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New ultraviolet sensor identifies the presence of grease, glue, labels, wood, thread, rubber, paint, UV ink, UV crayon, and more. Confirm manufacturing processes more reliably than vision systems that cost ten times more. The UVX 300 luminescence sensor with patented technology is the clear choice because:
Unique numerical display lets you see the intensity of each reading. Now it's easy to refine processes and hysteresis.
3 to 6 times the range of any competing sensor. Won't get bumped or dirtied by target.
Only UV sensor with both auto-teach and manual calibration. Easy for low-skill operators, but able to be finely tuned.
Adjustable UV light projection and high resolution allow pin-head size detection.
Fast and convenient integration. In one sensor you get both analog and discrete output, auto-detect for PNP/NPN.
Smallest and fastest on the market.
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The Luminescece Sensor detects with the receiver filter GG 420 all luminescent markings which emit light within a wavelength range from 420-750 nm. The receiver filter OG 570 suppresses especially interfering whiteners. The sensors have a very small spot, and use a UV LED with a very long service life.
Digital read-out of intensity values via the RS-232 Interface
Recognition of luminescenting marks
Teach-In, dynamic Teach-In, external Teach-In, key potentiometer
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SPECTRO-3-UV Series - Luminescence color sensors
High-speed color detection of fluorescent objects
In addition to brightness differentiation, the luminescence color sensors of the SPECTRO-3-UV series also perform color differentiation. Teaching of the fluorescent objects can be performed either with the SPECTRO3-Scope software, with the TEACH button that is integrated at the sensor, or through digital input INØ. The 40 kHz scanning frequency and the 30 kHz switching frequency also guarantee a reliable detection and recognition of fast-moving fluorescent marks.
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Near-Infrared, Non-Invasive Tissue Oximeter
OxiplexTS™ is a revolutionary new device allowing the measurement of oxygenated and de-oxygenated hemoglobin concentrations in tissue. The device works by emitting Near Infrared (NIR) light into tissue at known distances from a collector. Light of two different wavelengths is used and the light is modulated at an RF frequency of 110 MHz. The collected light is measured and processed, and the absorption and scattering coefficients of the medium are determined. Once the absorption and scattering are determined, the assumption that hemoglobin is the only significant absorber is applied and the oxygenated and de-oxygenated hemoglobin concentrations are calculated.
The unique feature of the ISS OxiplexTS™ is that it uses the theory of photon migration through highly scattering media. This patented technology allows for the first time the absolute measurement of absorption and scattering in a highly scattering medium such as human tissue.
Since OxiplexTS™ measures the absorption and scattering of tissues directly, it does not require any calibration, estimation, or assumption about scattering in order to make an accurate measurement of absorption and, hence, hemoglobin concentrations. This unique ability to separate scattering from absorption sets the ISS OxiplexTS™ above all other NIR tissue oximeter technologies.
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