Genie Monochrome Series-GigE Vision Camera Genie Monochrome Series Overview • 9CertificationsCE EN55022, class A, Radio Disturbance CharacteristicsEN61000-4-2, Electrostatic discharge immunity testEN61000-4-3, Radiated, radio-frequency, electromagnetic field immunity testEN61000-4-4, Electrical fast transient/burst immunity testEN61000-4-6, Immunity to conducted disturbances, induced by radio-frequency fieldsFCC Part 15, class Asee "EC & FCC Declaration of Conformity" on page 109RoHS Compliancy as per European directive 2002/95/EC(applies to camera part numbers CR-GENx-xxxxx)Vibration and Shock CertificationsTest (while operating) Standard DescriptionSinusoidal vibrations with identificationof critical frequenciesIEC 68-2-6 (1995)Test FcFrequency range: 10 to 2000 HzAmplitude: 5 m/s2Sweep rate: 1 octave per minuteDuration: 1 sweep cycle (to and fro)Random vibrations MIL-STD-810E (1989)method 514.4Category 10Levels and frequencies:0.04 g 2/Hz from 20 to 1000 Hz-6 dB/oct. from 1000 to 2000 HzDuration: 1 hourShocks IEC 68-2-27 (1987)Test Ea and guideShape: half-sineAmplitude: 75 gDuration: 3 msNumber: 3 shocks (+) and 3 shocks (-)Supported Industry StandardsGenie cameras are 100% compliant with the GigE Vision 1.0 specificationwhich defines the communication interface protocol used by any GigEVision device. The device description and capabilities are contained in anXML file. For more information see:http://www.machinevisiononline.org/public/articles/index.cfm?cat=167Genie cameras implement a superset of the GenICam™ specification whichdefines device capabilities. This description takes the form of an XMLdevice description file respecting the syntax defined by the GenApi moduleof the GenICam™ specification. For more information seewww.genicam.org.Genie Sensor OverviewEach sensor description below provides a specification table and response graphic. The graph describes the sensorresponse to different wavelengths of light (excluding lens and light source characteristics). Visible light spanswavelengths between about 390 - 780 nanometers. Wavelengths below 390 nm are termed ultra-violet while thoseabove 780 nm. are termed infra-red. The peak response is around 500 nanometers typical for each sensor model,corresponding to a shade of blue-green.