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Optical filters and diffusers
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Color filter / optical / acrylic / for displays - 0.5 - 4 mm | Solaris™ Colour Acrylic
The Solaris™ S range is broad range of transparent coloured optical filters used in a variety of applications for contrast enhancement, colour conversion or colour correction in displays, e.g. VFD, LCD or LED.
Solaris™ S optical filters are used to manipulate the light emitting from a display. This is done by adapting the filters...
Solaris™ S optical filters are used to manipulate the light emitting from a display. This is done by adapting the filters...
Color filter / optical / acrylic / for displays - 0.5 - 4 mm | Solaris™ Colour Acrylic
The Solaris™ S range is broad range of transparent coloured optical filters used in a variety of applications for contrast enhancement, colour conversion or colour correction in displays, e.g. VFD, LCD or LED.
Solaris™ S optical filters are used to manipulate the light emitting from a display. This is done by adapting the filters transmittance characteristic, to the colour of the light emitted from the display.
An important distinction is made between broad-band and selective filters. Broad-band filters are basically gray-shaded filters which allow for the transmittance of all light (colours). They are therefore often used in applications in which contrast enhancement is required without loss of the full colour spectrum. Selective filters are designed to only transmit specific wavelengths of the light, i.e. specific colours.
Selective filters are especially suitable for applications requiring colour correction and contrast enhancement of monochrome displays.
All Solaris S Acrylic grades contains UV-absorbing material, blocking efficiently up to approx. 400 nm.
Through a colour match service, PSC can calculate and create coloured filters and Colour Conversion Filters meeting almost any customer specified colour or chromacity target.
See examples on our Solaris S Colour selective and broadband filters on the PSC website
Solaris™ S optical filters are used to manipulate the light emitting from a display. This is done by adapting the filters transmittance characteristic, to the colour of the light emitted from the display.
An important distinction is made between broad-band and selective filters. Broad-band filters are basically gray-shaded filters which allow for the transmittance of all light (colours). They are therefore often used in applications in which contrast enhancement is required without loss of the full colour spectrum. Selective filters are designed to only transmit specific wavelengths of the light, i.e. specific colours.
Selective filters are especially suitable for applications requiring colour correction and contrast enhancement of monochrome displays.
All Solaris S Acrylic grades contains UV-absorbing material, blocking efficiently up to approx. 400 nm.
Through a colour match service, PSC can calculate and create coloured filters and Colour Conversion Filters meeting almost any customer specified colour or chromacity target.
See examples on our Solaris S Colour selective and broadband filters on the PSC website
Optical filter / band-pass / acrylic / for infrared transmission - min. 0.5 mm | Solaris™ IR
PSCs IR filters are used in remote controls, security systems, sensors, barcode scanners, iris recognition systems, number plate recognition systems...
Optical filter / band-pass / acrylic / for infrared transmission - min. 0.5 mm | Solaris™ IR
PSCs IR filters are used in remote controls, security systems, sensors, barcode scanners, iris recognition systems, number plate recognition systems (ANPR), IR cameras and other areas where there is a need to exclude visible light combined with a high infrared transmission.
Acrylic is a great base material for the transmission of light in the near-infrared (NIR) region. PSC is the leading developer and producer of customized infrared (IR) filters.
The NIR filter absorbs the entire visible spectrum and ultraviolet light and provides maximum transmittance in the near-infrared range from 800 to approx. 2000 nm.
Acrylic is a great base material for the transmission of light in the near-infrared (NIR) region. PSC is the leading developer and producer of customized infrared (IR) filters.
The NIR filter absorbs the entire visible spectrum and ultraviolet light and provides maximum transmittance in the near-infrared range from 800 to approx. 2000 nm.
Light guide for LEDs - KL-Series
-Designed to replace rectangular right angle through hole device.
- High transmissivity ploycarbonate material.
- Housing UL rating:94V-0.
- RoHS compliant.
- High transmissivity ploycarbonate material.
- Housing UL rating:94V-0.
- RoHS compliant.
Optical filter / for telecentric lenses
Light filtering is a typical need in machine vision measurement applications. For instance, you may need to avoid possible interactions between your LED illuminator and other light sources in an industrial environment.
Moreover,...
Moreover,...
Optical filter / for telecentric lenses
Light filtering is a typical need in machine vision measurement applications. For instance, you may need to avoid possible interactions between your LED illuminator and other light sources in an industrial environment.
Moreover, sun light is very frequently causing errors in imaging systems due to unexpected reflections from the surface of the parts being measured.
In these cases, a band-pass or long-pass filter that matches the emission wavelength of the illuminator is usually integrated in front of the objective: this way, only the light coming from the illuminator is collected while the rest of the spectrum is cut out.
Furthermore, many machine vision applications require monochromatic illumination in order to enhance or suppress particular object features: under these conditions, only the features with a certain color are imaged and can be measured.
Moreover, sun light is very frequently causing errors in imaging systems due to unexpected reflections from the surface of the parts being measured.
In these cases, a band-pass or long-pass filter that matches the emission wavelength of the illuminator is usually integrated in front of the objective: this way, only the light coming from the illuminator is collected while the rest of the spectrum is cut out.
Furthermore, many machine vision applications require monochromatic illumination in order to enhance or suppress particular object features: under these conditions, only the features with a certain color are imaged and can be measured.