In-Sight® Micro Series Vision System Installation Manual Addendum
Contents
1. 2 Power over Ethernet PoE device Power 6 49 W maximum per Class 2 PoE Consumption Per Class 2 PoE requirements Voltage 48 V nominal applied from a Class 2 PoE injector which is typically powered from some other voltage Die cast zinc housing Mounting Four M3 threaded mounting holes 1 4 20 and M6 mounting holes also available on mounting block Dimensions 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 Weight 121g 4 270z without mounting block 146g 5 150z with mounting block Temperature Operating 0 C to 45 C 32 F to 113 F Storage 30 C to 80 C 22 F to 176 90 non condensing Operating and Storage IP51 with cables and lens attached 80 G shock with 50 gram or lighter lens attached per IEC 68 2 27 EA 10 G with 50 gram or lighter lens attached 2 hrs axis 10 500 Hz per IEC 68 2 6 FC Regulatory CE FCC KCC TUV SUD NRTL RoHS Compliance COGNE Acquisition Trigger Input Table 4 2 Acquisition Trigger Input Specifications Specification Voltage 20 to 28V 24V nominal voras Se o 0 to 3V 8V nominal threshold Current a Resistance M10000 0hms S Delay In Sight Micro 1020 1050 1100 63us maximum latency between leading edge of trigger and start of 1100C 1110 1400 1400C acquisition Input pulse should be minimum of 1 ms wide 1402 amp 1410 In Sight Micro 1403 amp 1413 81us maximum laten2. Addendum Sheet In Sight Micro Series Vision System Installation Manual The In Sight Micro series of vision systems now includes the In Sight 1402 This addendum includes hardware specifications to support this vision system along with updates and corrections to existing precautions and regulations conformity information This information will be included in the next revision of the In Sight Micro Series Vision System Installation Manual Please keep this addendum with your installation manual COGNE Regulations Conformity Note For the most up to date regulations and conformity information please refer to the In Sight online support site http Awww cognex com Support InSight Declaration of Conformity Manufacturer Cognex Corporation One Vision Drive Natick MA 01760 USA Declares this marked Machine Vision System Product Product Type 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 1402 Type 821 0078 1R In Sight Micro 1403 1413 Type 821 0047 1R In Sight Micro 1403C Type 821 0048 1R Complies With 2004 108 EC Electromagnetic Compatibility Directive Compliance Standards EN 55022 2006 A1 2007 Class A EN 61000 6 2 2005 European Representative 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 FC
3. C 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 CGX ISM1400 COO A In Sight Micro 1402 KCC REM CGX ISM1402 01 In Sight Micro 1403 1413 CGX ISM1403 00 A In Sight Micro 1403C CGX ISM1403 COO0 A NRTL TUV SUD AM SCC NRTL OSHA Scheme for UL CAN 60950 1 TUV SUD AM IEC EN 60950 1 CB report available upon request RoHS 6 Compliant 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 malfun
4. ction 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 image sensor to laser light image sensors can be damaged by direct or reflected laser light If your application requires the use of laser light that may strike the image sensor a lens filter at the corresponding laser s wavelength is recommended Contact your local integrator or application engineer for suggestions 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 Class A Equipment broadcasting and communication equipment for office work Seller and user shall be notified that t
5. cy 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 ON it pulls TRG up to 24V turning the opto coupler ON TRG Ov 475K N Z AA N TRG 4 75K L 28V Max Across input pins Transition approx 8V Nom Figure 4 1 Acquisition Trigger Input Schematic P N 597 0136 01 Printed in the USA 1 Maximum latency is based on a 1us trigger debounce
6. his equipment is suitable for electromagnetic equipment for office work Class A and can be used outside the home This device should be used in accordance with the instructions in this manual COGNE Specifications The following sections list general specifications for the In Sight Micro vision systems In Sight Micro Vision System Specifications Table 4 1 In Sight Micro Vision System Specifications Specifications 1020 1050 1100 1110 1100C 1400 1410 1400C 1402 1403 1413 1403C Minimum In Sight version 4 4 3 Si In Sight version 4 4 3 Firmware Requirement Job Program 128MB non volatile flash memory unlimited storage via remote network device Memory Image 256MB Processing Memory Sensor Type 1 3 inch CCD 1 1 8 inch 1 1 8 inch CCD CMOS Sensor 5 92mm diagonal 7 4 x 7 4um sq pixels 8 8mm diagonal 4 4 x Properties i 4 4um sq pixels Resolution 640 x 480 1280 x 1600 x 1200 pixels 1024 Electronic 16us to 1000ms 52us to 1000ms ee Acquisition Rapid reset progressive scan full frame integration Bit Depth 256 grey levels 8 24 bit color 256 grey 24 bit 256 grey levels 8 24 bit color bits pixel levels 8 color bits pixel bits pixel Image Controlled by software Gain Offset Frames Per 60 full frames per second 58 full 60 full 58 full 60 full 14 full 7 full frames Second frames per frames per frames_ frames per frames per per second second second per second second
7. second Lens Type CS mount and C mount with 5mm extension included Image Sensor 0 127mm 0 005in both x and y from lens C mount axis to center of imager omen Variability Trigger 1 opto isolated acquisition trigger input Remote software commands via Ethernet RS 232C available when using the optional ClIO MICRO or CIO MICRO CC I O module Discrete Inputs None Eight additional inputs available when using the optional CIO MICRO 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 ClIO MICRO or CIO MICRO CC I O module Status LEDs Network 2 user configurable 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 image sensor from vision system to vision system This equates to 17 pixels on a 640 x 480 resolution CCD 24 pixels on a 1280 x 1024 resolution CMOS and 29 pixels on a 1600 x 1200 resolution CCD Specifications 1020 1050 1100 1110 1100C 1400 1410 1400C 1402 1403 1413 1403C 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 ClIO MICRO or CIO Communication mee CC I O module Class
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