Autofocus AF910
Description
The Quantum Composers Autofocus AF910 combines a proprietary optical configuration with flexible interface architecture to provide a robust autofocus for OEM applications utilizing infinity corrected objectives. Includes patterned surfaces such as TFT arrays, semiconductors and PCBs. An optional interface adapter may be included which allows for custom electrical interfaces. The sensor I/O signals can be broken out into separate connectors, allowing for integration into existing systems. Serial communications provides configuration, status and control of the sensor. The sensor can store up to 7 configurations, each optimized for a different objective.
Autofocus AF910
Specifications |
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Objective Lens Options: | 2X, 5X, 10X, 20X, 50X, 100X |
Focus Repeatability (full Range): | 0.4 um |
Focus Accuracy (full Range): | 0.6 um |
Resolution: | 2.00 um |
Features
Low and high reflectivity
Specular and diffuse
Transparent and opaque
RS 232
Analog output
Step/ Direction motor drive control
In focus, in range status, edge detect status
Applications
For pricing, technical or any other questions please contact the supplier
- No registration required
- No markups, no fees
- Direct contact with supplier
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Ships from:
United States
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Sold by:
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On FindLight:
since 2016
Frequently Asked Questions
The Autofocus AF910 is used for OEM applications utilizing infinity corrected objectives, such as laser optics, imaging, vision, and microscopy.
The Autofocus AF910 can be used on low and high reflectivity, specular and diffuse, transparent and opaque surfaces, including patterned surfaces such as TFT arrays, semiconductors, and PCBs.
The Autofocus AF910 provides various interface options, including RS 232, analog output, step/direction motor drive control, in focus/in range status, and edge detect status.
The Autofocus AF910 can store up to 7 configurations, each optimized for a different objective.
The technical specifications of the Autofocus AF910 include focus repeatability, focus accuracy, resolution, linear range, capture range, and various inputs and outputs. Please refer to the datasheet for more information.