background image

SVS-VISTEK 

Specifications 

100 

8.4

 

Evo2050*FLGEC  

 

Model 

evo2050MFLGEC 

evo2050CFLGEC 

familiy 

EVO 

EVO 

active pixel w x h 

1600 x 1200 

1600 x 1200 

max. frame rate 

65,4 fps 

65,4 fps 

chroma 

mono 

color 

interface 

Dual GigE Vision 

Dual GigE Vision 

 

 

 

   

   

   

sensor name 

KAI-02050-A 

KAI-02050-C 

sensor manufacturer 

ON Semiconductor 

ON Semiconductor 

sensor architecture 

Area CCD 

Area CCD 

shutter type 

progressive scan 

progressive scan 

equivalent format 

2/3" 

2/3" 

diagonal 

11,0 mm 

11,0 mm 

pixel w x h 

5,5x5,5 µm 

5,5x5,5 µm 

optic sensor w x h 

8,8x6,6 mm 

8,8x6,6 mm 

exposure time 

8 µs / 60s 

8 µs / 60s 

max. gain 

18 dB 

18 dB 

dynamic range 

56 dB 

56 dB 

S/N Ratio 

   

   

 

 

 

   

   

   

frame buffer 

128 MB 

128 MB 

CL_geometry 

frequency select 

camera pixel clock  

40 MHz 

40 MHz 

exp. time adjustment 

manual;auto;external  manual;auto;external 

px format 8 / 12 / 16 

x / x / - 

x / x / - 

packed readout 

max binning h / v 

2 / 2 

2 / 2 

LUT 

12to8(1) 

12to8(1) 

ROI 

white balancing 

auto;manual 

tap balancing 

manual;auto 

manual;auto 

gain 

manual 

manual 

black level 

manual 

manual 

PIV mode 

readout control 

manual;delayed 

manual;delayed 

flat field correction 

shading correction 

defect pixel correction 

off;factory;custom 

off;factory;custom 

image flip 

horizontal;vertical 

horizontal;vertical 

   

   

   

Summary of Contents for eco4050TR

Page 1: ...3 23 2017 Manual EVO Tracer series evo1050TR evo2050TR evo2150TR eco4050TR evo4070TR evo8051TR ...

Page 2: ...quisite for safe work is compliant with all specified safety and handling instructions Accident prevention guidelines and general safety regulations shoud be applied Illustrations in this Operation Manual are provided for basic understanding and can vary from the actual model of this camera No claims can be derived from the illustrations in this Operation Manual The camera in your possession has b...

Page 3: ...are 12 4 4 1 SVCapture 2 x 12 4 5 Firmware 19 4 5 1 Firmware Update GigE 19 4 6 GigE IP Setup 19 4 7 Driver Circuit Schematics 21 5 Connectors 22 5 1 GigE Vision 22 5 1 1 Network TCP IP 22 5 1 2 XML Files 25 5 2 Dual GigE Vision 25 5 2 1 Network TCP IP 25 5 2 2 Single line operation of dual GigE cameras 26 5 2 3 Teaming Dual GigE 27 5 2 4 XML Files 29 5 3 GigE Vision 29 5 3 1 Network TCP IP 29 5 3...

Page 4: ...p Balancing 55 7 2 4 System Clock Frequency 56 7 2 5 Temperature Sensor 56 7 2 6 Read Out Control 56 7 2 7 Basic Capture Modes 57 7 2 8 LookUp Table 60 7 2 9 ROI AOI 62 7 2 10 Defect Pixel Correction 63 7 2 11 Shading Correction 64 7 3 I O Features 65 7 3 1 Assigning I O Lines IOMUX 65 7 3 2 Strobe Control 72 7 3 3 Sequencer 79 7 3 4 PWM 81 7 3 5 PLC Logical Operation on Inputs 83 7 3 6 Serial dat...

Page 5: ... 12 Evo8050 FLGEC 120 8 13 Evo8051 FLGEA 123 8 14 Evo8051 FLGEC 125 9 Terms of warranty 128 10 Troubleshooting 129 10 1 FAQ 129 10 2 Support Request Form Check List 130 11 IP protection classes 132 12 Glossary of Terms 133 13 Index of figures 136 14 Index 139 ...

Page 6: ...serious injury CAUTION Caution indicates a hazard with a low level of risk which if not avoided will result in death or serious injury Risk of damage PROHIBITION A black graphical symbol inside a red circular band with a red diagonal bar defines a safety sign that indicates that an action shall not be taken or shall be stopped CAUTION A black graphical symbol inside a yellow triangle defines a saf...

Page 7: ... including interference that may cause undesired operation 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 freq...

Page 8: ...Ds or modern first class CMOS sensors The GigE Vision and GenICam standards ensure rapid integration into the application software and enable safe cost effective transmissions of the image data over a distance of 100 m with standard network technology Maximum camera technology in the smallest package 3 2 GigE Vision features GigE Vision is an industrial interface standard for video transmission an...

Page 9: ...rogramming interface or via GenICam properties This makes integration of dynamic lens control into third party software possible with no effort Power supply and data control for the lens are done through the MFT bayonet so no external cables are visible The MFT lenses are optically optimized for sensors up to 1 3 perfectly suited for machine vision sensors The optical construction defined by the M...

Page 10: ...he camera make sure the power supply has enough power not to fail when the camera is putting light ON The integrated sequencer allows multiple exposures with settings to be programmed creating new and cost effective options Logical functions like AND OR are supported Up to 4 x open drain high power OUT Up to 4 x high voltage IN TTL up to 25 Volts Power MOSFET transistors PWM strobe control Sequenc...

Page 11: ...r to specifications 4 3 Flashing LED Codes On power up the camera will indicate its current status with a flashing LED on its back The LED will change color and rhythm The meaning of the blinking codes translates as follows Table 1 table of flashing LED codes Flashing Description Yellow slow 1Hz No Connection Yellow quickly 8 Hz Assignment of Network address Yellow permanent Network address assign...

Page 12: ...SVCapture 2 x a viewer controler program for SVCam USB3 cameras PC USB3 driver filter driver TL_Driver GenICam drivers and transport layer DDLs SVCapture 2 x is a XML based software tool provided for free It is created to show the capabilities of your SVS Vistek camera and to show modify values to your cam Get control of exposure timing trigger delay image correction etc or control up to 4 LED lig...

Page 13: ...ion prosecco may differ from PC to PC It is recommended to install the whole software package 1 Copy expand the installation executable file to your hard drive 2 Run installation 3 Read and accept the terms of license agreement 4 Choose destination folder ...

Page 14: ...c driver included in the windows system will not match all SVS VISTEK USB3 Vision features 6 Start installation 7 System warning The installer will modify your system USB 3 0 driver there for windows systems will warn you with an interrupt Accept system modification ...

Page 15: ...SVS VISTEK Getting Started 15 Installation will proceed 8 Installation completed ...

Page 16: ...Camera connected to the USB slot no XML camera properties can be loaded no values to control are available The screen will be empty Connect the camera to your USB 3 0 slot Hardware installation will pop up Discover the camera with SVCapture 2 x by clicking discover Connected cameras will be listed Choose your camera ...

Page 17: ...SVS VISTEK Getting Started 17 Conform to GenICam all control features will be listed in a flat tree diagram ...

Page 18: ...nd the USB 3 0 driver within your hardware manager Firmware update From time to time make sure your camera is running up to date firmware A firmware update tool is integrated in the software Internet connection needed In case there is no connection contact your local support ...

Page 19: ...l and the firmware file from the SVS Vistek website Unpack everything into any folder e g C temp Ensure proper network configuration Run the GigE update tool Your camera should appear choose camera by entering camera index e g 1 and press ENTER Figure 4 searching the camera to be updated Wail until firmware update has been finished Figure 5 firmware update has just been executed 4 6 GigE IP Setup ...

Page 20: ...a menu will show up with 3 options Depending on whether you want the network changes to be permanent or not choose one of these options 1 Force IP address Setup of a network address This dialog will put a new IP address with subnet to the camera This address is volatile it will be lost as soon the camera is powered off Automatic mode will try to setup a valid network address via DHCP LLA 2 Network...

Page 21: ...SVS VISTEK Getting Started 21 4 7 Driver Circuit Schematics Figure 6 basic Illustration of driver circuit ...

Page 22: ...d until the next restart of the Camera For a peer to peer connection of a GigE camera to a PC a network address assignment based on LLA Local Link Address is recommended This involves a network mask 255 255 0 0 as well as a fixed preamble 169 254 xxx xxx of the network address range A GigE camera will fall back to LLA when no DHCP server is available and no fixed network address was assigned to th...

Page 23: ...r data upon each data packet sent FIGURE 8 ILLUSTRATION OF DATA REDUCTION WITH JUMBO FRAMES NOTICE Higher packet sizes require network cards that support jumbo packets Packet lost In accordance with the TCP protocol lost or corrupted packages will be resent NOTICE Resends result in higher consumption of bandwidths and will lead to drop frames High quality cables prevent resends ...

Page 24: ...ON MULTI NIPS Multiple Cameras connected by a Switch To connect multiple cameras by a switch the switch must be managed It might also be necessary to operate the cameras in an inter packet delay applying a smother image data stream FIGURE 10 ILLUSTRATION OF CONNECTING MULTIPLE CAMERAS WITH A SWITCH Dual GigE Connection is not supported when using a switch NOTICE Performance might be lost using mul...

Page 25: ... Illustration of a camera casting to multiple receivers multicast 5 1 2 XML Files According to the GigE Vision standard a GigE camera provides an XML file that defines the camera s capabilities and current settings The XML file can be processed by software like SVCapture allowing displaying and saving it to disk Settings can also be saved and restored on the Camera internal EEPROM 5 2 Dual GigE Vi...

Page 26: ...er right network port for single line operation NOTICE Any dual GigE camera can be run as well with a single network connection NOTICE Dual GigE connection is required only if single network connection does not provide sufficient bandwidth For dual GigE operation 2 NICs need to be teamed NIC teaming is a feature of the operating system Figure 12 physical layout of RJ45 female connector ...

Page 27: ...s 2 network interfaces or a dual NIC The configuration below shows the configuration Figure 13 Teaming configuration on network adapter Intel pro 1000 dual Windows7 After naming your Team select doth dual port adapters to team NOTICE Windows 10 does not support static link aggregation You need to run win7 win8 macOS or linux if you want to use dual GigE ...

Page 28: ...by using jumbo frames This will reduce overhead caused by maintaining header data upon each data packet sent For Dual GigE Vision a value of 16128 Byte per package is recommended instead of 9056 B Figure 16 Illustration of data reduction with jumbo frames NOTICE Higher packet sizes require network cards that support jumbo packets Packet lost In accordance with the TCP protocol lost or corrupted pa...

Page 29: ...ors Address Assignment By default the camera does not have a persistent IP address When forcing an IP address by using the PC internal network dialog changes are only valid until the next restart of the Camera For a peer to peer connection of a GigE camera to a PC a network address assignment based on LLA Local Link Address is recommended This involves a network mask 255 255 0 0 as well as a fixed...

Page 30: ...OTICE Higher packet sizes require network cards that support jumbo packets Packet loss In accordance with the TCP protocol lost or corrupted packages will be resent NOTICE Resends result in higher consumption of bandwidths and will lead to drop frames High quality cables prevent resends ...

Page 31: ... on multi NIPs Multiple Cameras connected by a Switch To connect multiple cameras by a switch the switch must be managed It might also be necessary to operate the cameras in an inter packet delay applying a smother image data stream Figure 20 Illustration of connecting multiple cameras with a switch Dual GigE Connection is not supported when using a switch NOTICE Performance might be lost using mu...

Page 32: ...SVS VISTEK Connectors 32 ...

Page 33: ...lications to connect to the same image data stream Other applications will become listeners to an existing image data stream They do not have control access to the camera however potential packet resend requests will be served in the same manner as for the controlling application Figure 21 Illustration of a camera casting to multiple receivers multicast 5 3 2 XML Files According to the GigE Vision...

Page 34: ... I O is IP67 certified This connector is used Power supply for the camera I O in and outputs RS232 and RS422 connection For detailed information about using the I O and switching lights from inside the camera refer to strobe control Figure 22 Illustration of M12 I O connector and pin out 5 4 2 M12 Ethernet Connector Some Tracer and BlackLine models use an IP67 certified M12 Ethernet connector It p...

Page 35: ...A67TR evo1050MFLGEC67TR evo2050CFLGEA67TR evo2050CFLGEC67TR evo2050MFLGEA67TR evo2050MFLGEC67TR evo2150CFLGEA67TR evo2150CFLGEC67TR evo2150MFLGEA67TR evo2150MFLGEC67TR evo4050CFLGEA67TR evo4050CFLGEC67TR evo4050MFLGEA67TR evo4050MFLGEC67TR evo4070CFLGEA67TR evo4070CFLGEC67TR evo4070MFLGEA67TR evo4070MFLGEC67TR evo8050CFLGEA67TR evo8050CFLGEC67TR evo8050MFLGEA67TR evo8050MFLGEC67TR evo8051CFLGEA67T...

Page 36: ...SVS VISTEK Dimensions 36 ...

Page 37: ...SVS VISTEK Dimensions 37 ...

Page 38: ...nts a single line in the resulting image When light falls onto the sensor elements photons are converted into electrons creating a proportional light input signal Figure 23 Illustration Cross section of a CCD sensor from Sony Charge is an integration of time and light intensity on the element Like this the image gets brighter the longer the CCD cell is exposed to light The sensor converts light in...

Page 39: ... the vertical registers is transferred line by line into the horizontal shift register Between each downward transfer of the vertical register the horizontal register transfers each line the output stage where charge is converted to a voltage amplified and sent on to the ADC When all lines in the image have been transferred to the horizontal register and read out the vertical registers can accept ...

Page 40: ...r interlaced scan modes all pixels are exposed at the same time Fast moving objects will be captured without showing movement distortion Figure 26 motion blur Figure 27 rolling shutter with moving objects Figure 28 interlaced effect Figure 25 Rolling shutter with fast moving object details ...

Page 41: ...500ms 20 50 ms 24 41 6 ms Cinema 25 40 ms PAL progressive 29 97 33 366700033 ms NTSC 30 33 33 ms NTSC 50 20 ms PAL interlaced 75 13 33 ms 100 10 ms Virtually any value within the specification can be chosen Maximum frame rate depends on Pixel clock Image size Tap structure Data transport limitation Processing time 7 1 5 Acquisition and Processing Time The whole period of tome a picture is exposed ...

Page 42: ... first priority is to adjust the exposure time and if the exposure time range is not sufficient gain adjustment is applied It is possibility to pre define the range min max values of exposure time and of gain The condition to use this function is to set a targeted averaged brightness of the camera image The algorithm computes a gain and exposure for each image to reach this target brightness in th...

Page 43: ...er pixel 12 bits to 212 4096 values per pixel 16 bit to 216 65536 values per pixel Every additional bit doubles the number for quantification SVCam output is 8 12 or 16 bit depending on your camera model and the way you read the values from the camera Be aware that increasing the bit format from 8 to 12 bit also increases the total amount of data According to the interface framerates can be limite...

Page 44: ...SVS VISTEK Feature Set 44 Figure 33 Figure of original picture black white Figure 34 Figure of quantification with 6 shades of gray reduced colour depth ...

Page 45: ...rmance of the image depends on the software used NOTICE It is recommended to use a IR cut filter for color applications White Balance The human eye adapts to the definition of white depending on the lighting conditions The human brain will define a surface as white e g a sheet of paper even when it is illuminated with a bluish light White balance of a camera does the same It defines white or remov...

Page 46: ...n the active and the effective resolution of almost every sensor Some pixels towards the borders of the sensor will be used only to calibrate the sensor values These pixels are totally darkened The amount of dark current in these areas is used to adjust the offset Figure 37 Illustration of active and effective sensor pixels ...

Page 47: ... cut off by the offset Most noise is proportional to temperature To spare you regulating the offset every time the temperature changes A precedent offset is set by the camera itself It references certain pixels that never were exposed to light as black refer to resolution active and effective So the offset will be set dynamically and conditioned to external influences The offset can be limited by ...

Page 48: ...phy adding gain corresponds to increasing ISO add 6 dB double ISO value 6 dB 400 ISO 12 dB 800 ISO 18 dB 1600 ISO 24 dB 3200 ISO Figure 39 Table of dB and corresponding ISO NOTICE Gain also amplifies the sensor s noise Therefore gain should be last choice for increasing image brightness Modifying gain will not change the camera s dynamic range Figure 40 noise caused by increasing gain excessively ...

Page 49: ...irrored horizontally or vertically Image flip is done inside the memory of the camera therefore not increasing the CPU load of the PC Figure 41 Figure of original image Figure 42 Figure of image horizontally flipped Figure 43 Figure of image vertically flipped ...

Page 50: ...ghboring pixels directly on the chip before readout Binning is only used with monochrome CCD Sensors For reducing resolution on color sensors refer to decimation Vertical Binning Accumulates vertical pixels Figure 44 Illustration of vertical binning Horizontal Binning Accumulates horizontal pixels Figure 45 Illustration of horizontal binning 2 2 Binning A combination of horizontal and vertical bin...

Page 51: ...ate by reducing the region you are interested in Figure 47 Horizontal decimation Figure 48 Vertical decimation Decimation on Color Sensors The Bayer pattern color information is preserved with 1 3 horizontal and vertical resolution The frame readout speed increases approx by factor 2 5 Figure 49 Illustration of decimation on color sensors 7 1 16 Burst Mode The hardware interface GigE USB3 etc of y...

Page 52: ...the camera on USB cameras the maximum sensor speed is limited to the maximum interface speed This means the maximum trigger frequency cannot be higher than camera freerun frequency The image buffer will protect against breaking datarates of the USB line though Usage of Burst Mode Burst Mode has 2 main purposes If transfer speed breaks down e g Ethernet transfer rate due to high network load tolera...

Page 53: ...parallel The tap geometry is describing how many taps are read and how they are transmitted through the Camera Link interface 7 2 2 Tap Structure Your camera may be equipped with a two four or even higher taped sensor Tap configuration For information according to your sensor refer to specifications Figure 51 Illustrations of the nomenclature used in specifications Single Tap Camera Tap config Tap...

Page 54: ... a dual tap CCDs CCD with two outputs the readout of pixel charge takes place in a serial parallel sequence Each line is divided in half and the pixels of both halves are read out simultaneously line by line For a given pixel clock frequency only half the time is required to read out the entire array resulting in twice the framerate Figure 55 Illustration of 2 taps Quad Tap Figure 56 Figure of 4 t...

Page 55: ...al coming from the CCD The fact that the separate analog output channels not being perfectly linear and the separate output amplifiers having physically different slopes leads to the necessity to sometimes manually or automatically adjust the gain levels of each channel independently to obtain a homogenous image Automatic Tap Balancing Automatic Tap Balancing analyses a narrow strip at the border ...

Page 56: ... temperature sensor is installed on the mainboard of the camera To avoid overheating the temperature is constantly monitored and read Besides software monitoring the camera indicates high temperature by a red flashing LED See flashing LED codes 7 2 6 Read Out Control Read Out Control defines a delay between exposure and data transfer Read Out Control is used to program a delay value time for the r...

Page 57: ... width External trigger and pulse width controlled exposure time In this mode the camera is waiting for an external trigger which starts integration and readout Exposure time can be varied using the length of the trigger pulse rising edge starts integration time falling edge terminates the integration time and starts frame read out This mode is useful in applications where the light level of the s...

Page 58: ...era will initiate the exposure The software provided by SVS Vistek allows the user to set exposure time e g from 60 μs 60 Sec camera type dependent Exposure time of the next image can overlap with the frame readout of the current image trigger pulse occurs when FVAL is high When this happens the start of exposure time is synchronized to the negative edge of the LVAL signal see figure When the risi...

Page 59: ... VISTEK Feature Set 59 Software Trigger Trigger can also be initiated by software serial interface NOTICE Software trigger can be influenced by jitter Avoid Software trigger at time sensitive applications ...

Page 60: ...ease by applying an S shaped curve The maximum resolution is shifted to the mid range Contrasts in this illumination range is increased while black values will be interpreted more black and more of the bright pixels will be displayed as 100 white For further Information about curves and their impact on the image refer to our homepage Knowledge Base LUT Figure 60 illustration of a custom LUT adding...

Page 61: ... a Gamma value between 1 8 up to 2 55 The Gamma algorithms for correction can simplify resolution shifting as shown seen above Input Output signal range from 0 to 1 Output Signal Input SignalGamma Figure 61 illustration of several gamma curves comparable to a LUT Gamma values less than 1 0 map darker image values into a wider ranger Gama values greater than 1 0 do the same for brighter values NOTI...

Page 62: ...ustration of AOI limitation on a CCD sensor Selecting an AOI will reduce the number of horizontal lines being read This will reduce the amount of data to be transferred thus increasing the maximum speed in term of frames per second With CCD sensors setting an AOI on the left or right side does not affect the frame rate as lines must be read out completely ...

Page 63: ...onditions or high temperature environments additional defect pixels can may appear These can be corrected A factory created defect map SVS map defying known defects is stored in the camera A custom defect map can be created by the user A simple txt file with coordinates has to be created The user must locate the pixel defects manually The txt file can be uploaded into the camera Beware of possible...

Page 64: ...12 bit loss of dyn range In the camera analog Change gain offset locally on sensor to get optimum shading correction with only small changes in dynamic range Performing builtin shading correction In order to perform a correction for an image with non uniform image a reference white image is captured This will allow creating correction values to adjust the pixels by individual gain settings 8 frame...

Page 65: ...bining inputs with Boolean arguments Figure 64 IN0 connected to debouncer LineSelector translation Line0 Output0 Line1 Output1 Line2 Output2 Line3 Output3 Line3 Output4 Line5 Uart In Line6 Trigger Line7 Sequencer Line8 Debouncer Line9 Prescaler Line10 Input0 Line11 Input1 Line12 Input2 Line13 Input3 Line14 Input4 Line15 LogicA Line16 LogicB Line17 LensTXD Line18 Pulse0 Line19 Pulse1 Line20 Pulse2 ...

Page 66: ...data lines Individual assignments can be stored persistently to the EPROM Default setting can be restored from within the Camera Note If you connect the camera with a non SVS Vistek GigEVision client you might not see the clearnames of the lines but only line numbers In this case use this list of line names Line22 Uart2 In ...

Page 67: ...lso the IOMUX can be illustrated as a three dimensional dice Long address spaces indicate which signals are routed to witch module within the camera Figure 65 illustration of the backside view of the camera mudules The side of the switch matrix connections will be made withn a 1 instead of a 0 ...

Page 68: ...SVS VISTEK Feature Set 68 Figure 66 illustration of frontside view to the camera modules Lines with open end indicate physical in and outputs ...

Page 69: ...sequenzer_0 10 expose input 11 readout input 12 r_sequenzer_pulse_a output from module iomux_sequenzer_0 pulse 13 rr_pwm_out_c output from module iomux_sequenzer_0 14 rr_pwm_out_d output from module iomux_sequenzer_0 15 r_sequenzer_active output from module iomux_sequenzer_0 16 r_debouncer output from module iomux_dfilter_0 17 r_prescaler output from module iomux_prescaler_0 18 r_sequenzer_pulse_b...

Page 70: ...ounce input input to module iomux_dfilter_0 9 prescale input input to module iomux_prescaler_0 10 logic inputa input to module iomux_logic_0 11 logic inputb input to module iomux_logic_0 12 mft_txd output 13 pulseloop hw_trigger input to module iomux_pulseloop_0 14 pulseloop hw_trigger input to module iomux_pulseloop_1 15 pulseloop hw_trigger input to module iomux_pulseloop_2 16 pulseloop hw_trigg...

Page 71: ...ra is exposing the sensor connect line 17 to 14 signal from pulse loop module 1 appears on line 7 connect line 7 to 1 output 1 Turn of a light that was ON during the time between two pictures connect line 17 to 15 invert signal from pulse loop module 2 it appears on line 20 connect line 20 to 2 output 2 Inverter Set to 1 Inverter and set to 1 is part of every input and every output of the modules ...

Page 72: ... controller saving costs High frequency pulse width modulation PWM for no flickering Power to the LED light is provided through power of the camera Setting of pulse duty cycle is controlled via data connection PC LED lights can be controlled over 4 different channels that can be used simultaneously or independent from each other According to the I O specification of your camera two or four canals ...

Page 73: ...s For further information using the breakout box and simplifying OIs refer SVCam Connectivity manual To be found separate within the USP manuals Figure 69 Illustration of conventional schematic electric circuit USE RIGHT DIMENSION OF RESISTOR To avoid overload of Driver make sure to use the right dimension of resistor If not done so LEDs and or Camera might be damaged ...

Page 74: ...d outputs All timing settings are programmable in 15ns intervals P R O G R A M M A B L E P A R A M E T E R S Trigger source hardware or software Edge or level trigger HW trigger Pulse output starting on low or high level Pre and post duration time Number of loops E X A M P L E A P P L I C A T I O N S Initiated by an external trigger the camera drives an LED illumination directly from the open drai...

Page 75: ... Three cameras are triggered in cascade where the first camera is the master receiving the external trigger and the master subsequently triggers the two slave cameras Figure 72 pulseloop activating three cameras M O D U L E P U L S E L O O P ...

Page 76: ...75 W Power Loss at Resistor 𝟏𝟏 𝑽 𝟐𝟐𝟐 𝒎𝒎 3 25 W LEDs in Flash Mode The MOS FETs at OUT1 and OUT2 are used like a switch By controlling on time and off time duty cycle the intensity of light and current can be controlled Current time ON within a 1 Sec PWM 0 75 A 500 ms 50 1 A 300 ms 33 3 2 A 70 ms 7 3 A 40 ms 4 Example If pulse is 1 5 A the max on time is 150 mSec This means the off time is 850 mSec...

Page 77: ... is 0μs 7 3 2 1 2 Strobe Polarity Positive or negative polarity of the hardware strobe output can be selected 7 3 2 1 3 Strobe Duration The exposure time of LED lights can be set in µsec The min duration is 1 µsec The longest time is 1 second 7 3 2 1 4 Strobe Delay The delay between the logical positive edge of trigger pulse and strobe pulse output can be set in µsec Unit is 1μs Default is 0μs ...

Page 78: ...SVS VISTEK Feature Set 78 Strobe Control Example Setup Figure 73 Illustration of an application using the 4IO ...

Page 79: ...re Start µs Exposure delay after Interval start Exposure Stop µs Exposure Stop related to Interval Start Strobe Start µs Strobe delay after Interval start Strobe Stop µs Strobe Stop related to Interval Start PWM Frequency T Basic duty cycle 1 Hz for PWM PWM Line 1 Demodulation Result PWM Line 2 Demodulation Result PWM Line 3 Demodulation Result PWM Line 4 Demodulation Result Values can be set for ...

Page 80: ...00 µs 875 000 µs 190 000 µs Exposure Stop 700 000 µs 125 000 µs 720 000 µs Strobe Start 110 000 µs 125 000 µs 350 000 µs Strobe Stop 875 000 µs 875 000 µs 875 000 µs PWM Frequency 4 Hz 4 Hz 4 Hz PWM Line 0 100 0 80 PWM Line 1 20 50 0 PWM Line 2 0 100 30 PWM Line 3 Trigger set to negative slope Use higher frequencies Figure 74 illustration of three sequencer intervals ...

Page 81: ...rtain voltage range such as diodes or LEDs Diode characteristic Since LEDs have a bounded workspace the PWM ensures a variable intensity of illumination at a constant voltage on the diodes In addition the lifetime of a diode increases The internal resistance is ideal in this area The diode gets time to cool down when operated with a PWM in its workspace Implementation of PWM Modulation frequency T...

Page 82: ...y PWMChange0 3 SeqSelector is to be written as a percentage value E X A M P L E S O F P W M S Figure 75 25 intensity Figure 76 50 intensity Figure 77 75 intensity The integrals over both periods 𝑇𝐴 and 𝑇𝐴 are equal 𝐀 𝑡𝐴2 𝑡𝐴1 𝐁 𝑡𝐵2 𝑡𝐵1 An equal amount of Photons will be emitted The intensity of light is the same 𝑡𝐴2 𝑡𝐴1 𝑡𝐵2 𝑡𝐵1 The periods 𝑇𝐴 and 𝑇𝐵 are equal in length T H E P W M M O D U L E ...

Page 83: ...on the logic input The result can be connected to a camera trigger signal or it may be source for the next logical operation with another input It is possible to connect it to an OUT line as well AND Both trigger inputs have to be true A B Y A B 0 0 0 0 1 0 1 0 0 1 1 1 NAND The NEGATIVE AND is true only if its inputs are false Invert the output of the AND module A B Y A NAND B 0 0 1 0 1 1 1 0 1 1 ...

Page 84: ...h or a low level pulse_out Invert both trigger inputs By inverting the resulting pulse_out you will get the NOR I pulse A B Y A B NOR Y A B NOR i 0 0 1 0 0 1 0 1 1 0 0 1 1 1 0 1 7 3 6 Serial data interfaces ANSI EIA TIA 232 F RS 232 and RS 422 from EIA read as Radio Sector or commonly as Recommended Standard are technical standards to specify electrical characteristics of digital signaling circuit...

Page 85: ...e values are low 3 15 V high 3 15 V With restrictions refer to Table serial interface parameter above Data transportis asynchronous Synchronization is implemented by fist and last bit of a package Therefore the last bit can be longer e g 1 5 or 2 times the bit duration Datarate bits per second must be defined before transmission Serial interface Parameter RS 232 RS 422 Maximum open circuit voltage...

Page 86: ... implemented by the UART Universal Asynchronous Receiver Transmitter Figure 78 UART encoding of a data stream RS 422 RS 422 is a differential low voltage communication standard Figure 79 LVDS signal no return to zero volt Refer to specifications to see if RS 422 is implemented in your camera ...

Page 87: ...triggering to a certain value Schmitt trigger provides a threshold Figure 80 illlustration of schmitt trigger noise suspension high to low I low to high 7 3 8 Debouncing Trigger Signals Bounces or glitches caused by a switch can be avoided by software within the SVCam Figure 81 bounces or glitches caused by a switch during 300 µs ...

Page 88: ... enable the debouncer module in between the trigger schmitt trigger and the input source e g line 1 DebouncDuration register can be set in multiples of 15ns implement of system clock E g 66 666 1 ms Figure 82 block diagram debouncer in between the trigger source and the trigger The Debouncer module Figure 83 Illustration of the debouncer module ...

Page 89: ...ulting in 16 unique settings Reducing count of interpreted trigger signal Use the prescaler to ignore a certain count of trigger signals Divide the amount of trigger signals by setting a divisor Maximum value for prescale divisor is 16 4 bit Figure 84 illustration of prescale values The prescale module Figure 85 Illustration of the prescale module ...

Page 90: ...he sensor and camera internals from environmental influences IP67 models do have an IR cut filter by default Please refer to your camera order to see if a filter is built in Alternatively take a close look on the sensor Build in IR filters are screwed within the lens mount See figure below All kinds of filter can be ordered and placed in front of the sensors Please refer to your local distributer ...

Page 91: ...itivity of the sensor The spectral graph below shows the wavelength relative impact of the SVS VISTEK standard filter Figure 87 Diagram of light transmission IR cut filter Focal Impact of Filters As an IR cut filter mainly consist of a small layer of glass 1 mm thick there is an impact on the flange focal distance Refraction within the layer cause shortening this distance When ordering a standard ...

Page 92: ...tions IR Cut Filter 92 8 Specifications All specifications can be viewed as well on our website www svs vistek com We are proud to have ongoing development on our cameras so specs might change and new features being added ...

Page 93: ...tic sensor w x h 5 64x5 64 mm 5 64x5 64 mm exposure time 4 µs 60s 4 µs 60s max gain 18 dB 18 dB dynamic range 48 dB 48 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 50 MHz 50 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x packed readout max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto manual ...

Page 94: ...n out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount C Mount C Mount dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 7 0 W 7 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status production production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 20...

Page 95: ...sensor w x h 5 64x5 64 mm 5 64x5 64 mm exposure time 5 µs 60s 5 µs 60s max gain 18 dB 18 dB dynamic range 58 dB 58 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 40 MHz 40 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x x x packed readout x x max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto man...

Page 96: ...n out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount C Mount C Mount dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 6 0 W 6 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status production production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 20...

Page 97: ...SVS VISTEK Specifications 97 Spectral Sensitivity Characteristics KAI 01050 C Spectral Sensitivity Characteristics KAI 01050 A ...

Page 98: ...m optic sensor w x h 8 8x6 6 mm 8 8x6 6 mm exposure time 6 µs 60s 6 µs 60s max gain 18 dB 18 dB dynamic range 48 dB 48 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 50 MHz 50 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x packed readout max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto manual ...

Page 99: ...n out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount C Mount C Mount dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 7 0 W 6 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status production production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 20...

Page 100: ...tic sensor w x h 8 8x6 6 mm 8 8x6 6 mm exposure time 8 µs 60s 8 µs 60s max gain 18 dB 18 dB dynamic range 56 dB 56 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 40 MHz 40 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x x x packed readout x x max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto man...

Page 101: ...n out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount C Mount C Mount dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 6 0 W 7 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status production production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 20...

Page 102: ...SVS VISTEK Specifications 102 Spectral Sensitivity Characteristics KAI 02050 C Spectral Sensitivity Characteristics KAI 02050 A ...

Page 103: ...ic sensor w x h 10 56x5 94 mm 10 56x5 94 mm exposure time 6 µs 60s 6 µs 60s max gain 18 dB 18 dB dynamic range 48 dB 48 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 50 MHz 50 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x packed readout max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto manual...

Page 104: ...n out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount C Mount C Mount dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 7 0 W 7 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status production production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 20...

Page 105: ... sensor w x h 10 56x5 94 mm 10 56x5 94 mm exposure time 8 µs 60s 8 µs 60s max gain 18 dB 18 dB dynamic range 56 dB 56 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 40 MHz 40 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x x x packed readout x x max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto ...

Page 106: ...n out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount C Mount C Mount dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 6 0 W 6 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status production production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 20...

Page 107: ...SVS VISTEK Specifications 107 Spectral Sensitivity Characteristics KAI 02150 C Spectral Sensitivity Characteristics KAI 02150 A ...

Page 108: ...ic sensor w x h 12 85x9 64 mm 12 85x9 64 mm exposure time 6 µs 60s 6 µs 60s max gain 18 dB 18 dB dynamic range 48 dB 48 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 50 MHz 50 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x packed readout max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto manual...

Page 109: ...n out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount C Mount C Mount dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 7 0 W 7 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status production production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 20...

Page 110: ...sensor w x h 12 85x9 64 mm 12 85x9 64 mm exposure time 8 µs 60s 8 µs 60s max gain 0 dB 18 dB dynamic range 56 dB 48 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 40 MHz 40 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x x x packed readout x x max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto ma...

Page 111: ...n out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount C Mount C Mount dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 6 0 W 6 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status production production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 20...

Page 112: ...SVS VISTEK Specifications 112 Spectral Sensitivity Characteristics KAI 04050 C Spectral Sensitivity Characteristics KAI 04050 A ...

Page 113: ...ic sensor w x h 12 85x9 64 mm 12 85x9 64 mm exposure time 6 µs 60s 6 µs 60s max gain 18 dB 18 dB dynamic range 48 dB 48 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 50 MHz 50 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x packed readout max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto manual...

Page 114: ...n out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount C Mount C Mount dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 7 0 W 7 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status production production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 20...

Page 115: ...sensor w x h 15 2x15 2 mm 15 2x15 2 mm exposure time 8 µs 60s 8 µs 60s max gain 18 dB 18 dB dynamic range 66 dB 66 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 40 MHz 40 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x x x packed readout x x max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto man...

Page 116: ...24 V 2 2 outputs open drain 2 2 optical in out RS 232 in out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount M42 M42 dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 6 0 W 6 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 ...

Page 117: ...SVS VISTEK Specifications 117 Spectral Sensitivity Characteristics KAI 04070 C Spectral Sensitivity Characteristics KAI 04070 A ...

Page 118: ...optic sensor w x h 18 13x13 6 mm 18 13x13 6 mm exposure time 6 µs 60s 6 µs 60s max gain 18 dB 18 dB dynamic range 48 dB 48 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 50 MHz 50 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x packed readout max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto man...

Page 119: ... 232 in out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount M42 M42 dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 7 0 W 7 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status replaced replaced 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 2017 ...

Page 120: ...c sensor w x h 18 13x13 6 mm 18 13x13 6 mm exposure time 8 µs 60s 8 µs 60s max gain 18 dB 18 dB dynamic range 56 dB 56 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 40 MHz 40 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x x x packed readout x x max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto...

Page 121: ... 232 in out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount M42 M42 dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 6 0 W 6 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status replaced replaced 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 2017 ...

Page 122: ...SVS VISTEK Specifications 122 Spectral Sensitivity Characteristics KAI 08050 C Spectral Sensitivity Characteristics KAI 08050 A Figure 88 Spectral Sensitivity Characteristics KAI 08050 A A ...

Page 123: ...m optic sensor w x h 18 13x13 6 mm 18 13x13 6 mm exposure time 6 µs 60s 6 µs 60s max gain 18 dB 18 dB dynamic range 48 dB 48 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 50 MHz 50 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x packed readout max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing auto m...

Page 124: ...32 in out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount M42 M42 dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 7 0 W 7 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status production production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 2017 ...

Page 125: ...tic sensor w x h 18 13x13 6 mm 18 13x13 6 mm exposure time 8 µs 60s 8 µs 60s max gain 18 dB 18 dB dynamic range 56 dB 56 dB S N Ratio frame buffer 128 MB 128 MB CL_geometry frequency select camera pixel clock 40 MHz 40 MHz exp time adjustment manual auto external manual auto external px format 8 12 16 x x x x packed readout x x max binning h v 2 2 2 2 LUT 12to8 1 12to8 1 ROI 1 1 white balancing au...

Page 126: ...232 in out 1 1 1 1 RS 422 in out 1 1 1 1 power supply 10 25 V 10 25 V lens mount M42 M42 dynamic lens control size w h d 1 50x50x46 7 mm 50x50x46 7 mm weight 160 g 160 g protection class IP40 IP40 power consumption 6 0 W 6 0 W ambient temperature 10 45 C 10 45 C rel humidity non condensing 0 0 0 0 status replaced production 1 please refer to model drawings SVS VISTEK March 23 2017 March 23 2017 ...

Page 127: ...SVS VISTEK Specifications 127 Spectral Sensitivity Characteristics KAI 08051 C Spectral Sensitivity Characteristics KAI 08051 A ...

Page 128: ... authorization is issued Seller will inform Buyer of related repair and or replacement costs and request authorization before incurring such costs Buyer shall identify all returned material with Sellers invoice number under which material has been received If more than one invoice applies material has to be clearly segregated and identified by applicable invoice numbers Adjustment is contingent up...

Page 129: ...resent or don t have the proper quality the camera cannot read out any frame Mode 1 and 2 Beware of spikes on the signal Image is present but distorted Check the camera configuration file of your frame grabber Check number of front and back porch pixel Wrong numbers in configuration file can cause sync problems Check if your frame grabber can work with the data rate of the camera Image of a color ...

Page 130: ...n 7 XP Which Camera are you using Type e g svs3625MTHCPC Serial Number Which Accessories are you using Power Supply Cable Lens Type and Focal Length Firmware No of Version Operation Mode Please send a screenshot of ConvCam screen or log file In case of EURESYS Grabber Brand and Type Driver Version If Patch please specify Camera file used Short Description of Problem E g missing lines noisy image m...

Page 131: ...SVS VISTEK Troubleshooting 131 Space for further descriptions screenshots and log files ...

Page 132: ...ct when the enclosure is at an angle of 15 either side of the vertical 2 Protected against water droplets Droplets falling vertically must not have any harmful effect with enclosure at an angle of 15 either side of the vertical 3 Protected against spray water Water sprayed at any angle of up to 60 either side of the vertical must not have any harmful effect 4 Protected against water splashes Water...

Page 133: ...l Semiconductor interface Channel link It was designed for the purpose of standardizing scientific and industrial video products including cameras cables and frame grabbers Charge Coupled Device Commonly used technology used for camera sensors used to detect quantify light i e for capturing images in an electronic manner CCDs were first introduced in the early 70ies Complementary Metal Oxide Semic...

Page 134: ...nd below the desired area Typically applied to CCD sensors In most CMOS image sensors an AOI area of interest or ROI region of interest can be defined by selecting the area to be read This leads to increased frame rate The base clock beat that operates the sensor chip is It is typically also the clock with which pixels are presented at the output node of the image sensor A camera RAW image file co...

Page 135: ... 3 0 interface and uses USB 3 0 ports Components from different manufacturers will easily communicate with each other Cameras for industrial use usually provide a set of different trigger modes with which they can be operated The most common trigger modes are 1 Programmable shutter trigger mode Each image is captured with a pre defined shutter time 2 Pulse Width Control trigger The image capture i...

Page 136: ...l Windows7 27 Figure 14 team wizard 28 Figure 15 setting Static Link Aggregation SLA 28 Figure 16 Illustration of data reduction with jumbo frames 28 Figure 17 Back view of an SVCam EVO with Dual GigE M12 connectors 29 Figure 18 Illustration of data reduction with jumbo frames 30 Figure 19 Illustration of connecting multiple cameras on multi NIPs 31 Figure 20 Illustration of connecting multiple ca...

Page 137: ...Figure 49 Illustration of decimation on color sensors 51 Figure 1 table of tap geometry configurations 53 Figure 51 Illustrations of the nomenclature used in specifications 53 Figure 52 Figure of 1 Tap 54 Figure 53 Illustration of 1 tap 54 Figure 54 Figure of 2 taps 54 Figure 55 Illustration of 2 taps 54 Figure 56 Figure of 4 taps 54 Figure 57 Illustration of 4 tap 54 Figure 1 Figure of an unbalan...

Page 138: ...intensity 82 Figure 78 UART encoding of a data stream 86 Figure 79 LVDS signal no return to zero volt 86 Figure 80 illlustration of schmitt trigger noise suspension high to low I low to high 87 Figure 81 bounces or glitches caused by a switch during 300 µs 87 Figure 82 block diagram debouncer in between the trigger source and the trigger 88 Figure 83 Illustration of the debouncer module 88 Figure ...

Page 139: ... CCD 38 47 50 55 62 Clock 56 Color 45 51 Compact Power 8 Connecting multiple Cameras 24 31 Connectors 22 Contents of Camera Set 11 Continuously Tap Balancing 55 ConvCam 130 Correction 63 Cycle duration 81 dark noise 47 dB 48 debouncer 65 88 Debouncing 87 Debouncing Trigger Signals 87 Decimation 51 Decimation on Color Sensors 51 defect map 63 Defect Pixel Correction 63 Detailed Info of External Tri...

Page 140: ...zation 16 Input output connectors 34 input vector to switch matrix 69 Interline Transfer 39 interval 79 Inverter 71 Inverter Set to 1 71 IO Assignment 87 IP protection classes 132 IR cut filter 45 90 ISO 48 Jumbo Frames 23 28 29 Kelvin 45 LED 56 LED Codes 11 LEDs 81 LEDs in Continuous Mode 76 LEDs in Flash Mode 76 Legal Information 7 Light sources 45 light transmission 91 Limitation 42 log file 13...

Page 141: ...ftware Trigger 59 Space for further descriptions screenshots and log files 131 Specifications 92 Spectral Impact of IR Cut Filters 91 Spectral Sensitivity Characteristics 97 102 107 112 117 122 127 Spectral Sensitivity Characteristics KAI 01050 A 97 Spectral Sensitivity Characteristics KAI 01050 C 97 Spectral Sensitivity Characteristics KAI 02050 A 102 Spectral Sensitivity Characteristics KAI 0205...

Page 142: ... once 55 Tap configuration 53 Tap Reconstruction on GigE Vision 55 Tap Structure 53 Teaming Dual GigE 27 temperature 47 56 Temperature Sensor 56 temperatures 45 Terms of warranty 128 The Debouncer module 88 The EVO Series 8 The prescale module 89 The pulseloop module 74 Tracer with Micro Four Thirds mount 9 trigger 57 58 59 65 87 Triggered Mode pulse width 57 Trigger Edge Sensitivity 87 Troublesho...

Reviews: