allpixa pro camera Manual

Transcription

1 allpixa pro camera Manual CD40127 Version 1.0

2 Table of Contents 1 General information About Chromasens Contact information Support Firmware and software version in this manual List of abbreviations Definitions Scope of supply of the allpixa pro camera Information about the Camera Setup Tool Design of a line scan camera system 12 2 Specifications and definitions Camera highlights Camera speed for available Camera Link modes and frequency Technical specification Mechanical specification Mechanical dimensions of the allpixa pro camera up to pixels Mechanical dimensions of the 6000 pixel and pixel allpixa pro camera Sensor alignment and orientation Adapter and accessories Lenses adapters and mounts Accessories for 2k & 4k camera S-Series Accessories for 6000px and 7.3k camera W-Series Mounting of the extension tube systems Mounting of a lens adapter ring Environmental requirements 25 3 Safety Depiction of safety instructions Basic safety regulations Safety instructions on the allpixa pro camera Purpose / applications Staff requirements Organizational measurements Safety instructions for maintenance / cleaning Maintenance and cleaning of the allpixa pro camera Cleaning intervals Cleaning process Disposal 29 4 allpixa pro principle functinality Principle design of the allpixa pro camera Design of the allpixa pro camera line scan sensor The allpixa pro camera line scan sensor readout principle Spectral sensitivity of the allpixa pro camera line scan sensor 32 Chromasens allpixa pro - CD40127 Version 1.0 2

3 4.5 Image processing Analog / digital image processing Supported Camera Link modes Black level correction and shading (flat field) correction Feature: Image mode (frame scan mode) Monochrome image acquisition White balancing with a closed loop control Setting concept Restore factory default Chromasens API - communication 42 5 Installing the allpixa pro camera Interface and status LED Power supply Config UART (serial RS 232) Digital IO port LVCMOS and RS422 levels Video Camera Link port 1 and Status LED Mechanical installation Thermal links / cooling Preventing installation errors Conveyor belt tracking Perpendicularity of the sensor to the direction of transport Rotation around the longitudinal axis of the line scan sensor Rotation around the transverse axis of the line sensor Alignment of the allpixa pro camera Electrical installation Connecting the camera to the PC Update the firmware of the allpixa pro camera 54 6 Configuration of the camera using Camera Setup Tool Installing of CST (Camera Setup Tool) System Requirements Installation of the CST Software Establishing communication between camera and PC General setup of CST Toolbar CST Menu Select the correct viewer configuration for the allpixa pro Simple Setup View (overview) Basic camera parameter settings (overview) Camera parameter Image parameter Special functions (test pattern / tracing / Register edit) General information Opening serial connection to a camera Transferring data to the camera 79 Chromasens allpixa pro - CD40127 Version 1.0 3

4 6.10 Saving data permanently to the camera Refreshing data from the camera in CST Select a setting on the camera Saving settings to the PC Saving settings from CST to harddisk Saving settings from the camera to hard disk Transferring saved settings from the PC to the camera Deleting settings from the camera Setting the user level in CST Checking the camera status Choosing a different configuration file for the parameter display Register Edit 88 7 Camera system setup first steps Camera Installation Startup the system Adjust camera to the environment (camera calibration) Trigger and Image enhancement functions 93 8 Camera operation Easy camera configuration using simple setup tool Perform a white and tap balancing on the camera System preparation for white and tab balancing Setting the operation point automatically Setting the operation point manually Independent color channel white balancing Generating black (offset) reference Create a black (offset) reference internally Use a stored black (offset) level reference image Prepare camera to acquire a black (offset) reference Generating shading/ flat field reference Create white (gain) reference internally Use a stored white (gain) reference image Prepare camera to acquire a white (gain) reference Single color channel reference generation for special illumination situations (Separate lighting for each color channel) Using continuous white control Continuous operating point adjustment at the edges Image-synchronous operating point adjustment on the object (ROI) Encoder connection and setup Line trigger and encoder settings Connect the encoder to the camera Define the input channel in the camera Configuration of the encoder mode and resolution Encoder - enable /disable by external input signal Multi-channel flash control Basic operation principle Setup the multi-channel LED control 159 Chromasens allpixa pro - CD40127 Version 1.0 4

5 8.7.3 Sample setup for 4 different illumination units (free run) Feature: scan speed optimization Sample setup for 2 different illumination units (triggered mode) Electrical interface (pin assignment) I/O port configuration Principle of the master-slave synchronization Parameter and region of interest of the master-slave synchronization Setup the cameras for master-slave synchronization Connecting the master-slave cameras (cabling) Framegrabber setup information for Master/Slave operation Edit color conversion (correction) matrix IO-configuration Camera parameters Integration time parameters Integration time Use line period Line period time Gain and reference Target white reference values Analog coarse gain Current camera gain values Current white reference values Enable continuous white control Position and mode for white reference mark White control mode Set active channels for white control Gain control stop factor Start gain values Update start gain values White reference mark Position and size in CCD direction Position and size in transport direction (Sync. Mode) First relative pixel of white reference First absolute pixel of white reference Use absolute horizontal position of white reference Number of pixels for white reference First image line for the white reference Number of image lines for the white reference Number of reference samples (Average) Show white reference border Shading (flat field correction) Shading correction (flat field correction) Black level correction (offset correction) White reference data set Black reference data set Brightness and contrast Use brightness and contrast 193 Chromasens allpixa pro - CD40127 Version 1.0 5

6 9.5.2 Brightness Contrast Gamma correction Physical setup RGB line distance Scan direction Image sizes Number of scan lines per image (frame mode) First valid scan line Scan line length Synchronization (frame synchronization) Triggered frame scan Scan lines after stop Stop after maximum number of lines Maximum number of scan lines Number of suppressed lines Input debouncing speed Scan pattern Master-slave setup Image processing Mirror image horizontally Color conversion matrix Select active CCM Use keystone correction Pixel shift for correction Keystone correction width Output format Swap red and blue color channel Video output mode Color weights Camera Link connection speed Camera Link interface type and minimum line time (integration time) Information insert mode Insert mode First line information Each line information Last line information LED flash control Led flash control LED number line pattern LED flash sequence time LED line pattern Special functions Test pattern Test pattern level Tracing Register edit Camera information 232 Chromasens allpixa pro - CD40127 Version 1.0 6

7 Camera serial number Setting description Line trigger and encoder setup (line synchronization) Enable encoder Synchronization mode Encoder channels Average size for the encoder Encoder resolution Vertical image resolution Line trigger / encoder reduction Default parameters User levels of parameters Troubleshooting and Support Returning material (obtain an RMA number) Camera status identification by the camera status LED Camera overheating protection Before contacting Chromasens technical support Appendix EC conformity declaration Camera system design / lens selections Calculating the object-to-image distance Calculating the distance rings (tubes) for the allpixa pro camera Calculating the integration time Camera Link interface Camera Link Base 1T24 1X Camera Link-Medium 2Tx24b (2XE) Camera Link Medium 2Tx24b (RGB) 1X Camera Link-Full64 8Tx8b (1X8 raw, RGB with 8 color planes per camera link clock) CL-Full64_8Tx8b 1X8 Raw (only allpixa pro-mono): Camera Link Full80 8Tx10b (1X8 raw, RGB with 8 color planes per camera link clock Camera Link-Full80 10Tx8b (1X10 raw, RGB with 10 color planes per camera link clock Camera Link-Base 2Tx8b, 2Tx10b, 2Tx12b (2XE) Camera Link-Medium 4Tx8b (1X4) Mono Camera Link-Full64 8Tx8b (1X8) Mono Camera Link Port assignment Base configuration Medium configuration Full64 configuration 8Tx8b 1X8 Raw Full80 8Tap 8Tx10b 1X8 Raw configuration Full80 10Tx8b 1X8 Raw configuration 263 Chromasens allpixa pro - CD40127 Version 1.0 7

8 1 General information 1.1 About Chromasens The name of our company, Chromasens, is a combination of 'Chroma' which means color, and 'Sens' which stands for sensor technology. Chromasens designs, develops and produces high-quality and user-friendly products: Line scan cameras Camera systems Camera illumination systems Image acquisition systems Image processing solutions Today, Chromasens GmbH is experiencing steady growth and is continually penetrating new sales markets around the globe. The company's technologies are used, for example, in products and for applications such as book and document scanners, sorting systems and inspection systems for quality assurance monitoring. Customers from all over the world of a wide range of industrial sectors have placed their trust in the experience of Chromasens in the field of industrial image processing Contact information Chromasens GmbH Max-Stromeyer-Str Konstanz Germany Phone: +49 (0) 7531 / Fax: +49 (0) 7531 / info@chromasens.de HP: Support Should you ever have problems with the allpixa pro camera that you cannot solve by yourself, please look into this manual for additional information, check the troubleshooting chapter 10, contact your local distributor or send us an . Chromasens GmbH Max-Stromeyer-Str. 116 D Konstanz Germany Phone: +49 (0) 7531 / Fax: +49 (0) 7531 / support@chromasens.de HP: Visit our website at which features detailed information on our company and products. Chromasens allpixa pro - CD40127 Version 1.0 8

9 1.2 Firmware and software version in this manual This document refers to the following version: CST: Version Camera: Packet 2.10 The recent version might have additional functions. Therefore, please contact the Chromasens support. 1.3 List of abbreviations Abbreviation Meaning Explanation ADC Analog digital converter - CCM Color conversion matrix The CCM supports the conversion from e.g. RGB to srgb or any user defined conversion CDS Correlated double sampling - CST Camera setup tool Chromasens camera parameter programming software DSNU Dark signal non-uniformity Irregularity in the dark image DVAL Data valid Pixel-by-pixel enabled for Camera Link FVAL Frame valid Frame signal for an image on the Camera Link (corresponds to VSync) FVSL First valid scan line Delay of the image s beginning, as a number of lines, from the beginning of the trigger condition to the beginning of the image HSync Horizontal synchronization Frame signal for a line (corresponds to LVAL) LED Light emitting diode - LVAL Line valid Frame signal for a line on the Camera Link (corresponds to HSync) PRNU Photo response non-uniformity Difference in sensitivity of the individual pixels ROI Region of interest - SLL Scan line length Number of pixels per line VSync Vertical synchronization Frame signal for an image (corresponds to FVAL) Chromasens allpixa pro - CD40127 Version 1.0 9

10 1.4 Definitions Chromasens Other used definitions Explanation Black level correction Background subtract, Offset correction Removes the dark offset from each pixel Shading correction Flat field correction Corrects brightness inhomogeneities resulting from lens, light and non-uniformity of sensor pixels RGB line distance Line shift; Spatial correction The tri-linear sensor has individual pixel lines for red, green and blue. Inside the camera the spatial differences are corrected. White balancing Setting the operation point White balancing ensures that a reference white is kept stable in an image with color temperature or brightness changes in the illumination. This can be done in a single setup process or in a permanent process. White reference The white reference is a physical patch in the field of view of the camera that can be used for a camera internal white balancing. Tap balance The sensor has 2 taps. Tap balance ensures that both taps will have the same signal levels at the junction for the same brightness. Chromasens allpixa pro - CD40127 Version

11 1.5 Scope of supply of the allpixa pro camera Please check your device upon delivery to ensure that it is undamaged and complete. The following components are supplied with the allpixa pro camera: allpixa pro camera packaging Please check the packaging for damage which may have occurred during transport. allpixa pro camera Please check the camera for damage which may have occurred during transport. The rating plate is located on the rear of the allpixa pro camera. It shows the camera resolution and the serial number. Additionally ordered and supplied accessories Lens adapters, extension rings, lenses and other accessories are not included in the standard scope of delivery. These items must be ordered separately as accessories. Please check additionally ordered accessories for completeness and for damage which may have occurred during transport. Kindly read this manual carefully before using the camera, contacting your local partners or the Chromasens support. Should there be any questions left, please do not hesitate to contact your local partner or us. We would be pleased to be of assistance to you. 1.6 Information about the Camera Setup Tool CST = Camera Setup Tool For downloading our updates, please refer to our website at and proceed to the Login area. Before installing and using the CST, please check if there is a recent CST or manual version available. If you already have an installed version of the CST, you may check the version number in the Help menu. Kindly note that you will find the instructions how to use the CST in chapter 6 - Configuration of the camera using. Chromasens allpixa pro - CD40127 Version

12 1.7 Design of a line scan camera system The following figure demonstrates the basic setup of a typical line scan camera system Figure 1: Design of a line scan camera application Following components are necessary in a typical line scan camera application Component No. Line scan camera: An allpixa pro camera which scans the image line by line and communicates with the frame grabber (5, PC plug-in card). The optical system: Optical lenses with tubes and mounts with an adjusted focusing Illumination: The illumination system lights up the information carrier/scan area on the passing object. The Chromasens Corona II illumination system is an ideal supplementary option for the allpixa pro camera. Illumination controller: Controls and monitors the illumination unit. The Chromasens Corona II illumination (3) has integrated temperature/voltage sensors which can be read out with the XLC4 controller. By using the XLC4 controller, the illumination unit can be monitored and kept stable. Frame grabber (PC plug-in card): The image data are sent to a PC by means of a frame grabber with a Camera Link interface. The frame grabber establishes the necessary hardware connection to the PC (6). PC: The PC system serves for subsequent processing of the image data and can optionally control the illumination system (3 + 4). Speed detection: The speed of the object / conveyor belt can be detected by means of an optional incremental encoder. The encoder can be connected either to the allpixa pro camera or the frame grabber. Conveying unit: The conveying unit moves the scanned object past the allpixa pro camera Power supply: Both, the allpixa pro camera and the illumination system, requires a suitable power supply Chromasens allpixa pro - CD40127 Version

13 2 Specifications and definitions The allpixa pro camera family is available in the following maximum resolutions / line frequencies: 1,024 pixels / max. 156 khz 2,048 pixels / max. 92,7 khz 4,096 pixels / max. 50,8 khz 6,000 pixels / max. 34,3 khz 7,300 pixels / max. 29,7 khz If you are interested in further resolutions, please do not hesitate to contact us. The allpixa pro camera features all functions required for supplying images with the same color, brightness and resolution of each operational area. The allpixa pro camera is particularly suitable for inspection systems requiring a very high speed and a consistently high color quality. Continuous white balancing is possible during image acquisition to ensure optimum color quality. In addition, offset and shading correction ensure the balance of different color pixel sensitivities (DSNU and PRNU) as well as the illumination process. Via frame grabber the incremental encoder can be either send to the CC bits of the Camera Link interface or directly connected to the allpixa pro camera. As a result, images with a consistent quality can be generated even at transport speeds with a high fluctuation rate. The allpixa pro camera parameters can be set with the CST software tool. Equipped with a Camera Link base / medium /full interface support, the allpixa pro camera achieves a data rate in medium mode of up to 170 megapixels per second with 24 bit RGB, which is equal to 510 Mbytes/s. With Camera Link Full_64 interface the data rate is 680Mbytes/s and with Camera Link Full_80 interface the data rate is 850Mbytes/s The design was fully revised during development of the housing which is impressively tough but offers a number of screw mounting options. Please be informed that the wide range of adapter options makes the installation simple for users. Modularity of the allpixa pro camera permits the use of various lenses like C-mount, F-mount, M39x1/26, M42x1 and M72x0.75 connections. Additionally, the modular focus of LINOS / Qioptics is supported and the allpixa pro camera can, therefore, be combined with all commercially available standard lenses. Chromasens allpixa pro - CD40127 Version

14 2.1 Camera highlights Trilinear color line scan camera (trilinear CCD line scan sensor) 10 µm pixel size High accuracy sensor alignment 24 bit (3 x 8/10 Bit) color information or 1 x 8/10/12 Bit mono information on the output side RGB spatial compensation in the camera (also sub-pixel correction, patented) Continuous white balancing maintains a constant image brightness and color irrespective of the temperature and service life of the illumination system Incremental encoder port on the camera; this ensures simple handling and less programming work Internal 14 bit A/D conversion per color channel Shading correction, fully automatic calculation internally in the camera or optionally calculated offline with CST Gamma correction, brightness and contrast controller, separate for each channel Multiple Color conversion matrix (CCM) and offset supported Internal keystone correction for multiple angle positioning of the camera Precise multi camera synchronization Automatic insertion of machine and camera data inside the image (e.g. scanning speed, CRC, time stamp, Encoder position,..) Fully synchronized multi-channel LED flash control Robust metal housing Adjustable Camera Link clock Mono image output at individual color weights C-mount, F-mount, M39x1/26", M42x1, M72x0.75, modular focus (Qioptics / Germany) Other mounts and customized solutions on request Internal test image generator Option for area scanning with trigger inputs (light barriers) Chromasens allpixa pro - CD40127 Version

15 2.2 Camera speed for available Camera Link modes and frequency The allpixa pro maximum line frequency depends on the selected Camera Link type and frequency. Please see the listing below for different configurations. allpixa pro 2k (2048 pixel) CL-Definition Base Mode Medium mode Full64 mode Full80_ 8Tap_10Bit Full80_ 10Tap_8Bit Mono output * MHz 41,1 khz 81,6 khz 92,7 khz 92,7 khz 92,7 khz 81,6 khz MHz 36,6 khz 72,6 khz 92,7 khz 92,7 khz 92,7 khz 72,6 khz MHz 29,9 khz 59,4 khz 78,8 khz 78,8 khz 92,7 khz 59,4 khz *) mono output in Camera Link Base mode (at 8; 10 or 12 Bit per Pixel) allpixa pro 4k (4096 pixel) CL-Definition Base Mode Medium mode Full64 mode Full80_ 8Tap_10Bit Full80_ 10Tap_8Bit Mono output * MHz 20,6 khz 41,1 khz 50,8 khz 50,8 khz 50,8 khz 41,1 khz MHz 18,3 khz 36,3 khz 48,6 khz 48,6 khz 50,8 khz 36,6 khz MHz 15,0 khz 29,9 khz 39,8 khz 39,8 khz 49,6 khz 29,9 khz *) mono output in Camera Link Base mode (at 8; 10 or 12 Bit per Pixel) allpixa pro 6000px (6000 pixel) CL-Definition Base Mode Medium mode Full64 mode Full80_ 8Tap_10Bit Full80_ 10Tap_8Bit Mono output * MHz 14,1 khz 28,1 khz 34,3 khz 34,3 khz 34,3 khz 28,1 khz MHz 12,5 khz 25,0 khz 33,3 khz 33,3 khz 34,3 khz 25,0 khz MHz 10,2 khz 20,5 khz 27,2 khz 27,2 khz 34,0 khz 20,5 khz *) mono output in Camera Link Base mode (at 8; 10 or 12 Bit per Pixel) allpixa pro 7.3k (7300 pixel) CL-Definition Base Mode Medium mode Full64 mode Full80_ 8Tap_10Bit Full80_ 10Tap_8Bit Mono output * MHz 12,4 khz 23,1 khz 29,7 khz 29,7 khz 29,7 khz 23,1 khz MHz 10,3 khz 20,6 khz 27,4 khz 27,4 khz 29,7 khz 20,6 khz MHz 8,4 khz 16,8 khz 22,4 khz 22,4 khz 28,0 khz 16,8 khz *) mono output in Camera Link Base mode (at 8; 10 or 12 Bit per Pixel) (see chapter for the supported Camera Link modes) Chromasens allpixa pro - CD40127 Version

16 2.3 Technical specification Sensor Pixel size Line spacing Maximum pixel rate Trilinear CCD color line sensor 10 µm x 10 µm (10 µm pitch) 40 µm between R-G and G-B 226 megapixels/s 24 / 30Bit RGB Maximum data rate on the Camera Link Base: Medium: Full_64 Full_80: 255 Mbytes/s 510 Mbytes/s 680 Mbytes/s 850 Mbytes/s Resolution Maximum line frequency (Preliminary) Spectral sensitivity Video signal Interface Line scan operating mode Area scan operating mode Other interfaces Camera mount Certifications Power supply Operating temperature Housing dimensions Weight (Only OEM) / / / px Other sensor resolutions are available on request pixels: 156 khz (only in special OEM configurations) pixels: 92,74 khz pixels: 50,82 khz pixels: 34,32 khz pixels: 29,72 khz 360 nm to 960 nm 3x8 or 3*10 bit on the Camera Link, 3x14 bit ADC Camera Link with up to 85 MHz Free-running / external trigger (incremental encoder / line trigger) Image size either free-running, fixed or based on trigger pulse width Power supply (6 pin Hirose, male) External IO (15 pin D-Sub, female) Serial RS-232 (9 pin D-Sub, female) C-mount, F-mount, M39x1/26, M42x1, M72x0.75, modular focus (LINOS / Qioptics), lens adapter and extension tubes CE, FCC compliant, RoHS 24 VDC +/- 10 %; <19 W 0 C to 60 C; 32 F to 140 F (housing temp.) L = 102 mm, H = 100 mm, D = 77 mm 1.2 kg Chromasens allpixa pro - CD40127 Version

17 NOTE Depending on the power supply the power consumption might be up to 1 ampere at power up for a short time. It is recommended to provide a power supply with 24VDC/1amp or with higher possible power consumption. 2.4 Mechanical specification Mechanical dimensions of the allpixa pro camera up to pixels Please note that the following dimensions apply to the allpixa pro camera with pixels, pixels and pixels: Figure 2: Mechanical dimensions of the allpixa pro camera with up to pixels NOTE I Drawings and 3D-CAD-models are available on our homepage NOTE II The shown position of the CCD surface is given as resulting optical value including lengthening of the sensor glass. For pure mechanical calculation 0.24 mm has to be subtracted. NOTE III For the XYZ coordinate system and for sensor alignment please refer to chapter 4.2 Design of the allpixa camera pro line scan sensor and sensor alignment Chromasens allpixa pro - CD40127 Version

18 2.4.2 Mechanical dimensions of the 6000 pixel and pixel allpixa pro camera Please note that the following dimensions apply to the allpixa pro camera with pixels: Figure 3: Mechanical dimensions of the allpixa pro camera with and pixels NOTE I Drawings and 3D-CAD-models are available on our homepage NOTE II The shown position of the CCD surface is given as resulting optical value including lengthening of the sensor glass. For pure mechanical calculation 0.24 mm has to be subtracted. NOTE III For the XYZ coordinate system and for sensor alignment please refer to chapter 4.2 Design of the allpixa pro camera line scan sensor and sensor alignment Chromasens allpixa pro - CD40127 Version

19 2.5 Sensor alignment and orientation Sensor orientation and alignment in viewing from the front side of the camera. For detailed mechanical drawing please see chapter 2.4. First pixel of sensor lines: Left side Color lines orientation: Blue: Green: Red: top center bottom Sensor alignment: Position: X: < +/- 100 µm Y: < +/- 100 µm Z: < +/- 100 µm Rotation about: Y: < +/- 0.1 Z: < +/- 0.1 Planarity of sensor surface: < +/ µm Sensor window: Thickness: 0.7 mm Refraction index 1.5 Optical path extension: 0.24 mm Y First pixel Z X Sensor alignment is an important issue for: Adjusting multi camera systems Replacing cameras Mechanical design of the mounting system for the camera Chromasens allpixa pro - CD40127 Version

20 2.6 Adapter and accessories Lenses adapters and mounts Chromasens offers a large variety of accessories which are designed to provide maximum flexibility and get most out of the camera. You can find the complete list of all accessories including descriptions and detailed drawings in our login area of our website at NOTE For further information on accessories please refer to the corresponding accessories catalogue or the configuration sheet at our website Chromasens allpixa pro - CD40127 Version

21 2.6.3 Accessories for 2k & 4k camera S-Series Figure 4: configuration scheme (housing type S) Description allpixa pro - 2k allpixa pro - 4k allpixa pro - 4k with F-Mount ID & Code CP S CP S CP allpixa pro camera Tubes 4k Identification No. Pos. allpixa camera-tube-4k 20 mm CP allpixa camera-tube-4k 40 mm CP allpixa camera-tube-4k 60 mm CP allpixa camera-tube-4k 80 mm CP allpixa camera-tube-4k 100 mm CP allpixa camera 4k direct mount Adapters Identification No. Pos. allpixa camera F-Mount Adapter CP allpixa camera C-Mount-Adapter CP allpixa camera 4K-Adapter M42x1-A45,46 CP allpixa camera Adapter-MF (to Modular Focus ) CP allpixa camera Adapter-M42x0,75 (to Schneider Unifoc 58 (T2)) CP allpixa camera Adapter-V-Mount (to Schneider Unifoc 12 (V-Mount)) CP allpixa camera 4k additional parts Identification No. Pos. Additional parts (custom specific) only on request The complete list of all accessories including descriptions and detailed drawings you will find on our website Chromasens allpixa pro - CD40127 Version

22 2.6.4 Accessories for 6000px and 7.3k camera W-Series Figure 5: configuration scheme (housing type W) allpixa pro camera Identification No. Pos. allpixa pro 6.000px allpixa pro - 7.3k CP W CP W allpixa camera Tubes 7k Identification No. Pos. allpixa camera-tubus-7k 20 mm CP allpixa camera-tubus-7k 40 mm CP allpixa camera-tubus-7k 60 mm CP allpixa camera-tubus-7k 80 mm CP allpixa camera-tubus-7k 100 mm CP allpixa camera 7k mount Adapters Identification No. Pos. Adapter - Modular Focus CP Adapter M72x0,75-RF CP allpixa camera Adapter-M58x0,75 (to Schneider Unifoc 76) CP The complete list of all accessories including descriptions and detailed drawings you will find on our website NOTE For Modular Focus (CP000418) an adapter to the allpixa pro camera system (CP or CP000428) is necessary Chromasens allpixa pro - CD40127 Version

23 2.6.5 Mounting of the extension tube systems The extension tubes are used for extending the image distance between the allpixa pro camera (lens reference area) and the lens adapter. Individual extension tubes are available in 20 mm stages and can be interconnected. Figure 6: allpixa pro camera 7.3k with extension tubes If it is necessary to adjust the image distance with the aid of extension tubes, they have to be combined and connected with grub screws (Allen key size 1.5 mm, maximum torque 30 Ncm). Additionally, it is necessary to secure the lens and the lens adapter plate with grub screws to the extension tubes. Figure 7: Securing the extension tubes with grub screws Figure 8: Mounting the lens adapter plate Chromasens allpixa pro - CD40127 Version

24 2.6.6 Mounting of a lens adapter ring Lens adapter ring is mounted in the lens adapter fit of the camera body (Figure 9). Figure 9: Mounting the lens adapter ring in the fit of the camera body The lens adapter ring is secured by grub screws (Allen key size 1.5 mm, max. torque 30 Ncm). Figure 10: Securing the lens adapter ring to the camera Chromasens allpixa pro - CD40127 Version

25 2.7 Environmental requirements Value Temperature for camera operation Air humidity during camera operation Please see chapter 2.3 for allowed housing temperature 20% - 85% relative air humidity, non-condensing Storage / transport temperature -20 ºC ºC; -4 F F Protection category General ambient conditions Operation Transport Storage IP50 IEC :IE33 IEC :IE21 IEC :IE11 NOTE: Please use thermal conductive mounting (e.g. direct attachment on metal frame) to decrease temperature and for improved camera performance. Please also see chapter 5.3 Chromasens allpixa pro - CD40127 Version

26 3 Safety 3.1 Depiction of safety instructions Safety-relevant information is indicated in this manual as follows: WARNING Indicates a potentially hazardous situation or task, which, if not avoided, could result in serious injury or death. CAUTION Indicates a potentially hazardous situation or task, which, if not avoided, may result in minor or moderate injury. Indicates a potentially hazardous situation or task, which, if not avoided, could result in damage to the product or the surrounding environment. 3.2 Basic safety regulations The basic safety regulations always observe the following: Do not attempt to install the device or start operation before you have read all supplied documentation carefully and have understood its contents. Safe and correct operation of the device requires correct and appropriate transport, storage, mounting and installation as well as careful operation and maintenance. Operation of the allpixa pro camera device is only permitted when it is in a faultless and safe condition. In the event of any fault or defect, the allpixa pro camera, the machine or the system in which the allpixa pro camera is installed, must be stopped immediately and the responsible person has to be informed. Modifications and extensions to the allpixa pro camera are only permitted if the prior written consent of Chromasens GmbH is obtained. This applies in particular to modifications and extensions which can negatively affect the safety of the allpixa pro camera. Compliance with the ambient conditions described in this manual is essential. Chromasens allpixa pro - CD40127 Version

27 3.3 Safety instructions on the allpixa pro camera Risks from hot surfaces The body of the allpixa pro camera will heat up during operation. Do not touch hot surfaces without suitable protective gloves. Always allow hot surfaces to cool down before carrying out any work on the unit. Electric voltage hazard The allpixa pro camera runs with electric power. Before any work is carried out on the allpixa pro camera, be aware to disconnect the mains cables. Please be sure that the device is safely isolated from the power supply! Risk of electrostatic discharge The allpixa pro camera contains components and units which are sensitive to electrostatic charge. Observe all precautionary measures for handling electrostatic sensitive equipment. Make sure that allpixa pro camera, its corresponding tools, its equipment and the knowledge of the person who is handling with have the same electrical potential. 3.4 Purpose / applications The allpixa pro camera is designed for machines and systems which are used for commercial and industrial applications. The owner of the machine or system in which the allpixa pro camera has been installed is responsible for compliance with relevant safety regulations, standards and directives. Commissioning of the allpixa pro camera is only permitted when the machine or system, in which the allpixa pro camera is installed, complies with the safety regulations and standards of the country in which the allpixa pro camera runs. The owner of the machine or system with the installed allpixa pro camera has to verify the suitability of allpixa pro camera for its intended use. Safety regulations of the country in which the device will be used have to be complied with it. The allpixa pro camera may only be connected or used as described in this manual. The allpixa pro camera must be set up and installed in compliance with the instructions contained in this manual. 3.5 Staff requirements The system owner must ensure that all persons working on the system are trained for the required work and have read and understood this manual. This applies particularly to the employees who only work occasionally with the allpixa pro camera, for example, during commissioning and maintenance work. Chromasens allpixa pro - CD40127 Version

28 Work on the electrical installation of the system may only be carried out by a qualified electrician or persons who have undergone the necessary electrotechnical training under the supervision of a qualified electrician, in compliance with applicable electrotechnical regulations. Please be aware that only suitably trained and qualified persons are permitted to work with the allpixa pro camera. Such persons are qualified to work with the allpixa pro camera device, if they are familiar with its assembly, installation, care and all necessary precautionary measures. Assignments and responsibilities of the staff charged with operation, commissioning, maintenance and repair have to be clearly defined and specified by the owner of the device in which the allpixa pro camera is installed. 3.6 Organizational measurements The instruction manual has to be stored safely in the vicinity of the camera in operation. Information contained in this manual have to be integrated into the documentation of the device in which the allpixa pro camera is installed. The allpixa pro camera and all connected peripheries have to be checked regularly for visible external damages. 3.7 Safety instructions for maintenance / cleaning Before carrying out any service or maintenance work, the responsible staff has to be informed. Deadlines and intervals for regular inspections must be complied with. Before starting maintenance, the allpixa pro camera must be isolated from the power supply. Due to the risk of fire devices such as radiators, heaters or lighting equipment have to be allowed first to cool down. Only technicians of the Chromasens GmbH are permitted to open or slacken screws or housing sections of the allpixa pro camera. Necessary repairs may only be carried out by the Chromasens GmbH. Cleaning of the device is only allowed with a soft, lint-free cloth and Isopropanol (optional). In order to avoid damages, the camera may only be transported in its original packaging. 3.8 Maintenance and cleaning of the allpixa pro camera During operation of the device, particles such as dust etc. may be settled on the optical components (lens) of the camera. These deposits affect the optical image and the function of the camera negatively. Chromasens allpixa pro - CD40127 Version

29 Chromasens recommends regular inspection and cleaning. The cleaning intervals depend on the actual operating and ambient conditions (e.g. dust-laden atmosphere) Cleaning intervals Cleaning intervals depend on the environment. Regular inspection and cleaning intervals must be specified depending on the degree of soiling Cleaning process Body of the allpixa pro camera will heat up during operation. Before cleaning, you have to switch off the device. Always allow hot surfaces to cool down before cleaning the device. The device works with electric power. Before cleaning the device, make sure that the device is disconnected from the power supply. All surfaces requiring cleaning can be wiped with a soft, lint-free cloth which can be moistened with Isopropanol. Never use any other liquid or cleaning agent than those stated in this manual. Never use hard or sharp tools for cleaning the device. Inspect the device to ensure that cleaning was effective and repeat, if necessary. If it is not possible to clean a component due to irremovable contamination, it must be replaced. 3.9 Disposal The device consists of different kinds of material and for its disposal the materials have to be separated according to the local regulations. The material has to be disposed properly in order to avoid and to minimize any environmental or human impact. Chromasens allpixa pro - CD40127 Version

30 4 allpixa pro principle functinality 4.1 Principle design of the allpixa pro camera During operation an object is scanned by the CCD sensor. The analog signal is then transformed to a digital signal by the AD converter. The microcontroller with its RAM and flash memory supports the FPGA during image data processing in order to output the images through the Camera Link connector. The allpixa pro camera can be configured with the aid of the CST via the Camera Link interface (CL-Ser.) or the RS 232 interface. Signals from incremental encoders or light barriers can also be input by the GPIOs (general purpose inputs/outputs). Figure 11: Principle design of the allpixa pro camera (block diagram) Chromasens allpixa pro - CD40127 Version

31 4.2 Design of the allpixa pro camera line scan sensor The allpixa pro camera color line scan camera is equipped with a trilinear CCD line scan sensor with 3 spatially separated lines which are sensitive to the colors red, green and blue (RGB). In this way, 3-color information is obtained from each image point (RGB). The spacing of sensor lines is compensated in the allpixa pro camera. Compared to camera systems with interpolating processes (e.g. single-line or bilinear color line scan cameras), the color information is acquired with 3 x 8 bit for each image point. Kindly note that high-quality color detection is only possible in that way. Sensor pixels are 10 µm wide and 10 µm long. The distance between the color sensor lines is 40 µm. Spatial correction is achieved by the corresponding delay of the individual items of color information. As a result of the object s movement, for example, an object point first reaches the blue sensor line, then the green sensor line and finally the red sensor line. These 3 color channels are then combined into a complete image. Continual scanning provides a color image which can theoretically be infinitely long. Figure 12: allpixa pro camera line scan sensor Chromasens allpixa pro - CD40127 Version

32 4.3 The allpixa pro camera line scan sensor readout principle The odd and even pixels of each line are moved to the respective readout register. Therefore, the allpixa pro camera simultaneously processes 3x2x2 channels - 3 colors, 2 taps and both (odd and even pixels). Figure 13: The allpixa pro camera line scan sensor readout principle 4.4 Spectral sensitivity of the allpixa pro camera line scan sensor Wave length (nm) Figure 14: Spectral sensitivity of the line scan sensor Chromasens allpixa pro - CD40127 Version

33 4.5 Image processing Image processing in the allpixa pro camera is analog and digital. The following block diagram illustrates the internal processes Analog / digital image processing The power block provides all required voltages which are available for the camera electronic components from the supplied 24 V DC. The image is acquired by the CCD sensor and initially processed in analog mode, followed by an analog/digital converter. The digital image processing is done in the FPGA. The image data generated by the allpixa pro camera is converted in the video interface to the Camera Link standard and then sent to the frame grabber. Figure 15: Process of the allpixa pro camera image processing (block diagram) Chromasens allpixa pro - CD40127 Version

34 Front Tap CCD Sensor Rear Tap to digital processing to digital processing The CCD sensor is read out by using a shift register. The CDS (correlated double sampling) process filters (extracts) the intended signal information from the received signals. After that process, the global amplification (gain) and offset values (black level offset) are adjusted. In the last step, the analog information is converted to digital 14 bit values to forward these to the digital processing unit. Coarse Gain CDS Gain Offset 14 Bit ADC EVEN Coarse Gain CDS Gain Offset 14 Bit ADC from microcontroller ODD Coarse Gain CDS Gain Offset 14 Bit ADC EVEN Coarse Gain CDS Gain Offset 14 Bit ADC from microcontroller (1) (2) ODD Figure 16: Analog process of the allpixa pro camera (block diagram) Chromasens allpixa pro - CD40127 Version

35 The signals are transferred from the analog-digital converter and run through a multiplexer that switches between the test image generator and the input signals as shown in Figure 17. Figure 17: Digital process of the allpixa pro camera (block diagram) First, the pixel-by-pixel black level correction (1) and shading correction (2) is carried out, then the image data are adjusted with the values programmed for brightness and contrast (3). Afterwards, the spatial correction (RGB) is carried out in the line buffer (RGB line delay compensation) (4) and the colors are adjusted with the color conversion matrix (5) and the gamma correction (6). The color image can also be converted into a grey image by the FPGA (7). Auxiliary data can be added to each line before the image data is output via the Camera Link connection (8). Chromasens allpixa pro - CD40127 Version

36 4.5.2 Supported Camera Link modes allpixa pro - color camera with color output: CL-Base 1Tx24b (1X1) CL-Medium 2Tx24b (2XE) CL-Medium 2Tx24b (1X2) Default CL-Full64 8Tx8b (1X8 raw, RGB with 8 color planes per camera link clock) CL-Full80 8Tx10b (1X8 raw, RGB with 8 color planes per camera link clock) CL-Full80 10Tx8b (1X10 raw, RGB with 10 color planes per camera link clock) allpixa pro - color camera with mono output: CL-Base 2Tx8b (2XE) CL-Base 2Tx10b (2XE) CL-Base 2Tx12b (2XE) For more detailed information about the Camera Link interface specification see appendix chapter 11.3 For minimum integration time for different camera types at different Camera Link modes and output pixel clocks please see chapter for details Chromasens allpixa pro - CD40127 Version

37 4.6 Black level correction and shading (flat field) correction The allpixa pro camera supports black level (offset) and shading correction. The following points are important for understanding these kinds of operation: Both operations are based on pixel-by-pixel calculation, and the effects on behavior of single pixels like PRNU (photo response non uniformity) will be eliminated. Both operations are carried out separately for every line (red, green, blue). The allpixa pro camera offers 4 data sets for black level correction and 4 data sets for shading correction Therefore, the user is able to deal with e.g. 4 different lightning systems by selecting the necessary data sets without transferring or generating new shading data. Calculation of the correction data sets can be done offline on scanned images. Often, shading data has been calculated internally with a static white reference in front of the camera. In this case, spots of dust on the white reference lead to vertical lines in the image. This effect can be eliminated by slightly defocusing the lens during the generation of the references. The lighting distribution will then be seen by the sensor and the lens. Another possibility to avoid this problem is to move the target slightly at the balancing process. In this way, distortions by e.g. dust may also be eliminated. The allpixa pro camera offers the possibility of offline calculation of the references. The user may select a scanned image and define a region of the image, in which shading correction data shall be calculated. By averaging over a higher number of lines, distortions by e.g. dust on the target will be eliminated. Therefore, it is possible to use an image with a moving white object. The allpixa pro camera also provides the possibility to generate shading and offset data internally. Generated data sets may be stored to the hard disc of the PC. The stored data can be transferred to the camera later on. For the calculation the following formulas can be used: Mode Recording of black reference line: BRef(x) = VidRaw with black template or without illumination Mode Recording of white reference line: WRef(x) = VidRaw(x) BRef(x) with white template Mode / Correction (white and black correction is activated) VidSHCOut(x,y) = (VidRaw(x,y) BRef(x)) * VidMax WRef(x) This calculation is done separately for all color separations (RGB). BRef Black Reference value for each pixel in the line WRef White Reference value for each pixel in the line VidRaw Raw values for each pixel output by A/D-Converter (x, y) Number of pixels within the line or column VidMax Maximum brightness value VidSHCOut(x,y) Offset- and Shading corrected pixels of the image Chromasens allpixa pro - CD40127 Version

38 Vid Out VidSHCOut Raw data VidRaw - BRef Figure 18: Offset and shading correction Vid In 1.: Black level correction 2.: shading (flat field) correction Chromasens allpixa pro - CD40127 Version

39 4.7 Feature: Image mode (frame scan mode) The allpixa pro camera is able to emulate a frame scan camera. Output data will be in real frames and the VSync signal (or FVAL = frame valid signal) will be generated. Therefore, the information about frame start and image size have to be supplied to the camera. The trigger signal can be supplied with the frame grabber either by CC-Bits CC3 or CC4 or with a hardware signal by IO-port. The external signals have to be configured by the IOconfigurator via CST. Image height (= number of lines) can be controlled by a fixed value or an external signal depending on the object size. For more detailed description see chapter 9.7 and Monochrome image acquisition Additionally, the color allpixa pro camera offers the possibility to provide monochrome images which are internally generated from to the color information. The weightage of the color channels during generation of a monochrome image can be set individually. Due to the reduced data transmission rate of the mono image the camera will use Camera Link Base mode for the transmission. Output modes of 8 /10/ 12 Bit are available for mono image data. (See chapter ) 4.9 White balancing with a closed loop control In order to keep the video values stable on a white reference target, the allpixa pro camera supports an automatic adjustment of the internal gain values. Therefore, a closed loop can be established which enables an automatism of keeping the white point stable, even if there is brightness or color temperature changes in the illumination. Usually, automatic camera functions use the brightest point for adjusting the best result to get the white color. The allpixa pro camera provides the user the opportunity to arbitrarily define the area of an image chosen as reference and the user will also be able to set the reference values (target values) separately for each channel. Light on Object Reference Value (1) CCD- Sensor - White Control Camera Gain (3) Figure 19: Closed loop control for white balancing Video Value (2) Chromasens allpixa pro - CD40127 Version

40 This function can be used for: A single setup process with a static white reference in front of the camera during its installation. Adjusting the camera continuously during the scanning process. Therefore, it is possible to compensate the warming up or the aging of the light source. Chromasens allpixa pro - CD40127 Version

41 4.10 Setting concept Furthermore, the allpixa pro camera offers a comprehensive setting concept: The user is in the position to store up to 18 different settings in the camera. All parameters such as gaining or integration time may be different from setting to setting and are selectable by short commands. Therefore, a fast change of the camera s behavior is possible for different products. For the user there are 18 settings available. The setting no. 19 is write-protected; the factory s default setting is stored under no. 19 and may be copied to other settings. The camera will always start-up with setting no. 1 Non volatile memory (flash) 19 settings availible Startup setting number 1 Default setting number 19 (write protected) Setting Setting 1 Setting 1 Setting 1 Par1 Setting Par2 Par1 Par Par3 Par2 Par2 Par1 123 Par2 Par Par Par3 Par3 Par Par3 678 Setting Setting 19 Setting 1 Setting 1 Par1 Setting Par2 Par1 Par Par3 Par2 Par2 Par1 123 Par2 Par Par Par3 Par3 Par Par3 678 F10/11 CST FPGA Volatile memory (RAM) Active setting Par1 123 Par2 345 Par3 678 F9 F5 allpixa camera Computer Figure 20: Setting concept Restore factory default By loading setting 19 and saving into the working setting (e.g. setting 1), the originally delivered setting condition of the camera will be restored. Please see chapter 6.10 for how to save settings to different setting positions Chromasens allpixa pro - CD40127 Version

42 4.11 Chromasens API - communication Customer application Chromasens API Configuration data allpixa pro Figure 21: Chromasens API The Chromasens API support a set of function to easily communicate with the allpixa pro camera. With these functions, connection to the camera can be established via Camera Link or serial RS232 connection. Internal working parameters of the camera can be read and modified. Convenience functions for calibration of the camera are provided. Calibration of the camera can be performed to adapt to current illumination conditions. Functions for low level communication are also implemented in the Chromasens API. A detailed description, example code and the necessary DLLs for integration is provided in the CSAPI package, which can be downloaded from the allpixa pro download area on our website. Chromasens allpixa pro - CD40127 Version

43 5 Installing the allpixa pro camera 5.1 Interface and status LED On the back side of the camera you will find the following interfaces: 2 Camera Link ports (port 1 and 2) for image signaling and for communication between the allpixa pro camera and the PC A digital port (IO interface D-Sub 15 female) for the incremental encoder signal, light barriers and other freely-programmable inputs and outputs A serial port (serial RS 232 D-Sub 9 female, Config UART) for additional communication (e.g. configuration signals) between the allpixa pro camera and the PC A power connection (Hirose HR10A-7R-6P, male) for power supply A multi-color LED for indicating the allpixa pro camera status NOTE If using a USB to Serial converter for the connection via RS232 it is recommended to use a converter with FTDI Chipset (Prolifix chipsets may generate problems while connecting to the camera). Status LED CL-Port 1 Power supply CL-Port 2 Config. UART Digital IO-Port Figure 22: The allpixa pro camera connections and status LED Chromasens allpixa pro - CD40127 Version

44 5.1.1 Power supply Kindly note that the following connector is required for the power supply cable: Manufacturer: Article no.: Hirose HR10A-7P-6S female (male connector is located on the camera) Pin no. Description 1 Power +24 V 2 Power +24 V 3 Not connected 4 Not connected 5 Ground 6 Ground Please see section chapter 2.3 for more details on the input voltage and currents Config UART (serial RS 232) Serial connection to the PC can be established by using a 9-pin D-Sub connector (male) via the interface of serial RS 232 (V24). Pin no. Description 1 Not connected 2 Transmit data 3 Receive data 4 Used for internal function, do not connect 5 Ground 6 Not connected 7 Hardware Reset Input. Should be left open if unused 8 Not connected 9 Not connected Pin 1 Chromasens allpixa pro - CD40127 Version

45 5.1.3 Digital IO port You will need a 15-pin D-Sub connector (male) to establish a connection to the digital I/O interface (x5) of the allpixa pro camera. Other functions are selectable at the IO-configurator in CST. Pin no. Level Description Default 1 RS 422 GPIO_P0 (input) Incremental encoder (high) 2 RS 422 GPIO_P1 (input) Light barrier (high) 3 LVCMOS GPIO_P4 4 LVCMOS GPIO_P2 Can be used for light barriers or nselmaster (Bridge to 0 V) with Only pin 3: V in 5,0 V max. Reserved for customized applications V over 100 Ohm Power Output 6 LVCMOS GPIO_P3 Master/Slave-interface 7 0 V Ground - 8 LVCMOS GPIO_N4 Master/Slave-interface 9 RS 422 GPIO_N0 Incremental encoder (low) 10 RS 422 GPIO_N1 Light barrier (low) 11 0 V Ground - 12 LVCMOS GPIO_N2 Reserved for customized applications 13 0 V Ground - 14 LVCMOS GPIO_N3 Reserved for customized applications 15 5 V over 100 Ohm Power supply Output NOTE Power supply: With a 100 Ohm series resistor; RS422: RS422 standard LVCMOS: With 10 Ohm series resistor Pin 1 Chromasens allpixa pro - CD40127 Version

46 5.1.4 LVCMOS and RS422 levels I/O standard Vmin Vmax Vmin Vmax Vmax Vmin LVCMOS RS ,8 2 6 Maximum input level of the LVCMOS is 3.6 V! (Except pin 3 with max 5,0V) Use a level converter, if necessary (e.g. 74 LVC14). Non-compliance can result in irreparable damages to the allpixa pro camera! Video Camera Link port 1 and 2 Camera Link cables will be ready-for-use supplied in different lengths varying from 1m to 10m. For connection to the allpixa pro camera you will need a 26-pin MDR mini-d ribbon (male) connector. Please note that for long cable lengths (more than 6 m) high quality cables are recommended. Alternatively, the Camera Link transmission speed can be reduced using CST configuration (see chapter ). The setup of frame grabber, cable and camera must be tested in advance to guarantee the required functionality Status LED During image output (FVAL active) the LED lights up in blue and alternates then in green or red. Color Green Red Blue Description Camera ready (FVAL inactive) Error (FVAL inactive) allpixa pro camera image output (FVAL active) Chromasens allpixa pro - CD40127 Version

47 5.2 Mechanical installation Various mounting options are featured by the allpixa pro camera housing. Thanks to its numerous threaded holes for attachment the installation of the allpixa pro camera is very simple and versatile. Mounting holes (top/bottom) Mounting holes (front) Mounting holes (left/right) Figure 23: Mechanical connection points of the allpixa pro camera The allpixa pro camera is equipped with 4 fastening points on each side and its front with M4 threads (use maximum torque for full use of 6mm threat of 4 Nm). Please find the exact mechanical dimensions in the section technical data (see chapter 2.4). 5.3 Thermal links / cooling The camera works with in the defined temperature range (see chapter 2.3 and 2.7). To this purpose it may be screwed to thermally conductive parts on a wide and flat surface. A thermal connection to heat-conductive parts has a positive effect on operation of the allpixa pro camera. To dissipate the heat more effectively to the surrounding area, we also recommend using heat conduction pads between the allpixa camera and heat-conductive parts. You can also cool the allpixa pro camera with a fan which should be directed at a large surface area of the allpixa pro camera. Should there be any questions left, or should you be not sure how to adapt the allpixa pro camera most effectively to its ambient conditions, please do not hesitate to contact our support team. The maximal allowed internal camera temperature which can be monitored by the camera or readout by using the CST is: Board temperature: 80 C Sensor temperature: 70 C Chromasens allpixa pro - CD40127 Version

48 5.4 Preventing installation errors To ensure a high image and color quality, it is essential to align the camera correctly with the conveyor belt. If the camera is misaligned, image artifacts may result Conveyor belt tracking Please make sure that the conveyor belt, on which the object is transported, runs completely straight. In the left-hand section of Figure 24 you will see the optimum tracking of the conveyor belt, i.e. the conveyor belt runs completely straight. The enlarged view shows that each of the 3 pixels highlighted in black acquires the same point on the object. In the right-hand section of Figure 24 you will see a situation in which the conveyor belt runs untrue and oscillates in a lateral direction to the transport position and then each line acquires a different area of the passing object. Consequence will be that the image generated by the 3 color lines is not aligned, resulting in chromatic aberration which occurs laterally to the transport position. Correct Incorrect Sensor Sensor Conveyor belt Conveyor belt Figure 24: Optimum conveying belt tracking Chromasens allpixa pro - CD40127 Version

49 5.4.2 Perpendicularity of the sensor to the direction of transport Please make sure that the allpixa pro camera is aligned at a right angle to the direction of transport. In the left-hand section of Figure 25 you will see the optimum alignment of the camera, i.e. it is aligned perpendicularly to the direction of transport. The enlarged view shows that each of the 3 pixels highlighted in black acquires the same point on the object. In the right-hand section of Figure 25 you will see one situation in which the camera is not aligned perpendicularly to the transport position and then the same point on the object is imaged at different positions on the trilinear sensor. Consequence will be that the image generated by the 3 color lines is not aligned, resulting in chromatic aberration on the image. Figure 25: Rectangularity of the sensor to the object Chromasens allpixa pro - CD40127 Version

50 5.4.3 Rotation around the longitudinal axis of the line scan sensor Please make sure that the longitudinal axis of the allpixa pro camera runs parallel to the transport level. The center section of Figure 26 shows the optimum alignment of the camera, i.e. it is aligned parallel to the direction of transport. If the allpixa pro camera is installed in the rotated position around the longitudinal axis of the line scan sensor, chromatic aberration would occur in the image and the scale would change on the 3 color lines. Chromatic aberration will increase symmetrically towards the outer edge. Figure 26: Rotation around the longitudinal axis of the line sensor For obtaining the best result please try to avoid the error shown in the figure. If it is not possible to place the camera in the best orientation, the allpixa pro camera offers the Keystone correction function: By using the function of Keystone correction the allpixa pro camera is able to correct this error by itself. Kindly note that the function of keystone correction will be described in chapter Use keystone correction. Chromasens allpixa pro - CD40127 Version

51 5.4.4 Rotation around the transverse axis of the line sensor Please make sure that the transverse axis of the allpixa pro camera runs parallel to the transport level. In the center section of Figure 27 you will see the optimum alignment of the camera, i.e. it is aligned parallel to the direction of transport. If the allpixa pro camera is installed in a rotated position around the transverse axis of the line scan sensor, result would be a chromatic aberration laterally to the direction of transport, and the size and color would change in relation to the angle. Figure 27: Rotation around the transverse axis of the line scan sensor Chromasens allpixa pro - CD40127 Version

52 5.4.5 Alignment of the allpixa pro camera Exact alignment of the allpixa pro camera is necessary for many applications, for example, in case of using several allpixa pro camera devices in parallel. The following section describes a simple method for exact alignment of the allpixa pro camera. Left-hand marker Right-hand marker Correct alignment Incorrect alignment too low Incorrect alignment rotated Figure 28: Alignment of the allpixa pro camera In that sitution the static reference is the scanned object of which the camera is to be aligned including one vertical and one steadily rising straight line. These 2 straight lines intersect in the set position of the green color channel, prerequisite is that the lines are continually acquired (free-running mode) and the reference should no longer be moved. Each line then achieves the same position and the angled line is acquired as a result of spacing the sensor lines of the color lines in different positions which results in colored lines in the image. The vertical center line produces a black line in the image, therefore, the center of the colored lines and the black line have to be aligned. Chromasens allpixa pro - CD40127 Version

53 5.5 Electrical installation WARNING Only the authorized electro-technical trained staff is permitted to install and to start operation of the device. Before connecting and switching on the power supply, please certainly make sure that all required plug connections have been established correctly. This precaution prevents damage to the allpixa pro camera or to its connected components. When the allpixa pro camera has been secured in its final working position and all cables are connected and screwed, please check the cable configuration. The weighting of the cables should not include the connectors one. No other mechanical strain should be exerted on the connectors. NOTE Grounding the housing and the outer cable shield: Due to an environment with electromagnetic contamination it might be necessary to establish contact between the housing and / or the outer shield of the Camera Link cable to the installation s electrical ground. The mounting threads for the housing are not isolated; therefore, you may use any other kind of mounting threads for connecting the housing to the electrical ground. Connect a power cable from the camera to a 24V DC power supply. For the pin allocation of the HIROSE see chapter Power: 24 VDC +/- 10 %; 1A; typical 16 W Hirose 6 -pin Figure 29: Connecting the allpixa pro camera to the power supply Chromasens allpixa pro - CD40127 Version

54 5.6 Connecting the camera to the PC The camera will be connected by a Camera Link cable to the PC. NOTE Camera Link cables are supplied ready for use in different lengths varying from 1 m to 10 m. You will require a 26-pin MDR mini-d ribbon (male) connector for connection to the allpixa camera. Camera Link specification limits a max cable length of up to 6 m for a pixel clock of 85 MHz. The setup of camera, cable and frame grabber have to be tested in advance. 1. Connect the Camera Link cable: o o Camera Link Port 1 or 1+2 of the allpixa pro camera (Port 1+2 will support full data rate, please note that only with port 1 the half data rate will be supported). Frame grabber installed in the PC. NOTE Take care of connecting the first port of the camera with the first port of the grabber. Changing might cause a switch between front and rear tap, some grabbers only offer the serial connection through the first port. Port 1 (with serial connection) Port 2 Figure 30: Connecting the allpixa pro camera to the Framegrabber 5.7 Update the firmware of the allpixa pro camera Never disconnect the power or the connection to the camera during the update procedure. Please follow the following steps to update the camera safely. Download the current firmware from the Chromasens website: Chromasens allpixa pro - CD40127 Version

55 You either must have a valid partner account to access the software or follow the link provided by the shipment of the camera. If you are not already registered, please request an account. It is free of charge! Be sure to enter valid information into the request form. Otherwise, you will not be granted access to the site. Please be assured that your information will not be passed on to others outside Chromasens. The software can be found in the login section of the Chromasens homepage or directly by following the link that was delivered with your allpixa pro-camera: Save the package to local disk and unzip the files. Chromasens allpixa pro - CD40127 Version

56 Run CST and select the correct port to connect with the camera Click to get to the system setting Backup your settings Some internal settings might be reset to factory defaults when performing a firmware update. Therefore, it is recommended to save your own settings as backup. o Click on a, select a directory b and save the setting by clicking c 1 a c b Settings will be saved as single files into the given directory. The setting number will be appended to the given filename (e.g. setting 17 will be saved as backup_121207_17.mk) Chromasens allpixa pro - CD40127 Version

57 a Click the Send package to camera -Button a 2 b b c Select the firmware package List of packages available in the directory. Usually, packages are stored as.lst or.txt. The content of this file is a list of the files to load into the camera. Make sure that you use the correct package for your camera. Depending on the used CCD-sensor, different download packages need to be used. The naming of the package contains the length of the CCD-sensor: allpixa camera_ccdlength_firmware_version.txt (e.g. allpixapro_7300_fw_p212.txt) c This file should be used in an allpixa camera with the line length of and contains the package Version Click the OK -Button Download will start immediately after pressing OK. Chromasens allpixa pro - CD40127 Version

58 The progress and the files which are downloaded to the camera are displayed in the window Download List. Progress window only displays the progress of the current file. 3 Download will be finished when the Download List - and the progress-windows are closed. Then the log message window of the CST will output the following message: 4 Switch off the power of the camera. Wait 5 seconds. Turn power on again. Wait until the status LED of the camera is illuminated blue again. Depending on your setting, the LED could also be flashing blue. a b Connect the CST to the camera by the steps and. It is not necessary to restart the CST. b On the system page, simply click open connection. 5 a b Chromasens allpixa pro - CD40127 Version

59 Check if the camera firmware and the FPGA have the desired versions a 6 b Needs to be 0x0000, Otherwise packet is inconsistent!! Green frames indicate the current firmware, CCD and FPGA versions on the camera. Now the camera is ready for operation again. Chromasens allpixa pro - CD40127 Version

60 Reload the stored setting to the camera. Open the stored setting files download them to the camera. a 7 b n Chromasens allpixa pro - CD40127 Version

61 6 Configuration of the camera using Camera Setup Tool 6.1 Installing of CST (Camera Setup Tool) System Requirements Microsoft Windows 7, Windows 8.1, 32 bit or 64 bit. PC with a Frame Grabber Camera Link medium and optionally a serial interface RS Installation of the CST Software In order to install the CST software on your PC, please proceed as follows: 1. Open the setup directory: Figure 1: CST setup directory 2. Double-click the *_setup.exe file and you will see the following screen: Figure 2: CST Setup welcome screen Chromasens allpixa pro - CD40127 Version

62 3. Click on the button Next to continue (or Cancel to exit setup): If the operating system is a 64 bit version, you will see the following screen: Figure 3: CST program version selection 4. Please select the version which should be installed. Kindly note that the screen shown above (Figure 3: CST program version selection will not appear on 32-bit operation systems: Figure 4: Select destination location Chromasens allpixa pro - CD40127 Version

63 5. Select the folder for installing the CST software and then click on the button "Next". Then you will see the following screen: Figure 5: Select start menu folder 6. Select the folder for storing the shortcut to the CST software and then click on the button "Next". Then you will see the following screen: Figure 6: Select additional tasks Chromasens allpixa pro - CD40127 Version

64 7. Click on the checkbox to create a desktop icon and then click the button "Next". When the following screen appears, the CST software is ready for installation: Figure 7: Ready for installation 8. Click on the button Install to execute setup of the CST software. When the setup routine is completely executed, the following screen appears: Figure 8: Completing camera setup tool installation Now the CST software is ready for use. Chromasens allpixa pro - CD40127 Version

65 6.1.3 Establishing communication between camera and PC This paragraph describes basic settings of the CST software to establish communication between the PC and the camera. Afterwards, the user has the opportunity to start configuring the camera. In order to establish communication between camera and PC please proceed as follows: 1. Double-click on the CST icon on the PC desktop. Figure 9: Icon to start the CST software You will see the following screen: Figure 10: Interface parameters 2. Select the PC interface for the communication either via Camera Link or external serial port. 3. Choose the desired baud rate for communication or select Use max. Baud rate to start automatic setup of the baud rate: CST and the allpixa camera will check the fastest baud rate possible up to 115 kbaud. If the frame grabber/interface does not support 115 kbaud, please disable use max. Baudrate. The default baud rate is 19.2 kbaud. 4. Click on the button OK. You will see the following screen: (The CST software establishes communication to the camera.) Figure 11: Establishing communication to the camera (example) Now the CST software will be opened. Chromasens allpixa pro - CD40127 Version

66 6.2 General setup of CST The CST software is based on 5 areas: Toolbar: Direct access to functions and data (chapter.6.3) Menu: Access to all functions (chapter. 6.4) Parameter window: Status bar: Displaying the data Displaying the status of the connection Message windows Menu (6.4) Toolbar (6.3) Parameter Window Message Window Command log window Statusbar Chromasens allpixa pro - CD40127 Version

67 6.3 Toolbar The toolbar for the CST provides the following functions: Figure 12: CST Toolbar Descriptions of each button and its function will be found in the following chart: Button Function Open settings from disk Save settings to disk F9 F10 Transfer settings to volatile (non-permanent) camera memory Permanently burn camera settings to the actually used setting Show the simple setup page. This page shows the most important parameters of the camera on one page. Very useful for first time users. Open basic parameter settings pages, e.g. integration time Set system settings: Transfer setting data to and from the camera Firmware update Reset the camera Open new Camera Connection Set the user level for the CST Encoder and line trigger related settings Show the settings for the user configurable inputs and outputs of the camera Transmit WR command to the camera for automatic white balancing Send a command to balance the 2 taps against each other Open the reference wizard. The wizard will guide the user through the process of generating references for offset and flat field(shading) correction. Chromasens allpixa pro - CD40127 Version

68 Button Function Display live values of the camera This function allows the user to monitor the current values of important parameters of the allpixa camera in live mode (e.g. the temperature or the current values of the reference for the operating point or the statuses of the inputs etc.) For checking the camera status F5 Request active parameters and refresh the display Select and display the currently used setting Buttons for user defined functions (3 available) Info button for getting the current version of CST Collects information about the PC system, the installed grabbers, and the connected camera. This information is very useful for the Chromasens support if you are in need of assistance. Chromasens allpixa pro - CD40127 Version

69 6.4 CST Menu The CST menu for the CST provides the following functions: Figure 13: CST Menu Settings Open setting from disk Open a setting from disk. Useful to check a former configuration. After loading a file from disk it is also possible to transfer it to the camera by the Send setting to camera function. Save setting to disk Transfer setting to volatile camera memory (F9) Burn current setting permanently (F10) Burn current setting permanently as (F11) Clear settings Exit Save current settings to disk Transfer settings to volatile (non-permanent) camera memory. After a reset or a power cycle the changes will be lost. Permanently burn camera settings to the currently used setting Permanently burn camera settings to a different setting Delete settings from camera memory Close CST View Toolbar Enable/disable the toolbar Statusbar Simple setup Edit settings IO-Configurator Encoder setup System configuration Enable/disable the status bar Show the simple setup page. This page shows the most important parameters of the camera on one page. Very useful for first time users. Open basic parameter settings pages, e.g. integration time Show the settings for the user configurable inputs and outputs of the camera Encoder and line trigger related settings Set system settings: Transfer setting data to and from the camera Firmware update Reset the camera Open new Camera Connection Change the viewer configuration file to adapt the displayed parameters to your camera Set the user level for the CST Chromasens allpixa pro - CD40127 Version

70 View Current camera values Display live camera values like voltages temperatures, gain values or similar. Messages Arrange protocol windows vertically Arrange protocol windows horizontally This function allows the user to monitor the current values of important parameters of the allpixa camera in live mode (e.g. the temperature or the current values of the reference for the operating point or the statuses of the inputs etc.) Show command message window Clear logging messages Save logging messages Show detailed command messages Activates the command log window. The communication data is logged here. Clear the message window Save the message window to a log-file for support cases and debugging the system. Activates the command log window. Additionally the communication data is logged in a more detailed way. Advanced Register edit Open a window for editing and reading registers directly on the camera. Attention: Only for advanced users. Bootstrap board Get Camera Trace Verify Packet/Setting Create HSI-Checksum Edit Color Conversion Matrix Set IP address Get current camera state For service only. Return internal camera loggings. Might be requested by the Chromasens support in order to get detailed information about a possible problem. This can be used to create consistent Setting or Firmware/FPGA packages. A checksum is generated for this setting or Firmware package. As soon as something is changed here, the checksum is no longer consistent and can be detected by the camera. Function for development purposes only. If a value in a HSIfile changes, the checksum will no longer be valid. This function recalculates the checksum and enters it into the file. The user is in the position to edit the 4 color correction tables saved inside the camera. If a connection to a GigE-camera should be established, the IP-address can be set here With this function, the user can easily check the camera status. Chromasens allpixa pro - CD40127 Version

71 Commands Process white balancing Perform an automated white balancing on the camera Initiate tap balancing Generate reference Send user command Configure user commands Perform a balancing procedure between the two camera taps in order to eliminate the differences at the tap border. Open the reference wizard. The wizard will guide the user through the process of generating references for offset and flat field (shading) correction. Buttons for user defined functions (3 available) Configuring the buttons for the user defined functions. Help About CST Info button for getting the released version of CST Display system info Collects information about the PC system, the installed grabbers, the connected camera. This information is very useful for the Chromasens support if you are in need of assistance. 6.5 Select the correct viewer configuration for the allpixa pro The default mode for the CST program is set up for the allpixa classic. Some features of the allpixa pro camera are not available in this configuration. Please open up the system configuration page by pushing the wrench-button: Choose the allpixa pro viewer configuration file: Chromasens allpixa pro - CD40127 Version

72 6.6 Simple Setup View (overview) Page Simple setup view Function Functions: Set all basic parameters of the camera in order to quickly receive a well calibrated image Chapter: 8.1 Chromasens allpixa pro - CD40127 Version

73 6.7 Basic camera parameter settings (overview) Basic parameters of the camera are split into different groups: Camera parameter This part contains the parameter related to the following: Page Camera settings Camera Parameter Integration time Function Integration time: Set the integration time Set the line period mode Set the line period time Chapter: 9.1 Camera settings Camera Parameter Gain and Reference Settings Camera Gain and Reference Settings: Analog Coarse Gain Analog Gain Closed loop control for white balancing Chapter: 9.2 Chromasens allpixa pro - CD40127 Version

74 Page Camera settings Camera Parameter White reference mark Function White reference mark: Set the position and size of the zone for the closed loop control Chapter: 9.3 Camera settings Camera Parameter Shading Shading (flat field): Activate shading correction Activate black level correction Select the data set for shading and black level correction Chapter: 9.4 Chromasens allpixa pro - CD40127 Version

75 Page Camera settings Camera Parameter Brightness and Contrast Function Brightness and Contrast: Digital gain Digital offset Gamma correction Chapter: 9.5 Camera settings Camera Parameter Physical setup Physical setup: Set the line shift/spatial correction Set the scan direction Chapter: 9.6 Chromasens allpixa pro - CD40127 Version

76 6.7.2 Image parameter This part contains the parameter related to the image itself. Page Camera settings Image Parameter Image size Function Image size: Set the parameters related to the image size Chapter: 9.7 Camera settings Image Parameter Synchronization Synchronization: Set the parameters for triggering the frame scan modes Select the synchronization with other cameras (Master/slave mode) Chapter: 9.8 Page Camera settings Image Parameter Image processing Function Image processing: Activate image mirroring Activate color correction Activate and set parameters for the keystone functions Chapter: 9.9 Chromasens allpixa pro - CD40127 Version

77 Page Camera settings Image parameter Output format Function Output format: Set the pixel clock on Camera Link Select the port type medium or base Different parameters for data transfer on Camera Link Insert information into image data Chapter: Special functions (test pattern / tracing / Register edit) Page Camera settings Special functions Test pattern Function Test pattern: Test images can be generated inside the camera Chapter: 9.11 Camera settings Special functions Tracing Tracing: Debugging functions Chapter: 9.13 Chromasens allpixa pro - CD40127 Version

78 Page Camera settings Special functions Register edit Function Register edit: The user is in the position to directly edit registers. This data will be saved on the camera with burning the setting. Please be careful by using this function. This might cause a damage of the firmware or cause malfunction of the camera. Chapter: General information Page Function Camera settings General information Camera information Camera information: Information about firmware on the camera Please attach a screen shot of this page for all support questions. Chapter: 9.15 Chromasens allpixa pro - CD40127 Version

79 6.8 Opening serial connection to a camera The user has the possibility to open another port or re-opening the same port from CST without closing and selecting it from the start window. Button Function key Menu View/System configuration Select the desired camera connection: Select the baud rate or select Use max. Baud rate If Use max. Baud rate is selected; CST and the camera try to get connected with the highest possible data rate. Press the connect button: The default baud rate of the camera is Baud at power up. Some PCs set the reset on RS232 to high as default. Therefore, this option has to be disabled. This refers only to serial ports of the PC; it does not affect the ports provided by the Camera Link. 6.9 Transferring data to the camera Button Function key Menu F9 File/Send Setting to camera Changes in the setting have to be transferred to the camera. NOTE Data edited in the CST is not transferred automatically to the camera Data edited in the CST is not transferred by pressing Enter at the camera Data will be lost after repowering the camera or after resetting if not saved to persisting memory By loading a new setting or reloading the actual setting, unsaved data will be lost Chromasens allpixa pro - CD40127 Version

80 6.10 Saving data permanently to the camera There are up to 18 different settings available in the camera. Setting 19 is reserved for the backup of the default setting. We recommend using the settings 1 to 9 for working settings and setting 10 to 18 as locations for backup settings. The currently selected setting is displayed in the toolbar. In order to save the data to the currently selected setting please use the following: Button Function key Menu F10 File/Burn setting In order to save the data to another setting in the camera please use the following: Button Function key Menu F11 File/Burn setting as The following dialog will be opened: Select the desired setting number and press OK. NOTE First, changes made inside CST have to be transferred to the camera. If they are not transferred, they will be lost. These functions take the data from the volatile memory in the camera for burning. Chromasens allpixa pro - CD40127 Version

81 6.11 Refreshing data from the camera in CST Some data has been changed in the camera or in the setting by the camera itself, e.g. by the closed loop control for the white balancing. In order to update the current data in the CST, the refresh button has to be pressed. Button Function key Menu F Select a setting on the camera With the drop down list Active Setting the user is in the position to select a saved setting from the camera and activate this setting. NOTE Changes which have not been transferred and burned on the last edited setting will be lost Saving settings to the PC There are two different file types are available for saving settings from the camera to the PC: *.mk-files: Binary file of the setting from the camera. This data can be directly transferred to the camera. *.set-files: This file type is based on XML. This file can be edited manually by the user but it is only recommended for advanced users. Please use CST for editing the files safely. The file can also be downloaded to the camera but CST will translate it first. Chromasens allpixa pro - CD40127 Version

82 Saving settings from CST to harddisk Button Function key Menu File/Save With this function you save the setting data currently present in the CST to a *.set or.mk-file. NOTE Changes at the camera, e.g. caused by the automatic white control, will not be saved in the files. Therefore, please press refresh button first, before saving the data to hard disk Saving settings from the camera to hard disk Button Function key Menu View/System configuration By using this function the saved setting data from the camera will be saved in a file. The user is in the position to select the necessary data, in case that the setting is saved as *.set-file or as *.mk-file. NOTE Changes will be lost if they are not saved permanently to a setting. By using selection dialog, the user is able to select the settings for saving on hard disk. Check boxes will be enabled for the available settings on the camera. By using the button Browse it is possible to select a desired folder and file name. By using the button Save as Set the settings will be saved as *.set-files (XML based) By using the button Save as MK the settings will be save as *.mk-files (binary) The different settings will get an extension number added to the file name. Chromasens allpixa pro - CD40127 Version

83 6.14 Transferring saved settings from the PC to the camera NOTE If the user transfers settings to the camera, settings with the same number will be overwritten on the setting of the camera. There are 2 ways available for transferring settings to the camera: Transfer settings directly to the camera Open the setting in CST and transfer data in a second step to the camera. 1. By doing direct transfer: Button Function key Menu View/System configuration 2. By using CST: Button Function key Menu File/Open A standard file dialog will be opened and the user is has the opportunity to select *.set- Files or *.mk-files. Afterwards, the setting will be shown in CST. NOTE Setting has not been transferred to the camera but to a volatile memory by using the Transfer-button or F9. Then setting has to be burned separately to the camera Deleting settings from the camera The user has the opportunity to delete burned settings from the camera. Button Function key Menu Settings/Clear settings Chromasens allpixa pro - CD40127 Version

84 NOTE I The user is not allowed to delete setting 1. In case the user did some false changes at setting 1, it is possible to re-download the init-setting 1 to the camera. The required file is included in the software package which is available for download. The file is called PIXAproXXXX_InitSetting1_FreeRun_Rnnn.mk. Where XXXX is related to the allpixa camera model and nnn is the revision of the firmware package. The simple setup page also provides a function to restore the default setting 1 without having to deal with download packages. The setting will be restored from internal camera memory. NOTE II This function is only available in the user level Guru. By using a dialog box, the user is able to select the setting which has to be deleted: Chromasens allpixa pro - CD40127 Version

85 6.16 Setting the user level in CST CST will offer different user levels but not all parameters and functions are available in each user level. This is helpful to provide undesired changes by inexperienced users. 3 levels are available: Button Function key Menu NOTE We recommend doing as much as possible parameterization in the level Normal user in order to avoid wrong settings. Functions in the menu tap Advanced which are inside the CST are limited by the user level as displayed in this table: Chapter Normal User Register Edit Bootstrap Board Expert Guru X X IO-Configurator X X (X) Get Camera Trace X X Verify Packet/Setting Create HSI-Checksum Clear Settings Edit Color Correction Matrix X X X X Get current camera state X X X Limitation for the parameters due to this function are shown in chapter 9.18 Chromasens allpixa pro - CD40127 Version

86 Resetting the camera It is possible to reset the camera from CST: Button Function key Menu View/System configuration On the camera a reset will be performed and after that the CST will be automatically reconnected to the camera Checking the camera status Button Function key Menu Advanced/Get current camera state By pressing this button the user can easily check the camera status and the camera will return detailed information of its state and the currently present errors. By clicking this button the currently presented errors will be cleared and acknowledged. If the Camera is running OK the following dialog box will be shown: Chromasens allpixa pro - CD40127 Version

87 6.18 Choosing a different configuration file for the parameter display The user has the possibility to change the display of the parameters according to the camera type. Button Function key Menu View/System configuration The default viewer configuration will be the for the allpixa-camera: allpixa. The changes are applied immediately to the parameter view. The settings are stored in the registry. The CST will start up the next time with the changed viewer file. According to the different viewer file some parameters will be visible or hidden. Chromasens allpixa pro - CD40127 Version

88 6.19 Register Edit The user has the possibility to read and prepare registers in the camera. Button Function key Menu Advanced/Register edit Compared to the register edit of the basic settings (chapter Special functions ), this register edit is for non-permanent memory. Each loading or sending of a setting will overwrite the changes. The intended use is for debugging the system: a The user has the possibility to edit different registers directly. By pressing the OK button register names (Remark) and the address will be saved on hard disk and will be available for the next time. By pressing the button Set and Get the user is able to work with this single registers. With the button Set all and Get all all registers in the list will be edited. It is also possible to change the numbers of displayed registers by editing the count and pushing the set button (a). NOTE This function is only for trained users. Chromasens allpixa pro - CD40127 Version

89 7 Camera system setup first steps 7.1 Camera Installation Prepare the general setup: Prepare the camera and lens 1 Select the correct lens and accessories to operate your camera in the desired environment. (You may see chapter 11.2 for lens and tube selection) Install the lens and adapters correctly. For detailed description of the lens and mount installation, you may also refer to chapter 2.6. Prepare the right cabling for your application 2 Camera Link cable: The allpixa pro provides MDR connectors. Check the plugs of your frame grabber in order to decide, if you need MDR-MDR or MDR-SDR Camera Link cables. Power supply: Hirose 6-pin plug (HR10A-7P-6S). The allpixa pro connecting interfaces are described in chapter 5.1. Connect the camera to power supply (24 VDC +/- 10 %; 1A; typical 16 W) and your frame grabber (chapter 5.6) 3 Install the frame grabber on your PC by following the manufacturer s description Set the configuration of the frame grabber to adjust it to the configuration of the allpixa pro camera. Refer to chapter for image information output on the Camera Link. 4 Adjust the focusing point of your illumination unit and position it correctly Refer to the manual of the illumination manufacturer for proper installation of the illumination Make sure the illumination is correctly positioned to illuminate the scanning area 5 Mechanically install the camera into your machine Make sure, it is positioned correctly The sensor line should be adjusted horizontally to the transport direction and the camera should look perpendicular to the inspection area. For detailed description of a correct camera installation, refer to chapter 5. Make sure, you have the correct object-to-sensor distance The sensor line is positioned 16,5 mm (optical photosensitive surface) behind the front surface of the allpixa pro camera. You can find the detailed sensor position description in chapter 2.4. Chromasens allpixa pro - CD40127 Version

90 7.2 Startup the system Startup the camera: Parameters of the camera can be set by using the Camera Setup Tool. (see chapter 6) for installation of CST). You can also find a list of default parameters in chapter Turn on the illumination and the camera Start CST (Camera Setup Tool) (chapter 6) Setup communication between PC and camera (chapter 6.1.3) Set the correct Camera Link configuration and the connection speed 1 (at Output format) Click to save setting into volatile memory Use the simple user mode for first parameter adjustments. Therefore click on the buton in the manue bar Now, you should be able to grab and see an image in your frame grabber tool. If your frame grabber is not able to receive an image then please see the frame grabber manual or contact support service of the frame grabber manufacturer Proceed to chapter 7.3 to calibrate the camera and adjust the camera settings to your operating condition. (You may select the user level in the system settings in chapter 0) NOTE After setting a parameter, always use or push F9 to transfer setting to volatile memory! Use or push F10 to burn setting into the camera! Other buttons of the toolbar are described in chapter 6.3. Chromasens allpixa pro - CD40127 Version

91 7.3 Adjust camera to the environment (camera calibration) Prepare the camera for calibration (see also chapter 8.2). - Set the camera in freerunning - Place a white reference target covering the full scanning area NOTE The white reference target has to be placed into the best focus plane of the camera. Therefore any features on its surface (e.g. dust, scratches) will end up in the calibration profile of the camera. To avoid this when using a static (non moving) white reference target, please use a clean white ceramic or plastic material, not paper. Ideally, the white object should move during the calibration process as the movement will result in an averaging process and the camera will diminish the effects on any small variation in the white reference. You may find the most important parameters and functions on the simple setup page chapter 8.1). To calibrate the camera setting to your operating condition, follow the steps below. (see also Check your line scan system application: Illumination setting: Switch on the lighting and ensure that the adjustment of the lighting will provide best illumination on the target. 1 Frame grabber setting: Check your frame grabber setting. Make sure that the grabber configuration matches the allpixa pro camera. Camera adjustment: Adjust the camera to the target for best orientation and for the best lighting. Focusing and f-stop: Set the camera to best focus and select the requested f-stop. Set the integration time: 2 Click the -Button and set the integration time You may find an instruction for calculation in the appendix: chapter Make sure the integration time is supported by your camera- and Camera Link - configuration (see ). Click the button to save setting into volatile memory Chromasens allpixa pro - CD40127 Version

92 Set the operating point (white balancing 8.2): The camera will have the correct gaining values after this step. 3 Click the button for automatic white balancing or Follow the instructions in chapter for manual white balancing. This step has to be done again e.g. after changing the light or the f-stop. Refer to chapter 8.2 for detailed description on how to set the operating point. Perform a tap balancing (8.2): 4 The camera will seamlessly level out the video signal of the 2 taps of the camera. The resulting image will have the same brightness in the center at the tap borders after this step. Click the button Tap balance can only be performed correctly, if continuous white control is off/disabled. You may also refer to chapter 8.2 for detailed description how to do tap balancing. Generate the black reference (8.3): 5 Click on the button and select Create a black (offset) reference internally, and follow the instructions of the wizard. Click on -Button, Activate Offset correction. Save the setting Refer to chapter 8.3 for detailed description to how to generate a black reference. Generate the shading reference / flat field correction (8.4): 6 Click on the button and follow the description in chapter 8.4. Click the -Button. Activate flat field correction. Save the setting Refer to chapter 8.4 for detailed description how to generate a shading reference. Save the settings: 7 Click the burn button to save settings into the camera permanently. You may choose different settings to configure your system to different applications. Backups can be made by saving the setting into another setting (chapter 6.10) or saving the settings to disk (chapter 6.13). NOTE By selecting another setting, changes that have not been saved permanently into the camera are lost Chromasens allpixa pro - CD40127 Version

93 7.4 Trigger and Image enhancement functions Add image processing functions: 1 You may add digital image processing functions. Study the chapter 9.5 / 9.9 onward to find out what image processing functions are offered by the allpixa pro Set the line trigger or encoder functions 2 Connect the encoder or line trigger with the frame grabber or directly with the camera If the encoder is connected to the frame grabber, please ensure that the signal will be transferred to CC1 or CC2 (for more detailed setup please also refer to chapter 8.6) Define the correct input signal port for the signals (see also chapter 8.6) Click the -Button to get into the encoder-setup (chapter 9.16) Set the parameters in CST for the encoder or line trigger mode Chromasens allpixa pro - CD40127 Version

94 8 Camera operation 8.1 Easy camera configuration using simple setup tool Push the green smiley button on the tool bar to enter the simple setup page which concentrates the most important parameters and functions on one page. Chromasens allpixa pro - CD40127 Version

95 The order of the parameters is placed in a functional manner to give you an orientation which parameters should be set first. Please start from the topmost parameter. NOTE After setting a parameter, always use or push F9 to transfer setting to volatile memory! Use or push F10 to burn setting into the camera! Image parameters: You may set the image parameters as desired for your line scan camera system application. a b c d Image dimensions (9.7) Determines the vertical image offset in pixels (9.7.2) a) You may set the scan line length (9.7.3). The defined image width is also the number of pixels that will be output to the frame grabber via Camera Link. b,c) If using a frame scan mode, you may set the image height and image start delay d) The image output can be set to free running or triggered. Timing: a b a) You may set the integration time (9.1.1). b) Decide, if you need the line period feature (9.1.3) In triggered mode, the camera will wait for an input trigger to start the image acquisition. The image grabbed will have the set number of image lines defined in the image parameters before. Chromasens allpixa pro - CD40127 Version

96 Gain control: In order to get a good image, set the gain and white reference parameters a b d c e a) You may choose if the white control/balancing should operate continuously, only once per frame or if it should be switched off. If White Control is set to continuous mode, The camera gain values are adjusted continuously during the scanning process. b) You may set the target value for white control The target value for the white control is given in 8 bit (0-255). The camera will try to adjust the analog camera gain values in order to reach the set target value (chapter 9.2.1). c) You may set the camera gain value manually (9.2.3) or d) You may set the camera gain value automatically by clicking the Do center white balancing -Button. The white control field is moved into the middle of the image. Then the camera performs a white balancing based on the target value defined in (b) and sets the new gain values in (c). e) By clicking the Define white balancing parameters, you will be taken to the regular gain and white reference parameter settings You may set all white balancing parameters manually following the description in chapter Perform a tap balancing by clicking the button Camera calibration: Determine if the offset and the flat field (shading) correction should be used. If the references for black level and flat field correction were already generated, simply activate/deactivate them by selecting the checkboxes. By clicking the Calibrate camera button, the reference wizard will appear. You may follow the instructions of the wizard to generate a black reference (chapter 8.3) and a shading reference (chapter 8.4) Chromasens allpixa pro - CD40127 Version

97 Video output parameters: You have the possibility of further digital image processing by setting the desired output parameters a b c d e f You may activate the checkbox (a) to apply the brightness and contrast settings (9.5) to the image. Parameter description: a) If this checkbox is activated, the camera applies the brightness and contrast settings to the image. b) Set the brightness parameter. This will add an offset to the output value. The values are in the 8bit-range c) Contrast: this will apply a factor to the output values. This is very useful in order to desaturize images after the flat field correction d) The output image can be mirrored in the horizontal direction, i.e. if using an Output width of 4096 Pixel, the input pixel 4095 will be output pixel 0 and the input pixel 0 will be output pixel e) A gamma correction table will be applied to the image. video_out_level = video_in_level 1/Gamma This is valid for values > 0.4. If 0.1 is selected for the gamma value a special table for srgb conversion is used. To disable gamma correction set this value to 0. f) The camera can be set to output color or grey images. If set to mono only one Camera Link connection is used. The data will be transmitted on Camera Link port 1. Port 2 is idle. Refer to chapter to find detailed description of the transmission of data according Camera Link specification. Save your setting into volatile camera memory by clicking the button below.(changes are lost after selecting a different setting, resetting the camera or doing a power-cycle). Use the button below to store your settings permanently into the camera The regular buttons and in the tool bar are also working (as well as the function keys F9, F10 and F11). Chromasens allpixa pro - CD40127 Version

98 You have the possibility to restore the default factory setting: By clicking the button, the current setting will be overwritten by the setting used for the commissioning of the camera at the Chromasens production facility. This will only have an effect on the currently active setting. Click the -button to obtain the camera information. If there are any problems with the camera or the parameter settings, it is very helpful for the Chromasens support to obtain the camera information. If this button is clicked you will see the following dialog: By using the Copy to clipboard function you can simply paste this information into the for the Chromasens support. Chromasens allpixa pro - CD40127 Version

99 output 8.2 Perform a white and tap balancing on the camera You may perform the white balancing automatically (see chapter 8.2.2) or manually (see chapter 8.2.3) For more details on gain levels you may also see chapter (9.2.1 or 9.2.2) System preparation for white and tab balancing Setup Set the camera to free running mode(disable encoder and frame trigger) Use a white balancing reference that covers the entire scanning range. 1 Figure 32: allpixa pro camera with a white balancing reference Check the alignment of the illumination and the allpixa pro camera by using a suitable viewer (e.g. the line plot display of your frame grabber software) pixel n Figure 32: Line plot display Chromasens allpixa pro - CD40127 Version

100 8.2.2 Setting the operation point automatically NOTE The position of the white reference mark (control zone) and the target gain value for the control zone will be used as saved in the setting. (see chapter 9.3) This operation will only take place in the actual selected setting. This function has to receive line data inside the camera. If the camera is set to line trigger or encoder mode and the transport is not moving, there will be an error. Set the camera to internal line trigger. 1 Prepare the setup for the operation. Make sure black level correction is enabled (see chapter 9.4.2) 2 Press the button for the automatic white balancing. This window will be shown: Press the button Yes if you want to use the determined gain values as startup values (recommended). If not press No. If the process succeeds White balancing succeeded will appear in the message window. Possible errors: 3 White balancing error occurred. Error code No: 0xF6: maximum gain exceeded Digital gain value exceed internal limit. Increase analog coarse gain or increase illumination intensity. (see also chapter 9.2.2) White balancing error occurred. Error code No: 0x41: minimum gain exceeded Digital gain value has reached lower limit. Decrease analog coarse gain or reduce illumination intensity. White balancing error occurred. Error code No: 0xF7: White balance cannot be leveled White balance process has exceeded time limit but up to now no error has occurred. White balance may last very long if white reference area is large, line period is high. Restart of white balance may finish process successful. For a special single camera color channel calibration (individual red/green and blue calibration) see also chapter Chromasens allpixa pro - CD40127 Version

101 4 Press the button for the tap balancing. Press the refresh button. 5 Optional: Check the values of Current gaining values. It is recommended to keep the gaining values in the range of 80 to 200 for best image quality. If the current gaining values are above 200, it is recommended to increase Analog coarse gain and repeat from step 2. (See chapter for further description of analog coarse gain) 6 Press the burn button Setting the operation point manually Manual operating point setting serves to determine the area which is viewed by the allpixa pro camera for carrying out the shading correction. The pattern below describes the principle of analog image processing. Figure 33 Analog image processing comprises of two levels. 1) Analog coarse gain: Pre-Amplification factor For rough adjustment of the sensor signal to the main amplifying level. 2) Current camera gain values: Main analog amplifying level. For fine adjustment of analog gaining. For detailed description of camera gain adjustment, see also chapter Chromasens allpixa pro - CD40127 Version

102 Gain and reference settings Make the settings a, and b shown in the illustrations below. b will not be visible in the user level Normal user and expert. In this case, already set as Automatic like in the figure below. b is 2 a b Chromasens allpixa pro - CD40127 Version

103 Selection and adjustment of the white reference mark position A B 3 C D E Set the White reference mark to the brightest region in the image, mostly this would be the center of the image. A D You can adjust the settings to to modify the white reference position or display the reference in your image E Note: Reference mark area may not include the TAP border. If the front and rear TAPs are defined to be independent, the defined reference mark area is mirrored into the other TAP. 4 Press the button (or F9). Current camera parameters are saved non-permanently in the camera. Chromasens allpixa pro - CD40127 Version

104 output White reference mark Setting of Target White Reference Values (Video Levels) a Set the target white reference values for the master tap (= front tap in the example below). (recommended values are about 800 (10 bit values)for a white reference target) b Select the -Button to save the target white reference value. The range is from The target video levels must be set in such a way that the brightest image points are set below to the saturation point. Please note that the brightest scanned reference should not bring the AD converter to saturation. If the objects are brighter than the current white reference to be scanned during subsequent operation, the distance to saturation must be increased by this ratio (max. = 255). 255 Target value 0 pixel n 5 Use the current white reference values" displayed on the right as a starting point. b Target white reference settings for front tap. Current white reference levels a Chromasens allpixa pro - CD40127 Version

105 Check/re-adjust video levels After entering the target white reference values (see step 5), select the button to refresh display of the current values on the screen. b Check the current amplification values which are now displayed in the current camera gain values panel. The Current camera gain values are recommended to be within a range from 80 to 200. b 6 c In case that the values are outside the range from 80 to 200, you may change the Analog coarse gain to a higher value if the current gain values are over 200. Choose a lower value for Analog coarse gain if the current gain values are below 80. Send the settings to the camera also see chapter for more details). Then start again with step 6.(please c If not receiving a satisfying result, it can also be achieved by adjusting the Target white reference values (please refer to step 5) Click the camera. button (or F9) to save the settings as non-permanently on the Chromasens allpixa pro - CD40127 Version

106 Tap balancing Select the button to carry out a tap alignment. The values for the slave tap (= rear tap in the example shown below) are aligned with the master tap. Press the refresh button. Example with the front tap as the master tap and the rear tap as the slave tap: 7 Target white reference settings for front tap. Target white reference settings for rear tap. Chromasens allpixa pro - CD40127 Version

107 Disable white control If the result of the white control is acceptable then: a Disable white control 8 b Disable display of white reference borders Transfer settings to the camera 9 Select the button (or F9). The current camera parameters are saved non-permanently in the camera. Save settings 10 Select the button (F10). The current camera parameters are now saved as permanently in the camera. Chromasens allpixa pro - CD40127 Version

108 8.2.4 Independent color channel white balancing For special tasks a special illumination setup might be necessary. If an inspection task is done where in each color channel different information will be evaluated by using a special illumination per channel, the balancing procedure must be done individually per channel. 1 Prepare the setup for the operation. Make sure black level correction is enabled (see chapter 9.4.2) Select only the red channel for the active channel parameter (9.2.8) on the gain and reference settings page. 2 3 Turn on the illumination for the red channel. 4 Put the appropriate calibration chart in front of the camera 5 Perform the balancing steps according chapter(8.2) Repeat for the other color channels: 6 Transfer settings to the camera and 7 Select the button (or F9). The current camera parameters are saved non-permanently in the camera. Save settings 8 Select the button (F10). The current camera parameters are now saved as permanently in the camera. For an individual offset (shading) correction on each color channel please also chapter Chromasens allpixa pro - CD40127 Version

109 8.3 Generating black (offset) reference By pressing the button on the toolbar the reference wizard is started. You have three options to generate a black reference 1) Create a black (offset) reference internally (8.3.1) Use this function, if you want to do offset correction directly inside the camera. 2) Use a stored black (offset) level reference image (8.3.2) Use this function, if you have a stored black level reference image in your hard disk. 3) Prepare camera to acquire a black(offset) reference (8.3.3) Use this function, if you do not have a black level reference image and want to generate a black reference with an image acquisition software. You can directly do an offset correction after grabbing the black reference. The wizard will guide you through this process. Chromasens allpixa pro - CD40127 Version

110 8.3.1 Create a black (offset) reference internally The creation of a black level reference is only necessary during commissioning or if the gain values are changed considerably. Get the camera to the desired working point Prepare the camera 1 Place a white reference in front of the camera Check the lighting and focusing Disable continuous white control Save the parameters to the camera Start the reference wizard Press the wizard button Press Next 2 Chromasens allpixa pro - CD40127 Version

111 Select the Create a black(offset) reference internally function 3 Press the Next -Button Optional: White balancing Decide, if you want to perform a white balancing In order to achieve the best performance / image quality, it is advisable to do a white balance By performing a white balancing, the camera gain values are set correctly to acquire the desired image for a black level reference. 4 Select the option, if necessary, then follow the instructions in the message box. Note: Changes which have not been saved at this point will be lost. Chromasens allpixa pro - CD40127 Version

112 Start the black level correction: 5 Select the data set, in which the offset-reference should be generated and stored, then set the time out value Cover the lens that the sensor will be completely dark Press the Next button Wait for result 6 Press the OK button Chromasens allpixa pro - CD40127 Version

113 Activate black level correction and check the result in the image. 7 At least a few pixels should be bigger than 0 (e.g. 1 or 2) in the black image with activated black level correction and covered lens. Otherwise, (if ALL pixels are 0) the image is over-compensated and you may repeat the steps for reference generation. Click the button to save setting into volatile memory You may proceed to chapter 8.4 to generate a shading reference. Chromasens allpixa pro - CD40127 Version

114 8.3.2 Use a stored black (offset) level reference image The creation of a black level reference is only if the gain values are changed considerably. Start the reference wizard Press the wizard button Press Next 1 Select the Use a stored black(offset) level reference image function 2 Press the Next -Button Chromasens allpixa pro - CD40127 Version

115 Choose the suitable offset reference image 3 Upload it into the wizard Press the Next -Button Define the area where the reference values should be calculated a Define the data set in which the offset-reference should be generated and stored 4 sets (1-4) of black reference data are possible Set the area where the reference values should be calculated Use at least 100 lines for calculating the reference values in order to eliminate noise. The values used for the reference will be calculated by averaging each column in the selected area. a 4 4 sets of black reference data are possible to save in the camera. Please enter the desired set number here. b b Press the OK button Chromasens allpixa pro - CD40127 Version

116 Saving reference data You may send the reference data set to the camera and save the reference data set to disk as a backup. After finishing this procedure, the camera will be reset to be sure that the initial settings are active again. The last used setting will be activated automatically. Press the Next button 5 Press the OK button Activate black level correction and check the result in the image. 6 At least a few pixels should be bigger than 0 (e.g. 1 or 2) in the black image with activated black level correction and covered lens. Otherwise, (if ALL pixels are 0) the image is over-compensated and you may repeat the steps for reference generation. Click the button to save setting into volatile memory You may proceed to chapter 8.4 to generate a shading reference. Chromasens allpixa pro - CD40127 Version

117 8.3.3 Prepare camera to acquire a black (offset) reference The creation of a black level reference is only necessary during commissioning or if the gain values are changed considerably. Please make sure that all changes made to your current setting are saved permanently to the camera before using the shading wizard. Otherwise, all changes will be lost! Get the camera to the desired working point 1 Place a white reference in front of the camera Check the lighting and focusing Disable continuous white control Save the parameters to the camera Start the reference wizard Press the wizard button Press Next 2 Chromasens allpixa pro - CD40127 Version

118 Select the Set settings to acquire a black (offset) reference function 3 Press the Next -Button Optional: White balancing Decide, if you want to perform a white balancing In order to achieve the best performance / image quality, it is advisable to do a white balance By performing a white balancing, the camera gain values are set correctly to acquire the desired image for a black level reference. 4 Select the option, if necessary, then follow the instructions in the message box. Note: Changes which have not been saved at this point will be lost. Chromasens allpixa pro - CD40127 Version

119 Acquire a black reference: a Cover the lens so there will be no light on the sensor and grab an image Grab an image by using the appropriate acquisition software. b Save the image to disk Press the Next -Button 5 a c b d c Choose the black reference image Upload it into the wizard d Press the Next -Button Chromasens allpixa pro - CD40127 Version

120 Define the area where the reference values should be calculated a Define the data set in which the offset-reference should be generated and stored 4 sets (1-4) of black reference data are possible Set the area where the reference values should be calculated Use at least 100 lines for calculating the reference values in order to eliminate noise. The values used for the reference will be calculated by averaging each column in the selected area. a 6 4 sets of black reference data are possible. Please enter the desired set number here. b b Press the OK button Chromasens allpixa pro - CD40127 Version

121 Saving reference data You may send the reference data set to the camera and you can save the reference data set to disk as a backup. After finishing this procedure, the camera will be reset to be sure that the initial settings are active again. The last used setting will be activated automatically. Press the Next button 7 Press the OK button Activate black level correction and check the result in the image. 8 At least a few pixels should be bigger than 0 (e.g. 1 or 2) in the black image with activated black level correction and covered lens. Otherwise, (if ALL pixels are 0) the image is over-compensated and you may repeat the steps for reference generation. Click the button to save setting into volatile memory You may proceed to chapter 8.4 to generate a shading reference. Chromasens allpixa pro - CD40127 Version

122 8.4 Generating shading/ flat field reference By pressing the button on the toolbar the reference wizard is started. You have three options to generate a shading reference 1) Create a white(gain) reference internally (8.4.1) Use this function, if you want to do shading/flat field correction directly inside the camera. 2) Use a stored white (gain) level reference image (8.4.2) Use this function, if you have a stored white/shading reference image in your hard disk. This function should also be used when you need to use separate images for the single color channels (e.g. when operating with different illumination setups, flash illumination, etc.) 3) Prepare camera to acquire a white(gain) reference (8.4.3) Use this function, if you do not have a white level reference image and want to generate a white/shading reference with an image acquisition software. You can directly do an offset correction after grabbing the black reference. The wizard will guide you through this process. Chromasens allpixa pro - CD40127 Version

123 8.4.1 Create white (gain) reference internally The creation of shading reference is only necessary during commissioning or if the gain values are changed considerably. Get the camera to the desired working point 1 Place a white reference in front of the camera Check the lighting and focusing Disable continuous white control Save the parameters to the camera Optional: Activate black level correction Optional: Perform a white balancing Note: The white reference target has to be placed into the best focus plane of the camera. Therefore any features on its surface (e.g. dust, scratches) will end up in the calibration profile of the camera. To avoid this when using a static (non moving) white reference target, please use a clean white ceramic or plastic material, not paper. Ideally, the white object should move during the calibration process as the movement will result in an averaging process and the camera will diminish the effects on any small variation in the white reference. Start the reference wizard Press the wizard button Press Next 2 Chromasens allpixa pro - CD40127 Version

124 Select the Create a white(gain reference internally function 3 Press the Next button Optional: White balancing Decide, if you want to perform a white balancing In order to achieve the best performance / image quality, it is advisable to do a white balance. By performing a white balancing, the camera gain values are set correctly to acquire the desired image for a black level reference. 4 Select the option, if necessary, then follow the instructions in the message box. Note: Changes which have not been saved at this point will be lost. Chromasens allpixa pro - CD40127 Version

125 Start the shading correction: 5 Select the data set, in which the offset-reference should be generated and stored, then set the time out value. Move the target slightly or defocus the lens to avoid streaky images, if necessary. Note: Any features on the target surface (e.g. dust, scratches) will end up in the calibration profile of the camera. To avoid this when you use a static (non moving) white reference target, please use a clean white ceramic or plastic material, not paper. Ideally, the white object should move during the calibration process as the movement will result in an averaging process and the camera will diminish the effects on any small variation in the white reference. Press the Next button Wait for result 6 Press the OK button. Chromasens allpixa pro - CD40127 Version

126 Activate shading correction and check the result in the image. Click the button to save setting into volatile memory Brightness of the newly scanned white balancing reference should be exactly at the saturation limit. 7 Note: At a later point, the image can be "desaturated" target value e.g. 230 for a white paper) by using contrast adjustment of 230/255=0,90. Save the setting 8 Click the burn button to save setting permanently into the camera Chromasens allpixa pro - CD40127 Version

127 8.4.2 Use a stored white (gain) reference image The creation of shading reference is only necessary during commissioning or if the gain values are changed considerably. Note: The white reference target has to be placed into the best focus plane of the camera. Therefore any features on its surface (e.g. dust, scratches) will end up in the calibration profile of the camera. To avoid this when using a static (non moving) white reference target, please use a clean white ceramic or plastic material, not paper. Ideally, the white object should move during the calibration process as the movement will result in an averaging process and the camera will diminish the effects on any small variation in the white reference. Start the reference wizard Press the wizard button Press Next 1 Select the Use a stored black(offset) level reference image function 2 Press the Next -Button Chromasens allpixa pro - CD40127 Version

128 Choose the suitable white reference image z 3 a a Upload it into the wizard Press the Next -Button z Note: For special applications the 3 color levels can also originate from various images by activating z Chromasens allpixa pro - CD40127 Version

129 Define the area where the reference values should be calculated (a) The white reference target covers the full scanning range (See sample image below) proceed with a, b and c In case it is not possible to cover the full scanning width with a white reference target (See sample image in Step 4 ) (e.g. due to mechanical conditions), the resulting black image borders on the left and right side can also be substituted by extrapolated values. So the bright area will be extended outwards. proceed with Step 5 a Define the data set in which the offset-reference should be generated and stored 4 sets (1-4) of black reference data are possible 4 b Set the area where the reference values should be calculated Use at least 100 lines for calculating the reference values in order to eliminate noise. The values used for the reference will be calculated by averaging each column in the selected area. Sample image, if your white reference target covers the full field of view of the camera: a 4 possible sets of shading reference data are possible. Please enter the desired set number here. b Use the gradient mode if your white reference target has an inhomogeneous white surface. c c Press the OK button and proceed with Step 6 Chromasens allpixa pro - CD40127 Version

130 Define the area where the reference values should be calculated (b) In case it is not possible to cover the full scanning width with a white reference target (See sample image in Step 4 ) (e.g. due to mechanical conditions), the resulting black image borders on the left and right side can also be substituted by extrapolated values. So the bright area will be extended outwards. a Define the data set in which the offset-reference should be generated and stored 4 sets (1-4) of black reference data are possible b Set the area where the reference values should be calculated Use at least 100 lines for calculating the reference values in order to eliminate noise. The values used for the reference will be calculated by averaging each column in the selected area. Sample image if the white reference target only partially covers the field of view of the camera: a 5 b c d c Mark the edges of the white reference The extrapolation function can be used if the white reference target does not cover the full scan area. Activate the function and set the left/right regions close to the left/right edge of the white target. Either by entering the pixel number or by using of the mouse placement function. d Press the OK button and proceed with Step 6 Chromasens allpixa pro - CD40127 Version

131 Saving reference data You may send the reference data set to the camera and save the reference data set to disk as a backup. After finishing this procedure, the camera will be reset to be sure that the initial settings are active again. The last used setting will be activated automatically. Press the Next button 6 Press the OK button Chromasens allpixa pro - CD40127 Version

132 Activate shading correction and check the result in the image. Click the button to save setting into volatile memory Brightness of the newly scanned white balancing reference should be exactly at the saturation limit. 7 Note: At a later point, the image can be "desaturated" ( target value e.g. 230 for a white paper) by using contrast adjustment of 230/255=0,90. Save the setting 8 Click the burn button to save setting permanently into the camera Chromasens allpixa pro - CD40127 Version

133 8.4.3 Prepare camera to acquire a white (gain) reference The creation of shading reference is only necessary during commissioning or if the gain values are changed considerably. Please make sure that all changes made to your current setting are saved permanently to the camera before using the shading wizard. Otherwise, all changes will be lost! Get the camera to the desired working point 1 Place a white reference in front of the camera Check the lighting and focusing Disable continuous white control Save the parameters to the camera Optional: Activate black level correction Optional: Perform a white balancing Note: The white reference target has to be placed into the best focus plane of the camera. Therefore any features on its surface (e.g. dust, scratches) will end up in the calibration profile of the camera. To avoid this when using a static (non moving) white reference target, please use a clean white ceramic or plastic material, not paper. Ideally, the white object should move during the calibration process as the movement will result in an averaging process and the camera will diminish the effects on any small variation in the white reference. Start the reference wizard Press the wizard button Press Next 2 Chromasens allpixa pro - CD40127 Version

134 Select the Set settings to acquire a white(gain) reference function 3 Press the Next -Button Optional: White balancing Decide, if you want to perform a white balancing In order to achieve the best performance / image quality, it is advisable to do a white balance By performing a white balancing, the camera gain values are set correctly to acquire the desired image for a black level reference. 4 Select the option, if necessary, then follow the instructions in the message box. Note: Changes which have not been saved at this point will be lost. Chromasens allpixa pro - CD40127 Version

135 Acquire a shading reference: a b Grab an image of the white reference target Preferrably a moving target to avoid wrong data by dirt Grab an image by using the appropriate acquisition software. Save the image to disk Press the Next -Button 5 z c a b d c Choose the white reference image Upload it into the wizard d Press the Next -Button z Note: For special applications the 3 color levels can also originate from various images by activating z Chromasens allpixa pro - CD40127 Version

136 Define the area where the reference values should be calculated (a) The white reference target covers the full scanning range (See sample image below) proceed with a, b and c In case it is not possible to cover the full scanning width with a white reference target (See sample image in Step 4 ) (e.g. due to mechanical conditions), the resulting black image borders on the left and right side can also be substituted by extrapolated values. So the bright area will be extended outwards. proceed with Step 7 a Define the data set in which the offset-reference should be generated and stored 4 sets (1-4) of black reference data are possible 6 b Set the area where the reference values should be calculated Use at least 100 lines for calculating the reference values in order to eliminate noise. The values used for the reference will be calculated by averaging each column in the selected area. a 4 possible sets of shading reference data are possible. Please enter the desired set number here. b Use the gradient mode if your white reference target has an inhomogeneous white surface. c c Press the OK button and proceed with Step 8 Chromasens allpixa pro - CD40127 Version

137 Define the area where the reference values should be calculated (b) In case it is not possible to cover the full scanning width with a white reference target (See sample image in Step 4 ) (e.g. due to mechanical conditions), the resulting black image borders on the left and right side can also be substituted by extrapolated values. So the bright area will be extended outwards. a Define the data set in which the offset-reference should be generated and stored 4 sets (1-4) of black reference data are possible b Set the area where the reference values should be calculated Use at least 100 lines for calculating the reference values in order to eliminate noise. The values used for the reference will be calculated by averaging each column in the selected area. Sample image if the white reference target only partially covers the field of view of the camera: a 7 b c d c Mark the edges of the white reference The extrapolation function can be used if the white reference target does not cover the full scan area. Activate the function and set the left/right regions close to the left/right edge of the white target. Either by enter the pixel number or by using of the mouse placement function. d Press the OK button and proceed with Step 8 Chromasens allpixa pro - CD40127 Version

138 Saving reference data You may send the reference data set to the camera and save the reference data set to disk as a backup. After finishing this procedure, the camera will be reset to be sure that the initial settings are active again. The last used setting will be activated automatically. Press the Next button 8 Press the OK button Chromasens allpixa pro - CD40127 Version

139 Activate shading correction and check the result in the image. Click the button to save setting into volatile memory Brightness of the newly scanned white balancing reference should be exactly at the saturation limit. 9 Note: At a later point, the image can be "desaturated" (target value e.g. 230 for a white paper) by using contrast adjustment of 230/255=0,90. Save the setting 10 Click the burn button to save setting permanently into the camera Chromasens allpixa pro - CD40127 Version

140 8.4.4 Single color channel reference generation for special illumination situations (Separate lighting for each color channel) For special tasks a special illumination setup might be necessary. If an inspection task is done where in each color channel different information will be evaluated by using a special illumination per channel, the balancing procedure must be done individually per channel. The creation of a shading reference is only necessary during commissioning or if the gain values are changed considerably. Please make sure that all changes made to your current setting are saved permanently to the camera before using the shading wizard. Otherwise, all changes will be lost! Get the camera to the desired working point 1 Please setup the working point and the tap balancing of the camera before grabbing the reference images according to chapter Do not use the tap balancing function Optional: Activate black level correction (Do not use with the separate color channels) Optional: Perform a white balancing(do not use with the separate color channels) Note: The white reference target has to be placed into the best focus plane of the camera. Therefore any features on its surface (e.g. dust, scratches) will end up in the calibration profile of the camera. To avoid this when using a static (non moving) white reference target, please use a clean white ceramic or plastic material, not paper. Ideally, the white object should move during the calibration process as the movement will result in an averaging process and the camera will diminish the effects on any small variation in the white reference. Chromasens allpixa pro - CD40127 Version

141 Start the reference wizard Press the wizard button Press Next 2 Select the Set settings to acquire a white(gain) reference function 3 Press the Next -Button Chromasens allpixa pro - CD40127 Version

142 Optional: White balancing Decide, if you want to perform a white balancing The camera must have been balanced before by using the white and tap balancing functions on the separate color channels(8.2.4). Do not use the white balancing functions out of the reference wizard when using separate color channels! 4 Note: Changes which have not been saved at this point will be lost. Chromasens allpixa pro - CD40127 Version

143 Acquire a shading reference: a Grab an image of the white reference target Preferrably a moving target to avoid wrong data by dirt Grab an image by using the appropriate acquisition software. Perform this procedure for each color channel with the appropriate illumination b Save the image to disk Press the Next -Button 5 z c a b c d Choose the white reference images Upload it into the wizard d Press the Next -Button z Note: Activate this checkbox. The 3 color levels will originate from different images by activating this option. Uncompressed grey and color images are allowed as input format.. Chromasens allpixa pro - CD40127 Version

144 Define the area where the reference values should be calculated (a) The white reference target covers the full scanning range (See sample image below) proceed with a, b and c In case it is not possible to cover the full scanning width with a white reference target (See sample image in Step 4 ) (e.g. due to mechanical conditions), the resulting black image borders on the left and right side can also be substituted by extrapolated values. So the bright area will be extended outwards. proceed with Step 7 a Define the data set in which the offset-reference should be generated and stored 4 sets (1-4) of white reference data are possible 6 b Set the area where the reference values should be calculated Use at least 100 lines for calculating the reference values in order to eliminate noise. The values used for the reference will be calculated by averaging each column in the selected area. It is only possible to define one area for the reference data which is used for every color channel. Please make sure that you set this area to fit all channels! a 4 possible sets of shading reference data are possible. Please enter the desired set number here. b Use the gradient mode if your white reference target has an inhomogeneous white surface. c c Press the OK button and proceed with Step 8 Chromasens allpixa pro - CD40127 Version

145 Define the area where the reference values should be calculated (b) In case it is not possible to cover the full scanning width with a white reference target (See sample image in Step 4 ) (e.g. due to mechanical conditions), the resulting black image borders on the left and right side can also be substituted by extrapolated values. So the bright area will be extended outwards. a Define the data set in which the offset-reference should be generated and stored 4 sets (1-4) of black reference data are possible b Set the area where the reference values should be calculated Use at least 100 lines for calculating the reference values in order to eliminate noise. The values used for the reference will be calculated by averaging each column in the selected area. Sample image if the white reference target only partially covers the field of view of the camera: a 7 b c d c Mark the edges of the white reference The extrapolation function can be used if the white reference target does not cover the full scan area. Activate the function and set the left/right regions close to the left/right edge of the white target. Either by enter the pixel number or by using of the mouse placement function. d Press the OK button and proceed with Step 8 Chromasens allpixa pro - CD40127 Version

146 Saving reference data You may send the reference data set to the camera and save the reference data set to disk as a backup. After finishing this procedure, the camera will be reset to be sure that the initial settings are active again. The last used setting will be activated automatically. Press the Next button 8 Press the OK button Chromasens allpixa pro - CD40127 Version

147 Activate shading correction and check the result in the image. Click the button to save setting into volatile memory Brightness of the newly scanned white balancing reference should be exactly at the saturation limit. 9 Note: At a later point, the image can be "desaturated" (target value e.g. 230 for a white paper) by using contrast adjustment of 230/255=0,90. Save the setting 10 Click the burn button to save setting permanently into the camera Chromasens allpixa pro - CD40127 Version

148 8.5 Using continuous white control Continuous operating point adjustment at the edges Continuous operating point adjustment at the edges can be used in both - the line scan and the area scan operating modes. The allpixa pro camera evaluates the brightness of the respective channels in this range and compares the results with a programmable set value. The amplification values for each color channel are automatically adjusted. Figure 33: allpixa camera with continuous automatic white balancing 1 Setup the camera 2 Place the static white reference in front of the camera and check the position 3 Switch on the white reference borders Set the position of the white reference boarders (see also chapter 9.3) Chromasens allpixa pro - CD40127 Version

149 Switch on the white control: Select the tap for white control Disable Use sync mode 4 Set the target values If the white target is placed at the borders of the image, they might be lower than in the center 5 Wait for balanced image Check for saturation Refresh the data in CST Set the initial gaining values Burn the setting 6 Check the function by lowering the light in the control zone, e.g. by a shadow. Chromasens allpixa pro - CD40127 Version

150 8.5.2 Image-synchronous operating point adjustment on the object (ROI) The image-synchronous operating point adjustment can only be used in area scan operating mode. If the object has an area which is suitable as reference for the operating point, this area can be set in the allpixa camera as an ROI (Region of Interest). The allpixa camera evaluates the brightness of the respective channels in this range and compares the results with a programmable set value. The amplification values for each color channel are automatically adjusted. Figure 34: Image-synchronous operating point adjustment on the object (ROI) NOTE I This mode requires an image trigger signal at the allpixa camera. The image trigger can be provided by CC1 through the Camera Link or by the IO-port of it. The allpixa camera has to be operated in frame scan mode. Gain control has to be set to image synchronized mode. NOTE II At image synchronized mode, the behavior of the closed loop control will be slower than in free running mode. 1 Setup the camera 2 Start the transport with sample objects 3 Switch on the white reference borders Set the position of the white reference borders (see also chapter 9.3) Chromasens allpixa pro - CD40127 Version

151 Switch on the white control Select the tap for white control Enable Use sync mode 4 Set the target values If the white target is placed at the borders of the image they might be lower than in the center 5 Wait for balanced image Check for saturation Refresh the data in CST Set the initial gaining values Burn the setting 6 Check the function by lowering the light in the control zone, e.g. by a shadow. Chromasens allpixa pro - CD40127 Version

152 8.6 Encoder connection and setup For detailed function of parameters please see also chapter Line trigger and encoder settings Settings for line trigger and encoder mode are edited within this window. For more detailed description of the parameters refer to chapter Button Function key Menu View/Encoder setup Connect the encoder to the camera There are two different ways to transmit the encoder signals to the camera: 1. Connect the camera using Camera Link CC-bits - If the encoder is connected to the frame grabber, please ensure that the signal will be transferred to CC1 and CC2 bits of the Camera Link cable. 2. Directly connect the encoder to the camera: - To connect the encoder signals directly to the camera you can use the I/O connector (D-Sub15 Pin 1/9 and 2/10). - For a detailed pin assignment please see chapter Also see the input level definition in chapter Define the input channel in the camera After connection of the signals the camera has to be setup to the correct input channel for the encoder signals. Therefore please use the I/O configuration page of the Camera CST (chapter 8.10) Open the I/O Configurator by using the icon from the menu bar To define the input channels of the encoder the inputs can be combined to the following groups: Chromasens allpixa pro - CD40127 Version

153 Encoder channel 1 parameters Encoder channel 2 parameters Enable encoder mode parameters Frame trigger input parameters Master / Slave parameters 1. Define input encoder channel 1 (line 1-5) - In this section the input channel for the encoder channel 1 can be selected from different external pins. - In this section only one option should be selected. 2. Define input encoder channel 2 (line 6-10) - In this section the input channel for the encoder channel 2 can be selected from different external pins. - If only a one channel encoder is used then select a defined level on this pin (static low) - In this section only one option should be selected. 3. Define enable signal of encoder (line 11-13) - This section allows you to define an external enable signal for the encoder mode. (see also chapter ) - In no external enable signal is used then please select line 11 (default). The encoder will then be controlled with the camera setting - In this section only one option should be selected. 4. Define frame trigger input (line 15-19) - In this section the input channel for the fame trigger can be selected from different CC-bits or external pins. - In this section only one option should be selected. 5. Define frame trigger input (line 20-23) - In first section (Line 20-21) the input channel for the SelectMaster for the master camera can be selected from different CC-bits or external pins. - In the second section (Line 22-23) the connections for the Master/Slave Interface can be selected from different external pins. - In teach section only one option should be selected. Chromasens allpixa pro - CD40127 Version

154 8.6.4 Configuration of the encoder mode and resolution For configuration please use the encoder setting page in the CST to define all of the parameters. For a detailed description see also chapter Open the Encoder setup page by using of the icon from the menu bar Setup of the encoder parameter: 1. Enable/disable the encoder functionality by selecting Enable encoder 2. Select synchronization mode (for more details see chapter ) - Line trigger mode (Const. int time) In line trigger mode the camera will send one line per pulse. (if using the line trigger/ encoder reduction the camera will send one line for the number of defined pulses) - Encoder (continuous update) The encoder mode will use the internal intelligent encoder functionality. The camera measures the speed of the object and will send lines based on the defined encoder and vertical image resolution. 3. Encoder channels (see also chapter 0) - Select the number of recognized edges per step of the encoder signal. 4. Line trigger/encoder reduction (see also chapter ) - In line trigger mode: The value define how many trigger signals are used for the triggering of one scanning line - In encoder mode: this factor can be used to reduce the number of encoder pulses per line. If the number of encoder pulses per line increases 255 then this factor has to be used to reduce the number below Average size (see also chapter ) - Define how many encoder increments are averaged for speed measurements. Chromasens allpixa pro - CD40127 Version

155 6. Encoder resolution (see also chapter ) - Define the resolution of the encoder in µm/step 7. Vertical image resolution (see also chapter ) - Define the physical resolution in transport direction. - With this definition the camera will calculate and display the encoder pulses per line. - Please note: if the resolution and speed is too high and require a shorter integration time than defined in the camera setting then the camera will constantly output image data with the defined integration time until the speed drops below the required integration time. 8. Encoder pulses per line - This value is calculated by the camera using the above defined parameters. - The maximum allowed value is If this value exceeds 255 then please use the above line trigger/encoder reduction parameter to reduce this value below Encoder - enable /disable by external input signal With the enable increments setting you can enable/disable the encoder input by using an external I/O Port (CC-Bit3 or CC-Bit4 of the Camera Link interface). This feature can be useful to enable the encoder in real time (e.g. application with multiple cameras). The function is configured with the IO Configuration menu. For detailed encoder setup see also chapter 8.6 NOTE If this feature is not used, the configuration must be set to default Chromasens allpixa pro - CD40127 Version

156 8.7 Multi-channel flash control With the multi-channel LED control the camera provides up to 4 individual flash outputs for illumination controllers. The flash outputs are fully synchronized to the line trigger to allow high speed synchronous triggering of different illuminations. 1. allpixa pro camera 2. Camera Link cable 3. Host PC 4. Illumination modules 5. LED driver 6. Encoder / Trigger Chromasens allpixa pro - CD40127 Version

157 8.7.1 Basic operation principle The camera provides up to 4 different outputs which can be operated individually to control illumination drivers. Several outputs can individually be combined to be triggered at the same time. Each flashing scenario can be defined individually as line pattern. The camera provides up to 4 different line patterns which will be executed in a sequence. This sequence will be repeated as long as scanning or triggering is active. The following scheme demonstrates a sequence cycle with 3 different line patterns. In this sample the duration for each line pattern is set individually. All 4 available output channels are used. NOTE When flash mode is active the camera will use the individually defined line pattern times for setup the integration time of each scanning line. The camera integration time setting value will be ignored when using the flash mode. Line pattern time For each output channel (1 4) a time can be defined at which the specific output is active. The resulting time for each line pattern is determined by the largest value. Example corresponding to the figure above: Line pattern 3 -> active time for flash channel 3 = 150 µs -> active time for flash channel 4 = 110 µs the resulting duration of line pattern 3 = 150 µs The minimum time for a line pattern is defined by the following parameters: 1. Minimum integration time of the camera: The minimum integration time depends on the speed of the camera (minimum possible integration time) and the scan line length. 2. Minimum time for output a scan line via Camera Link interface: The time for transfer a scan via Camera Link depends on the selected Camera Link mode (base, medium, full) and the Camera Link frequency. A table with the dependencies of the possible scan line speed with different Camera Link modes is show in chapter 2.2 Camera speed for available Camera Link modes and frequency. Chromasens allpixa pro - CD40127 Version

158 Note: If the length of a line pattern is shorter than the minimum possible line time (regarding minimal camera integration time and Camera Link speed) then the camera automatically increases the specific line pattern time before starting next line pattern. This will then also increase the required sequence time. Sequence time: Free run mode: The camera sequence time is the defined time for one full sequence with up to 4 individual line patterns. During one sequence time cycle the camera will output as many number of lines as line patterns are defined. The sequence time (in combination with the transport speed) defines the transport resolution of the image. Triggered mode (encoder/line trigger): One full sequence is executed per trigger signal. Within such a sequence the camera will output as many number of lines as line patterns are defined (1 up to 4 line patterns are possible). When using 4 line patterns, then the camera will output 4 lines for each trigger signal. Please make sure that the sum of all line pattern time definitions is short enough to be completely executed at full speed scanning. If the allowed value for the sequence time is too short to cover all defined line pattern times then the camera will return an appropriate error code: 0xD7: LED flash mode: sum of all pattern exceed sequence time Flash channel Signal output channel for control of an illumination controller. Idle time: Idle time in free run mode: If sum of all active line patterns is less than sequence time than the patterns could be changed without changing the transport resolution of the camera/system. Idle time in encoder/line trigger mode: After the last line pattern the camera waits for the next line trigger to start the next sequence. In both cases (freerun/with ext. line trigger) the camera automatically adapts the subline time (sum of all active line patterns) to the minimum required time. This optimization function allows using the camera at maximum possible speed of the system in regard to the flash times. For a detailed speed optimization sample please see chapter Feature: scan speed optimization. Chromasens allpixa pro - CD40127 Version

159 8.7.2 Setup the multi-channel LED control The CST software provides an easy setup of the multi-channel flash control: Procedure to setup the LED control: 1. Set led flash mode to enabled 2. Select the number of line patterns you like to use (up to 4) Chromasens allpixa pro - CD40127 Version

160 3. Please enter the desired flashing times of the output channel for each line pattern which is used. You can use up to 4 channels. If a channel is not used then please enter Enter a suitable sequence time. This time is used for free run (with/without ext. line trigger). The sequence time will define the time for one full sequence cycle and therefore defines the transport resolution (in combination with the transport speed). For more information see above chapter: Chromasens allpixa pro - CD40127 Version

161 8.7.3 Sample setup for 4 different illumination units (free run) Operation sample for a flash control setup with 4 individual illuminations and 4 patterns: Operation mode: free run Camera integration time: not used (The line time will be defined individually by the definition of each line pattern. The parameter integration time in the camera will be ignored when using the flash mode) Used LED channels: 4 Line patterns: 4 Sequence time: 400 µs Timing diagram: Camera setup with CST: Feature: scan speed optimization If the sum of all line patterns is shorter than the sequence time then the scanning speed can be optimized like follows: Based on the sample data from above the total active time (sum of all line pattern times) for all of the 4 line patterns is 240 µs (minimum sequence time). The sequence time is set to 400µs. This will result in an idle time for this setup of about 160µs. This will provide the opportunity to reduce the sequence time and therefore speed up the total scanning speed. Conventional camera setup: - 4 individual flash scenarios - Integration time 100µs - Required time for one full sequence = 400µs Chromasens allpixa pro - CD40127 Version

162 allpixa pro - optimized camera setup using flash function: - 4 individual flash scenarios - Using the real individual line pattern times for scanning: resulting sequence time = 240µs (100µs+40µs+50µs+50µs) - Required time for one full sequence = 240µs The optimized flash scenarios will lead to a much faster sequence time of 240µs instead of 400µs. Using the allpixa pro flash function the next flash sequence can be started right after 240µs. This will total save 160µs of scanning time per sequence. Scanning speed increase of about 66% by using the allpixa pro flash function Sample setup for 2 different illumination units (triggered mode) Operation sample for triggered mode with 2 individual illuminations and 3 patterns: Operation mode: encoder, line trigger Camera integration time: not used (The line time will be defined individually by the definition of each line pattern. The parameter integration time in the camera will be ignored when using the flash mode) Used LED channels: 2 Line patterns: 3 Sequence time: not used in encoder mode. The sequence time must be set larger than the sum of the individual line patterns. NOTE One full sequence is executed per trigger signal. Within such a sequence the camera will output the same number of lines as line patterns are defined. In this example the camera will output 3 lines for each trigger signal. Please make sure that the sum of the used line patterns times is short enough to be completely executed at full speed scanning. Timing diagram: Chromasens allpixa pro - CD40127 Version

163 Camera setup with CST: Electrical interface (pin assignment) For voltage levels (LVCMOS) of trigger signals please see chapter: Please check for correct input voltage levels Non-compliance can result in irreparable damages to the allpixa pro camera! Cabling requirements: - The connection cable from camera to LED controller has to be fully shielded - Use the same ground potential for all devices (cameras, LED-Drivers, shielding for all cables, ) Also use 0V ground pins for ground potential at the controller - The max length of the cable between camera and LED controllers is 5m Pin no. Level Description LED-Flash 1 RS 422 GPIO_P0 (input) 2 RS 422 GPIO_P1 (input) 3 LVCMOS GPIO_P4 4 LVCMOS GPIO_P2 Out V over 100 Ohm Power 6 LVCMOS GPIO_P3 Out3 7 0 V Ground 0V 8 LVCMOS GPIO_N4 Out4 9 RS 422 GPIO_N0 (input) 10 RS 422 GPIO_N1 (input) 11 0 V Ground 0V 12 LVCMOS GPIO_N2 Out V Ground 0V 14 LVCMOS GPIO_N3 LEDDRV_CLK 15 5 V over 100 Ohm Power supply Chromasens allpixa pro - CD40127 Version

164 Out 1 Out 4: LED trigger output signal for channel 1 4 0V: 0V signal ground potential for use with Out 1-4 at the LED controller NOTE Please always use 0V ground signal level of the camera in addition to the OUT channels for the signal levels at the LED controller I/O port configuration For the operation of the flash control the selected output ports (Out 1 4) were allocated automatically when the flash control is activated. Please make sure that the ports are not in use for other functionality. Any definitions for this output channels in the I/O configurator will be ignored once the flash control is activated. 8.8 Principle of the master-slave synchronization The trigger signals from light barrier and/or encoder are connected to the master camera only. This could be done with the CC-bits via the frame grabber or directly connected to the master allpixa pro camera. This trigger information is transferred via the master-slave interface to the slave camera(s). Due to this synchronization interface all cameras runs with exactly the same timing for lines and optional frames. Master camera 1. Slave camera 2. Slave camera (optional) Master-slave interface Encoder and light barrier via frame grabber or directly connected to master allpixa camera Encoder Lightbarrier Chromasens allpixa pro - CD40127 Version

165 8.8.1 Parameter and region of interest of the master-slave synchronization MASTER Line and Image trigger SLAVE(S) IO-Config Spike suppression Image + line trigger State machine *) internal Sync Wait for First relative pixel for white reference (Tag x2a3) Wait for First valid scan line (Tag x230) Lines Wait for First relative pixel for white reference (Tag x2a3) Wait for First valid scan line (Tag x230) Lines WhiteRef-ROI Image WhiteRef-ROI Image *) Available modes for state machine (internal sync): (Note: All modes should be set for all cameras to the same value) line trigger modes: - Free running - Line trigger - Encoder mode frame trigger modes: - Free running - Use start condition - Use start/stop condition NOTE The slave camera(s) must know if the master runs with encoder/line-trigger or in free run. Therefore all modes should be set in all cameras to the same value. The position of the image in transport direction (Y) of each camera can be set separately (start and length) Also the position (X + Y) and the size of the white reference could be set separately in each camera The connection between master and slave must set by the I/O-configuration! Chromasens allpixa pro - CD40127 Version

166 8.8.2 Setup the cameras for master-slave synchronization There are two options to set the cameras either to master or slave: (a) Software: The cameras have dedicated settings or the PC sets the camera to master or slave via the TAG_MASTER_SLAVE_CONFIGURATION I/O definition If the master/slave definition is set by software setting like above the configuration of nselmaster input is ignored. So no selection for nselmaster has to be done. or (b) Hardware (external input signal for master definition): To set the camera for master/slave detection using external pin assignments by the I/O connector or CC bit 4 from the Camera Link interface you may choose the option auto select by input The automatic master slave detection is using the input pin assignment on the 15 pin I/O connector or the CC4 bit via Camera Link. The definition has to be as follows: Background information: The signal nselmaster is low active. A logic 0 on this input switches the camera to master, a logic 1 (or open on I/O-Interface) set the camera as slave. The input is held high by an internal Pull-Up. - Master camera definition: 1. By using pin assignment: external master definition by applying a low voltage level (ground) to pin 3 (nselmaster). Therefore an electrical connection from pin 3 to pin 11 on the D-Sub 15 connector can be used. (see following section 2. Connecting the master/slave cameras (cabling) ) 2. By using the CC4 bit: apply a low signal on this bit via the frame grabber. - Slave camera definition: 1. By using pin assignment: no pin assignment is needed 2. By using the CC4 bit: apply a high signal on this bit via the frame grabber I/O definition If the master camera definition is defined from externally please check the desired input for nselmaster. For example for defining master save by hardware check the IO- Interface-3 like shown. If you like to use CC4 bit signal to define master slave then check the line below. Chromasens allpixa pro - CD40127 Version

167 8.8.3 Connecting the master-slave cameras (cabling) The master/slave-interface consists of two timing signals for standard setup (pin 6 and 8). These two signals have to be connected 1:1 between the master and all of the slave camera(s). Additionally ground signal has to be connected between master and slave cameras. Therefore pin 7 and 13 can be used for a 1:1 connection between master and slave camera(s). It is recommended to have a 1:1 connection at least at pin 6; 7 and 8 (optionally pin 13) of all master and slave cameras. NOTE At least one ground signal must be connected in addition to the two timing signals (pin 6 and 8). I/O definition To enable the I/O input for master-slave communication please select in the I/O configurator the appropriate input like shown below. Cabling between master-slave cameras Make sure at lease pin 6, 7, 8 (and 13) are 1:1 connections between all master and slave cameras. For master definition using pin assignment additionally connect pin 3 and 11 at the master camera. Pin no. Level Connection at master camera Connection at slave camera(s) 1 RS 422 Incremental encoder (high, Optional) open 2 RS 422 Light barrier (high, Optional) open 3 LVCMOS nselmaster (Bridge to 0 V) Open, internal PullUp 4 LVCMOS V over 100 Ohm open open Only at Master! (only if master selection by hardware is used) 6 LVCMOS Master/Slave-interface Master/Slave-interface 7 0 V 0 V 0 V 8 LVCMOS Master/Slave-interface Master/Slave-interface 9 RS 422 Incremental encoder (low, Optional) open 10 RS 422 Light barrier (low, Optional) open 11 0 V 0 V(Bridge to nselmaster) - 12 LVCMOS - - 1:1 connections 13 0 V 0 V -0 V 14 LVCMOS V over 100 open open Chromasens allpixa pro - CD40127 Version

168 Ohm Alternative input signals selection: If the pin 6 and 8 of the 15 pin connector are already used for other applications then alternatively the combination of pin 4 and 12 can be used alternatively for the master slave interface. If using these pins then the electrical connection between master and slave has to be adapted accordingly. Instead of pin 6+8 like described above the pins 4+12 has to be connected between all cameras. NOTE At least one ground signal (pin 7 or 13) must be connected in addition to the two timing signals (pin 4 and 12). I/O definition To enable the I/O input for master slave communication for the alternative input signals at pin 4 and 12 please choose the appropriate input interface Framegrabber setup information for Master/Slave operation There are two basic strategies for camera/framegrabber configurations to setup the system for master / slave mode. Option 1 (frame mode): Frame Signal: Framegrabber mode: Frametrigger signal is provided only to the master camera (e.g. directly to the camera or via CC3 on Camera Link) Frame mode Camera synchronization: Cameras are synchronizing each line and also provide FrameValid signal to the framegrabbers Camera operation: Freerun mode/ encoder mode / frame mode Operation: The frame trigger signal is only send to master camera e.g. by using CC3 bit. Each framegrabber is set to frame mode. The cameras will run fully synchronized. The camera also provides the framegrabber the Line- and FrameValid signal. Chromasens allpixa pro - CD40127 Version

169 *FT Frametrigger *LT Linetrigger *FVAL FrameValid *LVAL LineValid Option 2 (line mode): Frame Signal: Frametrigger signal is provided to each framegrabber Framegrabber mode: Line mode Camera synchronization: Cameras are synchronizing each line Camera operation: Freerun mode/ encoder mode Operation: The frame trigger signal is send to each framegrabber e.g. by using a dedicated connection cable. So each framegrabber has the same FrameValid signal available. The cameras synchronize each line to each other. Each camera is outputting lines continuously. Special feature: use FVal to also trigger the framegrabbers in linemode If the master camera is triggered by frametrigger, then all camera will also provide an FVal signal to the framegrabber. Depended on the functionality of the used framegrabber in line mode, the framegrabber is able to process the FVal signal for image start or not. If the framegrabber is restricted in the functionality and cannot process the FVal signal then the frametrigger has to be provided to each framegrabber (like shown below). Chromasens allpixa pro - CD40127 Version

170 *FT Frametrigger *LT Linetrigger *FVAL FrameValid *LVAL LineValid For detailed setup of the frame grabber please refer to your frame grabber manual or contact support of your frame grabber dealer. 8.9 Edit color conversion (correction) matrix For the function color conversion matrix (CCM), e.g. from RGB to srgb, the user is in the position to edit and save up to 4 color conversion matrix tables. Rout C00, C01, C02 Rin Offset Gout C10, C11, C12 * Gin Offset Bout C20, C21, C22 Bin Offset With: Offset: Additional Offset in 10Bit range, from -511 to +511 corresponding -0,5 to +0,5 Cxy Gainfactor from -2,0 to +2,0. The CCM can be found in CST\Advanced\Edit color conversion matrix Matrix 1: Preconfigured color conversion matrix for srgb conversion: R G B Transparent color conversion matrix: Chromasens allpixa pro - CD40127 Version

171 NOTE The CCMs # 2 to 4 can be set to user values. 4 matrix data sets are available in the camera. NOTE I Matrix 1 (srgb) is the default data set and is write-protected. In order to use the srgb conversion, please additionally choose Gammatable 0.1! NOTE II By pressing the button Save as, the user is in the position to select another data set to save the current data to. The user may also select Matrix 2 to Matrix 4. Save as : Saves the CCM to a different matrix number. NOTE III By pressing the button Save values, the user is in the position to save the changes to the currently selected data set. If the data set Matrix 1 is selected the button will be disabled. Save values : Saves the values of the current CCM NOTE IV conversion matrix Only visible in Guru-mode Chromasens allpixa pro - CD40127 Version

172 8.10 IO-configuration The allpixa camera offers different ports for synchronizing image data. Its functions are as follows: Line trigger or encoder Frame trigger 2 ways will be offered to transfer the signals to the camera: CC bits on the Camera Link cable IO-port (D-Sub-15) on the allpixa camera External ports have to be connected to the internal functions by using the IO-configurator. For detailed encoder setup see also chapter 8.6 Button Function key Menu Advanced/IO-Configurator Line trigger inputs Enable Line trigger inputs Frame trigger inputs Master/Slave configuration Please avoid double use of internal functions (only select one input for line trigger or frame trigger) Press F9 or the button to transfer the selection to the camera. Press F10 or the button to save changes permanently on the camera. Chromasens allpixa pro - CD40127 Version

173 9 Camera parameters The camera parameters are arranged according the same order as listed in the CST software. In this part of the manual the parameters are described as they are. For the description of the way to setup the camera in a working process, please refer to chapter 8 Camera operation The visibility of the parameters is defined by the chosen User level in the CST-application. Please refer to chapter 9.18 for more information which user level is required to modify certain parameters. You may find a general overview of the camera parameters and their general functions on the CST user interface in chapter Integration time parameters Integration time Function Integration time Sets the integration time in microseconds to the camera Unit Float Step: Linear Dependency Notes None These are the minimum integration times for the camera. The speed could additionally be throttled by Camera Link parameters! Please refer to chapter for more details Camera: Value CST: 2k µs Lower limit 4k 19,68 µs 7.3k 33,65 µs Upper limit All 9.25 ms For minimum integration time for different camera types at different output pixel clocks please see chapter for details Chromasens allpixa pro - CD40127 Version

174 9.1.2 Use line period Function Channels Unit Dependency Use Line Period Activates the function for independent control of integration time and line period time. All Bool Camera must be in Free running mode; the parameter Enable encoder has to be disabled. Notes Camera: Value CST Lower limit All Off Upper limit All On Line period time Function Line period time Sets the value for line period in microseconds to the camera. Unit Float Step: 0,001 Linear Dependency Notes It is only active when the option Use line period has been set into active mode Value must be bigger than Integration time Camera: 1k Value CST OEM only Lower limit 2k >10.78 µs 4k >19,68 µs 7k >33,65 µs Upper limit All 9.25 ms Int. time Int. time Int. time Line period Line period Line period Chromasens allpixa pro - CD40127 Version

175 Video raw value 9.2 Gain and reference Target white reference values Function Channels Unit Target white reference values Video value for the desired value of the closed loop control for white balancing Red, Green, Blue Odd; Even Front; Rear Integer Linear Dependency Notes It is only active when the option Enable White Control has been set into active mode Camera: Refers to the white control mark. Inside this area the closed loop control tries to adjust gain to reach these desired values. Internal value is a 14 bit video, GUI-values are 10-bit video value, output range of the image at the Camera Link port is usually 8-bit range Value: Lower limit all 0 Upper limit all 1023 dark reference value This parameter refers to the reference values labeled with (1) in the diagram of 4.9. NOTE I The maximum reachable value for the target values will be Target values = max dark reference value (with active black level correction). The typical dark reference values are about 4 16 (in 8 bit) in the raw image date. NOTE II The level of the target value has to be adapted to the position of the white reference control zone (see Figure 36). For zone 1 the values have to be set to a lower value than for zone 2. If the target values for zone 1 are too high it will result in saturation in the image s center pixel n Control zone 1 Control zone 2 Red = raw video values Green = theoretical max. values Blue = real max. values (1023 dark ref. Values) Figure 36: Sample of raw and theoretical video and dark reference values (with 10 bit GUI value range) Chromasens allpixa pro - CD40127 Version

176 9.2.2 Analog coarse gain This parameter describes the coarse gain parameter of the camera which operation will take place in step (1) of analog image processing (chapter Analog / digital image processing; Figure 16). Function Channels Unit Analog Coarse Gain Pre-amplification after CCD and before analog gaining. Red, Green, Blue Front; Rear -3 db;0 db;+3 db; +6 db Log. Dependency Notes None Use this parameter for a rough adjustment of gaining at the first step. Camera: Value CST: Lower limit all -3 db 0 db 3 db Upper limit All 6 db The Analog Coarse Gain is a pre-amplification factor (basically to adapt the output signal of the CCD to the input of the main analog amplifier).the output range of the CCD is bigger than the input range of the AFE (analog front end). So with this factor the possible output range can be adjusted. With this adjustable two step amplification it is possible to adjust the allpixa for a wide range of applications. Usage: If the current gaining values are higher than about 200, the Analog Coarse Gain-amplifier may be used (set to a higher amplification factor) to decrease gain values. Otherwise, the image pixel noise will be increased. It is recommended to operate the camera with current gaining values in a range from for best image quality by using the Analog Coarse Gain function to pre-adjust the actual gain range Note: If the output signal of the CCD is higher than the possible input signal of the AFE this might cause saturation in the image lower than 255. Therefore analog coarse gain has to be set to 3 db. Chromasens allpixa pro - CD40127 Version

177 9.2.3 Current camera gain values This parameter describes the analog gaining parameter of the camera which operation will take place in step (2) of analog image processing (chapter 4.5.1; Figure 16: Analog process of the allpixa pro camera (block diagram)). With active white control, this parameter refers to the gain values labeled with (3) in the diagram of chapter 4.9. Function Channels Unit Current camera gain values Gaining values for the analog gaining of the camera. Red, Green, Blue Odd; Even Front; Rear Integer Log. Dependency Notes None One step of this parameter refers to db, steps refer to 1 db. By increasing up to 168 steps it will double the signal. Camera: Value: Lower limit all 0 Upper limit all 700 Chromasens allpixa pro - CD40127 Version

178 9.2.4 Current white reference values Current white reference values Read only Function Channels Unit Video value measured by the camera inside the white control mark, mean value over the defined area and the number of ROI defined for averaging Red, Green, Blue Odd; Even Front; Rear Integer Linear Dependency Notes None Camera: Refers to the white control mark. 10-bit video output value. Output range of the image at the Camera Link port is usually in the 8-bit range Value: Lower limit all 0 Upper limit all 1023 This parameter refers to the video values labeled with (2) in the diagram of chapter Enable continuous white control Function Channels Unit Dependency Enable continuous white control Enables the closed loop control for white balancing all Bool None Notes Camera: Value: Function: Lower limit all 0 Off Upper limit all 1 On Chromasens allpixa pro - CD40127 Version

179 9.2.6 Position and mode for white reference mark Function Channels Unit Dependency Position and mode for white reference mark It is strongly recommended to use the auto detect setting. The camera will choose automatically which tab is used as master. Although it is possible to set the reference zone either to front tap, rear tap, to both taps independently or to automatic detection. Changing this behavior differently from the default setting should only be done by experienced users. All Integer It is only active when the option Enable white control has been set into active mode Notes The exact size and position will be described in chapter 9.3 Function only available in Guru -level Camera: Value: Function: Lower limit All 0 All 1 Master: Slave: Master: Slave: Front tap Rear tap Rear tap Front tap All 2 Taps are independent Upper limit All 3 Automatic master tap detection out of area position (recommended!) Chromasens allpixa pro - CD40127 Version

180 9.2.7 White control mode Function Channels White control mode Set the mode of the white control function All Unit Dependency Notes It is only active when the option Enable white control has been set into active mode Function only available in Guru -level Lower limit Upper limit Camera: All All Value: Two options are selectable: Use sync mode: By using this option, the white control will set the white reference into the image regarding to the necessary image trigger. Stop gain control: If the value of the white reference video level is lower than the set value, the closed-loop control for the white balancing could be paused by using this option (e.g. when the light on the white reference will be lowered without any present document (stray light from the document)). Chromasens allpixa pro - CD40127 Version

181 9.2.8 Set active channels for white control Function Channels Set active channels Will determine which channels are active during automatic white and tap balancing All Unit Dependency Notes Applies only to all automatic gain control functions like white balancing and tap balancing. When working with white illumination leave all channels set to Enabled (Standard use of the allpixa pro). This function is useful if working with different lighting conditions. If you are for example working with three different light setups for the different color channels you could Turn on the lights for one channel, disable the other Active channels and perform white and tap balancing. After this you run through the same procedure for the other channels. If you disable the channel, the old values for the white or tap balancing will not be overwritten. Camera: Value CST: Lower limit All 0 Upper limit All 1 For more details please also see chapter Chromasens allpixa pro - CD40127 Version

182 9.2.9 Gain control stop factor Function Channels Gain control stop factor Sets the pause condition for the white control. All Unit Float Step: 1/1024 Dependency Notes It is only active when the option Stop gain control in the White control mode has been set into active mode. By using this condition the white control will pause: Average of all actual Current white reference values < value * Average of the last valid Current white reference values. Camera: Value CST: Lower limit All 0 Upper limit All 1 1. Description of paper (object) detection function: During the scan, the camera is set to automatically control the image brightness using the implemented function Automatic white control. The control mechanism of the camera will use the reference area on the object to adapt the camera gain values as defined within the camera parameters. In certain situations during the scan process it can occur that an object is missing on the transport. If no object is on the transport the reference area for the brightness control appears darker as the normal paper white. Therefore, a missing object can irritate and misguide the automatic gain process. With the paper detection functionality, the existence of a sheet will be detected and the automatic gain control will stop if no object (certain degree of brightness) is found on the transport. 2. Basic functionality description: The camera reads the white value of the reference area. If the brightness of the reference area is below the suppress condition, the automatic white control will be disabled only for the actual scanned image. The procedure will be applied separately to each acquired image. 3. Suppress condition: Mean of value of actual reference area < (mean value of desired values of all channels * threshold factor). 4. Feedback camera signal: While gain control is disabled, the image is scanned with the last valid gain values. The camera will set a flag if the values in the reference area are too low (-> no paper) and the automatic gain control function is disabled. Example: All desired values for the white reference target value are set to 800, stop gain control factor is set to 0.5.If sum of all current white references drops below 0.5 * 800 = 400, then automatic gain control is disabled. Chromasens allpixa pro - CD40127 Version

183 Start gain values Function Channels Unit Start gain values In accordance to these values the gaining values will be updated at startup of the camera or by loading a setting for faster startup behavior of the closed-loop control for white balancing. Red, Green, Blue Odd; Even Front; Rear Integer Linear Dependency None Notes Camera: Value: Lower limit All 0 Upper limit All Update start gain values Function Channels Unit Dependency Notes Update start gain values By setting and transmitting this value to the camera, it will update the value Start gain values with the values defined by Current camera gain values. all Bool None Kindly note that the result may differ due to the fact that this function will take values of the camera and not of the CST. In order to make sure to read the actual values, please press Refresh before performing this operation. Camera: Value: Lower limit All 0 Upper limit All 1 Chromasens allpixa pro - CD40127 Version

184 9.3 White reference mark Position and size in CCD direction NOTE Attention: The white reference area must not cover the tap border. For the position in CCD direction of the white reference control zone you may have 2 possibilities: Relative x position The x position of the white reference mark can be defined relative to the actual image window. If defined relative, the reference position moves with changing the scan line length of the actual scan window. Absolute x position The x position of the white reference mark can be defined absolute within the maximum scan window. If defined absolute, the reference position does not move with changing the width of the actual scan window. A1= First relative pixel of white reference (may be negative) A2= First absolute pixel of white reference B = Number of pixel for white reference C = First image line of white reference (may be negative), only used if white control mode is set to sync mode D = Number of image lines for white reference (*A): Number of valid pixels depends on the type of camera: allpixa camera 7300: number of valid pixel = 7300 allpixa camera 4096: number of valid pixel = 4096 allpixa camera 2048: number of valid pixel = 2048 Chromasens allpixa pro - CD40127 Version

185 The parameter Use absolute horizontal white reference position selects if relative or absolute white reference mode is used. Size of the white reference area is defined with number of pixel for white reference Position and size in transport direction (Sync. Mode) As default the reference area is not synchronized to image frame acquisition. Measurement of white reference values is done continuously, no matter if the image frame is active or not. If use sync mode is set at White control mode (9.2.7), the reference area is defined as ROI to the captured image frame. The y position of the white reference ROI is defined relative to the actual image window. NOTE Attention: Vertical reference white position moves with changing first valid scan line of the actual scan window. C D The size of the white reference area is defined with number of image lines for white reference Chromasens allpixa pro - CD40127 Version

186 9.3.3 First relative pixel of white reference Function Channels Unit Dependency Notes First relative pixel of white reference Describes the start of the control zone for the white balancing in the line/image (relative to the actual captured image) All Integer None Value: Lower limit All 0 Upper limit 1k Number of pixels of white reference 2k 4k Number of pixels of white reference Number of pixels of white reference 7.3k Number of pixels of white reference First absolute pixel of white reference Function Channels Unit Dependency First absolute pixel of white reference Describes the start of the control zone for the white balancing in the line / image (beginning from first visible pixel of the camera) All Integer None Notes Lower limit Camera: All Value: Upper limit 1k Number of pixels of white reference 2k 4k Number of pixels of white reference Number of pixels of white reference 7.3k 7.,292 Number of pixels of white reference Chromasens allpixa pro - CD40127 Version

187 9.3.5 Use absolute horizontal position of white reference Function Channels Unit Dependency Notes Use absolute horizontal position of white reference If set, absolute horizontal position of white reference is used (9.3.3), otherwise, relative position is used (9.3.4) All Bool None Camera: Value: Function: Lower limit All 0 Off Upper limit All 1 On Number of pixels for white reference Function Channels Unit Dependency Number of pixels for white reference Describes the width of the control zone for the white balancing in the line/image All Integer None Notes Camera: Value: Lower limit All 2 Upper limit All Chromasens allpixa pro - CD40127 Version

188 9.3.7 First image line for the white reference Function Channels First image line for the white reference Starts pixel of control zone in transport direction All Unit Dependency Only if the image synchronized mode is used for white balancing. Notes Camera: Value: Lower limit All 1 Upper limit All Image size Number of vertical pixels Number of image lines for the white reference Function Channels Unit Dependency Number of image lines for the white reference Length of control zone in transport direction All Integer Only if the image synchronized mode is used for white balancing. Notes Camera: Value: Lower limit All 0 Upper limit All Chromasens allpixa pro - CD40127 Version

189 9.3.9 Number of reference samples (Average) Function Channels Unit Number of reference samples Number of ROI s needed for averaging of actual video value for closed-loop control, either with synchronization or free running. All Integer None; 2; 4; 8; 16; 32 Dependency Notes None Camera: Value CST: Lower limit All None 2 samples 4 samples 8 samples 16 samples Upper limit All 32 samples Show white reference border Function Show white reference border Displays the border of the control zone with blue lines in the image. Channels All (Blue: 255; Red and Green: 0) Unit Dependency Notes Bool None Function has to be switched off for taking reference images regarding to black and white correction. Camera: Value: Function: Lower limit All 0 Off Upper limit All 1 On Chromasens allpixa pro - CD40127 Version

190 Video value 9.4 Shading (flat field correction) Shading correction (flat field correction) Function Channels Unit Dependency Activate Shading Correction This function enables the pixel wise shading correction inside the camera. All Bool None Notes Camera: Value: Function: Lower limit All 0 Off Upper limit All 1 On Shading correction is made of the pixel-by-pixel mode and corrects the different behavior of the individual pixels in the images (PRNU = Photo Response Non Uniformity). Additionally, it compensates any illumination in non-homogeneities. 4 reference sets for the shading correction are supported by the allpixa camera, as well as 4 reference sets for the black level correction. The reference position number can be entered when creating the reference in the CST Shading Wizard and selected in the allpixa camera setting. All reference sets can be used for different setups, e.g. different f-stops or different illuminations pixel n Red = raw values Green = corrected values This parameter refers to the video values labeled with (2) in the diagram of chapter 4.9. The internal processing is not limited up to 255@8bit. This means that after the shading correction it is possible to additionally process higher values such as 300, which can be taken without loss into the visible area by using the brightness and contrast control afterwards. Chromasens allpixa pro - CD40127 Version

191 Video value Black level correction (offset correction) Function Channels Unit Dependency Activate black level correction This function enables the pixel wise black level correction inside the camera. All Bool None Notes Camera: Value: Function: Lower limit All 0 Off Upper limit All 1 On Black value correction is made of the pixel-by-pixel mode and corrects the different behavior of the individual pixels (DSNU = Dark Signal Non Uniformity) in dark images. Black value correction is carried out with a non-exposed sensor (e.g. when the lens is closed, the illumination is switched off or a black reference is scanned). Black value correction is carried out individually on each allpixa camera during factory calibration. 4 reference sets for the black level correction are supported by the allpixa camera as well as 4 reference sets for the shading correction. Reference position number can be entered when creating the reference in the CST Shading Wizard and selected in the allpixa camera setting. All reference sets can be used for different setups, e.g. different f-stops or different illuminations. 0 0 pixel n Red = raw values Green = corrected values This parameter refers to the video values labeled with (1) in the diagram of chapter figure 10. Chromasens allpixa pro - CD40127 Version

192 9.4.3 White reference data set Function Channels Unit Dependency Notes White reference data set Select the data set for shading correction. All Integer None 2 data sets for white reference can be stored inside the camera. The number for the storage space has to be selected in the CST during the Shading wizard process. Camera: Value: Function: Lower limit All 0 Data set 1 is used Upper limit All 3 Data set 4 is used Black reference data set Function Channels Unit Dependency Notes Black reference data set Select the data set for black level correction. All Integer None 4 data sets for black reference can be stored inside of the camera. The number for the storage space has to be selected in the CST during the Shading wizard process. Camera: Value: Function: Lower limit All 0 Data set 1 is used Upper limit All 3 Data set 4 is used Chromasens allpixa pro - CD40127 Version

193 9.5 Brightness and contrast These parameters describe the digital gaining and offset parameters for the camera. This operation will take place in step (3) of the digital image processing pipeline (chapter4.5.1; Figure 17: Digital process of the allpixa pro camera (block diagram)). NOTE Using these parameters to adjust image brightness in a wide range to get brighter images might degrade image quality. First, please use the analog gaining to adjust brightness of the image (see chapter and 9.2.3). For instance, after adjusting analog gain and performing a shading correction (it will set the values for white to 255), the user is in the position to get the white slightly out of the area of the image saturation from 255 to 245. The internal processing is not limited up to 255@8bit. This means that after the shading correction it is possible to additionally process higher values such as 300, which can be taken without loss into the visible area by using the brightness and contrast control afterwards Use brightness and contrast Function Channels Unit Dependency Use brightness and contrast Enables the digital gaining and contrast function in the camera. All Bool None Notes Camera: Value: Function: Lower limit all 0 Off Upper limit all 1 On Chromasens allpixa pro - CD40127 Version

194 Output Brightness Function Channels Unit Brightness Digital offset Red; Green; Blue Integer Linear Dependency Notes It is only active when the option Use Brightness and Contrast has been set into active mode This value refers to 10-bit image data, in output image there s usually 8-bit image data. Camera: Value: Output image: Lower limit all Upper limit all Orginal After (+) Offset After (-) Offsett 0 0 Input Please note that using of Brightness will cause a digital offset in the image data: Vid Brightness Out(x,y) = (VidIn(x,y) + Offset) VidIn(x,y) Pixel-normalized image after the shading correction ( in 10Bit area) Offset Additional adjustable Brightness for this color separation ( in 10Bit area) (x, y) Number of pixels within a line or column Vid Brightness Out(x,y) Output of this step (area ) Chromasens allpixa pro - CD40127 Version

195 Output Contrast Function Channels Contrast Digital gaining Red; Green; Blue Unit Float Step Linear Dependency It is only active when the option Use Brightness and Contrast has been set into active mode Notes Camera: Value CST: Lower limit all 0 Upper limit all 2 Orginal After >1 Gaining After <1 Gaining 0 0 Input Please note that using Contrast will cause digital increase or decrease of sensitivity. VidContrastOut(x,y) = Vid BrightnessOut(x,y)* Gain Vid BrightnessOut (x,y) Pixel-normalized image after the Vid Brightness correction ( in 10Bit area) Gain Additionally adjustable Contrast for this color separation ( ) (x, y) Number of pixels within a line or column VidContrastOut (x,y) Output of this step (area ) NOTE Calculation will be done in the following order (chapter4.5.1; Figure 17: Digital process of the allpixa pro camera (block diagram) : 1. Brightness 2. Contrast Chromasens allpixa pro - CD40127 Version

196 Output Gamma correction Function Channels Gamma Performs a LUT operation for gamma correction with image data All Unit Float Step 0.1 Log. Dependency Notes None Camera: The value 0 causes the camera to ignore the mentioned image processing step with the LUT; value 1 causes a linear LUT (output=input) which may be used. This function must be switched off for the acquisition of the black value and shading reference (white balancing). Value CST: Lower limit all 0 Upper limit all 2.5 A CCD sensor has a linear sensitivity (the brightness sensitivity of the humans is non-linear). Gamma correction serves to adapt the linear sensitivity curve of a camera to the human eye. As a result the brightness in certain areas of the image is increased and lowered in others. With a gamma value of 1, the curve is linear, if the gamma value is lower than 1, the images are darker, and images with a gamma value above 1 are brighter. Input Figure 37: Gamma correction Chromasens allpixa pro - CD40127 Version

197 9.6 Physical setup RGB line distance Function Channels RGB line distance Delays the line output for the 2 other lines to match the shift by different positions on the sensor which is also called Spatial correction. All Unit Float Step 1/1024 Linear Dependency Notes Unit None The value 0 causes that this function will be switched off. For cameras up to 4k the line delay can be set up to 8 lines, for cameras with sensor length more than 4k it will be limited to 6 lines. Camera: Value CST In 1/1 lines Lower limit All 0.0 Upper limit > pixel 6.0 Upper limit <=4.096 pixel 8.0 The trilinear lines of the allpixa camera signify that the camera disposes of 3 individual color lines (RGB) which means that for each image point the accurate information will be obtained. The 3 line sensors are physically arranged in different locations, resulting in the acquirement of the individual color channels to an image of a moving object at different points. Please refer to chapter 4.2 Design of the allpixa camera line scan sensor / sensor alignment. For spatial correction the lines are buffered and the respective lines are re-aligned with a corresponding correction. The color lines have been delayed by a specific number of lines and, therefore, the values of R, G and B will match to each corresponding object point. The allpixa camera enables this compensation with up to 6+6 lines spacing according to the camera with sensor length of more than 4,096 pixels, for sensor length up to 4,096 pixels a spacing of up to 8+8 lines is possible. Correct color images will only be generated correctly when the ratio of the optical resolution will be the same as the resolution of transport direction. When observing according to the standard conditions, the line resolution will be the same as the transport resolution; the value 4 must be applied. In some applications it might be helpful, when the camera displays correct images even if the transport resolution differs from the resolution in CCD line direction which is useful e.g. when the transport resolution is lower than the optical one. If the user prefers to receive pixels in a non-square shape (transport resolution shall not be the same as the resolution in CCD direction), the value of the line resolution may be lowered to the transport resolution which means that the camera will internally apply a sub-pixel based correction. The result is that the images will not have any colored edges, even if the transport resolution does not match to the resolution in CCD direction (=optical resolution). Chromasens allpixa pro - CD40127 Version

198 For calculation of the setting value, you may use one of the following formula: Either Or Line distance = TransportResolution(dpi) 4 OpticalResolution(dpi) cos (α) Line distance = OpticalPixelSize ( mm pixel ) 4 TransportPixelSize( mm ) cos (α) pixel α viewing angle in transport direction (0 = perpendicular) Function of the sub pixel line shift: With sub pixel compensation Without patented sub pixel compensation Chromasens allpixa pro - CD40127 Version

199 9.6.2 Scan direction Function Channels Unit Dependency Scan direction Changes the sequence from forward to backward (e.g from R-G-B to B-G-R), to adapt to the movement direction of a conveyor regarding to the orientation of the camera. All Bool None Notes Camera: Value: Function: Lower limit All 0 Forward Upper limit All 1 Backward Direction of the spatial correction depends on the direction of transport regarding to the orientation of the camera, i.e. the sequence of the lines in the direction of transport can be either red-green-blue (RGB) or blue-green-red (BGR) but the sequence can be changed, if necessary. Then the color offset is been corrected, irrespective of the installation position of the camera. If the encoder is activated, the transport direction will be determined in the encoder controller. This direction is either forwarded directly or inverted. Direction: Image for value 0 - Forward: Image for value 1 - Backward: top top Chromasens allpixa pro - CD40127 Version

200 Number of scan lines (transport direction) 9.7 Image sizes Number of scan lines per image (frame mode) Function Channels Unit Dependency Number of scan lines per image Image size in transport direction All Integer Only in frame scan mode Notes Camera: Value: Lower limit All 1 Upper limit All If the camera is supplied with information of the frame start at CC3 or CC4 (via Camera Link) or at the IO-Port, it will be able to generate FVAL (VSync) and frame valid signal. The external signals have to be connected with the IO-configurator to the internal functions in the CST. Without these signals the camera is able to send images in free-running mode. Image Scan line length (sensor direction) Chromasens allpixa pro - CD40127 Version

201 Light barrier First valid scan line (delay) Scan position First valid scan line Number ofscan lines ( Image height) First valid scan line Number ofscan lines ( Image height) First valid scan line Number ofscan lines ( Image height) First valid scan line Number ofscan lines ( Image height) First valid scan line Function Channels Unit Dependency First valid scan line Delay of image start after image trigger in lines, the image trigger could be taken internally or externally All Integer Only in frame scan mode Notes Camera: Value: Lower limit All 0 Upper limit All VSync Sample for using first valid scan line: Please refer to chapter 9.8 Synchronization. Chromasens allpixa pro - CD40127 Version

202 9.7.3 Scan line length Function Channels Unit Dependency Notes Scan line length Image width All Integer None The numbers of pixel are centered to the visible area of the camera. The image width depends on the used video output mode (e.g. a multiple of 2, 8 or 16). See Camera: Value: Lower limit All 2 1k k Upper limit 4k px k (7.296 as default) There are 2 different cases for scan line length: Original: Scan line length equal to sensor length: Pixel 0 Pixel n Scan line length n+1 Image Scan line length is set to the sensor length of the camera, e.g Cropping: Scan line length shorter than sensor length: Pixel Pixel Scan line length Resulting image The camera will capture an image from a ROI which is centered in the sensor. Chromasens allpixa pro - CD40127 Version

203 9.8 Synchronization (frame synchronization) Since the allpixa camera is able to generate frame information, there are some settings to be done for using this mode. NOTE I First, the hardware ports have to be connected to the internal functions of the camera. Therefore, please use the IO-configurator in the CST and please refer to chapter 8.10 IO-Configurator. NOTE II In case the camera is used in the Triggered Frame Scan with active LineTrigger or Encoder, the linesync (Encoder or LineTrigger) will have to fit some pulses before light barrier input Triggered frame scan Function Channels Unit Dependency Triggered frame scan Enables the triggered frame scan modes All Integer None Notes Camera Value Function Lower limit All 0 Free running All 1 Only image start All 2 Reserved Upper limit All 3 Image start and stop Chromasens allpixa pro - CD40127 Version

204 Light barrier First valid scan line (delay) Scan position First valid scan line Number ofscan lines ( Image height) First valid scan line Number of scan lines ( Image height) First valid scan line Number ofscan lines ( Image height) First valid scan line Number ofscan lines ( Image height) First valid scan line Number ofscan lines ( Image height) First valid scan line Number ofscan lines ( Image height) There are 4 different modes: a) (0) Free running: The FVAL will be generated continuously, depending on the Number of scan lines (Image height) and First valid scan line. VSync b) (1) Use start condition: The FVAL will be generated after receiving a trigger signal. The frame will be delayed by the value of First valid scan line and the image length is defined by Number of scan lines (Image height). Trigger VSync Sample: Image acquisition will be started automatically. It is also possible to get a delay for a position of the light barrier before getting the scanning position. Chromasens allpixa pro - CD40127 Version

205 Light barrier First valid scan line (delay) Scan position First valid scan line Resulting image heigth First valid scan line Resulting image heigth c) (2) Reserved: This is reserved for OEM and future use. d) (3) Use start and stop condition: The FVAL will be generated after receiving a trigger signal. The frame will be delayed by the value of First valid scan line. Image length depends on the length of pulse from the trigger port. Trigger VSync Sample: This function is useful for automatic detection of different object sizes, the camera will send a correct sized image. Resulting image height Resulting image height For Number of scan lines and First valid scan line please refer to chapter 9.7 Chromasens allpixa pro - CD40127 Version

206 Light barrier First valid scan line (delay) Scan position First valid scan line Resulting image height Scan lines after stop First valid scan line Resulting image height Scan lines after stop Scan lines after stop Function Channels Unit Dependency Scan lines after stop Sets the number of lines added to the image after the stop condition. All Integer Only active at Use start and stop condition at Triggered frame scan Notes Camera Value Lower limit All 0 Upper limit All Trigger VSync Sample: In case the transported object will not be rotated, the result with Start- and Stop condition is not satisfactory. Resulting image height Chromasens allpixa pro - CD40127 Version

207 Light barrier First valid scan line (delay) ½ Scan lines after stop Scan lines after stop By using the parameter Scan line after stop the setup will deal with this issue: Resulting image height Sets a suitable value for the parameter Scan line after stop, e.g. 300 lines Reduces the value for the parameter First valid scan line by the half of the value for Scan line after stop, e.g. Original value of 1000 lines (300 lines / 2) = 850 lines Stop after maximum number of lines Function Channels Unit Dependency Notes Stop after getting the max. quantity of lines Stops the image when no ending edge or signal of the image trigger is detected after the given maximum number of lines. All Bool Only active with Use start and stop condition at Triggered frame scan The parameter Maximum numbers of lines has to be set to a reasonable value. Camera Value Lower limit All 0 Off Upper limit All 1 On Chromasens allpixa pro - CD40127 Version

208 9.8.4 Maximum number of scan lines Function Channels Unit Maximum number of lines Stops the image after getting the maximum numbers of lines in case no falling edge of the image trigger is detected. All Integer Dependency Only active with Use start and stop condition at Triggered frame scan and at Stop after max. lines Notes Camera Value Lower limit All 1 Upper limit All Number of suppressed lines Function Channels Unit Dependency Number of suppressed lines Number of lines which will be ignored for output, will cause reduction of data or resolution in transport direction. All Integer None Notes Camera Value Lower limit All 0 Upper limit All 1023 NOTE This function is helpful for doing testing and system setups. If there is no encoder signal available and the speed for testing and setup is much lower than the nominal speed, the system can be tested with nominal integration time and gaining value. Afterwards, the speed will be as follows: Vred=Vnominal / (1 + Number of suppressed lines) Chromasens allpixa pro - CD40127 Version

209 9.8.6 Input debouncing speed For triggering images from an external source the signal of the trigger, e.g. from a light barrier, has to be connected to the hardware ports of the camera, this could be done throughout the frame grabber using CC-bits or the D-Sub 15 IO-port on the camera. These external signals have to be connected to the internal functions (LB 0 to LB 3) which have to be selected regarding to signal duration and signal quality of the trigger by using the IO-configurator in CST. The single inputs do have different properties regarding the debouncing speed. Function Channels Input debouncing speed Enables the internal ports to be used as frame trigger All Unit Dependency Only active if Use start condition or Use start and stop condition is selected. Notes Lower limit Upper limit Camera All All Value By using this option the user has the possibility to select the internal function ports for image trigger. The external ports (e.g. CC3 from Camera Link) have to be connected to internal functions by using the IO-configurator at CST (chapter 8.10). There are different methods for debouncing the signal: LB 0: 60 output lines LB 1: 4 clock pulses ~ 35 ns LB 2: no debouncing, peak holder LB 3: 4 output lines Selection of the internal functions for triggering the image will be done in CST. Kindly note the following screen shot example: Light barrier (LB2) is selected for the frame trigger. Chromasens allpixa pro - CD40127 Version

210 9.8.7 Scan pattern Function Channels Select trigger edge condition This will determine if the trigger is evaluated at the rising or the falling edge. All Unit Dependency Only active if Use start condition or Use start and stop condition is selected. Notes Lower limit Upper limit Camera All All Value This function will determine if the image starts at rising or falling edge of the signal. Setting will differ for Use start condition only and for Start and stop condition. The state of the ports will be checked synchronized with the line frequency clock. At each rising edge of the line frequency clock, the status will be checked and the debouncing condition must be complied. The following tables show suitable sequences and their function (screen shots from CST): If Use start condition only is selected as triggered frame scan parameter: If Start and stop condition is selected as triggered frame scan parameter: Chromasens allpixa pro - CD40127 Version

211 1. Use start condition only Select trigger edge detection Function These sequences will cause a frame start at a rising edge: Trigger Image These sequences will cause a frame start at a falling edge. Trigger Image 2. Use start and stop condition Select trigger edge detection Function These sequences will cause a frame start at a rising edge and the frame stop at a falling edge. Trigger Image These sequences will cause a frame start at a falling edge and the frame stop at a rising edge. Trigger Image Chromasens allpixa pro - CD40127 Version

212 9.8.8 Master-slave setup Function Channels Unit Dependency Notes Set master-slave-mode Synchronization of more than one allpixa pro camera All The slave camera(s) have to set to the same trigger mode than the master cameras e.g. encoder/line-trigger or in free run! Please set this parameter in all slave cameras similar. The position of the image in transport direction (Y) of each camera could be set separately. The image length is defined by the master. Also the position (X + Y) and the size of the white reference could be set separately. Camera Value Lower limit All No master slave operation All All Camera acts as master Camera is slave Upper limit All Auto select by input If more than one camera is used, e.g. in print inspection, these cameras must be synchronized very accurate to achieve the best system performance. See also chapter 8.8 for more details Chromasens allpixa pro - CD40127 Version

213 9.9 Image processing Mirror image horizontally Function Channels Unit Dependency Notes Mirror image horizontally Mirrors the lines inside the camera. All Bool None Function has to be switched off for the acquisition of the black value and shading reference (white balancing). Camera: Value: Function: Lower limit All 0 Off Upper limit All 1 On This function changes the sequence of the pixels within the line, i.e. the left pixels are replaced by the right ones. As a result, the alignment of the line with the direction of transport is possible, irrespective of the camera s installation position (pixel 1 left or right). With mirroring Without mirroring Chromasens allpixa pro - CD40127 Version

214 9.9.2 Color conversion matrix Function Channels Unit Dependency Notes Color conversion matrix Enables the color conversion by a 3x3 matrix e.g. from RGB to srgb All Bool None Color conversion matrix has to be generated offline and must be transferred to the camera. Camera: Value: Function: Lower limit All 0 Off Upper limit All 1 On See also chapter 8.9 for more details on how to modify the CCM parameters Select active CCM Function Channels Unit Dependency Notes Select active CCM Selects the number of the used color conversion matrix. 4 matrix tables are selectable. All Integer It is only active when the option Color conversion matrix has been set into active mode. Matrix 1 is the default table and not editable in CST. Camera: Value: Function: Lower limit All 0 Matrix 1 Upper limit All 3 Matrix 4 Chromasens allpixa pro - CD40127 Version

215 9.9.4 Use keystone correction Function Channels Unit Dependency Use keystone correction Enables the function keystone correction. Red, Blue Bool None Notes Camera: Value: Function: Lower limit All 0 Off Upper limit All 1 On Optical center Optical center Sign: negative refers to red channel Sign: positive refers to red channel Px 0 Px n/2 Px n Sample with correction value of +3.5 Chromasens allpixa pro - CD40127 Version

216 9.9.5 Pixel shift for correction Function Channels Pixel shift for correction Sets the pixel shift up to +/- 4 pixels for the first and the last pixel. Between the center and the first and last pixels they will be linear interpolated between 0 and the set value. Red, Blue Unit Float Step 0.1 Dependency It is only active when the option Use keystone correction set into active mode. Notes Camera: Value CST: Lower limit All - 4 Upper limit All Keystone correction width Function Channels Unit Dependency Notes Keystone correction width Start value from the center for keystone/tca correction Red, Blue Integer It is only active when the option Use keystone correction has been set into active mode. Set to 1 to use as a standard keystone correction. Camera: Value: Lower limit All 1 = default Upper limit 2k 1,024 Upper limit 4k 2,048 Upper limit 7.3k 3, Px 0 Real TCA TCA (= Transversal Chromatic Aberration) is an objective-caused displacement of 3 colors increasing at the edge. Px n/2 Keystone correction width Px n Chromasens allpixa pro - CD40127 Version

217 9.10 Output format Swap red and blue color channel Function Channels Unit Dependency Notes Swap red and blue color channel On video output the red and the blue channel will be changed Red, blue Bool None Some frame grabbers first expect with the blue channel, instead of the red channel and this may cause wrong colors in the resulting image. This task can be done in real time inside of the camera, it is usually faster than doing with the frame grabber. Camera: Value: Function: Lower limit All 0 Off Upper limit All 1 On Video output mode Function Channels Unit Dependency Notes Video output mode Sets the output on the Camera Link port to different modes, e.g. RGB as standard or to grey level output. All Integer Only for color camera with RGB or mono-output, not for mono-camera For the grey image calculation the values of Color weights will be used. Camera: Value: Function: Lower limit All 0 3x8 Bit / RGB CL-Medium/Full64/Full80 All 1 2x8 Bit / Mono / CL-Base All 2 2x10 Bit / Mono / CL-Base Upper limit All 3 2x12 Bit / Mono / CL-Base OEM- Versions Special modes are available Chromasens allpixa pro - CD40127 Version

218 Color weights Function Channels Color weights Calculates the mono value for the pixel by using data from RGB, weighted with this factor. Red; Green; Blue Unit Float Step: 0,01 Linear Dependency Notes Only active if output mode on Camera Link is set to Mono mode The sum of these 3 parameters should be 1.0. A higher sum will cause a brighter image, and a lower sum will cause a darker image. Standard values by NTCS and the default values in the camera are the following: Red: Green: Blue: Camera: Value CST: Lower limit All 0 Upper limit All Camera Link connection speed Function Channels Unit Dependency Notes Camera Link connection speed All Sets the pixel clock on the Camera Link port to 85, MHz or MHz Integer None This function reduces only the pixel clock at the output, the internal clock will not be changed. The minimum integration / line time might be limited by this function. Please see the limitations in the table mentioned below. For some applications it would be helpful to increase the Camera Link data width and reduce the speed e.g. for using the camera with longer cables. Camera: Value: Function Lower limit All MHz All 1 85 MHz Upper limit All MHz For minimum integration time for different camera types at different output pixel clocks please see the following chapter : Chromasens allpixa pro - CD40127 Version

219 Camera Link interface type and minimum line time (integration time) Function Channels Unit Dependency Camera Link interface type Sets the output to Base, Medium, Full64 or Full80 mode All Integer None Notes Lower limit All 0 By using some modes the line rates and integration time will be limited. Please refer to the table mentioned below. By using some modes the scan line length must be a multiple of x. Please refer to the table mentioned below. For Base mode the Camera Link connector 1 has to be used. Camera Value Function All 1 All 2 All 3 All 4 Camera Link Base 1Tx24b (1X1), for color output 2Tx8b, 2Tx10b or 2Tx12b (2XE for mono output with the color camera) Scan line length must be a multiple of 2. Camera Link Medium 2Tx24b (2XE RGB) Scan line length must be a multiple of 2 Camera Link Medium 2Tx24b (1X2, Raw) Scan line length must be a multiple of 2. only with allpixa pro-mono: Camera Link Medium 4Tx8b (1X4) Scan line length must be a multiple of 8. Camera Link Full64_8Tx8b 1X8 raw, RGB with 8 color planes per Camera Link clock. Scan line length must be a multiple of 16. Only with allpixa pro-mono: Camera Link Full64_8Tx8b 1X8 raw, Scan line length must be a multiple of 8. Camera Link Full80_8Tx10b 1X8 raw, RGB with 8 color planes per Camera Link clock. Scan line length must be a multiple of 16. Upper limit All 5 Camera Link Full80_10Tx8b 1X10 raw, RGB with 10 color planes per Camera Link clock. Scan line length must be a multiple of 2. Chromasens allpixa pro - CD40127 Version

220 Minimum line time (integration time) for different camera types at different Camera Link modes and frequencies: All output in regard with 16 clocks cycles gap between the camera link lines allpixa pro 2k (2048 pixel) CL-Definition Base Mode Medium mode Full64 mode Full80_ 8Tap_10Bit Full80_ 10Tap_8Bit Mono output * MHz 24.28µs 12.24µs 10.78µs 10.78µs 10.78µs 12.24µs MHz 27.32µs 13.76µs 10.78µs 10.78µs 10.78µs 13.76µs MHz 33.39µs 16.82µs 12.68µs 12.68µs 10.78µs 16.82µs *) mono output available in Camera Link Base mode (at 8; 10 or 12 Bit per Pixel) allpixa pro 4k (4096 pixel) CL-Definition Base Mode Medium mode Full64 mode Full80_ 8Tap_10Bit Full80_ 10Tap_8Bit Mono output * MHz 48.38µs 24.28µs 19.68µs 19.68µs 19.68µs 24.28µs MHz 54.42µs 27.32µs 20.54µs 20.54µs 19.68µs 27.32µs MHz 66.52µs 33.39µs 25.11µs 25.11µs 20.14µs 33.39µs *) mono output available in Camera Link Base mode (at 8; 10 or 12 Bit per Pixel) allpixa pro 6000px (6000 pixel) CL-Definition Base Mode Medium mode Full64 mode Full80_ 8Tap_10Bit Full80_ 10Tap_8Bit Mono output * MHz 70.92µs 35.48µs 29.14µs 29.14µs 29.14µs 35.48µs MHz 79,62µs 39,92µs 29,99µs 29,99µs 29,99µs 39,92µs MHz 97,32µs 48.79µs 36.66µs 36.66µs 36.66µs 48.79µs *) mono output available in Camera Link Base mode (at 8; 10 or 12 Bit per Pixel) allpixa pro 7.3k (7300 pixel) CL-Definition Base Mode Medium mode Full64 mode Full80_ 8Tap_10Bit Full80_ 10Tap_8Bit Mono output * MHz 86.07µs 43.13µs 33.65µs 33.65µs 33.65µs 43.13µs MHz 96.83µs 48.52µs 36.44µs 36.44µs 33.65µs 48.52µs MHz µs 59.30µs 44.54µs 44.54µs 35.69µs 59.30µs *) mono output available in Camera Link Base mode (at 8; 10 or 12 Bit per Pixel) (see chapter for the supported Camera Link modes) Chromasens allpixa pro - CD40127 Version

221 Information insert mode Function Channels Unit Dependency Information insert mode Enables the function for displaying additional information in the image and selects the tap in which the information will be displayed. All Byte None Notes Camera Value Function All 0 First pixels All 1 Last pixels All 2 First and last pixels Insert mode Function Channels Unit Dependency Insert mode Enables different camera data displayed in the image (e.g. image counter or line counter) All Byte None Notes The parameter inside the camera will be measured in bytes. In the CST the single bits can be set by the check boxes. Camera Bits Value Function All 0 First line info block All 1 Test ramp last line All 2 Check sum last line All 3 Each line info block All Inactive All Grey value sum All Reserved All Contrast value sum Single information will be displayed in the image as shown below: Chromasens allpixa pro - CD40127 Version

222 Line 0 Serial no. Image count Integration time Line time Encoder clocks Error reg. Time stamp FirstLine_InfoBlock : Image related information will be shown in the first 22 pixels of the image s first line. The image functionality is required. EachLine_InfoBlock : Line related information will be shown in the first 10 or 17 pixels of each line, depending on the selections for Insert Mode. Last line information: There are 2 options for the image s last line: o o A test ramp will be inserted into the last line. Image functionality is required. It starts with 128 from outside, increments with 1 and overruns with 255. The check sum for the image data will be inserted into the last transmitted pixels of each tap. In the resulting image they are located centrically on both sides of the tap border. Image functionality is required First line information Overview on the info block First line info block : Pixel Information Pixel Description Serial number Image Count 6 7 Displays the serial number of the camera as bit value: Px 1 Px 2 Px 3 Px 4 MSByte SerialNumber_FirstPart, LSByte SerialNumber_FirstPart, MSByte SerialNumber_SecondPart, LSByte SerialNumber_SecondPart, Each with the same value for RGB. Sample: = allpixa camera with serial number bit image counter starts at power on with 0 and could be preset by software using TAG_IMAGECOUNTER (291 H). Px 6 Px 7 MSByte, LSByte, Each with the same value for RGB. Chromasens allpixa pro - CD40127 Version

223 Information Pixel Description Integration time 8 9 Line time Encoder clocks bit value of the actual integration time for the CCD in pixel clocks at 85 MHz. Integration times, which are measured in µs, will be IntTime/85. Px 8: Px 9 MSByte, LSByte, Each with the same value for RGB. 20 bit value of the actual line time for the CCD in pixel clocks. Line time, measured in µs, will be LineTime/85. Px 11: Px 12 Px 13 MSByte MidByte LSByte Each with the same value for RGB. 32 bit counter starts with power on with 0 and will have an overflow at 2^32. Line trigger pulses (line trigger active) and encoder pulses (encoder active) counts depending on the selected mode; can be used as position information by a sequence of documents. Can be reset by software using TAG_CLEAR_ENCODER (947 H). Px 14: Px 15 Px 16 Px 17 MSByte higher MidByte lower MidByte LSByte Each with the same value for RGB. Error register 18 In case of any default, it will be inserted here. Time stamp Markers Real time clock Output will be in a 16.8b seconds value. TimeStamp (23:8) will state the seconds when the power is on or in case of reset. TimeStamp (7:0) will issue the decimal places in a multiple of 4 milliseconds. (0 249) Sample: TimeStamp = 0x x1234 = 4660 seconds since start = 1h, 17min, 40 seconds 0x56 = 86 *4= 344 ms. Px 19 Px 20 Px 21 MSByte MidByte LSByte Each with the same value for RGB. It is used for marking the info block with red pixels. Red Blue Green xff x00 x00 Chromasens allpixa pro - CD40127 Version

224 Line count (7:0) Line time (7:0) Encoder clock (7:0) Next line pos. Frac,(7:0) Time stamp (7:0) MaxVal. Front (7:0) MaxVal. Rear (7:0) Reserved Red Front (7:0) Green Front (7:0) Blue Front (7:0) Red Rear (7:0) Blue Rear (7:0) Green Rear (7:0) Line count (15:8) Line time (15:8) Encoder clock (15:8) Next line pos. (7:0) Time stamp (15:8) MaxVal. Front (15:8) MaxVal. Rear (7:0) Reserved Red Front (15:8) Green Front (15:8) Blue Front (15:8) Red Rear (15:8) Blue Rear (15:8) Green Rear (15:8) Error register Speed2High Line time (19:16) Encoder clock (23:16) Next line pos. (15:8) Time stamp (15:8) MaxVal. Front (23:16) MaxVal. Rear (7:0) Reserved Red Front (23:16) Green Front (23:16) Blue Front (23:16) Red Rear (23:16) Blue Rear (23:16) Green Rear (23:16) Each line information Overview at the info block Each line info block : Pixel Value Info block GreyValSum or ContrastValue Red xff xff xff Green x00 x00 x00 Blue x00 x00 x00 Information Pixel Channel Description Error register 1 R In case of any default, it will be inserted here. Line Count 1 G/B 16 bit line count since image start Speed to high 2 R (7) Line time 2 R/G/B Encoder clock 3 R/G/B The highest bit will have the value of Speed2High (the line time will decrease the set integration time). Now, the camera is in free running line mode. 20 bit value of the actual line time for the CCD in pixel clocks. The line time, measured in µs, will be LineTime/85. Red Green Blue MSByte (3:0), Bits (6:4) are zero MidByte LSByte 24 bit counter starts at power on with 0 and will be overflowed at 2^24 Line trigger pulses (line trigger active) and encoder pulses (encoder active) will be counted depending on the selected mode and can be used as position information by a sequence of documents. It can be reset by software using TAG_CLEAR_ENCODER (947 H). Red Green Blue MSByte MidByte LSByte Chromasens allpixa pro - CD40127 Version

225 Information Pixel Channel Description Next line trigger position 4 R/G/B Information of the next line trigger position in encoder pulses (only at encoder mode). The calculated position will be shown in a 16.8b value. If encoder averaging is used, the value is divided by the average size. Red Green Blue MSByte integer part LSByte integer part decimal place Time stamp 5 R/G/B Real time clock Output will be in a 16.8b seconds value. TimeStamp (23:8) will state the seconds when the power is on or in case of reset. TimeStamp (7:0) will issue the decimal places in a multiple of 4 milliseconds. (0 249) Sample: TimeStamp = 0x x1234 = 4660 seconds since start = 1 h, 17 min, 40 seconds 0x56 = 86 *4= 344ms. Red Green Blue MSByte MidByte LSByte Max video value 6/7 R/G/B Maximum (raw-) video value for each color of the last whole line. Pixel 6 Pixel 7 FrontTap Reartap Grey value sum R/G/B Grey value sum of front and rear tap raw video inside the set line length of the last line as a value for the image brightness. Pixel 10 Pixel 11 Pixel 12 Pixel 13 Pixel 14 Pixel 15 Red front Green front Blue front Red front Green front Blue front For each pixel this order will be shown: Red Blue Green MSByte MidByte LSByte It can be shown optionally with Contrast value sum. Contrast value sum R/G/B Contrast sums of front and rear tap raw video inside the set line length of the last line. It is a value of the image s sharpness. Note: e.g. with 2048 pixels there are only 2047 difference values. For ordering please refer to the Contrast value sum as follows: It can be shown optionally with Grey value sum. Markers 0,9,16 R/G/B It is used for marking the info blocks with red pixels. Red xff Blue x00 Green x00 Chromasens allpixa pro - CD40127 Version

226 Last line information Overview of LastLine IMGChk Sum: Pixel line 1.. W/2-2 W2-1 W/2 W/2+1 W/2+2 W/2+3.. W Vid.. Vid Vid.. Vid LastLine R Vid.. Vid ChkSumRed Front(15:8) LastLine G Vid.. Vid ChkSumGreen Front(15:8) LastLine B Vid.. Vid ChkSumBlue Front(15:8) ChkSumRed Front(7:0) ChkSumGreen Front(7:0) ChkSumBlue Front(7:0) ChkSumRed Rear(7:0) ChkSumGreen Rear(7:0) ChkSumBlue Rear(7:0) ChkSumRed Rear(15:8) ChkSumGreen Rear(15:8) ChkSumBlue Rear(15:8) Vid.. Vid Vid.. Vid Vid.. Vid LastLine IMGChk Sum is in the last line and in the last 2 pixels of each tap. The number of pixels of the camera n is 4096 when using a 4K-PIXA. CHK sum overwrites the LastLine test ramp on the last 2 pixels of the tap and it consists of the last 16 bits of the sum of pixels (8 MSBits), from Pixel 0:0 until H:W/2-2 (with W pixel per tap and H-lines within the image). This means that the CHK sum is naturally not included in the sum. Note: with 10 bit per pixel the CHK Sum is not applicable! Position in the image: Front-Tap Rear-Tap MSB LSB F F LSB MSB R R Chromasens allpixa pro - CD40127 Version

227 9.11 LED flash control For a detailed description of the functionality please also see chapter Led flash control Function Channels Unit Dependency Notes Led flash control If enabled the functionality of LED flash control is active All Bool None Please refer to chapter 8.7 Multi-channel flash control for more details Camera: Value: Function: Lower limit All 0 Off Upper limit All 1 On LED number line pattern Parameter sets the number of pattern to be used in the LED flash control sequence. The sequence starts with pattern 1. Function Channels Unit Dependency Notes LED number line pattern sets the number of pattern All Integer Only used if LED flash control is enabled If LED number of Line pattern is set to 0, LED flash control is disabled internally Please refer to chapter 8.7 Multi-channel flash control for more details Camera Value Lower limit All 0 Upper limit All 5 Chromasens allpixa pro - CD40127 Version

228 LED flash sequence time Function Led flash sequence time Gives the time for the sequence of all valid pattern in micro seconds. Unit Float Step: Linear Dependency Notes If encoder / line trigger mode is active LED flash sequence time is ignored If all 4 pattern are used the maximum sequence time is 4 * 2,3 ms = 9,2ms The sum of all valid patterns may not exceed sequence time. If camera is triggered by external input (LineTrigger or Encoder) the frequency of the trigger signal may not be faster than the sum all active patterns. Please refer to chapter 8.7 Multi-channel flash control for more details Camera Value Lower limit All 0 Upper limit All LED line pattern Function Led line pattern Led line pattern sets the active time for 1 of 4 available pattern and of 1 of 4 available output channels in micro seconds Unit Float Step: Linear Dependency Notes If all line pattern for an output channel are set to 0 than the output channel is disabled Please refer to chapter 8.7 Multi-channel flash control for more details Camera Value Lower limit All 0 Upper limit All Chromasens allpixa pro - CD40127 Version

229 9.12 Special functions Test pattern In order to be able to check the system setup, it is helpful to generate exactly defined test images inside the camera. This explicitly helps to check: 1. Frame grabber connection 2. Frame grabber setting 3. Transmission quality over the Camera Link cable Function Channels Unit Dependency Notes Test pattern Enables different test images in the camera. All Integer None The data is generated directly after the analog image processing. It will pass all the digital image processing steps Camera Value Lower limit All 0 Upper limit All 5 The following different test images are available: Image Test pattern 1: Grey ramp in CCD-Direction Chromasens allpixa pro - CD40127 Version

230 Image Test pattern 2: Grey ramp in Transport-Direction Scan direction: forward backward Test pattern 3: Green ramp with parameter Test pattern level Test pattern 4: Sequence of 4 toggling images; 3 test patterns with parameter Test pattern level and one live image Test pattern 5: Grey value with parameter Test pattern level Chromasens allpixa pro - CD40127 Version

231 Test pattern level Function Channels Unit Test pattern level Sets the video level for some test images All Integer Linear Dependency Only with test image 3 to 5 Notes Refers to 10 bit image data Camera Value Lower limit All 0 Upper limit All Tracing Function for debugging the system. For more information please ask the Chromasens support. support@chromasens.de 9.14 Register edit By the user all registers can be written directly on the camera. There are 2 different possibilities to directly manipulate the register: Permanent: Values entered by the user will be stored in the setting and are available after restarting the camera or after reloading a setting. You will find this function in the CST at Camera settings Special functions Register edit. There are 4 places for saving register edits directly to a setting. Non permanent: Changes will be transferred to the camera, but they are not stored permanently. After restarting the camera or reloading a setting the changes will be lost. You will find this function in the CST at Menu -Advanced Register edit. It is possible to damage the function of the camera itself by using this function. This function is only available in the Guru user level of CST. Please refer to chapter 6.16 Setting the user level in CST Chromasens allpixa pro - CD40127 Version

232 9.15 Camera information Camera serial number Note All allpixa pro cameras dispose of an individual serial number. For any support, please provide the serial number of the camera. Camera serial number Read only Function Channels Unit Dependency Returns the serial number of the camera All Integer None Notes Camera Value Lower limit All 0 Upper limit All Setting description Function Channels Unit Dependency Notes Setting description The user is able to write a small description for each setting of the camera. All String up to 40 characters None Please keep in mind, that a carriage return will be counted as 2 characters! This may result in descriptions that might seem to be cut by the camera. Camera Value All Chromasens allpixa pro - CD40127 Version

233 9.16 Line trigger and encoder setup (line synchronization) NOTE I Due to internal timing limitations there is a small delay in the start of the integration time after the line trigger and this delay might jitter. Therefore, a pulsed illumination which is synchronous to the trigger signal might cause problems in image quality. NOTE II In case the camera is used in the Triggered Frame Scan with active LineTrigger or encoder, the linesync (Encoder or LineTrigger) will have to fit some pulses before light barrier input. For detailed encoder setup see also chapter Enable encoder Function Channels Unit Dependency Notes Enable encoder Enables the line trigger or encoder mode in the camera and the main selection between internal and external line trigger. All Bool None For the use of this mode the external ports have to be connected with the internal function by using the IO-Configurator of CST. Camera Value Function Lower limit All 0 Off / Internal Upper limit All 1 On / external Synchronization mode Function Channels Unit Dependency Notes Synchronization mode Select the mode Line trigger or Encoder mode. All Integer Only active with active Enable Encoder For the use of this mode the external ports have to be connected with the internal function by using the IO-Configurator of CST. Camera: Value: Function: All 0 (Disabled/Off) All 1 Encoder mode All 5 Line trigger Chromasens allpixa pro - CD40127 Version

234 The following 2 modes are available: Line trigger: With the line trigger the camera will send one line per pulse. Line trigger Int. time Int. time Int. time Encoder mode: The camera measures the distance of the signals and will send lines with the requested resolution. An internal line trigger will be generated. The user has to set the desired transport and encoder resolution in the CST. e.g. 2,25 encoder pulses per line trigger Encoder Line trigger Int. time Int. time Int. time For detailed encoder setup see also chapter 8.6 NOTE Minimum pulse duration is 45ns. Shorter pulses will be ignored Minimum speed with encoder mode is: V,min = mm/encoder pulse 0,59s Example for the required minimum speed with encoder mode: Encoder has 12,5 pulses per mm 1 Encoder pulse is 1/12,5mm = 0,08mm V, min = 0,08mm/0,59s = 0,135mm/s Chromasens allpixa pro - CD40127 Version

235 Encoder channels Function Channels Unit Dependency Notes Encoder channels Sets the mode according to the edges of the encoder will be taken for speed measurement. All Integer Only active with selected Encoder mode at the Synchronization mode For the use of this mode the external ports have to be connected with the internal function by using the IO-Configurator of CST. Camera Value Function Lower limit All 0 One Channel full step All 1 One Channel encoder Upper limit All 2 2 Channel encoder The following 3 modes are selectable: 0. One Channel full step (1 edge per step): Phase A Phase B 1. One Channel encoder (2 edges per step): Phase A Phase B 2. Two Channel encoder (4 edges per step): Phase A Phase B NOTE Best results will be reached with encoder mode 0 and without encoder averaging. This mode will avoid errors due to tolerances in the duty factor of the pulses. Chromasens allpixa pro - CD40127 Version

236 Average size for the encoder Function Channels Unit Average size Sets the number of increments taken for distance measurement to average the speed measurement All Integer None; 2x; 4x; 8x; 16x Dependency Notes Only active with selected Encoder mode at Synchronization mode Best results will be reached with encoder mode 0 and without encoder averaging. This mode will avoid errors due to tolerances in the duty factor of the pulses. Camera Value Function Lower limit All 0 None 1 2x 2 4x 3 8x Upper limit All 4 16x Encoder resolution Function Encoder resolution Sets the distance of which the transport might be moved by one increment of the encoder. Channels Unit Float Step: µm per increment Dependency Notes Only active with selected Encoder mode at Synchronization mode Refers to a full increment of the encoder. Camera Value CST Lower limit All 0 µm Upper limit All 100,000 µm NOTE The value Encoder pulses per line is calculated internally by the camera and may not exceed 255. Recommended values are between 0.5 and 255. Kindly note that values less than 0.5 will cause a decrease in transport resolution accuracy. For detail calculation see chapter Chromasens allpixa pro - CD40127 Version

237 Vertical image resolution Function Channels Vertical image resolution Define the desired transport (vertical) resolution for the encoder mode. All Unit Float Step: 0.01 DPI (dots per inch) Dependency Notes Only active with selected Encoder mode at Synchronization mode This parameter is needed for the calculation of internal parameters for the encoder mode. Camera Value CST Lower limit All 0 Default All 4,000 (*0,01dpi) NOTE The value Encoder pulses per line is calculated internally by the camera and may not exceed 255. Recommended values are between 0.5 and 255. Kindly note that values less than 0.5 will cause a decrease in transport resolution accuracy. This value will be calculated with the following formula by the given values in the CST: EncoderPulsesPerLine = Afterwards the CST will show the result. EncoderChannel ( Edges mm ) 25,4 ( Step inch ) 1000 EncoderResolution ( µm Step ) VerticalImageResolution(Dots inch ) By using dots per inch (dpi) for this calculation, you have to use the following formula: Edges/step EncoderPulsesPerLine = FullIncrementResolution(dpi) TransportResulution(dpi) The value for encoder pulses per line can also be calculated with the following formula: EncoderPulsesPerLine = TransportResolution ( μm pixel ) Edges/step FullIncrementResolution( μm incr ) NOTE Vertical image resolution and Integration time have to be suitable to the speed of the transport. The time for one line (Speed divided by resolution) should be longer than the shortest possible integration time. In case of higher speed, the camera will switch to free running line mode. Chromasens allpixa pro - CD40127 Version

238 Line trigger / encoder reduction Function Channels Unit Dependency Line trigger reduction Internal pre-counter for the line trigger or encoder signal, will output an internal line trigger after the set value of signals from external line trigger source. All integer Only active with Enable encoder Notes Camera Value Lower limit All 1 Upper limit All 256 By using line trigger reduction, the vertical image resolution is reduced by factor: TransportResolution, reduced[dpi] = TransportResolution[dpi] Line trigger reduction factor TransportResolution, reduced[µm] = Line trigger reduction factor TransportResolution[µm] Chromasens allpixa pro - CD40127 Version

239 9.17 Default parameters The camera will be delivered with the following default parameters. Chapter Integration time 16,5 µs 24,3 µs 43,13 µs Use line period Off Off Off Line period time 100 µs 100 µs 100 µs Target white reference values Analog coarse gain -3 db - 3 db - 3dB Current camera gain values *) *) *) Enable continuous white control Off Off Off Position and mode for white reference mark Automatic Automatic Automatic White control mode Use sync mode Off Off Off Stop gain control Off Off Off Set active channels for white control On On On Gain control stop factor Start gain values *) *) *) Update start gain values Off Off Off First relative pixel of white reference Number of pixels for white reference Number of reference samples (Average) None None None First image line for the white reference Number of image lines for the white reference Show white reference border Off Off Off Shading correction (flat field correction) Off Off Off Black level correction (offset correction) On On On White reference data set Black reference data set Use brightness and contrast Off Off Off Brightness Contrast Gamma correction RGB line distance Scan direction forward forward forward Number of scan lines per image (frame mode) First valid scan line Scan line length Pixel shift for correction Keystone correction width Chromasens allpixa pro - CD40127 Version

240 Chapter Triggered frame scan Free running Free running Free running Scan lines after stop Stop after maximum number of lines Off Off Off Maximum number of scan lines Number of suppressed lines Input debouncing speed LB0:slow LB0:slow LB2:fast Scan pattern - - LB2: fast Master-slave Off Off Off Mirror image horizontally Off Off Off Color conversion matrix Off Off Off Select active CCM Use keystone correction Off Off Off Swap red and blue color channel Off Off Off Video output mode 3x8 Bit 3x8 Bit 3x8 Bit Color weights 0.3 / 0.59 / / 0.59 / / 0.59 / Camera Link connection speed Standard Standard High speed Camera Link interface type Medium Medium Medium 1X Insert mode Off Off Off Test pattern Off Off Off Test pattern level Tracing None None None 9.14 Register edit None None None Camera serial number *) *) *) Setting description Enable encoder Off Off Off Synchronization mode Line trigger Line trigger Encoder Encoder channels 1 channel full step 1 channel full step 1 channel full step Average size for the encoder Off Off Off Encoder resolution 70 µm 70 µm 70 µm Vertical image resolution 300 dpi 300 dpi 300 dpi Line trigger / encoder reduction *) Settings differ from camera to camera. Serial numbers are individual for each camera. Some settings will result from the camera final test. Chromasens allpixa pro - CD40127 Version

241 9.18 User levels of parameters The visibility (and as a result the accessibility) of parameters is defined by the chosen User level in the CST-application. The following table shows the user level for single parameters: Please refer to the CST-description in this manual (6.16), how to set the User level. Chapter Normal User Expert Guru Integration time X X X Use line period X X X Line period time X X X Target white reference values X X X Analog coarse gain X X X Current camera gain values X X X Enable continuous white control X X X Position and mode for white reference mark White control mode Use sync mode X X X Stop gain control X X X Gain control stop factor X X X Start gain values X X X Update start gain values X X X First relative pixel of white reference X X X Number of pixels for white reference X X X Number of reference samples (Average) X X X First image line for the white reference X X X Number of image lines for the white reference Show white reference border X X X Shading correction (flat field correction) X X X Black level correction (offset correction) X X X White reference data set X X X Black reference data set X X X Use brightness and contrast X X X Brightness X X X Contrast X X X Gamma correction X X X RGB line distance X X X Scan direction X X X X X X X Chromasens allpixa pro - CD40127 Version

242 Chapter Normal User Expert Guru Number of scan lines per image X X X First valid scan line X X X Scan line length X Triggered frame scan X X X Scan lines after stop X X X Stop after maximum number of lines X X X Maximum number of scan lines X X X Number of suppressed lines X X X Input debouncing speed X X X Scan pattern X X X Master-slave X Mirror image horizontally X X X Color conversion matrix X X X Select active CCM X X X Use keystone correction X X X Pixel shift for correction X X X Keystone correction width X Swap red and blue color channel X X X Video output mode X X X Color weights X X X Camera Link connection speed X X X Camera Link interface type X X X Insert mode X X X Test pattern X X X Test pattern level X X X 9.13 Tracing X 9.14 Register edit X Camera serial number X X X Setting description X X X Enable encoder X X X Synchronization mode X X X Encoder channels X X X Average size for the encoder X X X Encoder resolution X X X Vertical image resolution X X X Line trigger / encoder reduction X X X Chromasens allpixa pro - CD40127 Version

243 10 Troubleshooting and Support The troubleshooting information in this chapter will help you to identify common problems and will let you know how to solve them. If you are not able to solve the problem with the information in this troubleshooting chapter you may decide to contact Chromasens technical support for further help. Before you contact Chromasens technical support please take a look to the support form (see chapter 0) and prepare the answers or fill out the form completely. With this information you can make sure that you have most of the information available which is required for the technical support team to help you best with your problem Returning material (obtain an RMA number) Before returning material to Chromasens you must request a RMA number (Return Material Authorization). This RMA number has to be stated in all of your delivery documents when material is returned to Chromasens. Returned material without RMA number might not be processed in time and we will also reserve the right to reject material without an RMA number. To obtain an RMA number please contact Chromasens support first. Chromasens GmbH Max-Stromeyer-Straße 116 D Konstanz Germany Phone: +49 (0) Fax: +49 (0) info@chromasens.de Internet: For return of material please use original packaging material to avoid any damages to the cameras. Chromasens allpixa pro - CD40127 Version

244 10.2 Camera status identification by the camera status LED The camera status LED indicates the actual status of the camera itself. After boot up is finished the camera performs continuously self-checks. If an error is detected the camera will indicate this by changing the LEDs color. LED color off Green Red Blue LED alternates green/blue Sequence of long green, short orange, green Description No power is present at the camera or the input voltage is out of the limits. (see also chapter 2.3 for power rating and chapter for the pin layout) Camera has power and is ok (FVAL inactive) The camera is in error condition. You may check the detailed camera status using the CST Camera is ok and output image data (FVAL active) The camera is ok and output frequently image data based on a trigger signal This is the normal power up sequence. After this sequence the camera will continue operation according the definitions which have been made in setting 1. Chromasens allpixa pro - CD40127 Version

245 10.3 Camera overheating protection For safety reason the camera is equipped with an internal three step overheating protection. Step 1: high temperature warning: If the camera internal temperature increases above the defined limit the camera will indicate this warning status by: - Status LED of the camera turns red - The camera will return error state 0x3d or 0x3e Please let the camera cool down and check environment. Improve cooling condition of the camera if necessary. Step 2: warning level 2: If the temperature is still increasing the camera will automatically turn into safety mode to protect the camera electronic from overheating. This camera state is indicated by: - Status LED of the camera turns red - The camera will return error state 0x40 - The camera will output the following image: Step 3: final safety shutdown: If the temperature is still increasing above the critical internal temperature the camera hardware will be shut down to protect and prevent damage to the camera. In this condition the camera will: - Not send images any more - Status LED of the camera turns red - The camera will return error state 0x40 How to get the camera back from step 2 and 3 to normal operation: - Please let cool down the camera - Check the environment and improve cooling condition to the camera if necessary - Restart the camera (power off/on) Chromasens allpixa pro - CD40127 Version

246 10.4 Before contacting Chromasens technical support If you have a problem with the camera and decide to contact Chromasens technical support then it is very important that you collect all relevant system information before. This might guarantee a quick and efficient problem solving process together with Chromasens technical support stuff. To collect the most important information of your issue you may use the following list as a guideline. You can also download the list from our website at Please fill out this list and provide the information including the requested files before you contact Chromasens technical support. Contact Data Company name Street Zip code Contact person CS Phone City State/Country Date Technical Information System Information Camera type allpixa allpixa pro 2k 4k 7.3k Camera serial number CST version used Operating system Framegrabber Camera Link cable length + type Problem Description Description of the problem: (as detailed as possible) Type + Manufacturer m When did the problem occur: after start during operation at a specific action, please describe: How often did problem occurs once always regularly rarely please describe: Chromasens allpixa pro - CD40127 Version

247 Did the application ever run ok yes no If known please describe the reason for the problem or any abnormal behaviors Image and Parameter Files Camera parameter settings Live images (It is very important to provide a copy of the exact camera settings when the problem occurred) (Live or test images showing the problem. Please save images in BMP format) Computer System Information (Press the -button in the CST-toolbar and copy the output into a file or the support mail) Chromasens allpixa pro - CD40127 Version

248 11 Appendix 11.1 EC conformity declaration Chromasens allpixa pro - CD40127 Version

249 11.2 Camera system design / lens selections Calculating the object-to-image distance You will need the following parameters for calculating the optical setup: Image size (Sensor size of camera (which is in use)) Object size/width Focal length (from data sheet of the lens) Principal main plain distance (from data sheet of the lens) First, calculate the magnification: m = ImageSize/mm ObjectSize/mm After getting the result for the magnification, calculate the object-to-image distance by following: Calculate the image distance: Calculate the object distance: ImageDistance = FocalLenght (m + 1) ObjectDistance = FocalLenght ( m + 1 m ) Calculate the object-to-image distance with note of the main plain distance: ObjectImageDistance = ImageSize + ObjectSize + Main plain distance f = focal length y = object size y = image size You can see a calculation example on the next page. Chromasens allpixa pro - CD40127 Version

250 Example: Camera: allpixa pro camera mm (10um/pixel * 7300 pixels) Object width/size: 450 mm Lens: 90.1 mm real focal length -2.5 mm principal main plain distance m = ImageSize ObjectSize = ImageDistance = FocalLenght (m + 1) = mm ObjectDistance = FocalLenght ( m + 1 ) = 645,51 mm m ObjectImageDistance = ImageSize + ObjectSize + Main plain distance = (w/o glass plates in the optical path) Calculating the distance rings (tubes) for the allpixa pro camera Some applications require distance rings (tubes) for mounting the lens in the right position on the allpixa pro camera. This chapter shows an example how to calculate the length of the distance ring. In order to calculate the needed distance rings, the user has to get some information about the optical setup: Optical parameter: Real focal length (from data sheet) Image distance (calculated) Parameters of the lens: Back flange length at infinite distance (from data sheet) Parameters of additional focusing unit: Minimum offset distance of the unit from flange of the lens Maximum offset distance A calculation example is shown on the next page. Figure 38 Chromasens allpixa pro - CD40127 Version

251 Example: Camera: allpixa camera 7300 Lens: Linos Apo Rodagon 90 mm 90.1 mm real focal length 93.5 mm flange Focusing unit: Modular Fokus Minimum offset 20 mm Maxium offset 45 mm Object width/size: 450 mm 1. Calculating image distance: a. Calculating the magnification: m = ImageSize/mm ObjectSize/mm b. Calculating the image distance: ImageDistance = FocalLenght (m + 1) Result will be: 104,72 mm 2. Calculating the difference between image distance@infinite and flange length@infinite: Image distance@infinite converged to focal length: 90.1 mm Difference: 93.5 mm mm = 3.4 mm 3. Calculating flange distance at working point: Flange distance@working point: mm mm = mm 4. Calculating the sum of the distances: Real flange distance: Back focus of the allpixa camera: mm (C-Mount) Minimum offset focusing unit: mm Sum: = mm Therefore, we use a distance ring of 60.0 mm. This will cover flange distances from mm up to mm. Chromasens allpixa pro - CD40127 Version

252 Calculating the integration time The relationship between the line frequency and the integration time is as follows: IntegrationTime/sec. = 1 LineFreuquency/Hz For the calculation of the integration time the following parameters are necessary: o Maximum or nominal speed of the transport (mm/s) o Desired transport resolution (mm/pixel or dpi) Calculate the integration time with the formula as follows: IntegrationTime = TransportResolution ( mm pixel ) NominalSpeed ( mm s ) Note: If the transport resolution is stated in dpi and the speed in metric values, the values will have to be converted (1 inch= 25,4 mm). Chromasens allpixa pro - CD40127 Version

253 11.3 Camera Link interface Camera Link Base 1T24 1X1 One zone in X with 1 tap in RGB The grabber writes the 3 Camera Link ports PortA to PortC direct and linear to the PC memory: CLClk-Cycle W Byte W CL-Ports PA PB PC PA PB PC PA PB PC PA PB PC PA PB PC PA PB PC PC Line 1 Px1 Px1 Px1 Px2 Px2 Px2 Px3 Px3 Px3 Px4 Px4 Px4 Px5 Px5 Px5 Px6 Px6 Px6... PxW Line 2 Px1 Px1 Px1 Px2 Px2 Px2 Px3 Px3 Px3 Px4 Px4 Px4 Px5 Px5 Px5 Px6 Px6 Px6... PxW Line H Px1 Px1 Px1 Px2 Px2 Px2 Px3 Px3 Px3 Px4 Px4 Px4 Px5 Px5 Px5 Px6 Px6 Px6... PxW Camera Link-Medium 2Tx24b (2XE) This is the natural readout direction of the CCD. The sensor is read out in 2 sections (in front tap and rear tap). The front part is output via Camera Link connector 1 (CL-Con 1), and the rear part is output via Camera Link connector 2 (CL-Con 2). Figure 39: Image information output on the Camera Link Chromasens allpixa pro - CD40127 Version

254 Regarding to Camera Link draft description for sensors the read out system is called 2XE. Figure 40 2XE readout selection NOTE Kindly note that some frame grabbers use this term and others use terms for read in, therefore, the direction might be inversed. Two zones in X with end extraction in RGB The grabber writes the 6 Camera Link ports PortA to PortF to the PC memory: CLClk- Cycle W/2 Byte W CL-Ports PA PB PC PD PE PF PA PB PC PD PE PF PA PB PC PD PE PF PF Line 1 Px1 Px1 Px1 PxW PxW PxW Px2 Px2 Px2 PxW- 1 Pxw- 1 Pxw- 1 Px3 Px3 Px3 Pxw- 2 Pxw- 2 Pxw PxW/2+1 Line 2 Px1 Px1 Px1 PxW PxW PxW Px2 Px2 Px2 PxW- 1 Pxw- 1 Pxw- 1 Px3 Px3 Px3 Pxw- 2 Pxw- 2 Pxw PxW/2+1 Line H Px1 Px1 Px1 PxW PxW PxW Px2 Px2 Px2 PxW- 1 Pxw- 1 Pxw- 1 Px3 Px3 Px3 Pxw- 2 Pxw- 2 Pxw PxW/2+1 Chromasens allpixa pro - CD40127 Version

255 Camera Link Medium 2Tx24b (RGB) 1X2 Figure 41 One zone in X with two taps in RGB The grabber writes the 6 Camera Link ports PortA to PortF direct and linear to the PC memory: CLClk-Cycle W/2 Byte W CL-Ports PA PB PC PD PE PF PA PB PC PD PE PF PA PB PC PD PE PF PF Line 1 Px1 Px1 Px1 Px2 Px2 Px2 Px3 Px3 Px3 Px4 Px4 Px4 Px5 Px5 Px5 Px6 Px6 Px6... PxW Line 2 Px1 Px1 Px1 Px2 Px2 Px2 Px3 Px3 Px3 Px4 Px4 Px4 Px5 Px5 Px5 Px6 Px6 Px6... PxW Line H Px1 Px1 Px1 Px2 Px2 Px2 Px3 Px3 Px3 Px4 Px4 Px4 Px5 Px5 Px5 Px6 Px6 Px6... PxW Camera Link-Full64 8Tx8b (1X8 raw, RGB with 8 color planes per camera link clock) Camera Link Full64_8Tapsx8bits 1X8 in RGB: (RGB Pixel with 24 Bit in Area and line scan mode) One zone in X with 8 taps If the camera output is 8Bits per color, the RGB subpixel is stored into 1 Byte of PC memory. The grabber writes the 8 Camera Link ports PortA to PortH direct and linear to the PC memory: CLClk- Cycle W/8 Byte W CL-Ports PA PB PC PD PE PF PG PH PA PB PC PD PE PF PG PH PA PB PH PH Line 1 Px1 Px1 Px1 Px2 Px2 Px2 Px3 Px3 Px3 Px4 Px4 Px4 Px5 Px5 Px5 Px6 Px6 Px6 Px8... PxW Line 2 Px1 Px1 Px1 Px2 Px2 Px2 Px3 Px3 Px3 Px4 Px4 Px4 Px5 Px5 Px5 Px6 Px6 Px6 Px8... PxW Line H Px1 Px1 Px1 Px2 Px2 Px2 Px3 Px3 Px3 Px4 Px4 Px4 Px5 Px5 Px5 Px6 Px6 Px6 Px8... PxW Each line width at the camera ("W") must be a multiple of 8 (depends on Frame Grabber) every camera link clock transmits 2 2/3 pixel. Chromasens allpixa pro - CD40127 Version