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Related Manuals for SVS-Vistek EC02 Series
Summary of Contents for SVS-Vistek EC02 Series
- Page 1 Manual ECO2 series eco674, eco695, eco814, eco815, eco834, eco1050, eco2050, eco2150, eco, eco4050 1.29.2018...
- Page 2 The camera in your possession has been produced with great care and has been thoroughly tested. Nonetheless, should you have reasons for complaint, then please contact your local SVS-VISTEK distributor. You will find a list of distributors in your area under: http://www.svs-...
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Page 3: Table Of Contents
Contents Contents Safety Messages ............6 Legal Information ............. 7 The ECO² – GigE Vision ........... 8 The SVCam-ECO² Series – ........8 Feature List: ............9 GigE-Vision features ..........9 4IO adds Light and Functionality ......11 Getting Started ............12 Contents of Camera Set .......... - Page 4 Contents 7.1.5 Acquisition and Processing Time ........36 7.1.6 Exposure ..............37 7.1.7 Auto Luminance ............37 7.1.8 Bit-Depth ..............38 7.1.9 Color ................. 40 7.1.10 Resolution – active & effective ........41 7.1.11 Offset ................ 42 7.1.12 Gain ................43 7.1.13 Image Flip ..............
- Page 5 Contents eco694*TLGEC ........... 100 1.2.5 Spectral Sensitivity Characteristics ICX694AQG ..... 102 1.2.6 Spectral Sensitivity Characteristics ICX694ALG ....102 eco695*TLGEC ........... 103 1.2.7 Spectral Sensitivity Characteristics ICX695AQG ..... 105 1.2.8 Spectral Sensitivity Characteristics ICX695ALG ....105 eco814*TLGEC ........... 106 1.2.9 Spectral Sensitivity Characteristics ICX814AQA....108 1.2.10 Spectral Sensitivity Characteristics ICX814ALA...
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Page 6: Safety Messages
A white graphical symbol inside a blue circle defines a safety sign that indicates that an action shall be taken to avoid a hazard. Cross-reference NOTICE Provides references and tips Figure 1: Table of safety messages SVS-VISTEK– The SVCam-ECO² Series –... -
Page 7: Legal Information
Customers, integrators and end users of SVS-Vistek products might sell these products and agree to do so at their own risk, as SVS-Vistek will not take any liability for any damage from improper use or sale. -
Page 8: The Eco² - Gige Vision
The SVCam-ECO² series expands the diversity of the SVCam-ECO series. Recent high-quality CCD sensors from ON Semiconductor and Sony are integrated and optimized in terms of image quality and operating modes. Thus, extremely demanding solutions can be solved easily. SVS-VISTEK–The ECO² – GigE Vision The SVCam-ECO² Series –... -
Page 9: Feature List
SVS-VISTEK 3.2 Feature List: ECO² 0.3 to 5 Mpixel 1 to 12 Mpixel 0.3 to 12 Mpixel 1 to 12 Mpixel 10 to 29 Mpixel 47 Mpixel CMOS and CCD CMOS and CCD CMOS and CCD Sony 1 tap sensors... - Page 10 SVS-VISTEK GigE Vision is an industrial interface standard for video transmission and device control over Ethernet networks. It provides numerous software and hardware advantages for machine vision. Being an industry standard, it facilitates easy and quick interchangeability between units, shortening design cycles and reducing development costs.
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Page 11: 4Io Adds Light And Functionality
SVS-VISTEK 3.4 4IO adds Light and Functionality Your SVS-Vistek camera is equipped with the innovative 4IO-interface Figure 2: 4IO concept with up to 4 switching LED lights allowing full light control, replacing external strobe controllers. Each of the outputs can be individually configured and managed using pulse- width modulation. -
Page 12: Getting Started
Red slow ( 1 Hz ) Problem with initialization Red quickly ( 8 Hz) Camera overheating Blue permanent Waiting for trigger Cyan permanent Exposure active Violet permanent Readout/FVAL Figure 3: Camera status LED codes SVS-VISTEK–Getting Started Contents of Camera Set... -
Page 13: Software
(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 lights connected to the SVCam directly via the PC. - Page 14 SVS-VISTEK Software Setup Installation prosecco may differ from PC to PC. It is recommended to install the whole software package. Copy/expand the installation executable file to your hard drive. Run installation Read and accept the terms of license agreement Choose destination folder...
- Page 15 SVS-VISTEK Install the USB 3.0 Driver Generic driver included in the windows system will not match all SVS-VISTEK USB3 Vision features. Start installation System, warning The installer will modify your system (USB 3.0 driver); there for windows systems will warn you with an interrupt.
- Page 16 SVS-VISTEK Installation will proceed Installation completed Getting Started...
- Page 17 SVS-VISTEK Initialization I R S T L A U N C H The software is XML based. So in case there is no Camera connected to the USB slot, no XML camera properties can be loaded, no values to control are available.
- Page 18 SVS-VISTEK Conform to GenICam all control features will be listed in a flat tree diagram. Getting Started...
- Page 19 SVS-VISTEK USB 3.0 driver The USB 3.0 driver You can find 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.
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Page 20: Firmware
(download it from website, login area) matching your camera model. 4.5.1 Firmware Update GigE A separate tool called “Firmware Update Tool.exe” is provided in the login area of the SVS-Vistek website. Execute firmware update > Download the firmware tool and the firmware file from the SVS-Vistek website. - Page 21 SVS-VISTEK Start SVCapture on your computer. As soon as the camera has booted, all SVS-Vistek GigE cameras are showing up in the main window. The cameras will show their IP addresses. In any case, the last number (1-254) has to be unique in your subnet.
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Page 22: Driver Circuit Schematics
SVS-VISTEK 4.7 Driver Circuit Schematics Figure 7: basic Illustration of driver circuit Getting Started... -
Page 23: Connectors
“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 the camera. Figure 8: Illustration of RJ45 female connector SVS-VISTEK–Connectors GigE Vision... - Page 24 SVS-VISTEK Jumbo Frames The transport efficiency in the streaming channel can be improved by using “jumbo frames”. This will reduce overhead caused by maintaining header data upon each data packet sent. 9: I IGURE LLUSTRATION OF DATA REDUCTION WITH JUMBO FRAMES...
- Page 25 SVS-VISTEK Connecting multiple Cameras Multiple GigE cameras can be connected to a PC either via a switch or using dual or quad port network interface connectors (NIC). 10: I IGURE LLUSTRATION OF CONNECTING MULTIPLE CAMERAS ON MULTI Multiple Cameras connected by a Switch To connect multiple cameras by a switch, the switch must be managed.
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Page 26: Xml Files
SVS-VISTEK Multicast When images from a single camera need to be delivered to multiple PCs, multicast (RFC 2236) is used. A switch receives an image data stream from a camera and distributes it to multiple destinations in this mode. Since a GigE camera always needs a single controlling application, there will be only one master application. -
Page 27: Input / Output Connectors
SVS-VISTEK 5.2 Input / output connectors For further information using the breakout box and simplifying I/O connection refer to SVCam Sensor Actor manual (with Murr and Phoenix breakout boxes). To be found separate within the USP manuals. Hirose™ 12Pin For detailed information about switching lights from inside the camera, refer to strobe control. -
Page 28: Dimensions
Find drawings in the web download area at https://www.svs-vistek.com/en/support/svs-support-download-center.php CAD step files available with valid login at SVS-VISTEK.com 6.1 ECO² GigE C-mount CAD step files available on DVD or SVS-VISTEK.com. Including: eco1050CTLGEC, eco1050MTLGEC, eco2050CTLGEC, eco2050MTLGEC, eco2150CTLGEC, eco2150MTLGEC, eco4050CTLGEC, eco4050MTLGEC, eco674CTLGEC,... -
Page 29: Side Left
SVS-VISTEK 6.1.2 side Left 6.1.3 Bottom Dimensions... -
Page 30: Back
SVS-VISTEK 6.1.4 Back 6.1.5 Cross Section Dimensions... -
Page 31: C & Cs Mount
Inch CS-Mount Cameras accept both types of lenses. C-Mount lenses require a 5mm adapter ring to be fitted. (Also available at SVS-VISTEK) C-Mount Cameras only accept C mount lenses as the flange to sensor distance does not allow a CS mount lens close enough to the Sensor to achieve a focused image. -
Page 32: Feature-Set
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 into charge and transports it to an amplifier and subsequently to the analog to digital converter (ADC). SVS-VISTEK–Feature-Set Basic Understanding... -
Page 33: Interline Transfer
SVS-VISTEK 7.1.2 Interline Transfer Interline Transfer is only used in CCD sensors. With a single pixel clock the charge from each pixel is transferred to the vertical shift register. At this time, the light sensitive elements are again collecting light. The charge in the vertical registers is transferred line by line into the horizontal shift register. -
Page 34: Global Shutter
SVS-VISTEK 7.1.3 Global shutter The shutter is describing the functionality of exposing the light sensitive pixels of the sensor to light for a limited time. With Global shutterall pixels are exposed to light at the same time. All pixel will be exposed to light at the same starting point, and all pixel light exposure will stop at the same time. - Page 35 SVS-VISTEK Figure 1: All pixel lines are sensitive to light the same time All pixels are open the same time. You might flash at any time within exposure time. Feature-Set...
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Page 36: Frames Per Second
SVS-VISTEK 7.1.4 Frames per Second Frames per second, or frame rate describes the number of frames output per second. The inverse (1/ frame rate) defines the frame time. frame per second frame time (Exposure) applicable standard 0,25 500ms 41,6 � ms... -
Page 37: Exposure
SVS-VISTEK 7.1.6 Exposure See various exposure and timing modes in chapter: Basic capture modes. Combine various exposure timings with PWM LED illumination, refer to sequencer. Setting Exposure time Exposure time can be set by width of the external or internal triggers or programmed by a given value. -
Page 38: Bit-Depth
SVS-VISTEK 7.1.8 Bit-Depth Values of brighness are internally represented by numbers. Numbers are represented by bytes, consisting out of single bits. The number of bits for brightness representation is limiting the number of brightness values or colour values that can be represented. Bit depth defines how many unique colors or grey levels are available in an image after digitization. - Page 39 SVS-VISTEK Figure 24: Figure of original picture - black & white Figure 25: Reduced color depth quantification Feature-Set...
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Page 40: Color
SVS-VISTEK 7.1.9 Color Color cameras are identical to the monochrome versions. The color pixels are transferred in sequence from the camera, in the same manner as the monochrome, but considered as “raw”-format. The camera sensor has a color mosaic filter called “Bayer” filter pattern named after the person who invented it. -
Page 41: Resolution - Active & Effective
SVS-VISTEK 7.1.10 Resolution – active & effective As mentions in the specifications, there is a difference between 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. -
Page 42: Offset
SVS-VISTEK 7.1.11 Offset For physical reasons the output of a sensor will never be zero, even the camera is placed in total darkness or simply closed. Always there will be noise or randomly appearing electrons that will be detected as a signal (dark noise: noise generated without light exposure). -
Page 43: Gain
SVS-VISTEK 7.1.12 Gain Setting gain above 0 dB (default) is another way to boost the signal coming from the sensor. Especially useful for low light conditions. Setting Gain amplifies the signal of individual or binned pixels before the ADC. Referring to Photography adding gain corresponds to increasing ISO. -
Page 44: Image Flip
SVS-VISTEK 7.1.13 Image Flip Images can be mirrored horizontally or vertically. Image flip is done inside the memory of the camera, therefore not increasing the CPU load of the Figure 32: Figure of original image Figure 33: Figure of image horizontally flipped... -
Page 45: Binning
SVS-VISTEK 7.1.14 Binning Binning provides a way to enhance dynamic range, but at the cost of lower resolution. Instead of reading out each individual pixel, binning combines charge from neighboring pixels directly on the chip, before readout. Binning is only used with monochrome CCD Sensors. For reducing resolution on color sensors refer to decimation. -
Page 46: Decimation
SVS-VISTEK When DVAL signal is enabled only every third pixel in horizontal direction is grabbed. Figure 37: Illustration of 2x2 binning 7.1.15 Decimation For reducing width or height of an image, decimation can be used. Columns or rows can be ignored. - Page 47 (as soon as there is enough time later on to deliver the images) (not applicable to USB cameras) Please note, as soon as the internal memory buffer is filled up, frames will be dropped. Due to this reason, SVS-Vistek camers provide up to 512MB image buffer memory. Feature-Set...
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Page 48: Camera Features
SVS-VISTEK 7.2 Camera Features 7.2.1 Tap geometries Similar to other sensor readout technologies Camera Link is sending many pixel values in parallel at the same time. The image can be split in “taps” or “channels” which can be sent in parallel. The tap geometry is describing how many taps are read and how they are transmitted through the Camera Link interface. - Page 49 SVS-VISTEK Single-Tap In a single-tap CCD sensor the readout of pixel charge is done sequentially. Pixel by pixel, line by line. The maximum frame rate is determined by the pixel clock frequency and the total number of pixels to be read out.
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Page 50: Tap Reconstruction
SVS-VISTEK 7.2.4 Tap Reconstruction The data coming from the camera have to be reconstructed to the original image data structure. This task is done either by the frame grabber hardware (Camera Link, CXP) or the driver software (GigE, USB). The process is transparent, so it doesn’t matter whether the physical interface is serial or parallel. -
Page 51: System Clock Frequency
SVS-VISTEK 7.2.6 System Clock Frequency Default system clock frequency in almost every SVCam is set to 66.6 MHz. To validate your system frequency refer to: specifications. Using the system clock as reference of time, time settings can only be made in steps. In this example, the transfer rate is 66.7 MHz, thus resulting in steps of 15 ns. -
Page 52: Basic Capture Modes
SVS-VISTEK 7.2.9 Basic Capture Modes Free Running Free running (fixed frequency) with programmable exposure time. Frames are readout continously and valid data is indicated by LVAL for each line and FVAL for the entire frame. There is no need to trigger the camera in order to get data. Exposure time is programmable via serial interface and calculated by the internal logic of the camera. - Page 53 At the rising edge of the trigger the camera 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).
- Page 54 SVS-VISTEK Feature-Set...
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Page 55: Lookup Table
SVS-VISTEK 7.2.10 LookUp Table The LookUp Table Feature (LUT) lets the user define certain values to every bit value that comes from the ADC. To visualize a LUT a curve diagram can be used, similar to the diagrams used in photo editing software. - Page 56 SVS-VISTEK Gamma Correction Using the LookUp Table makes is also possible to implement a logarithmic correction. Commonly called Gamma Correction. Historically Gamma Correction was used to correct the illumination behavior of CRT displays, by compensating brightness-to-voltage with a Gamma value between 1,8 up to 2,55.
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Page 57: Roi / Aoi
SVS-VISTEK 7.2.11 In Partial Scan or Area-Of-Interest or Region-Of-Interest (ROI) -mode only a certain region will be read. Figure 52: AOI 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. -
Page 58: Defect Pixel Correction
All image sensor have defect pixels in a lesser or greater extent. The number of defects determines the quality grade and the value of all sensors integrated by SVS-VISTEK. Defect Pixels either be dark pixels, i.e. that don’t collect any light, or bright pixels (hot pixel) that always are outputting a bright signal. -
Page 59: Assigning I/O Lines - Iomux
Camera. Note: LineSelector translation Line0 If you connect the camera with a non- Output0 SVS-Vistek GigEVision client, you might Line1 Output1 not see the clearnames of the lines, but Line2 Output2 only line numbers. In this case, use this... - Page 60 SVS-VISTEK Refer to pinout in input / output connectors when physically wiring. Also 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 55: I/O switch matrix. connections will be made withn a "1"...
- Page 61 SVS-VISTEK Figure 56: I/O Lines with open end indicate physical in- and outputs Feature-Set...
- Page 62 SVS-VISTEK input vector to switch matrix name description io_in(0) trigger input 0 – 24 Volt / RS-232 / opto * io_in(1) trigger input 0 – 24 Volt / RS-232 / opto * io_in(2) trigger input 0 – 24 Volt / RS-232 / opto * io_in(3) trigger input 0 –...
- Page 63 SVS-VISTEK output vector from switch matrix name / register describtion io_out(0) output open drain io_out(1) output open drain io_out(2) output open drain * io_out(3) output open drain * io_txd output, when debug='0' rxd_to_uart1 output (uart_in) trigger output sequenzer_hw_trigger input to module iomux_sequenzer_0...
- Page 64 SVS-VISTEK Example of an IOMUX configuration > The trigger signal comes in on line 0 > Debounce it. connect line 0 to 8: 1000000000000000000000000 signal appears again on line 15 – debouncer out > Use the prescaler to act only on every second pulse.
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Page 65: Strobe Control
SVS-VISTEK 7.3.2 Strobe Control Drive LED lights form within your camera. Control them via ethernet. Figure 57: use the breakout box to simplify your wiring > SVCam cameras have built-in MOSFETs that can drive up to 3 Amperes. > This allows using the cameras as a strobe controller – saving costs. - Page 66 SVS-VISTEK 2 IO’s high voltage drain Figure 58: Illustration of two LEDs switched internal by the camera For detailed connector pin out refer to Connectors. For further information using the breakout box and simplifying OIs refer SVCam Connectivity manual. To be found separate within the USP manuals.
- Page 67 SVS-VISTEK Figure 60: Illustration of schematic wiring with 4IO model using the break out box (matrix) The pulseloop module A fully programmable timer/counter function with four individual pulse generators (pulseloop0 - 3) that can be combined with all SVCam I/O functions, as well as physical inputs and outputs.
- Page 68 SVS-VISTEK Camera cascade 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 62: pulseloop – activating three cameras O D U L E P U L S E L O O P...
- Page 69 SVS-VISTEK LEDs in Continuous Mode Example Calculation “No Flash” (CW Mode) Voltage drop al 5 LEDs, 2,2 V per LED (see spec. of LED) 11 V Max. continuous current (see spec. of LED) 250 mA Voltage Supply 24 V Voltage drop at Resistor (24 V – 11 V) 13 V ����...
- Page 70 SVS-VISTEK Strobe Timing Ex p osu re D e l a y A value, representing the time between the (logical) positive edge of trigger pulse and start of integration time. Unit is 1μs. Default is 0μs. Str ob e Pol a ri ty Positive or negative polarity of the hardware strobe output can be selected.
- Page 71 SVS-VISTEK Strobe Control Example Setup Figure 63: Illustration of an application using the 4IO Feature-Set...
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Page 72: Sequencer
SVS-VISTEK 7.3.3 Sequencer The sequencer is used when different exposure settings and illuminations are needed in a row. E.g. the scenario to be captured may occur in three different versions and should therefore be recorded with three different light source settings. - Page 73 SVS-VISTEK Example: Values to set Interval 0 Interval 1 Interval 2 Sequencer 1.000.000 µs 1.000.000 µs 1.000.000 µs Interval (1s) (1s) (1s) Exposure Start 220.000 µs 875.000 µs 190.000 µs Exposure Stop 700.000 µs 125.000 µs 720.000 µs Strobe Start 110.000 µs...
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Page 74: Pwm
SVS-VISTEK 7.3.4 PWM Pulse width modulation Description of the function used within the sequencer or implemented by the pulseloop module During Pulse Width Modulation, a duty cycle is modulated by a fixed frequency square wave. This describes the ratio of ON to OFF as duty factor or duty ratio. - Page 75 SVS-VISTEK P W M : H E I N T E N S I T Y O F A That duty ratio is calculated as: Δ% = t / T. It is written about the value of "t" as PWMChange0-3[SeqSelector] per sequence into the Registry.
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Page 76: Plc/Logical Operation On Inputs
SVS-VISTEK 7.3.5 PLC/Logical Operation on Inputs The logic input combines trigger signals with Boolean algorithms. The camera provides AND, NAND, OR, NOR as below. You might connect 2 signals 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. -
Page 77: Serial Data Interfaces
SVS-VISTEK If neither input is high, a low pulse_out (0) results. Combine trigger input one and two. Y = A v B No trigger input – one nor two – results in a high or a low level pulse_out. Invert both trigger inputs. By inverting the resulting pulse_out you will get the NOR I pulse Y = A ⊽... - Page 78 SVS-VISTEK In the SVCam’s these signals are used to send low-power data signals to control light or lenses (MFT). Serial interface Parameter RS-232 RS-422 Maximum open-circuit voltage ±25 V ±6 V Max Differential Voltage 25 V 10 V Min. Signal Range ±3 V...
- Page 79 SVS-VISTEK UART Packaging Data into containers (adding start and stop bits) is implemented by the UART (Universal Asynchronous Receiver Transmitter) Figure 68: UART encoding of a data stream RS-422 RS-422 is a differential low voltage communication standard. Figure 69: LVDS signal – no return to zero volt...
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Page 80: Trigger-Edge Sensitivity
SVS-VISTEK 7.3.7 Trigger-Edge Sensitivity Trigger-Edge Sensitivity is implemented by a “schmitt trigger”. Instead of triggering to a certain value Schmitt trigger provides a threshold. 7 0 : I G U R E S C H M I T T T R I G G E R N O I S E S U S P E N S I O N 7.3.8 Debouncing Trigger Signals... - Page 81 SVS-VISTEK Therefor the signal will not be accepted till it lasts at least a certain time. Use the IO Assignment tool to place and enable the debouncer module in between the “trigger” (schmitt trigger) and the input source (e.g.: line DebouncDuration register can be set in multiples of 15ns (implement of system clock).
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Page 82: Prescale
SVS-VISTEK 7.3.9 Prescale The Prescaler function can be used for masking off input pulses by applying a divisor with a 4-bit word, resulting in 16 unique settings. > Reducing count of interpreted trigger signal > Use the prescaler to ignore a certain count of trigger signals. -
Page 83: Ir Cut Filter
SVS-VISTEK 7.4 IR Cut Filter To avoid influences of infrared light to your image, cameras are equipped with an IR cut filter or an anti-refection coated glass (AR filter). In addition filters raise the protection class of the camera by protecting the sensor and camera internals from environmental influences. - Page 84 White balance gets much more difficult. Contrasts get lost because of IR light influencing also blue and green pixels. SVS-VISTEK recommends IR cut filter for high demands on color or sharpness whether monochrome or color sensors. Spectral Impact of IR Cut Filters IR cut filter do influence the spectral sensitivity of the sensor.
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Page 85: Specifications
8 / 12 / 16 x / x / - [bit] x / x / - [bit] binning h / v 2 / 2 [px] 2 / 2 [px] 12to8(1) 12to8(1) SVS-VISTEK–Specifications eco1050*TLGEC... - Page 86 38 / 38 / 45 mm³ 38 / 38 / 45 mm³ weight 110 g 110 g protection class IP40 IP40 temp. Sensor Mainboard Mainboard temp. Ambient °C -10 to 45 °C -10 to 45 °C © SVS-VISTEK Jan 29, 2018 Jan 29, 2018 Specifications...
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Page 87: Kai-01050-C
SVS-VISTEK 1.1.1 Spectral Sensitivity Characteristics KAI-01050-C Figure 78: Spectral Sensitivity Characteristics KAI-01050-C 1.1.2 Spectral Sensitivity Characteristics KAI-01050-A Figure 79: Spectral Sensitivity Characteristics KAI-01050-A Specifications... -
Page 88: Eco2050*Tlgec
SVS-VISTEK 8.2 eco2050*TLGEC Model eco2050MTLGEC eco2050CTLGEC familiy active pixel w x h 1600 x 1200 px² 1600 x 1200 px² max. frame rate 33,2 fps 33,2 fps chroma mono bayer interface GigE Vision GigE Vision sensor sensor name KAI-02050-A KAI-02050-C... - Page 89 38 / 38 / 45 mm³ 38 / 38 / 45 mm³ weight 110 g 110 g protection class IP40 IP40 temp. Sensor Mainboard Mainboard temp. Ambient °C -10 to 45 °C -10 to 45 °C © SVS-VISTEK Jan 29, 2018 Jan 29, 2018 Specifications...
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Page 90: Kai-02050-C
SVS-VISTEK 1.1.3 Spectral Sensitivity Characteristics KAI-02050-C Figure 80: Spectral Sensitivity Characteristics KAI-02050-C 1.1.4 Spectral Sensitivity Characteristics KAI-02050-A Figure 81: Spectral Sensitivity Characteristics KAI-02050-A Specifications... -
Page 91: Eco2150*Tlgec
SVS-VISTEK 8.3 eco2150*TLGEC Model eco2150MTLGEC eco2150CTLGEC familiy active pixel w x h 1920 x 1080 px² 1920 x 1080 px² max. frame rate 31,7 fps 31,7 fps chroma mono bayer interface GigE Vision GigE Vision sensor sensor name KAI-02150-A KAI-02150-C... - Page 92 38 / 38 / 45 mm³ 38 / 38 / 45 mm³ weight 110 g 110 g protection class IP40 IP40 temp. Sensor Mainboard Mainboard temp. Ambient °C -10 to 45 °C -10 to 45 °C © SVS-VISTEK Jan 29, 2018 Jan 29, 2018 Specifications...
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Page 93: Kai-02150-C
SVS-VISTEK 1.1.5 Spectral Sensitivity Characteristics KAI-02150-C Figure 82 Spectral Sensitivity Characteristics KAI-02150-C 1.1.6 Spectral Sensitivity Characteristics KAI-02150-A Figure 83: Spectral Sensitivity Characteristics KAI-02150-A Specifications... -
Page 94: Eco4050*Tlgec
SVS-VISTEK 1.2 eco4050*TLGEC Model eco4050CTLGEC eco4050MTLGEC familiy active pixel w x h 2336 x 1752 px² 2336 x 1752 px² max. frame rate 16,8 fps 16,8 fps chroma bayer mono interface GigE Vision GigE Vision sensor sensor name KAI-04050-C KAI-04050-A... - Page 95 38 / 38 / 45 mm³ 38 / 38 / 45 mm³ weight 110 g 110 g protection class IP40 IP40 temp. Sensor Mainboard Mainboard temp. Ambient °C -10 to 45 °C -10 to 45 °C © SVS-VISTEK Jan 29, 2018 Jan 29, 2018 Specifications...
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Page 96: Kai-04050-C
SVS-VISTEK 1.2.1 Spectral Sensitivity Characteristics KAI-04050-C Figure 84: Spectral Sensitivity Characteristics KAI-04050-C 1.2.2 Spectral Sensitivity Characteristics KAI-04050-A Figure 85: Spectral Sensitivity Characteristics KAI-04050-A Specifications... -
Page 97: Eco674*Tlgec
SVS-VISTEK 8.4 eco674*TLGEC Model eco674MTLGEC eco674CTLGEC familiy active pixel w x h 1920 x 1460 px² 1920 x 1460 px² max. frame rate 19,9 fps 19,9 fps chroma mono bayer interface GigE Vision GigE Vision sensor sensor name ICX674ALG ICX674AQG... - Page 98 38 / 38 / 45 mm³ 38 / 38 / 45 mm³ weight 110 g 110 g protection class IP40 IP40 temp. Sensor Mainboard Mainboard temp. Ambient °C -10 to 45 °C -10 to 45 °C © SVS-VISTEK Jan 29, 2018 Jan 29, 2018 Specifications...
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Page 99: Icx674Aqg
SVS-VISTEK 1.2.3 Spectral Sensitivity Characteristics ICX674AQG Figure 86: Spectral Sensitivity Characteristics ICX674AQG 1.2.4 Spectral Sensitivity Characteristics ICX674ALG Figure 87: Spectral Sensitivity Characteristics ICX674ALG Specifications... -
Page 100: Eco694*Tlgec
SVS-VISTEK 8.5 eco694*TLGEC Model eco694MTLGEC eco694CTLGEC familiy active pixel w x h 2752 x 2204 px² 2752 x 2204 px² max. frame rate 10,1 fps 10,1 fps chroma mono bayer interface GigE Vision GigE Vision sensor sensor name ICX694ALG ICX694AQG... - Page 101 38 / 38 / 45 mm³ 38 / 38 / 45 mm³ weight 110 g 110 g protection class IP40 IP40 temp. Sensor Mainboard Mainboard temp. Ambient °C -10 to 45 °C -10 to 45 °C © SVS-VISTEK Jan 29, 2018 Jan 29, 2018 Specifications...
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Page 102: Spectral Sensitivity Characteristics
SVS-VISTEK 1.2.5 Spectral Sensitivity Characteristics ICX694AQG Figure 88: Spectral Sensitivity Characteristics ICX694AQG 1.2.6 Spectral Sensitivity Characteristics ICX694ALG Figure 89: Spectral Sensitivity Characteristics ICX694ALG Specifications... -
Page 103: Eco695*Tlgec
SVS-VISTEK 8.6 eco695*TLGEC Model eco695CTLGEC eco695MTLGEC familiy active pixel w x h 2752 x 2204 px² 2752 x 2204 px² max. frame rate 10,1 fps 10,1 fps chroma bayer mono interface GigE Vision GigE Vision sensor sensor name ICX695AQG ICX695ALG... - Page 104 38 / 38 / 45 mm³ 38 / 38 / 45 mm³ weight 110 g 110 g protection class IP40 IP40 temp. Sensor Mainboard Mainboard temp. Ambient °C -10 to 45 °C -10 to 45 °C © SVS-VISTEK Jan 29, 2018 Jan 29, 2018 Specifications...
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Page 105: Spectral Sensitivity Characteristics
SVS-VISTEK 1.2.7 Spectral Sensitivity Characteristics ICX695AQG Figure 90: Spectral Sensitivity Characteristics ICX695AQG 1.2.8 Spectral Sensitivity Characteristics ICX695ALG Figure 91: Spectral Sensitivity Characteristics ICX695ALG Specifications... -
Page 106: Eco814*Tlgec
SVS-VISTEK 8.7 eco814*TLGEC Model eco814CTLGEC eco814MTLGEC familiy active pixel w x h 3360 x 2712 px² 3360 x 2712 px² max. frame rate 7 fps 7 fps chroma bayer mono interface GigE Vision GigE Vision sensor sensor name ICX814AQA ICX814ALA... - Page 107 38 / 38 / 45 mm³ 38 / 38 / 45 mm³ weight 110 g 110 g protection class IP40 IP40 temp. Sensor Mainboard Mainboard temp. Ambient °C -10 to 45 °C -10 to 45 °C © SVS-VISTEK Jan 29, 2018 Jan 29, 2018 Specifications...
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Page 108: Spectral Sensitivity Characteristics Icx814Aqa
SVS-VISTEK 1.2.9 Spectral Sensitivity Characteristics ICX814AQA Figure 92: Spectral Sensitivity Characteristics ICX814AQA 1.2.10 Spectral Sensitivity Characteristics ICX814ALA Figure 93: Spectral Sensitivity Characteristics ICX814ALA Specifications... -
Page 109: Eco815Ctlgec
SVS-VISTEK 8.8 eco815CTLGEC Model eco815CTLGEC eco815MTLGEC familiy active pixel w x h 3360 x 2712 px² 3360 x 2712 px² max. frame rate 7 fps 7 fps chroma bayer mono interface GigE Vision GigE Vision sensor sensor name ICX815AQA ICX815ALA... - Page 110 38 / 38 / 45 mm³ 38 / 38 / 45 mm³ weight 110 g 110 g protection class IP40 IP40 temp. Sensor Mainboard Mainboard temp. Ambient °C -10 to 45 °C -10 to 45 °C © SVS-VISTEK Jan 29, 2018 Jan 29, 2018 Specifications...
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Page 111: Spectral Sensitivity Characteristics Icx815Aqa
SVS-VISTEK 1.2.11 Spectral Sensitivity Characteristics ICX815AQA Figure 94: Spectral Sensitivity Characteristics ICX815AQA 1.2.12 Spectral Sensitivity Characteristics ICX815ALA Figure 95: Spectral Sensitivity Characteristics ICX815ALA Specifications... -
Page 112: Eco834*Tlgec
SVS-VISTEK 8.9 eco834*TLGEC Model eco834MTLGEC eco834CTLGEC familiy active pixel w x h 4224 x 2838 px² 4224 x 2838 px² max. frame rate 5,5 fps 5,5 fps chroma mono bayer interface GigE Vision GigE Vision sensor sensor name ICX834ALG ICX834AQG... - Page 113 38 / 38 / 45 mm³ 38 / 38 / 45 mm³ weight 110 g 110 g protection class IP40 IP40 temp. Sensor Mainboard Mainboard temp. Ambient °C -10 to 45 °C -10 to 45 °C © SVS-VISTEK Jan 29, 2018 Jan 29, 2018 Specifications...
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Page 114: Spectral Sensitivity Characteristics
SVS-VISTEK 1.2.13 Spectral Sensitivity Characteristics ICX834AQG Figure 96: Spectral Sensitivity Characteristics ICX834AQG 1.2.14 Spectral Sensitivity Characteristics ICX834ALG Figure 97: Spectral Sensitivity Characteristics ICX834ALG Specifications... -
Page 115: Terms Of Warranty
If warranty label of camera is broken warranty is void. Seller makes no other warranties express or implied, and specifically, seller makes no warranty of merchantability of fitness for particular purpose. Please contact your local distributor first. What to do in case of Malfunction SVS-VISTEK–Terms of warranty eco834*TLGEC... - Page 116 SVS-VISTEK Terms of warranty...
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Page 117: Troubleshooting
– especially when using around 730 nm like “Schott KG 3“ to prevent IR radiation reaching the halogen light. CCD. No serial communication is possible Use “load camera DLL” and try again. between the camera and the PC. SVS-VISTEK–Troubleshooting FAQ... -
Page 118: Support Request Form / Check List
SVS-VISTEK Please fax this form to your 10.2 Support Request Form / Check List local distributor. The right Fax number you can find on our Dear valued customer, homepage: http://www.svs- In order to help you with your camera and any interfacing problems we vistek.com... - Page 119 SVS-VISTEK Space for further descriptions, screenshots and log-files Troubleshooting...
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Page 120: Ip Protection Classes
The conditions must, however, be more severe than code 7 Protected against water from high- pressure Water directed at the enclosure from any angle under high and steam jet cleaning pressure must not have any harmful effect SVS-VISTEK–IP protection classes Support Request Form / Check List... - Page 121 SVS-VISTEK IP protection classes...
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Page 122: Glossary Of Terms
In electronics, gain is a measure of the ability of a two-port circuit (often an Gain amplifier) to increase the power or amplitude of a signal from the input to the output port by adding energy to the signal. SVS-VISTEK–Glossary of Terms Support Request Form / Check List... - Page 123 A camera RAW image file contains minimally processed data from the image sensor. It is referred as raw in its meaning. SVS-VISTEK plays out RAW only. Read-Out control defines a delay between exposure and image readout. It...
- Page 124 SVS-VISTEK A bright light source with a very short light pulse. Ideal for use with Strobe light industrial cameras, e.g. for “freezing” the image capture of fast moving objects. Can often be a substitute for the electronic shutter of the image sensor.
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Page 125: Index Of Figures
Figure 30: Table of dB and corresponding ISO ......... 43 Figure 31: noise caused by too much gain ........43 Figure 32: Figure of original image ............. 44 Figure 33: Figure of image horizontally flipped ........44 SVS-VISTEK–Index of figures Support Request Form / Check List... - Page 126 SVS-VISTEK Figure 34: Figure of image vertically flipped ........44 Figure 35: Illustration of vertical binning ..........45 Figure 36: Illustration of horizontal binning ........45 Figure 37: Illustration of 2x2 binning ..........46 Figure 38: Horizontal decimation ............46 Figure 39: Illustration of decimation on color sensors ......
- Page 127 SVS-VISTEK Figure 71: bounces or glitches caused by a switch ......80 Figure 72: debouncer between the trigger source and trigger ....81 Figure 73: Illustration of the debouncer module ......... 81 Figure 74: Prescale values ..............82 Figure 75: Illustration of the prescale module ........82 Figure 1: ECO with IR cut filter ............
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Page 128: Index
88 Camera cascade 67 eco2150*TLGEC 91 Camera Features 48 eco4050*TLGEC 94 Camera status LED codes 12 eco674*TLGEC 97 CCD 32, 45, 50, 57 eco694*TLGEC 100 Color 40, 46 eco695*TLGEC 103 eco814*TLGEC 106 SVS-VISTEK– Support Request Form / Check List... - Page 129 SVS-VISTEK eco815CTLGEC 109 Image Flip 44 eco834*TLGEC 112 Image Impact of IR Cut Filter EPROM 59 Implementation of PWM 74 Europe 7 Index of figures 125 Example of an IOMUX Initialization 17 configuration 64 Input / output connectors 27 Example: 73...
- Page 130 SVS-VISTEK no return to zero volt 79 Single-Tap 49 noise 42 Software 13 NOR 77 Software Setup 14 of IR Cut Filter 84 Software Trigger 53 Offset 42 Space for further descriptions, screenshots and log-files OR 77 output vector from switch matrix...
- Page 131 SVS-VISTEK Spectral Sensitivity Tap 50 Characteristics KAI-01050- Tap Balancing 50 A 87 Tap Balancing once 50 Spectral Sensitivity Characteristics KAI-01050- Tap configuration 48 C 87 Tap geometries 48 Spectral Sensitivity Tap Reconstruction 50 Characteristics KAI-02050- Tap Structure 48 A 90...
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