not completed failing to obtain overall image 17 25M SERIES gt When new trigger input occurs in Exposure section while Exposure Source is set in Program the signal is ignored It is the case that exposure setting value is set longer than trigger input cycle and since it is not synchronized for all trigger signal entered in camera Frame Rate gets slower than Trigger input cycle Transfer Time Exposure Time CMOS Reset lt gt CMOS Read Out lt Internal amp External Trigger Frame Transfer F 5 4 LUT Look Up Table LUT Lookup Table enables the conversion of the original image value into an ad hoc level value Since one on one mapping is performed for each level value you can connect the ad hoc 8 10 bit input to the ad hoc 8 10 bit output LUT has a programmable look up table LUT that lets the user adjust the transfer function of the video output Selectable settings include multiple point LUT and Gamma 0 5 The look up table has 1024 setting points by which the full range of input signal is divided On each of the point the gain can be set to get a required transfer function Gamma 0 45 or programmable LUT can be selected by software control If the LUT is not configured
12. 460000XXXX03 amp 0210004B0000XXXX03 Level Level Level Level Level Level Level Level Level Level 1 2 5 4 5 251 252 253 254 255 XXXX XXXX 09 5 09 5 09 5 09 5 09 5 0601 0601 0601 0601 0601 Qo Qo go Qo Qo Qo Qo go go XXXX 00080 Normal Value 0081 XXXX 0083 XXXX 0086 XXXX 0087 000A9 00AB 00 00 0 0080 Maximum Value 7 2 6 Black Level Value Format 0210004A0000XXXX03 Level 1 Level 2 Level 3 Level 4 Level 5 XXXX XXXX XXXX gt 4500 4501 4502 4503 4504 Zo isvi Level 251 XXXX 45FB Level 252 XXXX 45FC Level 253 XXXX 45FD Level 254 XXXX 45FE Level 255 45FF Maximum Value 25M SERIES 7 2 7 White Balance Format 02100006000000XX03 Enable White balance 00 Disable White balance 01 Bayer Select XX 06 RG Select Ext BG XX 00 GB XX 02 GB XX 04 Manual Gain Control Red Gain 021000070000XXXX03 Green Gain 021000080000XXXX03 Blue Gain 021000090000XXXX03 0000 07FF 0 2047 0000 07FF 0 2047 0000 07FF 0 2047 7 2 8 Current Temperature Read Format 022000B903 0 022000890000230003 022000B90000230003 2
13. Electromechanical Shutter 14 52 16 5 2 1 free Run Mode 16 5 2 1 External Sync Mode 2222 22 17 5 2 1 Overlap trigger input 18 5 3 Gamma 01 66 19 5 4 Defective Correction Circuits 20 5 5 Test ur HE R8 77777 21 ISVi 25M SERIES 6 External Appearance and Dimensions 21 7 Communication specification 222 2 4422 2 2 22 7 1 Write Command Packet 22 7 1 1 Write Command Packet 22 7 1 2 Read Command Packet 22 7 1 3 Read Command Return Packet 22 22 7 2 1 Write Command Packet 22 7 2 2 Camera Mode Format I Y ud
14. PUT 734 Fig 4 5 Camera Link2 Pin Assignments 2 Connector Connection Per Camera Link Output Format Base 2tap 8bit 10bit 12bit Camera link1 connector Medium 4tap 8bit 10bit 12bit Camera linki connector amp Camera link2 connector Full Otap 8bit 10bit Camera linki connector amp Camera link2 connector 10tap 8bit Camera linki connector amp Camera link2 connector If Camera Link output is set to 2Tap s Base in 25 series transmission and reception of all data are carried out through Camera Link connector 1 and it is not require to connect the cable to Connector 2 4 3 Camera Link Interface The video output is Camera Link where the 8 channels with 8bit video are placed in a base configuration The digital output signals follow Camera Link standardized 11 25M sERIES multiplexed signal output interface The output driver is NS type DS90CR287 and the receiver is NS type DS90CR288 The data bits from the digital video FVAL LVAL and DVAL are multiplexed into the twisted pairs which are a part of the Camera Link Trigger signals and the serial camera control are feed directly through its own pairs The 26 pin connector pin assignment follows the Camera Link base configuration For a detailed description of Camera Link specifications please refer to the Camera Link standard specifications found on http www machinevisiononline org 4 4 Power Input Connector Power input connector of came
15. User s Manual 25 SERIES Digital Monochrome Color 25Megapixel Camera with Camera Link Interface REV 2 0 ISVi 25M sERIES LPIE di esL 777 E UNUNUN EEUE 4 T 4 1 2 Precautions 10 USB eade 4 ES IECUR EEUU 4 QUIA ERR 5 SB E E 5 S L HOalosu u eR RUE 5 3 2 Electrical shutter specification 5 3 9 Mechanical 5080 6 3 4 Input signal specification 22222 2 2 6 3 5 Operating ambient conditions I s 6 30 Vanos Same US eae 7 3 7 Sensor Information ET 8 3 7 1 Spectral response Mono 22 0 3 7 2 Spectral response oo 8 METTE MINE 9 4 1 ere Meque 9 4 2 CameraLink Connector 9 4 3 Camera Merna eene eae caeca necne orci 11 4 4 Power Input Connector nnn 12 4 5 Control Connector n a 12 4 6 Trigger Input Circuit 13 t 13 5 Functions and Operations 14 541 FUN0U008S 77 14 5 1 1 Control of the
16. a eet eva kot 23 7 2 3 Trigger Polarity amp Source 23 2 4 EXDOSUFG TIME 24 2 5 Gan Value Formal onn MD 24 7 2 6 Black Level Value 24 7 2 7 White Balance Format U n 25 7 2 8 Current Temperature Read 25 9 TeSt Pattern s uu u u uuu u uu uu uuu uu u u u u u 26 8 Camera m 27 8 1 Camera amp Frame Grabber 27 8 2 Main Windows Control everest 28 8 3 Trigger Live Windows 22 4 02 4 22 1 32 8 4 Gain AWB Windows 2 1 24424 424 2424 40 2 11 34 8 5 Correction Windows 22 44 04 22222 36 8 6 Terminal Windows I 37 25M SERIES 1 Precautions 1 1 General Do not drop or damage the device Do not disassemble repair or alter the device Keep the machine not to be stained with the alien substances Contact your nearest distributor in case of trouble or problem 1 2 Precautions in Use
17. ackup To Flash 35 25M SERIES Initialize EEPROM gt Intializing Initialize setting value memory reset 8 6 Terminal Windows Control 2 Camisy v1 7 File View Control Help Main X Trigger Live gt Gain AWB LZ Correction B Terminal Terminal Output Access Register Address Hex 31 Value Hex 0x00000000 x Model Sensor Rev No FPGA Rev x Size JY Size COMA 9600 Fig 8 11 Terminal Windows 36 25M SERIES Terminal Output Command code display terminal between PC to camera Clear button delete displayed command code on the screen Access Register Address Hex Input or read address ValueHex Input or read data value display 25M SERIES 55024 1998 A1 2001 A2 2003 55022 2006 A1 2007 Class Equipment FCC Section 15 107 Section 15 109 Class A Equipment NOTE This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment i
18. e in the Trigger Active High It s for setting active mode in the Trigger Camera Link The source setting of trigger to Camera link CC1 External The source setting of trigger Camera to External Fxternal Exposure Time gt Its for setting exposure time of Camera internal register It s available to set from 1us to 105 gt Its able to use this function on the Mode of Free Run amp Trigger Master Strobe Output strobe signal by Camera Exposure Time gt Its available to use for light and shutter control Active low It s for setting active mode in the Strobe Trigger Active High It s for setting active mode in the Strobe Trigger Strobe Time gt Its for setting strobe trigger time and it s available to set from 1us to 10sec gt its able to use this function on the mode of Trigger Master image Mirror gt Horizontal Mirror It s shown mirrored image and is changed Bayer Fig 8 7 Mirror Image o isvi 25M SERIES 8 4 Gain AWB Windows Control Camlsy vl 7 File View Control Help 7 X Trigger Live gt Gain AWB LZ Correction 2 Terminal Analog Pixel Gain Black Level Offset H ES NE RE E ELA t This nd anc 0 2 White Balanace v Enable White Balance Bayer Select 6 8 Start AWB x A 2 Model Sensor Rev H W No FPGA Rev Size Size
19. equence and closes sometime during the row reset phase The shutter both opens and closes during the 14 integration phase pixel array is integrating incident light for the part the 25M SERIES integration phase during which the shutter is open As for the previous example the shutter opens again after the end of the readout phase Trigger Wait for end of current row Automatic at end of frame readout Integration Readout ERS global rst end ERS global read start maximum integration time actual integration time SHUTTER Example 1 p shutter open shutter closed shutter open actual integration time SHUTTER Example 2 shutter open shutter closed shutter open closed shutter open Fig 5 1 Gontrol of the Electromechanical Shutter It is essential that the shutter remains closed during the entire row readout phase that is until FV has de asserted for the frame readout otherwise some rows of data will be corrupted over integrated It is essential that the shutter closes before the end of the integration phase If the row readout phase is allowed to start before the shutter closes each row in turn will be integrated for one row time longer than the previous row After FV de asserts to signal the completion of the readout phase there is a time delay of approximately 70 length before the sensor starts to integ
20. ich case the user will be required to correct the interference at his own expense ISVI 25M SERIES 3 7 Sensor Information 3 7 1 Spectral response Mono Spectral Response Mono 0 3 oos W n FT o2 l l l l l l l l l l l l l l ll l l l lll ll l lll l l l l l l l l l ll ll l l lll l l lll gt cas J r e o1 f l l l l l l l l lj l ll l l l ll ll l lll 1 1 l l l l 0 05 n I A vF T r F P gt v F A np TN F 300 400 500 500 700 800 900 1000 1100 Wavelength nm Fig 3 1 Spectral response 3 7 2 Spectral response Color Spectral Response Color Blue GreenNearBlue Red g rr _ P k P O P h GreenNearRead L d n k lt s R W 0 1 2 2 0 05 300 400 500 600 700 800 900 1000 1100 Wavelength nm Fig 3 2 Spectral response ISVI 25M SERIES 4 Camera Interface 4 1 General Description As shown in the following figure 4 types of connectors and status indicator LED are located on the back of the camera and have the functions as follows 1
21. n a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense 15 Visit our web site at http www svi corp com 38
22. ra is Hirose 6 pin connector part Z HR10A 7R 6PB Pin arrangement and configuration are as follows 4 Fig 4 6 Power Input Connector 6 Power plug can be configured using the Hirose 6 pin plug part 4 HR10A 7R 6P or compatible parts enclosed in the camera box For power supply it is recommended to use the power adaptor with over 1A current output at 12VDC 10 voltage output 4 5 Control Connector The control connector used is Hirose 4 connector part Z 7 45 and consists of external trigger signal input and strobe output port Pin arrangement and configuration are as follows 12 25M SERIES pin No Signal Name Trigger Fig 4 7 Control 4 6 Trigger Input Circuit Following figure shows trigger signal input circuit of 4 pin connector Trigger signal entered is delivered to internal circuit through photo coupler Minimum trigger width that can be recognized at camera is 5 5 If trigger signal entered is less than 5us trigger signal is ignored in camera External trigger signal can approve signals to the circuits in the 2 methods shown below CAMERA TRIGGER INPUT 2 Driver HR10A 7P 4S Fig 4 4 Trigger Input Schematic 4 7 Strobe Output Circuit Strobe output signal is output through TTL Driver IC of 3 3 V output level and pulse width of signal is output in synchronization with exposure of
23. rate light sensitive rows for the next ERS frame It is essential that the shutter be opened at some point in this time window otherwise the first ERS frame will not be uniformly integrated global read start gt global shutter start 15 25M SERIES Trigger global rst end gt lobal read start global shutter start HJ Wait for end of current row Automatic at end of frame readout 2 line length db SHUTTER Fig 5 2 Gontrolling the SHUTTER Output 5 2 Trigger operation Trigger mode of camera is divided into Free Run mode where image is synchronized to Internal Trigger signal created inside camera and External Sync mode where image is synchronized to the trigger signal entered in external port 5 1 2 Free Run Mode In Free Run mode the cycle of internal trigger signal is determined by Transfer Time 1 Frame data transmission time and Exposure setting value and image is obtained with such periodic signal of internal signal that is Frame Rate is determined with the following 2 conditions Programmed Programmed Programmed xposure Time Exposure Time Massi Time EXPOSURE dir Exposure TW Transfer Time TransferTime 4 TransferTime oe 140 9 Total Frame Transfer Time
24. ts 4 Tabs x 12 Bats Fig 8 5 Camlsv Connect Base A B Two Port Output Medium A B C D Four Port Output gt Full 8Tap A B C D F G H Eight Port Output gt Full 1018 F G H jJ Ten Port Output Temperature 58 5 137 3 F gt Read Read Current temperature of Sensor 56 F Camera Operation Run Run Sensor Stop Stop Sensor 30 isvi 29M SERIES 8 3 Trigger Live Windows Control EE ESTE View Control Help 9 Main 11 Trigger Live gt Gain AWB L Correction 2 Terminal Continuous Mode Free Run Trigger Mode Trigger Master Trigger Slave Polarity e Active Low Active High SOURCE Camera Link External External Exposure Time Strobe Polarity Active Low Active High Strobe Time 8 Image Mirror Horizontal Mirror zl Model Sensor Rev Ho FPGA Rey Size COMM 9500 8 6 Windows Continuous Mode Free Regardless external trigger it s output image based on designated exposure time ol 25M SERIES Trigger gt Trigger Master It s output an image through designated exposure time by Source Trigger Camera Link amp External Trigger Slave It s output an image through designated Trig Width by Source Trigger Camera Link amp External Active low It s for setting active mod
25. ve between circuit GND and camera body 3 4 Input signal specification B TRIG Camera Link I F CC1 and External Control connector input Signal level level Polarity Positive Negative switching Factory default Negative Pulse width 1zgsec or more 3 9 Operating ambient conditions Performance assurance Temperature 0 to 40 Humidity 20 90 RH Non Condensing Operation guaranteed Temperature 5 to 50 Humidity 10 to 90 dew formation Storage Temperature Temperature 20 to 60 Humidity 90 or less No dew formation 25M SERIES 3 6 Various safety standards Performance assurance CE AoC Test Standard 2004 108 EC EN 55022 2006 A1 2007 Class A Equipment EN 55024 1998 A1 2001 A2 2003 FCC Verification Test Standard Section 15 107 Section 15 109 Class A Equipment NOTE This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in wh
26. ze COMM 9600 Fig 8 2 Main Windows Output Its available to check the connection between Grabber and Camera through the Terminal screen displayed command code from PC to Camera 27 25M SERIES Information Model Camera Model Display Sensor Rev Sensor Version Display gt H W No Camera PBA Version Display H W Camera FPGA Firmware Version Display gt X size Camera X Axis Full Resolution 5056 P Y size Camera Y Axis Full Resolution 5056 Mode 1 Normal Current Mode ROI H will be used when user want to set customized resolution Width 828 Using multiple of 64 Lenqth SIZE Starting point Lenqth SIZE Width SIZE Starting point Using a multiple of 64 Center Align Deselect Length SIZE Endpoint Width SIZE Endpoint Fig 8 3 ROI Windows Genter Align select 28 25M SERIES Mode 2 Off No amp Sub Sampling Binning 2496 2496 Sensor output to 2x2 Binning color camera not acceptable Sub Sampling 2496 2496 Sensor output to 2x2 Sub Sampling mode Test Pattern Test Pattern Off Normal Mode Pattern 1 Pattern 2 Pattern 3 Pattern 4 TTE Pattern 4 Mono Pattern 4 Color Fig 8 4 Test Pattern 25M SERIES Camera Link Output Format Medium 8 10 4 Tabs x B 45 4 Tabs x 10 Sa
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