Spectral Light Meters, UV-VIS-NIR Spectroradiometers
Spectroradiometers for use as portable devices and fixed installation systems for measuring the spectral distribution of sources over the UV-visible-NIR wavelength range in absolute units. We offer all kind of versions for spectral ranges starting at 200 nm to 2150 nm. Direct input optics, optical fibers, radiance optics, etc.
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Spectroradiometers For Light Hazard
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Spectroradiometer Solutions for the Measurement and Assessment of Light Hazard
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Spectroradiometer For Measuring Natural And Artificial Solar Radiation
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UV-visible-NIR spectroradiometers with accessories for measuring solar radiation - natural daylight and solar simulators
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Spectroradiometers For UV Curing
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Spectroradiometers and radiometers for UV curing & other high intensity UV applications. E.g. the measurement of mercury vapor lamps and or UV LEDs.
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Spectroradiometers For LED/Laser Measurements
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Spectroradiometers for measuring white light and color LEDs, UV LEDs and NIR LEDs in CW and pulse mode. Measurement of Laser and VCSEL. Portable and fixed installation instruments for photometric, radiometric, colorimetric and flicker measurements.
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Spectroradiometers For Radiometry
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Comprehensive range of spectroradiometers for measuring radiometric parameters in the spectral range 200 nm to 2150 nm.
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Spectral Light Meters, UV-VIS-NIR Spectroradiometers
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Spectral Light Meters For Photometric And Colorimetric Measurements
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Comprehensive range of spectroradiometers for the measurement of illuminance (lux), luminance (cd/m²), luminous flux (lumens), luminous intensity (cd) as well as the colorimetric characteristic values such as chromaticity coordinates (x,y,u',v') or color rendering index (CRI), etc.
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Measurement System For Testing & Binning Of Back-End LEDs
TP121-TH
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The photometric specifications of LEDs must meet very high tolerance requirements regardless of whether they are to be used in general, automotive or other specialist lighting applications. This is often a problem since the manufacturing tolerances of LEDs can be higher than those permitted in the end-use applications. Also, LED binning by LED manufacturers in order to classify LEDs based on their tolerances is performed with flash mode testing using pulsed current flow. However, end-use applications of the LEDs often operate in constant current mode and with significant thermal effects. The sophisticated LED processing industry therefore requires measurement devices that can be used for both manufacturer-compliant pulsed mode, as well as constant current operation mode. When the LEDs are run in constant current mode, the junction temperature has significant influence on the performance and lifetime of the LED. Therefore, test systems should be able to test the LEDs at specific junction temperatures.
