Sensitive Fiber Optic Measurement Sensors for nanomotion and vibration
Measure dynamic edge position, displacement, and vibration at frequencies up to 500 kHz. The unique fiber optic probe design can accommodate a wide range of target reflectivity or shape, making it ideal for wide variety of applications such as ultrasonic horn vibration or Piezo electric materials studies.
For measurement of dynamic edge position, displacement, and vibration at frequencies up to 500 kHz
Sensitive Fiber Optic Measurement Sensors for nanomotion and vibration
Measure dynamic edge position, displacement, and vibration at frequencies up to 500 kHz. The unique fiber optic probe design can accommodate a wide range of target reflectivity or shape, making it ideal for wide variety of applications such as ultrasonic horn vibration or Piezo electric materials studies.
Features
Random Fiber Distribution- As the probe-to-target distance increases, increasing amounts of light are proportionally captured by the receive fibers. The result is a very sensitive, linear output response (Range 1). A continued increase in probe gap will proportionally reduce the amount of light received, results in a sensitive, linear output response (Range 2) with a large measurement range and standoff distance.