High-speed ±10 degree measurement using the autocollimator method.
Background of Development Is it possible to measure wide angles that greatly exceed a measurement range of ±1 degree? This product was developed in response to such customer requests. Conventional wide-angle measurements required the use of three displacement sensors to measure the heights of three points and then convert those into angles. However, this method necessitated three displacement sensors and sufficient installation space, making it impossible to measure small objects. Our company has solved this problem with a product that utilizes the autocollimation method. Features - Ultra-wide measurement range - High-speed measurement (10K sampling) - Analog (±5V) measurement data output
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basic information
Measurement range ±10 degrees
Price range
P5
Delivery Time
Applications/Examples of results
- Measurement of gimbal tilt for drone cameras - Tilt measurement of periscope cameras and folded camera modules in smartphone camera modules with inclined OIS - Measurement of tilt for MEMS mirrors
Line up(1)
| Model number | overview |
|---|---|
| WT-2600 | Measurement range ±10 degrees |
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Company information
Partner in Optical Non-Contact Measurement Welcome to Katsura Opto Systems Katsura Opto Systems is a global R&D company with expertise and staff in optics. Non-contact measurement everywhere Precision values that are essential for measurement are required from measuring instruments, as they ultimately relate to the quality of the final product, which is what Katsura Opto Systems believes. The best and highest quality products As a manufacturer ourselves, we continuously incorporate the latest technology into product development while striving for optimal productivity, accuracy, and technological advancement. Variability in measurements due to human factors can affect the final product, potentially leading to lost contracts and market share. Katsura Opto Systems' non-contact measurement products assist in achieving stable measurements anytime and anywhere.