SERVICES
Imaging Optics Design
Design of lens objectives, microscopes, relay systems, projection systems, telescopes and other. Precise environmental and tolerance analysis allows you not to care about producibility and reliability of your device.
Illumination Optics Design
Design of secondary optics for LED, headlights, BLU systems, street lighting optics and other beam shaping applications.Optical Coatings Design
Design of interference thin films such as AR and reflective coatings, waveband filters and perform tolerance analysis.
MY WORK EXAMPLES
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IR Lens F/0.85
65° Field of view objective lens for thermal imaging LWIR application. Chalcogenide glass as material for lenses. Sensor is uncooled 17um technology.
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IR Lens F/0.85
65° Field of view objective lens for thermal imaging LWIR application. Chalcogenide glass as material for lenses. Sensor is uncooled 17um technology.
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IR Lens F/0.85
65° Field of view objective lens for thermal imaging LWIR application. Chalcogenide glass as material for lenses. Sensor is uncooled 17um technology.
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IR Lens F/0.85
65° Field of view objective lens for thermal imaging LWIR application. Chalcogenide glass as material for lenses. Sensor is uncooled 17um technology.
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Mobile camera 13 Mpix
F/2.0
75° Field of view objective lens for mobile device.
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Mobile camera 13 Mpix
F/2.0
75° Field of view objective lens for mobile device.
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Mobile camera 13 Mpix
F/2.0
75° Field of view objective lens for mobile device.
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Mobile camera 13 Mpix
F/2.0
75° Field of view objective lens for mobile device.
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Wide-angle broadband antireflection coating
Wavelength range from 400nm to 700nm
Angle insensitive from 0° to 40°
Air | 0.238L | 0.356H | 0.116H | 0.08L | 0.065H | N-BK7
Materials: MgF2, Ta2O5, ZnS
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Wide-angle broadband antireflection coating
Wavelength range from 400nm to 700nm
Angle insensitive from 0° to 40°
Air | 0.238L | 0.356H | 0.116H | 0.08L | 0.065H | N-BK7
Materials: MgF2, Ta2O5, ZnS
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Secondary optics for LED light colimation
LED:
Dimensions - 2x2 mm
Angle divergence - 120° FWHM
Collimation optics:
Diameter - 60 mm
Height - 30 mm
Angle divergence - 8° FWHM
75% of energy is encircled in 8° FWHM
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Secondary optics for LED light colimation
LED:
Dimensions - 2x2 mm
Angle divergence - 120° FWHM
Collimation optics:
Diameter - 60 mm
Height - 30 mm
Angle divergence - 8° FWHM
75% of energy is encircled in 8° FWHM
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Secondary optics for LED light colimation
LED:
Dimensions - 2x2 mm
Angle divergence - 120° FWHM
Collimation optics:
Diameter - 60 mm
Height - 30 mm
Angle divergence - 8° FWHM
75% of energy is encircled in 8° FWHM
-
Secondary optics for LED light colimation
LED:
Dimensions - 2x2 mm
Angle divergence - 120° FWHM
Collimation optics:
Diameter - 60 mm
Height - 30 mm
Angle divergence - 8° FWHM
75% of energy is encircled in 8° FWHM
ABOUT AUTHOR

Alexander Kapustin, Optical engineer.
Background: M.S. degree in optical systems and lasers.
Experience: more than 10 years in optical industry. Developing of ray tracing algorithms and software for optical simulations. Optics design, optical measurements, complex analysis of optical systems. Work with outsourced optical design.
Tools: Code V, Lighttools, Zemax, Trace Pro, SolidWorks, Matlab.
CONTACTS
If you want to
- ask a question
- describe your task
- get a consultation
please send a message to info@edesigntech.com
or use the contact form below.