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Mti 2000 fotonic optrical sensor & processor warranty
Unmatched Performance in Non-contact, Fiber-Optic Measurement
The MTI-2000 offers features and performance improvements for tough displacement and vibration applications. User-defined features assure simple setup and easy operation. The MTI-2000's modular design provides the user with a wide range of interchangeable fiber-optic probe modules. Additionally, all probe modules feature two operating ranges, one for high resolution and the other for greater range. Built-in high and low-pass filters, that minimize interference and increase resolution, are standard. Fotonic Sensors are immune to electromagnetic interference (EMI) and operate in almost any environment or on any type of surface or material: metallic, nonmetallic, composite, plastic, glass, ceramic or liquid.
Surface Flaw Detection Edge Detection
Dual-channel capability permits simultaneous measurements of amplitude and phase.
Digital display readout in engineering units eliminates the need to convert volts to displacement.
Out-of-range indicator notifies the user if the target moves out of the linear range.
Interchangeable probe modules allow the user to select from seven standard fiber-optic probe designs, providing 14 different standard measurement ranges and resolutions.
High-resolution module resolves to 0.1 µin. standard or 0.01 µin. (2.5A°) optional. With external filtering, 0.004-µin. (0.1nm) resolution is possible.
Standard 0-to-10 V dc analog real-time output is compatible with most signal conditioning equipment. An optional RS-232 output is also available.
Fiber-optic Edge Position Sensing
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The MTI-2000 Fotonic Sensor is the newest addition to the MTI Instruments' product line of high-resolution, fiber-optic measurement systems. The MTI-2000 offers new features and performance improvements that meet the exacting measurement requirements of displacement and vibration applications in the 1990s. It sets new performance standards with resolution to 0.01 microinch (2.5 angstroms) and frequency response from direct-coupled (DC) to 150 kHz. User-defined features assure simple setup and easy operation.
Versatile for many applications
The MTI-2000's modular design has the flexibility to be tailored to specific requirements through the use of a wide range of interchangeable optic probes. Fotonic Sensor probes are immune to electromagnetic interference (EMI) and operate on almost any type of surface or material: metallic, nonmetallic, composite, plastic, glass, ceramic or liquid.
Dual-channel capability enables the user to use two probes to make simultaneous measurements, essential for studies of structural dynamics. For increased versatility, all probe modules feature two operating ranges; one for high resolution and the other for greater range. Each probe module has integral high-pass and low-pass filters that minimize interference and increase resolution.
MTI-2000 Fotonic probe modules contain two sets of optical fibers. Light-transmitting fibers and light-receiving fibers are bundled together in three different configurations (random, hemispheric, and concentric transmit inside). Displacement measurement is based on the interaction between the field of illumination of the transmitting fibers and the field of view of the receiving fibers.
At contact, or zero gap, most of the light exiting the transmitting fibers is reflected directly back into those fibers. No light is provided to the receiving fibers and the output signal is "zero". As the probe-to-target distance increases, increasing amounts of light are captured by the receiving fibers.
In the typical response curve, Range 1 is the initial, highly sensitive positive slope. This area of response is used for measurements in the microinch range. The less sensitive, negative portion of the curve (Range 2) is used for measurements that require greater standoff distance with less sensitivity and resolution.
Advanced solutions for demanding applications
MTI Fotonic Sensors have been used successfully in the computer disk-drive, aircraft, microelectronics and automotive industries; research laboratories; and universities.
Nonintrusive Vibration Analysis
Displacement and phase of magnetic and optical disk-drive read/write heads, actuators and servo mechanisme.
Resonant response of printed circuit boards and electronic components.
Model analysis of composite materials.
Vibration of fuel rods submerged in hot water.
Vibration amplitude of ultrasonic equipment components.
Sonar transducer displacement, frequency and waveshape.
Sonar transducer displacement, frequency and waveshape.
Stepper-motor dynamics and repeatability.
Mechanical shock pulse displacement and waveshape.
Rolling element bearing performance.
Dot-matrix printer mechanism motion.
Ink-jet printer mechanism motion.
Measurement of Nonmetallic Materials
Thin-film vibration and thickness
Two fiber-optic probes are used to perform model analysis on a computer read/write head. With a high frequency response that makes it possible to measure both displacement and phase, the Fotonic Sensor has been chosen as the best instrument for this type of analysis by measurement experts in the U.S. and Japan.
The Fotonic Sensor accurately measures the vibration amplitude of an ultrasonic welder tip at high frequencies and accelerations
With frequency response from dc to 150 kHz, the Fotonoc Sensor is ideal for analyzing squarewave and complex motions. The MTI-2000 is used here to measure the absolute travel and bounce of a fuel-injector valve.
Two fiber-optic probes are used to measure surface displacement of a ceramic resonator. Fotonic probes are immune to electromagnetic interference (EMI) and operate effectively on a wide range of surfaces including nonmetallic materials, ceramic. glass. plastic, and composites.
Surface flaws in metals, semiconductors and ceramics
Biomechanics: muscle response and hearing studies.
Nonrepetitive runout of precision spindle.
Displacement of sealed assemblies using optical viewport.
X-Y-Z detection of out-of-plane motions.
Power Requirements: 117 VAC @ 0.36 A or 220 VAC @ 0.2 A, 50 to 400 Hz
Maximum Power Dissipation: 20 W
Line Voltage Stability: 105 to 130 VAC
Fuse: 0.5 A, fast-blow (requires an
IEC standard 3-prong grounded AC-pluf
Display: Meter Readout: 4.5-digit green vacuum
fluorescent, updates 4 times per second
Bargraph: 20-element green LED (0.5 V step size)
Vibration Measurements: Output Signal: 0 to ±10 VDC full-scale
range, 100 Ohm output impedance
Accuracy: Within 1.0 % for peak-to-peak
System Noise: Dependent upon probe type
Displacement Measurements: Output Signal: 0 to ±10 VDC
Switchable Offset Range: 0 to -15 V
Stability at 12 hrs. ±2 °F (-1 °C):
Drift less than 1.0 % of full scale
Stability at 60 ° to 95 °F (16 °C to 35 °C):
Drift less than 2.0 % of full scale
Environmental Requirements: Instrument Operating temperature: 50 °F
Instrument Storage Range: 0 °F to 150 °F
Dimensions: 4.5 in. (11.4 mm) H
Temperature Range: -100 °F to 300 °F
Operating Pressure Range: vacuum of
Cable Length: 54 in. (1372 mm) standard
220 VAC input power configuration
Display in metric engineering units
High-pressure/high-vacuum probes
Wide-temperature-range probes from
-310 °F to 1382 °F (-190 °C to 750 °C)
Optical Probe Extenders: Precision lens system that permit operation of standard probes at a greater standoff distance with no loss of probe sensitivity or frequency response.
Calibration Fixture: Secures the probe and calibrates the instrument to a nonrotating target, utilizing a precision micrometer. Can be used for initial calibration, calibration to a fluid medium, or in-place calibration checks.
Fixture Stands: Provides a stationary mounting for probes of any size.
We also have additional modules and probes - sold separately.
We are committed to 100% recycling and minimizing our waste. We use 99% recycled or previously used packaging products and try to minimize our environmental impact. Please reduce, re-use and recycle and save our planet for future generations.
