Super High-power LCS-Series Collimated LED Light Sources

Accessories for Mightex collimated LED light sources comprise dedicated focusing modules and interchangeable collimating lenses, lightguide, microscope and fiber-optic adapters, microscope illumination tubes, connector tubes, a thread converter, empty filter/optics holders, a lightguide holder for converting Type-B LCS into Type-B GCS as well as accessories for beam combiners like a push-pull adjustable mount, a 11 mm LCS adapter or connecting plates. Six different ACC-LCS-F-xx focusing modules for collimated LED light sources are available, comprising modules for 11 to 48 mm clear-aperture collimated LED light sources with working distances from 5 to 100 mm. For details, please refer to the downloadable “Accessories for Collimated LED Light Sources Overview” and the downloadable installation drawings. Eight ACC-LCS-C-xx(-B) additional interchangeable collimating lenses for collimated LED light sources are used to produce different beam sizes with the same LED light source base: Four models with clear apertures of 11, 22, 38 and 48 mm as well as four variants for Type-B light sources. For details, please refer to the downloadable “Accessories for Collimated LED Light Sources Overview”. Four different LCS-LGA22-xxx lightguide adapters can be used to couple light from a 22-mm-diameter collimated LED light source into a lightguide. Variants for lightguides with ferrule diameters of 5, 6.35 (1/4”), 7 and 11.1 mm as well as a ferrule length of 15 mm or greater are available. For details, please refer to the downloadable “Accessories for Collimated LED Light Sources Overview” and the downloadable installation drawings. Eight different ACC-BC25-xxx microscope adapters allow to connect LCS collimated LED light sources and beam combiners to microscopes. Single LCS light sources as well as LCS-BC25 beam combiners or WLS sources can be connected to microscopes like Leica DMI, Olympus (IX & BX, other), Zeiss Axioskop, Nikon Eclipse, Eclipse E200 and LV-UEPI/2/A. For details, please refer to the downloadable “Accessories for Collimated LED Light Sources Overview”. A LCS-FPC-ADP-SMA fiber-optic adapter can be used to couple light from a LCS-Series collimated LED light source (22-mm aperture) into a fiber patchcord and accepts SMA connectorized fiber patchcords. Three different ACC-BC25-MIT-xxx microscope illumination tubes allow to couple a beam combiner or LCS-Series collimated LED light source into the infinity optical path of microscopes. The lengths of these microsope illumination tubes are designed for one beam-combiner distance (up to two LCS sources) or two beam-combiner distances (up to four LCS sources). For details, please refer to the downloadable installation drawing. Three different ACC-LCS-xxx connector tubes for LCS-Series collimated LED light sources are available, comprising a male-to-male C-mount connector with inner threads, a female-to-female C-mount connector with outer threads and a 15 mm extension tube for 22 mm clear-aperture LCS-Series light sources. For details, please refer to the downloadable “Accessories for Collimated LED Light Sources Overview” An ACC-LCS-27C adapter is available for converting M27 thread to C-thread. Two different empty filter/optics holders for 22 mm clear-aperture collimated LED light sources are available (ACC-LCS-H-22, ACC-LCS-EH). Both are excitation filter holders for 25.4 mm (1”) diameter filters with up to 5 mm thickness, with ACC-LCS-EH featuring a threaded output end to connect to Mightex LCS-LGA22-xxx lightguide adapters or ACC-BC25-xxx microscope adapters. For details, please refer to the downloadable “Accessories for Collimated LED Light Sources Overview” and the downloadable installation drawing. Mightex’s GCS-LGH-B-0515 lightguide holder is used to replace the collimating lens on a Type-B LCS in order to convert it to a Type-B GCS. This holder is suitable for lightguides with a ferrule diameter of 5 mm (typical 3-mm-core lightguides) and a ferrule length of 15 mm or greater. Mightex’s ACC-LCS-BC25-PPM push-pull mount for multi-wavelength beam combiners is user-adjustable. Currently, Mightex’s multi-wavelength beam combiners can only be used to directly combine 22-mm-diameter collimated LED light sources. For 11-mm-diameter collimated LED light sources, an ACC-BC25-011 mechanical adapter can be used to attach the LED sources to the beam combiners, before the 11-mm-diameter collimated LED sources can be combined. Three different ACC-BC25-CP-01/02/03 connecting plates are available to connect two or more multi-wavelength beam combiners together, with four screws included. For details, please refer to the downloadable “Accessories for Collimated LED Light Sources Overview” and the downloadable product overview.

Accessories for Mightex LED light sources comprise lightguide collimators, dedicated focusing modules for collimated LED light sources, various cables, fiber-optic adapters, microscope illumination tubes, connector tubes for LCS-Series light sources, a thread converter, empty filter/optics holders, a lightguide holder for converting Type-B LCS into Type-B GCS as well as accessories for beam combiners like a push-pull adjustable mount, a 11 mm LCS adapter or connecting plates. Four different lightguide collimators are used to either couple light from free space into a lightguide or collimate light from a lightguide to form a collimated (parallel) optical beam. Lightguide collimators are key components with numerous applications. For example, a lightguide collimator can project light from a lightguide into a uniform spot in free space. High-numerical-aperture aspherical lenses are used for precise collimation and maximum light throughput. The collimators feature adjustable focus from ~100 mm to infinity. Various lightguide ferrule diameters are supported. Customization is available for other ferrule diameters. For further details, please refer to the downloadable datasheet and the downloadable “Accessories for LED Light Sources Overview”. Six different ACC-LCS-F-xx focusing modules for collimated LED light sources are available, comprising modules for 11 to 48 mm clear-aperture collimated LED light sources with working distances from 5 to 100 mm. For details, please refer to the downloadable “Accessories for LED Light Sources Overview” and the downloadable installation drawings. Four different cables are available for FCS-, FFC-, GCS-, WFC- and WLS-Series LED light sources. Some cables feature push-pull connectors and/or are suitable for 4-channel light sources. For details, please refer to the downloadable “Accessories for LED Light Sources Overview”. A LCS-FPC-ADP-SMA fiber-optic adapter can be used to couple light from a LCS-Series collimated LED light source (22-mm aperture) into a fiber patchcord and accepts SMA connectorized fiber patchcords. Three different ACC-BC25-MIT-xxx microscope illumination tubes allow to couple a beam combiner or LCS-Series collimated LED light source into the infinity optical path of microscopes. The lengths of these microsope illumination tubes are designed for one beam-combiner distance (up to two LCS sources) or two beam-combiner distances (up to four LCS sources). For details, please refer to the downloadable installation drawing. Three different ACC-LCS-xxx connector tubes for LCS-Series collimated LED light sources are available, comprising a male-to-male C-mount connector with inner threads, a female-to-female C-mount connector with outer threads and a 15 mm extension tube for 22 mm clear-aperture LCS-Series light sources. For details, please refer to the downloadable “Accessories for LED Light Sources Overview”. An ACC-LCS-27C adapter is available for converting M27 thread to C-thread. Two different empty filter/optics holders for 22 mm clear-aperture collimated LED light sources are available (ACC-LCS-H-22, ACC-LCS-EH). Both are excitation filter holders for 25.4 mm (1”) diameter filters with up to 5 mm thickness, with ACC-LCS-EH featuring a threaded output end to connect to Mightex LCS-LGA22-xxx lightguide adapters or ACC-BC25-xxx microscope adapters. For details, please refer to the downloadable “Accessories for LED Light Sources Overview” and the downloadable installation drawing. Mightex’s GCS-LGH-B-0515 lightguide holder is used to replace the collimating lens on a Type-B LCS in order to convert it to a Type-B GCS. This holder is suitable for lightguides with a ferrule diameter of 5 mm (typical 3-mm-core lightguides) and a ferrule length of 15 mm or greater. Mightex’s ACC-LCS-BC25-PPM push-pull mount for multi-wavelength beam combiners is user-adjustable. Currently, Mightex’s multi-wavelength beam combiners can only be used to directly combine 22-mm-diameter collimated LED light sources. For 11-mm-diameter collimated LED light sources, an ACC-BC25-011 mechanical adapter can be used to attach the LED sources to the beam combiners, before the 11-mm-diameter collimated LED sources can be combined. Three different ACC-BC25-CP-01/02/03 connecting plates are available to connect two or more multi-wavelength beam combiners together, with four screws included. For details, please refer to the downloadable “Accessories for LED Light Sources Overview” and the downloadable product overview.

Accessories for Mightex’s GCS-Series of lightguide-coupled LED light sources comprise an electrical cable (product number ACC-GCS-C05), a heatsink for 3 mm core liquid lightguides (product number ACC-LLG-HS-03), a range of liquid lightguides and lightguide adapters as well as lightguide collimators. Nine different LLG liquid lightguides are available in three wavelength ranges (300 to 650 nm, 340 to 800 nm and 420 to 2000 nm), with 3 or 5 mm core for 5 or 7 mm ferrule diameters respectively, a numerical aperture (NA) of 0.59 and lengths of 1 or 2 m. For details, please refer to the downloadable “Accessories for Lightguide-coupled LED Light Sources Overview” and the downloadable installation drawing. Four different lightguide adapters for Type-A GCS-Series lightguide-coupled LED light sources are available. Each Type-A GCS device comes with a standard lightguide adapter for 5 mm diameter ferrule (A0510). Other adapters (as well as additional standard adapters) can be purchased separately, for lightguides with ferrule diameters of 5, 6, 7 or 8 mm and ferrule lengths of 10 mm or greater. For details, please refer to the downloadable “Accessories for Lightguide-coupled LED Light Sources Overview”. Four different lightguide adapters for Type-B GCS-Series lightguide-coupled LED light sources are available, for lightguides with ferrule diameters of 5, 7, 8 or 10 mm and ferrule lengths of 15 mm or greater. For details, please refer to the downloadable “Accessories for Lightguide-coupled LED Light Sources Overview”. Four different lightguide collimators are used to either couple light from free space into a lightguide or collimate light from a lightguide to form a collimated (parallel) optical beam. Lightguide collimators are key components with numerous applications. For example, a lightguide collimator can project light from a lightguide into a uniform spot in free space.High-numerical-aperture aspherical lenses are used for precise collimation and maximum light throughput. The collimators feature adjustable focus from ~100 mm to infinity. Various lightguide ferrule diameters are supported. Customization is available for other ferrule diameters. For further details, please refer to the downloadable datasheet and the downloadable “Accessories for Lightguide-coupled LED Light Sources Overview”.

Deep UV; 265-340 nm; 2.03-3.6 W; Iop 350-600 mA; Vop 4.3-6.3 V; Typ. Output Power 15-35 mW Mightex’s deep UV LCS-Series of collimated LED light sources cover the wavelength range between 240 nm and 340 nm and employ a high-NA (numerical aperture) aspherical collimating lens for precision collimation and high light throughput. A LED collimator consists of a collimating lens and a LED emitter. The LED emitter is placed at the focal plane of the collimating lens. The collimating lens thus images the LED emitter into infinity. LED collimators can be used as the light source in an illumination system. For example, LED collimators can replace the standard lamp assembly in a microscope to provide stable, intense, and fast-modulated illumination. Typically, the rest of the illumination optics will image the LED emitter onto the pupil of the imaging optics whereas the lens aperture on the collimator where intensity is uniform will be projected onto the object. In other illumination applications, similar arrangement should be made to produce uniform and efficient illumination. The LED emitters of the deep UV LCS-Series collimated LED light sources are mounted directly onto the metal base of the collimator which also features an integrated heat sink. This configuration minimizes thermal resistance between the LED emitter and the heat sink resulting in better heat dissipation. The collimating lens can be adjusted if needed for precise collimation. A locking ring fixes the lens position after adjustment. The collimators have been pre-adjusted in the factory. The LED collimators include a 1.5-meter cable with two bare-wire terminals at the end for universal LED controllers. The light sources can be driven by Mightex LED controllers or other LED controllers and current sources. WARNING: Due to low current ratings, certain Type-D deep UV LCS-Series collimated LEDs should only be controlled using the LED controllers SLA-0100-2 or SLC-FAxxIn addition to using the correct LED controllers listed above, an appropriate current range must be set according to the LED’s current rating, in order to properly protect the highly delicate deep UV LED. LED damage due to over-driving is not covered by Mightex’s product warranty. Key Features: Deep UV Wavelength Range: 265 to 340 nm Interchangeable Aspherical Collimating Lens High Numerical Aperture (NA)- Typical Collimated Output Power 15 to 35 mW Adjustable Focus Optional Focusing Module Optional Lightguide Adapter Multiple Mounting Features for Lab and OEM Applications Integrated Heatsink Applications: Microscope Illuminator; General Purpose Deep UV Light Source; Fiber Coupling (With Optional Focusing Module)

660 nm; Visible, Red; GaAsP/GaAs Diffusion Type; Luminous Intensity/Segment 80-400 µcd LED display chips enable to present numbers, letters and symbols. EPIGAP Optronic’s EODC-660-19-xx series of monolithic LED display chips provide various functionality and information in optical instruments. Each segment is separately addressable. The red colour (660 nm) of these GaAsP-based chips is visible at low currents, resulting in extended battery life in battery-powered, mobile, portable optical instruments. Various customized layouts like digits and symbols are available from development to serial product, with up to 30 segments per chip and multi-chip feasible. Please contact the AMS Technologies display LED chip experts to find the right solution that meets your design project’s requirements. We would like to support you and look forward to your inquiries! Further specialized LED chips provided by EPIGAP Optronic are EOLC-xxx-19-xx Point Source LED Chips. EPIGAP Optronic’s standard LED components are also available as standard bare LED chips (EOLC series) with high efficiency and very good degradation stability as well as standard components mounted in different packages. For further details, please refer to the series EOLD-xxxx-3xx/5xx Molded Plastic LEDs, EOLD-xxxx-0xx Hermetic TO LEDs and EOLS SMD LEDs. Key Features: Emission Colour: Red (660 nm) With High Brilliance and Contour Sharpness GaAsP/GaAs Diffusion Type Small Character Size: 7-segment Chip With Overall Height of 0.5 mm to 1.5 mm Line Width: Typically 25 µm Luminous Intensity per Segment: 80 µcd to 400 µcd Low Drive Current Supporting Battery-driven Portable Devices Customized Layouts Available From Development to Serial Product (up to 30 Segments per Chip, Multi-chip Feasible) Applications: Binoculars; Spotting Scopes; Microscopes

355-1720 nm; UV, Visible, IR; Radiant Power 1-90 mW; Luminous Intensity 140-11,000 mcd The starting point for any optoelectronic solution is the LED chip, which essentially determines the future product characteristics of the LEDs. EPIGAP Optronic provides the EOLC series of high-end LED chips from 355 nm in the UV range up to 1720 nm in the infrared range with high efficiency and very good degradation stability These LED chips with chip sizes from 265 x 265 μm to 365 x 365 μm feature a low variance of optical and electrical parameters. Excellent measuring technology supports production and ensures compliance with the quality requirements. This allows the chips to be selected according to optical and electrical parameters with an accuracy of up to ±3 nm. All LED chips undergo high-speed tests with 100 % analyzed spectrum as well as analysis for secondary and side peak, analysis for FWHM. Visual inspection for displays is provided as well as additional visual inspection for homogeneity of emitting intensity on request. Highly efficient power LED chips are available in the spectral range from 365 nm (UV) to 1050 nm (NIR) with high degradation stability and lifetime testing. Chip sizes of power LED chips range from 650 x 650 μm up to 1000 x 1000 μm or even more. The variety of chips in terms of wavelength, chip size and polarity is EPIGAP Optronic’s strength and allows for the selection and adaptation to the specifications of your application. Please contact the AMS Technologies LED experts to find the right standard or customized product that meets your design project’s requirements. We would like to support you and look forward to your inquiries! In addition to the EOLC series of standard LED chips, EPIGAP Optronic’s portfolio includes special chips like EOLC-xxx-19-xx point source LED chips or EODC-660-19-xx monolithic LED display chips for optical systems. EPIGAP Optronic’s LED chips are also available as standard components mounted in different packages. For further details, please refer to the series EOLD-xxxx-3xx/5xx Molded Plastic LEDs, EOLD-xxxx-0xx Hermetic TO LEDs and EOLS SMD LEDs. Applications: Industrial Sensors; Automation; Security and Safety Technology; Diagnostics; Biomedical Technology; Medical Imaging; Analytical Instruments; Scientific Analysis; Photo Catalyst; Medical Phototherapy; UV Curing; UV Sterilization

572-850 nm; Visible, IR; Radiant Power 0.005-1.8 mW; Luminous Intensity 0.09-40 mcd; Emission Area Diameter 10-100 µm EPIGAP Optronics’ EOLC-xxx-19-xx series of point source LED chips is designed to form a parallel light beam. The double wire bond construction on top eliminates any obstruction and dark spots. Available wavelengths are green (572 nm), red (625 nm and 650 nm) and infrared (850 nm) with apertures of emitting area Ø 10 µm, Ø 25 µm, Ø 50 µm and Ø 100 µm. EOLC-xxx-19-xx point source LED chips provide a very narrow, defined and precise beam and an optional ball lens. They offer effective suppression of undesirable side radiation along with simple collimation and feature high coupling efficiency to optical fibers Custom aperture sizes as well as different packages are available on request – please contact the AMS Technologies LED experts to find the right standard or customized point source LED product that meets your design project’s requirements. Further specialized LED chips provided by EPIGAP Optronic are EODC-660-19-xx monolithic LED display chips for optical systems. EPIGAP Optronic’s standard LED components are also available as standard bare LED chips (EOLC series) with high efficiency and very good degradation stability as well as standard components mounted in different packages. For further details, please refer to the series EOLD-xxxx-3xx/5xx Molded Plastic LEDs, EOLD-xxxx-0xx Hermetic TO LEDs and EOLS SMD LEDs. Key Features: Geometrically Well-defined Light Sources for High-accuracy Applications High Reliability Long Lifetime High Efficiency Improved Pulsing / Flashing Speeds Low Power Consumption Green, Red and Infrared Versions Available Wavelength Range: 572 nm to 850 nm Emission Area Diameter: 10 µm, 25 µm, 50 µm, 100 µm 625 nm Versions Also Available in SMD 4040 (EOLS-625-192-25/50) and Ceramic SMD 2520 Package (EOLS-625-199-50) Other Packages and Custom Aperture Sizes on Request Applications: Encoders; Positioning; Fiber Communication; Distance and Range Finding Indication; Fluorescence Analysis; Medical Instruments Such as Endoscopes; Optical Sights