Optik Elektronik Gerätetechnik GmbH
OEG GmbH develops and produces iamge processing based optical measuring instruments for industry and research.
- 49 (0)335 5213894
- 49 (0)335 5213896
- info@oeggmbh.com
- Wildbahn 8i
Frankfurt (Oder), D-15236
Germany
Categories
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Optics Test Systems
IR Autocollimator
Optik Elektronik Gerätetechnik GmbH
The infrared autocollimator was specially designed for the 1550 nm wavelength range. In conjunction with the CROSDETECT evaluation software, it achieves a measuring accuracy of 1 arcsec with a resolution of 0.1 arcsec. The camera used is suitable for the wavelength range from 900 nm to 1700 nm.
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Measurement Of Straightness, Flatness, Positioning Uncertainty Of Round Tables
RTM - Measurement Of Positioning Uncertainty Of Indexing Tables
Optik Elektronik Gerätetechnik GmbH
RTM is a software for the measurement of positioning uncertainty of indexing tables using an electronic autocollimator and a polygon mirror as angle reference.
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Drawing Die And Wire Measurement
Wire Diameter And Roundness Measurement
Optik Elektronik Gerätetechnik GmbH
The DGMS is a measuring system for diameter and roundness of wires, drawing dies and enameling dies. The wire diameter is measured highly accurate by an image processing system. To measure the roundness, an additional special holder is necessary to rotate the wire for the diameter measurement in several azimuths. The accuracy of the measurement is ‹1micron.
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Optics Test Systems
F Number Meter
Optik Elektronik Gerätetechnik GmbH
The f-number of a camera lens is defined as the quotient of the focal length f' and the diameter of the entrance pupil. The f-number measuring device is a simple structure for the automatic, software-controlled measurement of the f-number of optical systems.
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Measuring Systems For Night Vision Systems
Visual Resolution Test Of Image Intensifiers
Optik Elektronik Gerätetechnik GmbH
Visual evaluation of image intensifier tubes with regard to resolution and image quality.
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Measuring Microscopes, Image Processing + Semiconductor Technology, Micro Scriber
Line Width Measurement
Optik Elektronik Gerätetechnik GmbH
COMEF is an image processing software with special functions for the highly accurate measurement of line width and line distance. Using grey value algorithms, the width and distance of conductor lines or structures on silicon wafers can be measured with subpixel accuracy.
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Measuring Devices For Drawing Rings And Punches For 2-part Can Production
RINGMASTER - The Benchmark For Accuracy
Optik Elektronik Gerätetechnik GmbH
High-precision, non-contact measurement of inside and outside diameter, roundness (inside and outside) and concentricity of drawing rings for 2-piece can production. The Ringmaster sets standards in measuring accuracy, user friendliness and reliability and is therefore used in can factories on all continents.
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Measurement Of Surface Tenison Using The Pendant Drop Method
SURFTENS PD
Optik Elektronik Gerätetechnik GmbH
SURFTENS PD is an image processing software for measurement of surface tension of liquids by pendant drop method. By help of drop shape analysis the surface tension is calculated, using the form parameters of the pendant drop. SURFTENS PD is used in connection with OEG equipment, but also available as standalone solution for applications of customer.
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Optics Test Equipment
MTF Measuring Systems For Industrial Applications
Optik Elektronik Gerätetechnik GmbH
The MTF (modulation transfer function) is a recognized quality criterion for the imaging quality of optics. OEG GmbH develops and manufactures computer-controlled, fully automatic measuring systems for MTF and other parameters for quality assurance in optics production, incoming goods inspection, research and teaching.
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Optics Test Stations For Single Lenses And Optical Systems
OTS
Optik Elektronik Gerätetechnik GmbH
The optics test stations of the OTS series enable the computer-based, software-controlled measurement of optical parameters of individual lenses (including cylindrical lenses) and optical systems. Measured variables are, for example, focal length, MTF, focal length, radius, contact dimension, centering, wedge angle and deflection angle. The optional software module LensTest enables the measurement of the center thickness of lenses and air gaps in complete lenses as well as the measurement of the centering error of individual surfaces.
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Measuring Microscopes, Image Processing
COMEF
Optik Elektronik Gerätetechnik GmbH
Image processing system.
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Measuring Systems For Beverage Can Manufacture
OTP – Optical Tool Profile Gauge
Optik Elektronik Gerätetechnik GmbH
Optical measuring system for the inside profile of drawing dies for the 2-piece can manufacture.
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Meters for Contact Angle and Surface Tension
SURFTENS UNIVERSAL
Optik Elektronik Gerätetechnik GmbH
Robust measuring device for contact angle, SFE and surface tension with numerous equipment variants such as motorized dosing systems, multiple dosing systems and tilting device.
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Optics Test Systems
Lens Test
Optik Elektronik Gerätetechnik GmbH
LensTest enables the measurement of air gaps, lens thickness, lens radii and lens surface centration errors in mounted lenses as well as the active alignment of lens surfaces during optics assembly for centering without rotating the assembly.
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Meters For Contact Angle And Surface Tension
Contact Angle Standard
Optik Elektronik Gerätetechnik GmbH
The contact angle standard is a glass plate with images, representing sessile drops with different contact angles. The contact angle standard is manufactured by a high accurate lithographic process, so the images itself are very accurate according the given CAD-data. The Glass plate is placed on the measuring table instead of a real drop. The proof of the reproducibility of the contact angle measurement is performed by a repeated measurement of the object (sessile drop). For a correct test, the measurement must be performed, using the live video (not a frozen image). For a real sessile drop exists the problem, that it evaporates permanently. The result of the permanent evaporation is the permanent change of the contact angle. Therefore, the proof of the reproducibility of the contact angle measurement is not possible, using a real liquid, since the object changes permanently the contact angle!
