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Optical Comparator Array
Each OPR5011 device is a hybrid sensor array that consists of three channels of the OPTEK OPC8332 differential optical comparator (‘TRI-DOC”) IC. The single chip construction ensures very tight dimensional tolerances between active areas.
Specifically designed for high-speed/high-resolution encoder applications, the open collector output switches based on the comparison of the input photodiode’s light current levels. Logarithmic amplification of the input signals facilitates operation over a wide range of light levels. The surface-mountable opaque polyimide package shields the photodiodes from stray light and can withstand multiple exposures to the most demanding soldering conditions, while the gold-plated wraparound contacts provide exceptional storage and wetting characteristics.
Features:
- Precise active area location
- Surface mountable
- TTL compatible output
- Wide supply voltage range
- Wide operating temperature range
Applications:
- High-speed applications
- High-resolution applications
- Applications requiring a wide range of light levels
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Features:
- 16"(400mm) Vertical screen for optimum viewin
- Erect profile image with fully corrected surface reflection image
- High resolution ground glass screen with calibration reticle, 90 degree cross lines and chart clips
- Machined chart ring with vernier protractor
- Electronic rotary screen protractor with selectable 1 minute or 1 /100 of a degree resolution
- Coated telecentric parfocal optics
- Quick change single lens mount
- Fiber optic surface illumination
- Integrated hood
- Nickel plated, completely cast iron workstage
.Triple axes solid crossed roller stage system
.Twin universal dovetails
.18" x 5" Overall size
.10" X Axis travel with "glide release"
.6" YAxis travel (rise a fall)
.110 lbs. Capacity
.±15 Degree true parfocal helix table adjustment with 5 minute vernier
- Available with 3 axes of measurement
- Optional 20" extended stage travel on "X" axis Available with internal or external edge sensing Optional swing away lamp house arm
- Optional motorized CNC full computer controlled readout systems
- 10X Lens system included
- NIST traceable calibration certificate
- 2 Year limited warranty
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Features:
- Automatic, real-time target identification
- Track up to 512 targets
- Measure up to 4500 measurements per second
- Report in a fixed frame of reference or dynamically reference relative to other moving targets
Key Benefits:
- High speed 3D tracking of targets
- Real-time 6DOF tracking of multiple objects
- Measure dynamic behaviour of parts, structures, and assemblies
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Optical micrometers.
RF65X Series
Application domain
Laser micrometers are designed for non-contact measurement and control of position and dimensoins (diameter, thickness, gaps) of technological objects as well as for measuring levels of liquid and bulk materials .
RF651 model. Operating principle
The micrometer operation is based on the so-called shadow principle. The micrometer consists of two blocks transmitter, 1 and receiver, 2. Radiation of a semiconductor laser 3 is collimated by a lens 4. With an object, 5 placed in the collimated beam region, shadow image formed is scanned with a CCD photo-detector array 6. A processor 7 calculates the position (size) of the object from the position of shadow border (borders)
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Corning Tropel Corporation designed the UltraFlat 200 Mask System specifically for the photomask industry. It delivers the lowest measurement uncertainty for ever-tightening mask flatness specifications. Shrinking device features require not only flatter wafers, but flatter masks.
The UltraFlat system is used to measure flatness of photoblanks and photomasks throughout every stage of manufacturing and use, including, substrate polishing, coating and patterning to analyze film stress, and verification.
UltraFlat system utilizes near-normal incidence interferometry, rock solid structural design, state-of-the-art optical fabrication techniques and Tropel's renowned phase shifting analysis software to deliver 20 nanometer measurement uncertainty.
The system is NIST traceable and provides measurements that conform to SEMI standards. An automated photomask handling and measurement configuration is also available.
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The Optical Micrometer is a portable instrument capable of making non-contact depth measurements on virtually any surface, curved or flat. Available with either 100x or 200x magnification, an easy to read venier scale enables the operator to optically measure the difference in height of one surface to another; an optional reticle eyepiece allows width measurements. This instrument is useful for measuring depth of scratches, cracks, blind holes, dents, pits and other surface blemishes in all types of materials. For transparent materials (i.e. glass, acrylic), the optical micrometer can measure crazing, fractures, embedded voids and material thickness. Popular in the aircraft industry, the optical micrometer may be used in the field to measure surface features on windshields, leading edges, airframes, fuselage skin, propeller blades, rotor blades, coated surfaces, plus many more.
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To control the quality of your manufacturing, you need the best tools for the job. And to control costs, you want the best value for your money. The OGP® Focus™ Contour Projector® definitely meets both requirements.
Focus is a rugged benchtop unit with a 14" viewable screen diameter. Its extensive list of standard features makes Focus best in class.
A range of options makes it easy to configure Focus for your specific requirements. Choose a single magnification manual system for quick checks or fill the internal turret with magnification lenses you use most. Add the joystick controlled motorized worktable for fully automated CNC operation. Projectron™ automatic edge detection, and SmartCheck® metrology software are other popular options.
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Mirrors are available in a variety of sizes and shapes. In addition to shape and dimensions, the primary factors that need to be considered when specifying a mirror are: the reflective coating, the substrate material, the flatness or surface accuracy, cosmetic surface quality.
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Mirrors are smooth, and contain a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called front surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or reflected light. The rear surface is usually fine ground. All of the following mirrors have a protected Aluminum coating applied to the front surface.
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Dicool - optical mirrors that optimise the quality of light
Dicool optical mirrors maximise the power of lamps and the performance of luminaires.
Cool, efficient light
- Reflection rate: Approx: 91%
- Reduction rate (IR): Approx. 85%
- Reduction rate (UV): Approx. 96%
Easy on the environment
Reduces waste at relamping by approx. 90% because you only have to replace the lamp.
Choice of colour temperature
2000K, 2200K, 2400K, 3000K and 4200K series are available
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* Cold Mirrors
* Hot Mirrors
* Hybrid Hot Mirrors
* Laser Mirrors
* Metallic Mirrors
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Mirrors
Mirrors are used in many different applications including imaging, illumination control and laser propagation. Mirrors at MediVision are manufactured in a variety of shapes and coatings.
Materials: Borosilicate Glass
Optical Crown
Fused Silica
Quartz, Zerodur
Shapes: Flat, spherical, square, round, rectangular, Elliptical, other custom shapes
Sizes: 4mm to 500mm
Coatings: Metal, Dielectric
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Front surface mirrors are coated with aluminum or dielectrics for maximum reflection. Tempotec provides both kinds of front surface mirrors: Metal coated mirror and Dielectric coated mirror.
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