In-Sight® Micro Series Vision System Installation Manual
Contents
1. AXIS OPTICAL sool AXS CXOXGINITEZ 21 2 83 15 01 59 9 D 10 0 39 47 3 1 86 19 0 75 31 1 5 06 i SON CC 11 0 43 Pe i 22 0 87 E 19 0 75 OPTICAL SISSIN OT AXIS a wy Lr on Nim ja n 2X M3 y 3 0 12 2X M3 74 5 18 ET 20 Figure 3 7 In Sight Micro Vision System Dimensions 5 60 0 2 36 Specifications OPTICAL AXIS A 30 0 1 18 70 1 2 76 e ee 12 53 493 9 0 35 e OPTICAL AXIS i TE OPTICAL 30 0 1 18 AXIS COGNE fea 38 2 1 50 a a 21 2 83 23 2 91 AA r Ji Y 19 7 78 m 13 2 52 1 4 20 UNC 2B 6 4 25 19 01 75 Y 8 0 31 8 0 31 chy OPTICAL 7 Pi AXIS A 20 0 79 S N Y a e AN CI L ass OPTICAL 3X M6 X 1 0 6H V8 0 31 AXIS 2 53 100 27 9 1 10 22 0 87 Figure 3 8 In Sight Micro Vision System Dimensions with Mounting Block 21 GOGNEX 22 Appendix A Cleaning Maintenance Cleaning the Vision System Housing To clean the2. onn nnas 3 Install the Mounting Block Optional Li 4 instal the Lens cai i 4 Connect the Inputs and Outputs Optional 0000 000 5 Option 1 Connect the Breakout Cable c cece cece ccc ccceeeeeeeeeeecseees 5 Option 2 Connect the I O Module Cable III ann rm emesene eee 6 Connect the Ethernet and Power i 7 Connect the Power Wires iseee eseme nee ee eee s ersa nne eeeees seene ee eeeeeeee sean eee e eee 7 Connect an RJ 45 LAN Cable e e rss cece ccc eeeee aoao annona 8 Connect the Ethernet Cable sms eee cece ccc cee ce ceccecccccecececccccccereeneees 9 Specifications ii A ka A Di jaa eee 11 In Sight Micro Vision System Specifications eeeeeeeeeee eese 11 I O Specifications occ nnas 13 Acquisition Trigger Input 000 00 13 High Speed Outputs 00 0000000 Licei eee eee eee eee 14 Ethemet Cable Specifications naan 17 Breakout Cable Specifications 000 ss sss IIIlllllllllllll 18 I O Module Cable Specifications sommes 19 Dimensional DrawingS e ccc cece cee eee ee cece cece LLL LLL LLL LLL LLL Lesse eesse eses 20 Appendix A Cleaning Maintenance mme 23 Cleaning the Vision System Housing se cece cece cece ere e
3. The In Sight vision system does not contain user serviceable parts Do not make electrical or mechanical modifications to In Sight vision system components Unauthorized modifications may void your warranty Changes or modifications not expressly approved by the party responsible for regulatory compliance could void the user s authority to operate the equipment Service loops should be included with all cable connections Cable shielding can be degraded or cables can be damaged or wear out more quickly if a bend radius or service loop is tighter than 10X the cable diameter This device is for business purposes and is qualified and registered for electromagnetic compatibility The seller or purchaser should be notified if you incorrectly purchased these products please exchange them for home use This device should be used in accordance with the instructions in this manual GOGNEX vi Table of Contents Legal Notices ae en e ee mei i Regulations Conformity m ss eee ee ce eeeeeteeeeeeeees iii PRECAUTONE soccer en lea V Introduction lella 1 SUDPOR G22 e oye set A A A E 1 Standard Components ananas 1 Cables T ee I ae TUMEAINE ESSEN mete seen KESA ee een 1 Ethemet Cable ese ni en ee er 1 iu i iii dii di ii ie zl lie ei ae 1 Breakout Cable ss nIlllllllllelmlTmmllll222222222222222222222 2 MO Module Cable nn 2 VASTAND 2 ca ea ee dae er ee 3 Connectors and Indicators
4. In Sight Micro Series Vision System Installation Manual IN SIGHT Vision Systems Legal Notices The software described in this document is furnished under license and may be used or copied only in accordance with the terms of such license and with the inclusion of the copyright notice shown on this page Neither the software this document nor any copies thereof may be provided to or otherwise made available to anyone other than the licensee Title to and ownership of this software remains with Cognex Corporation or its licensor Cognex Corporation assumes no responsibility for the use or reliability of its software on equipment that is not supplied by Cognex Corporation Cognex Corporation makes no warranties either express or implied regarding the described software its merchantability non infringement or its fitness for any particular purpose The information in this document is subject to change without notice and should not be construed as a commitment by Cognex Corporation Cognex Corporation is not responsible for any errors that may be present in either this document or the associated software Companies names and data used in examples herein are fictitious unless otherwise noted No part of this document may be reproduced or transmitted in any form or by any means electronic or mechanical for any purpose nor transferred to any other media or language withoutthe written permission of Cognex Corporation Cognex P N 5
5. CGX ISM1400 CO00 A In Sight Micro 1403 1413 CGX ISM1403 00 A In Sight Micro 1403C CGX ISM1403 CO00 A T V S D AM SCC NRTL OSHA Scheme for UL CAN 60950 1 T V S D AM IEC EN 60950 1 CB report available upon request RoHS 6 Compliant GOGNEX Precautions Observe these precautions when installing the vision system to reduce the risk of injury or equipment damage An IEEE 802 3af compliant and UL or NRTL listed Power over Ethernet PoE power source rated Class 0 2 3 or 4 must be used Any other voltage creates a risk of fire or shock and can damage the In Sight vision system components Applicable local and national wiring standards and rules must be followed To reduce the risk of damage or malfunction due to over voltage line noise electrostatic discharge ESD power surges or other irregularities in the power supply route all cables and wires away from high voltage power Sources Do not install In Sight vision systems where they are directly exposed to environmental hazards such as excessive heat dust moisture humidity impact vibration corrosive substances flammable substances or static electricity Do not expose the CCD to laser light CCDs can be damaged by direct or reflected laser light If your application requires the use of laser light that may strike the CCD a lens filter at the corresponding laser s wavelength is recommended Contact your local integrator or application engineer for suggestions
6. 2 NPN High Speed Output Schematic For PNP lines the external load should be connected between the output and the negative supply voltage 0V When the OUT COMMON is connected to the positive supply voltage 24V nominal the outputs pull up to greater than 21V when ON and current flows through the load When the outputs are OFF no current flows through the load Controller Opto isolators KI OUT COMMON K LY LIL sa PNP OUT 1572456 100 Fuse Figure 3 3 PNP High Speed Output Schematic 14 Specifications Example 1 The Breakout cable see Table 3 5 on page 18 can be used to connectthe high speed outputs to a relay LED or similar load Connect the negative side ofthe load to the output and the positive side to 24V When the output switches on the negative side of the load is pulled down to less than 3V and greater than 21V appears across the load Use a protection diode for a large inductive load with the anode connected to the output and the cathode connected to 24V Breakout Cable gt 33255 z oO 0590622 oma ZVF Ao o ooo Load y Coil Relay GND Pilot Light etc 24VDC NOT 1b EXCEED 100mA Figure 3 4 High Speed Output Connection Example 1 Example 2 The Breakout cable see Table 3 5 on page 18 can be used to connectto an NPN compatible PLC input Connect Output 0 or Output 1 di
7. ON itpulls TRG up to 24V turning the opto coupler ON TR6 O0 WN 4 75K 2 2 TRG 4 75K 28V Max Across input pins Transition approx 8V Nom Figure 3 1 Acquisition Trigger Input Schematic 1 Maximum latency is based on a 1us trigger debounce 13 COGNEX High Speed Outputs The In Sight Micro vision system features two built in high speed outputs which are optically isolated The high speed outputs can be used as either NPN pull down or PNP pull up lines Table 3 3 High Speed Output Specifications Specification Voltage 28V maximum through external load switching inductive loads High current inductive loads require external protection diode Current 100mA maximum sink current OFF state leakage current 100uA maximum External load resistance 240 Ohms to 10K Ohms Each line rated at a maximum 100mA protected against over current short circuit and transients from For NPN lines the external load should be connected between the output and the positive supply voltage 24V nominal The OUT COMMON should be connected to the negative supply voltage 0V The outputs pull down to less than 3V when ON which causes current to flow through the load When the outputs are OFF no current flows through the load Controller Opto isolators E Je NPN OUT 10 0 EE aki A gt gt OUT COMMON 249 0 Figure 3
8. Storage 30 C to 80 C 22 F to 176 F CE FCC KCC T V S D NRTL RoHS Specifications I O Specifications Cable and connector specifications and connection examples for the acquisition trigger input and the high speed outputs are provided in the following sections Acquisition Trigger Input Table 3 2 Acquisition Trigger Input Specifications Voltage 20 to 28V 24V nominal 0 to 3V 8V nominal threshold lt 2504A Resistance 10 000 Ohms Current oo Delay In Sight Micro 1020 1050 1100 63us maximum latency between leading edge of trigger and start of 1100C 1110 1400 1400C amp acquisition Input pulse should be minimum of 1 ms wide 1410 In Sight Micro 1403 amp 1413 81us maximum latency between leading edge of trigger and start of acquisition Input pulse should be minimum of 1 ms wide In Sight Micro 1403C 116us maximum latency between leading edge of trigger and start of acquisition Input pulse should be minimum of 1 ms wide The acquisition trigger input is opto isolated To trigger from an NPN pull down type photoelectric sensor or PLC output connect pin 3 TRG to 24V and connect pin 4 TRG to the output of the photoelectric sensor When the output turns ON it pulls TRG down to OV turning the opto coupler ON To trigger from a PNP pull up photoelectric sensor or PLC output connect pin 3 TRG to the output of the photoelectric sensor and connect pin 4 TRG to OV When the output turns
9. outside ofthe vision system housing use a small amount of mild detergent cleaner or isopropyl alcohol on a cleaning cloth Do not pour the cleaner directly onto the vision system housing CAUTION Do notattemptto clean any In Sight product with harsh or corrosive solvents including Lye methyl ethyl ketone MEK or gasoline Cleaning the Vision System CCD Window To remove dust from the outside of the CCD window use a pressurized air duster The air must be free of oil moisture or other contaminants that could remain on the glass and possibly degrade the image Do nottouch the glass window If oil smudges still remain clean the window with a cotton bud using alcohol ethyl methyl or isopropyl Do not pour the alcohol directly on the window 23 GOGNEX 24 P N 597 0109 03 Printed in the USA
10. 97 0109 03 Copyright O 2008 2011 Cognex Corporation All Rights Reserved Portions of the hardware and software provided by Cognex may be covered by one or more of the U S and foreign patents listed below as well as pending U S and foreign patents Such pending U S and foreign patents issued after the date of this document are listed on the Cognex web site at http www cognex com patents 5481712 5742037 5751853 5845007 5909504 5943441 5949905 5960125 5978080 5978081 6005978 6137893 6141033 6154567 6215915 6301396 6327393 6381375 6408109 6457032 6490600 6563324 6658145 6690842 6771808 6804416 6836567 6850646 6856698 6859907 6920241 6941026 6959112 6963338 6975764 6985625 6993192 7006712 7016539 7043081 7058225 7065262 7069499 7088862 7107519 7164796 7175090 7181066 7251366 7720315 JP 3927239 Cognex In Sight EasyBuilder VisionView DataMan and DVT are registered trademarks of Cognex Corporation The Cognex logo SmartLink EdgeCount FeatureCount and ObjectLocate are trademarks of Cognex Corporation Windows is a registered trademark or trademark of Microsoft Corporation in the United States and other countries Other product and company trademarks identified herein are the trademarks of their respective owners GOGNEX Regulations Conformity Note For the most up to date regulations and conformity information please refer to the In Sight online support site http www cognex co
11. Cable Note Unused bare wires can be clipped shortor tied back using a tie made of non conductive material 1 Connectthe Breakout cable s M8 connector to the vision system s I O connector 2 Connectthe trigger and high speed I O wires to an appropriate device for example a PLC trigger sensor or strobe light The pin outs for the cable are listed in the Breakout Cable Specifications on page 18 HS OUT 0 Brown I HS OUT 1 White I TRIGGER Blue TRIGGER Black HS COMMON Gray Figure 2 3 Connect the Breakout Cable COGNEX Option 2 Connect the I O Module Cable Note Refer to the In Sight Explorer Help file for details on configuring the discrete input and outputlines 1 Connectthe I O Module cable s M8 connector to the vision system s I O connector Figure 2 4 Connect the I O Module Cable to the Vision System 2 Plug the I O Module cable s DB15 connector into the I O module s I O connector Figure 2 5 Connect the I O Module Cable to the I O Module Installation Connect the Ethernet and Power The vision system s PoE connector provides the Ethernet connection for network communications and supplies power to the vision system The following steps illustrate how to connect the In Sight Micro vision system to the In Sight CIO MICRO or CIO MICRO CC I O module If neither O module is used the Cognex VisionView9 Operator Interface Pa
12. In Sight Micro Vision System Specifications Table 3 1 In Sight Micro Vision System Specifications Specifications 1020 1050 1100 1110 1100C 1400 1410 1400C 1403 1413 1403C Minimum In Sight version 4 4 3 Firmware Requirement Job Program 128MB non volatile fiash memory unlimited storage via remote network device Memory Image 256MB Processing Memory Sensor Type 1 3 inch CCD 1 1 8 inch CCD Sensor 5 92mm diagonal 7 4 x 7 4um sq pixels 8 8mm diagonal 4 4 x 4 4um Properties Sq pixels Resolution 640 x 480 1600 x 1200 pixels Electronic 1645 to 1000ms 5245 to 1000ms Shutter Speed Rapid reset progressive scan full frame integration Bit Depth 256 grey levels 8 24 bitcolor 256 grey 24 bit color 256 grey levels 8 24 bit color bits pixel levels 8 bits pixel bits pixel Image Controlled by software Gain Offset Frames Per 60 full frames per second 58 full 60 full 58 full frames 14 full frames per 7 full frames Second frames per frames per per second per second second second Lens Type CS mount and C mount with 5mm extension included CCD Alignment 0 127mm 0 005in both x and y from lens C mount axis to center of imager Variability Trigger 1 opto isolated acquisition trigger input Remote software commands via Ethernet RS 232C available when using the optional CIO MICRO or CIO MICRO CC I O module Discrete Inputs None Eight additional inputs available when using the optional CIO MICRO
13. e connectors on the vision system do not force the connections or damage may occur Ethernet Cable The Ethernet cable provides the Ethernet connection for network communications and supplies power to the vision system The pin outs for the cable are listed in the Ethernet Cable Specifications on page 17 This cable is available in the lengths and styles listed in Table 1 2 Table 1 2 Ethernet Cables tom X CCB 84901 1004 10 CCB 84901 6002 10 CCB 84901 7002 10 15m CCB 84901 1005 15 CCB 84901 6003 15 CCB 84901 7003 15 j30m CCB 84901 1006 30 CCB 84901 6004 30 CCB 84901 7004 30 COGNEX Breakout Cable The Breakout cable provides access to the vision system s trigger and high speed outputs The Breakout cable can be connected to devices such as a PLC trigger sensor or strobe light The pin outs for the cable are listed in the Breakout Cable Specifications on page 18 This cable is available in the lengths listed in Table 1 3 Table 1 3 Breakout Cables Length oo osm fomo 2m 000020 ccsmao0 sm joosmaoos em ecamsioro Hm 0 loosmaots I O Module Cable The I O Module cable is used with the CIO MICRO or CIO MICRO CC I O module The I O Module cable connects the vision system directly to the I O module via the DB15 connector When connected the I O Module cable provides access to the vision system s trigger and high speed outputs The pin outs for the cable are listed in the YO Module Cable Specifications on page 19 Th
14. ed the LED remains red 10 BaseT Red when the vision system is receiving power during startup momentarily switches to green when a network connection is established The LED is solid green with red blinking when network traffic is detected If a network connection cannot be established the LED remains red COGNEX Install the Mounting Block Optional Use the mounting block to secure the vision system to a mounting surface Figure 2 1 Attach the Mounting Block 1 Align the mounting block with the mounting holes on the vision system 2 Insert the M3x6 quantity 4 screws into the mounting holes and tighten the screws using a 2 5mm hex wrench the maximum torque is 0 9039 Nm 8 in Ib Install the Lens 1 Remove the protective lens cap and the protective film covering the CCD if present 2 Attach a CS Mount or C Mount with 5mm extension ring lens to the vision system The exact lens focal length needed depends on the working distance and the field of view required for your machine vision application Figure 2 2 Install the Lens C Mount with Extension Ring Installation Connect the Inputs and Outputs Optional The vision system s I O connector supplies connections for the acquisition trigger and high speed outputs CAUTION All cable connectors are keyed to fitthe connectors on the vision system do notforce the connections or damage may occur Option 1 Connect the Breakout
15. erre sese 23 Cleaning the Vision System CCD Window iii iii iii iii zizi nnen 23 vii GOGNEX viii Introduction This manual describes how to install the In Sight Micro vision system The In Sight vision system is a compact network ready stand alone machine vision system used for automated inspection measurement identification and robot guidance applications on the factory floor All models can be easily configured remotely over a network using an intuitive user interface Support Many information resources are available to assist you in using the vision system e In Sighf Explorer Help an online HTML Help file provided on the In Sight CD ROM e In Sight computer based tutorials provided on CD ROM with selected In Sight starter accessories kits e The In Sight online support site http www cognex com SupportinSight Standard Components In Sight Micro vision systems are shipped with the standard components listed in Table 1 1 Table 1 1 Standard Components Vision System Provides image acquisition vision processing job storage Ethernet connectivity and discrete 1 0 Mounting Kit Includes M3 screws for mounting the vision system quantity 4 and an optional mounting block for securing the vision system to a mounting surface Extension Ring A 5mm extension ring for use with C mount lenses Cables Note Cables are sold separately CAUTION All cable connectors are keyed to fit th
16. is cable is available in the lengths listed in Table 1 4 Table 1 4 I O Module Cables Length Rae orm CC8 MEDSIO 0 am CC8 MEDSIO 2 om ec menso Hem ECB MSDSIO 10 Hm CCB MBDSIO 1 Installation This section describes the connection of the vision system to its standard and optional components For a complete list of options and accessories contact your Cognex sales representative Note e Cables are sold separately e Ifany ofthe standard components appear to be missing or damaged immediately contact your Cognex Authorized Service Provider ASP or Cognex Technical Support Connectors and Indicators Table 2 1 Vision System Connectors and Indicators Connector Indicator I O Connector Provides connections to the acquisition trigger input and high speed outputs PoE Connector Provides the Ethernet connection for network communications and supplies power to the vision system LED1 Green when active User configurable using Discrete Output Line 4 Line 10 when using the CIO MICRO or CIO MICRO CC I O module LED2 Red when active User configurable using Discrete Output Line 5 Line 11 when using the CIO MICRO or CIO MICRO CC I O module ENET 100 BaseT Red when the vision system is receiving power during startup momentarily switches to green when a network connection is established and then blinks green when network traffic is detected If a network connection cannot be establish
17. is zero ground potential extends through the cable and to peripheral equipment e g a vision system PLC etc To ensure safe operating conditions itis strongly recommended that all ground connections are checked to ensure that a zero ground potential is met Connect an RJ 45 LAN Cable To connect the vision system to an Ethernet network plug a LAN cable RJ 45 connector into the I O module s LAN port and connect the other end of the cable to a switch router or PC as applicable Figure 2 8 Connect an RJ 45 LAN Ca Installation Connect the Ethernet Cable CAUTION e All cable connectors are keyed to fit the connectors on the vision system do not force the connections or damage may occur e The I O module s PoE port provides power and Ethernet connectivity to the In Sight Micro vision system Connecting third party devices to the I O module s PoE port could damage the I O module 1 Connectthe Ethernet cable s M12 connector to the vision system s PoE connector Figure 2 9 Connect the Ethernet Cable to the Vision System 2 Connectthe Ethernet cable s RJ 45 connector to the I O module s PoE port Figure 2 10 Connect the Ethernet Cable to the I O Module 3 Restore power to the I O module s 24VDC power supply and turn it on if necessary GOGNEX 10 Specifications The following sections list general specifications for the In Sight Micro vision systems
18. m Support InSight Manufacturer Declaration of Conformity Cognex Corporation One Vision Drive Natick MA 01760 USA Declares this C oed Machine Vision System Product Product Type Complies With Compliance Standards European Representative KCC NRTL In Sight Micro 1020 1050 1100 1110 1400 1410 Type 821 0043 1R In Sight Micro 1100C 1400C Type 821 0044 1R In Sight Micro 1403 1413 Type 821 0047 1R In Sight Micro 1403C Type 821 0048 1R 2004 108 EC Electromagnetic Compatibility Directive EN 55022 2006 Class A EN 61000 6 2 2005 COGNEX INTERNATIONAL Immeuble Le Patio 104 Avenue Albert 1er 92563 Rueil Malmaison Cedex France Safety and Regulatory FCC Part 15 Class A This device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions 1 this device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at their own expense In Sight Micro 1020 1050 1100 1110 1400 1410 CGX ISM1400 00 A In Sight Micro 1100C 1400C
19. nel a third party PoE injector or a PoE switch must be used to supply power to the vision system Note Refer to the In Sight CIO MICRO and CIO MICRO CC I O Module Installation Manual for detailed connection information Connect the Power Wires CAUTION Never connect the I O module to a power source other than 24VDC Any other voltage creates a risk of fire or shock and can damage the hardware Do not connect the 24VDC power source to any terminals other than the 24VDC and power connectors 1 Verify that the 24VDC power supply being used is unplugged and not receiving power 2 Use a screwdriver to loosen the I O module s power terminals labeled 24VDC and 3 Insertthe 24VDC and wires 16 22 AWG solid or stranded wire from the power supply into the 24VDC and terminals on the I O module 4 Tighten the screw terminals with the screwdriver to secure the wire leads in the terminal block the maximum torque is 0 1921 Nm 1 7 in Ib Figure 2 6 Connect the Power Wires 5 Connecta frame ground wire to the I O module s Frame Ground terminal COGNEX Figure 2 7 Connect the Frame Ground Wire 6 Connectthe other end of the frame ground wire to frame ground CAUTION The shield ground connections of the RS 232 port LAN port PoE port I O port and Frame Ground terminal are internally connected The system grounding is designed to be at a zero ground potential th
20. or CIO MICRO CC I O module Discrete 2 opto isolated NPN PNP high speed outputs Eight additional outputs available when using the Outputs optional CIO MICRO or CIO MICRO CC I O module Status LEDs Network 2 user configurable Network 1 Ethernet port 10 100 BaseT with auto MDI MDIX Supports DHCP factory default static and link Communication local IP address configuration Serial None RS 232C 4800 to 115 200 baud rates when connected to the optional CIO MICRO or CIO Communication MCRO CC I O module Class 2 Power over Ethernet PoE device Power Type A and B 1 Maximum frames per second is job dependent and based on the minimum exposure for a full image frame capture 2 Expected variability in the physical position of the CCD from vision system to vision system This equates to 17 pixels on a 640 x 480 resolution CCD and 29 pixels on a 1600 x 1200 resolution CCD 11 GOGNEX Power Consumption Current Voltage Material Finish Mounting Dimensions Weight Temperature Humidity Protection Shock Vibration Regulatory Compliance 12 6 49 W maximum per Class 2 PoE Four M3 threaded mounting holes 1 4 20 and M6 mounting holes also available on mounting block 30mm 1 18in x 30mm 1 18in x 60mm 2 36in without mounting block 30mm 1 18in x 38 2mm 1 50in x 60mm 2 36in with mounting block block ck 121g 4 270z without mounting 146g 5 150z with mounting blo
21. rectly to the PLC input When enabled the output pulls the PLC input down to less than 3V Breakout Cable gt 32255 0800 00ce omissa ZVF Ao T e cele NPN PLC D END Compatible Input 24VDC 24VDC Figure 3 5 High Speed Output Connection Example 2 15 COGNEX Example 3 The Breakout cable see Table 3 5 on page 18 can be used to connect to a PNP compatible PLC input Connect Output 0 or Output 1 directly to the PLC input When enabled the output pulls the PLC input up to greater than 21V Breakout Cable 5 23233 SO mw 0522 om Rag Z D a0 ee 0 PNPPLG CND E Sato Input 24AVDC e 24VDC Figure 3 6 High Speed Output Connection Example 3 16 Specifications Ethernet Cable Specifications The Ethernet cable provides the Ethernet connection for network communications and supplies power to the vision system Table 3 4 Ethernet Cable Pin Out 3 AE soiva Wiebe PAPE e iros rav oe Wiene B PHMBVRINMoPeA joen 1 B MSVRINModeB Jom k Note Cables are sold separately 17 COGNEX Breakout Cable Specifications The Breakout cable provides access to trigger and high speed outputs Table 3 5 Breakou
22. t Cable Pin Out D Q O m P 4399l41 I wm O O O Z HS OUTO Sour RIGGER RIGGER S COMMON Note e Cables are sold separately e Unused bare wires can be clipped short or tied back using a tie made of non conductive material 18 Specifications I O Module Cable Specifications The I O Module cable is used with the CIO MICRO or CIO MICRO CC I O module The I O Module cable connects the vision system directly to the I O module via the DB15 connector When connected the I O Module cable provides access to the vision system s trigger and high speed outputs Table 3 6 I O Module Cable Pin Out HS COMMON Note e Cables are sold separately e Refer to the In Sight CIO MICRO and CIO MICRO CC I O Module Installation Manual for detailed connection information 19 COGNEX Dimensional Drawings Note e All dimensions are in millimeters inches and are for reference purposes only e All specifications may be changed without notice 60 0 2 36 ag po OPTICAL AXIS 30 0 1 18 ss ge e ka 12 53 493 OPTICAL 9 0 35
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