The world's fastest sampling and high precision (measurement linearity ±0.5% F.S.) laser autocollimator that achieves both.
Our conventional model, the "Laser Autocollimator," detects the reflection of parallel light projected from a semiconductor laser and measures the tilt of an object non-contactly, but it was limited to stationary objects. The "High-Speed Angle Displacement Meter HRAID" can measure the angle of a moving object "dynamically." World's fastest sampling Over 16,000 times faster than conventional methods, with 500 kHz (2 μs) sampling. For a rotating body at 10,000 rpm, it achieves measurement of 3,000 points per revolution. Long measurable distance By maintaining a distance from the object, the workability of measurement is improved. Equipped with analog voltage output Can be connected to oscilloscopes and FFT analyzers. (It is possible to build a correlation environment with conventional analysis methods.)
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basic information
Traditionally, to dynamically measure the angle of an object that is displacing at high speed, several distance measurements such as "height and length" were taken to convert into angles. However, this approach could not resolve issues arising from measurement errors due to positional inaccuracies of the measurement points and insufficient resolution. The high-speed, high-resolution autocollimator "HRAD" is the industry's first high-speed autocollimator that utilizes semiconductor lasers to dynamically measure the angle of objects displacing at high speed without contact. It can measure changes in the tilt posture of high-speed rotating bodies (such as rotating disks, motors, mirrors, etc.) and high-speed oscillating bodies (those that vibrate or tilt). By adopting an autocollimator optical system, it directly captures the "angle," completely eliminating the factors that caused measurement errors in conventional methods. With a low aberration optical system and unique electronic and computational circuits that leverage the responsiveness of the light-receiving elements, we provide our customers with a reliable measurement environment that is high-speed and high-resolution.
Price range
P5
Delivery Time
P4
Applications/Examples of results
1. Dynamic surface runout and axis tilt inspection of optical disc spindle motors 2. Dynamic surface runout and axis tilt characteristic inspection of optical disc drives 3. Dynamic surface runout and axis tilt inspection of HDD spindle motors 4. Tilt inspection of HDD suspension heads 5. Dynamic surface tilt inspection of polygon scanner motors 6. Dynamic characteristic inspection of galvanometer mirrors and resonant scanners 7. Dynamic characteristic inspection of MEMS 8. Dynamic identification inspection of image stabilization components in digital cameras 9. Dynamic posture changes of VCM for mobile phone cameras 10. Dynamic characteristic inspection of the actuator section of optical pickups 11. Dynamic characteristic inspection of the beam expander section of optical pickups
Company information
Since its founding, Suruga Seiki has been supplying highly competitive products in the optical equipment market for 50 years. In rapidly developing mobile devices such as smartphones and tablets, as well as in the automotive sensor field, Suruga Seiki's technology has become indispensable. In recent years, the company has expanded into overseas markets in Europe, America, and Asia with application systems that further develop its core technology.
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