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Supplier: MTC Industries & Research Carmiel Ltd.
Description: The LVDT-2005 is a miniature electro-mechanical transducer, linearly converting position of an object, mechanically attached to it, to AC output. Particularly suitable for highly accurate measurements in harsh environmental conditions, such as vibration and high acceleration. Available
- Measurement Range: 0.8661 inch
- Operating Temperature: -15 to 80 F
- Output: Voltage
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Supplier: MTC Industries & Research Carmiel Ltd.
Description: The LVDT-1901 is a miniature electro-mechanical transducer, linearly converting position of an object, mechanically attached to it, into DC Voltage. Particularly suitable for highly accurate measurements in harsh environmental conditions, such as vibration and high acceleration.
- Measurement Range: 0.3150 inch
- Operating Temperature: -40 to 80 F
- Output: Voltage
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Supplier: DigiKey
Description: GENERAL PURPOSE LVDT SE
- Measurement Range: 0.5000 inch
- Operating Temperature: -67 to 302 F
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Supplier: DigiKey
Description: LVDT MODEL HR 200
- Measurement Range: 0.2000 inch
- Operating Temperature: -67 to 302 F
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Supplier: DigiKey
Description: GENERAL PURPOSE LVDT HR
- Measurement Range: 0.0051 inch
- Operating Temperature: -67 to 302 F
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Supplier: DigiKey
Description: GENERAL PURPOSE LVDT HR
- Measurement Range: 1 inch
- Operating Temperature: -67 to 302 F
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Supplier: Ametek Solartron Metrology
Description: 2.6mm measurement range Rugged construction Short body length SM transducers cover two standard linear ranges from ±1mm to ±3mm. They are designed for measuring displacement in applications where infinite resolution and repeatability are
- LVDT Type: Current Balance AC-AC
- Linearity: 0.2500 ±% Full Scale
- Measurement Range: 0.0394 to 0.1181 inch
- Operating Temperature: -40 to 185 F
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Supplier: Kavlico
Description: -by-wire systems, environmental control systems, and more. Single Channel LVDTs Linear Variable Differential Transformer (LVDT) is a linear position sensor that produces an electrical signal proportional to the displacement of a moveable core
- LVDT Type: Current Balance AC-AC
- Linearity: 0.2500 ±% Full Scale
- Measurement Range: Over 1.00E-3 inch
- Operating Temperature: -65 to 350 F
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Supplier: Kavlico
Description: Multi-Channel LVDTs When the design of a system requires more electrical redundancy to achieve the necessary system reliability, multi-channel LVDTs are the sensor of choice. This is often the case for military fly-by-wire aircraft. Multiple coil assemblies (each referred to as a
- LVDT Type: Current Balance AC-AC
- Linearity: 0.2500 ±% Full Scale
- Measurement Range: Over 1.00E-3 inch
- Operating Temperature: -65 to 350 F
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Supplier: OMEGA Engineering, Inc.
Description: detect the smallest movement the associated instrumentation is capable of identifying. These transducers utilize a precision linear variable differential transformer (LVDT) as the measuring source, together with hybrid ICs which include an oscillator, demodulator,
- LVDT Type: Current Balance DC-DC
- Linearity: 0.3000 ±% Full Scale
- Measurement Range: Over 0.0394 inch
- Operating Temperature: -4 to 176 F
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Linear Variable Differential Transformers (LVDT) - LVDT Long Stroke Displacement Transducer -- LD300Supplier: OMEGA Engineering, Inc.
Description: The LD300 Series provides our longest stroke length, up to 300 mm (12 inches), based on the established linear variable differential transformer principle. LVDT's, which are ac powered, ultimately produce the best accuracy using remote electronics. Special winding
- LVDT Type: Current Balance AC-AC
- Linearity: 0.2500 ±% Full Scale
- Measurement Range: Over 0.6000 inch
- Operating Temperature: -40 to 212 F
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Supplier: OMEGA Engineering, Inc.
Description: The LD630 Series current output displacement transmitters have improved IP67-rated sealing, coupled with polymer guides with rigid carriers. These transmitters are accurate and reliable, especially in wet and corrosive conditions. Output options are either direct-acting 4 to 20 mA or reverse-acting
- LVDT Type: Current Balance DC-DC
- Linearity: 0.2000 ±% Full Scale
- Measurement Range: Over 0.1969 inch
- Operating Temperature: 32 to 149 F
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Supplier: OMEGA Engineering, Inc.
Description: The LD620 DC output displacement tranducers have improved IP67- rated sealing, coupled with new polymer guides with rigid carriers. These transducers are accurate and reliable, especially in wet and corrosive conditions. Output options are either ±5 Vdc (LD620) or 0-10 Vdc (LD621). An unusually
- LVDT Type: Current Balance DC-DC
- Linearity: 0.2000 ±% Full Scale
- Measurement Range: Over 0.1969 inch
- Operating Temperature: 32 to 149 F
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Supplier: Ametek Solartron Metrology
Description: 3, 12, 25mm measurement range 0.25% Linearity FRO Small 9.5mm body diameter With a 9.5mm body diameter, the Optimum Series of LVDT displacement transducers is the ideal choice for process control and research applications where space is limited. Optimum Series transducers are available
- LVDT Type: Current Balance AC-AC
- Linearity: 0.2500 ±% Full Scale
- Measurement Range: 0.0591 to 1.97 inch
- Operating Temperature: -40 to 302 F
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Supplier: Honeywell Sensing & IoT
Description: Aerospace Design Engineers working on flight controls, engines, nose wheel steering and pilot control applications have a need for continuous position monitoring. Honeywell’s Linear Variable Differential Transformers (LVDT) provide solutions for each of these
- Accuracy: 0.5000 %
- Operating Temperature: -67 to 464 F
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Supplier: Honeywell Sensing & IoT
Description: Aerospace Design Engineers working on flight controls, engines, nose wheel steering and pilot control applications have a need for continuous position monitoring. Honeywell’s Linear Variable Differential Transformers (LVDT) provide solutions for each of these
- Accuracy: 0.5000 %
- Operating Temperature: -67 to 464 F
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Supplier: Honeywell Sensing & IoT
Description: Aerospace Design Engineers working on flight controls, engines, nose wheel steering and pilot control applications have a need for continuous position monitoring. Honeywell’s Linear Variable Differential Transformers (LVDT) provide solutions for each of these
- Accuracy: 0.5000 %
- Operating Temperature: -67 to 464 F
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Supplier: Honeywell Sensing & IoT
Description: Aerospace Design Engineers working on flight controls, engines, nose wheel steering and pilot control applications have a need for continuous position monitoring. Honeywell’s Linear Variable Differential Transformers (LVDT) provide solutions for each of these
- Accuracy: 0.5000 %
- Operating Temperature: -67 to 464 F
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Supplier: Trans-Tek, Inc.
Description: The Series 230 3/8” AC LVDTs offer precision linear displacement measurements for applications with strokes from 0.01 to 2.0 inches. The transducers have been designed with an extremely low temperature coefficient, and non-linearity of less than ± 0.25% F.S. The small size of
- LVDT Type: Current Balance AC-AC
- Linearity: 0.2500 ±% Full Scale
- Measurement Range: 0.0500 inch
- Operating Temperature: -65 to 257 F
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Supplier: RDP Electrosense
Description: These transducers are for displacement / position measurement. They make an accurate position measurement of the movement of the armature (the sliding part) relative to the body of the displacement transducer.This transducer uses the Linear Variable Differential
- LVDT Type: Current Balance AC-AC
- Linearity: 0.2500 to 0.5000 ±% Full Scale
- Measurement Range: 7.87 inch
- Operating Temperature: -58 to 257 F
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Supplier: Alliance Sensors Group
Description: Specifically Designed and Engineered for Applications in Power Generating Steam Turbine Control Systems The Alliance Sensors Group PG Series linear sensors are the first LVDT-based valve position sensors designed and engineered specifically for applications in electric power
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Supplier: Trans-Tek, Inc.
Description: The Series 200 DC-DC LVDTs are precision Linear Variable Differential Transformers packaged with a solid state oscillator and a phase sensitive demodulator. The transducer is designed to work with DC voltages, and has excellent linearity, infinite
- LVDT Type: Current Balance DC-DC
- Linearity: 0.3000 to 0.5000 ±% Full Scale
- Measurement Range: 0.2000 inch
- Operating Temperature: -65 to 140 F
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Supplier: Trans-Tek, Inc.
Description: The Series 240 DC-DC LVDTs are an integrated package consisting of a precision linear variable differential transformer, a solid state oscillator, and a phase-sensitive demodulator. The transducer is designed for excellent linearity, infinite resolution, and
- LVDT Type: Current Balance DC-DC
- Linearity: 0.2500 to 0.5000 ±% Full Scale
- Measurement Range: 0.1000 to 0.1500 inch
- Operating Temperature: -65 to 250 F
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Supplier: M.A.E. Apparecchiature Elettroniche srl
Description: LVDT linear position transducer with spring loaded return head, 5 mm stroke, IP-65 - SPECIFICATIONS - Stroke: 5 mm spring loaded Accuracy: 0.5%FS Resolution: 0.001 mm Length: 22 cm Diameter: 3 cm Power supply: 24V Output: 0-5V Mounting plate and aluminum substrates sensor included.
- Accuracy: 0.5000 %
- Output: Voltage
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Supplier: Alliance Sensors Group
Description: Specifically Designed and Engineered for Applications Where Radiation is Present in Power Generating Steam Turbine Control Systems The Alliance Sensors Group PGxR Series linear sensors are the first LVDT-based valve position sensors designed and engineered specifically for
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Supplier: Ametek Solartron Metrology
Description: •±1, ±2.5, ±5, ±10 mm Measurement Range •DC Unipolar, Bipolar and 4-20 mA Output •Excellent Repeatability: 0.15 µ •Linearity 0.2% •Precision Ball Bearings •Large Selection of Probe Tips •3D drawings available
- LVDT Type: Current Balance DC-DC
- Linearity: 0.2000 ±% Full Scale
- Measurement Range: 0.0394 to 0.3937 inch
- Operating Temperature: 41 to 185 F
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Supplier: Alliance Sensors Group
Description: The LA-27 is robust and designed to survive heavy duty applications in harsh environments. This robust linear position sensor has a 1.050” OD aluminum housing (stainless steel housings are available), two double contact shaft seals to keep dirt and debris out, and is offered standard with
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Supplier: Alliance Sensors Group
Description: Linear Position Sensors Specifically Designed and Engineered for Applications in Power Generating Steam Turbine Control Systems The Alliance Sensors Group PGSD Series linear sensors are the first LVDT-based valve position sensors designed and engineered specifically for
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Supplier: Trans-Tek, Inc.
Description: The Series 210-220 AC LVDTs offer precision linear displacement measurements for applications with strokes from 0.5 to 60 inches. The transducers have been designed with an extremely low temperature coefficient, and non-linearity of less than ± 0.25% F.S. Variable pitch
- LVDT Type: Current Balance AC-AC
- Linearity: 0.2500 ±% Full Scale
- Measurement Range: 2 to 2.9 inch
- Operating Temperature: -67 to 257 F
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Supplier: RDP Electrosense
Description: These transducers are for displacement / position measurement. They make an accurate position measurement of the movement of the armature (the sliding part) relative to the body of the displacement transducer. This transducer uses the Linear Variable Differential
- LVDT Type: Current Balance AC-AC
- Linearity: 0.1000 to 0.2500 ±% Full Scale
- Measurement Range: 0.1969 inch
- Operating Temperature: -40 to 212 F
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Supplier: RDP Electrosense
Description: These transducers are for displacement / position measurement. They make an accurate position measurement of the movement of the armature (the sliding part) relative to the body of the displacement transducer. This transducer uses the Linear Variable Differential
- LVDT Type: Current Balance AC-AC
- Linearity: 0.1000 to 0.5000 ±% Full Scale
- Measurement Range: 0.1969 inch
- Operating Temperature: -4 to 257 F
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Supplier: Honeywell Test & Measurement
Description: Model VL7A (spring return armature) ac-ac long stroke displacement transducer is designed for measuring static and dynamic displacements from ±0.5 in to ±3.0 in. This model achieve impressive 0.25 % full scale non-linearities. Displacement transducer bodies and probes are constructed of
- Linearity: 0.2500 ±% Full Scale
- Measurement Range: 1 inch
- Operating Temperature: -58 to 257 F
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Supplier: Micro-Epsilon Group
Description: LVDT sensor with free moveable plunger. The 0n-contact measurement is completely wear-free. LVDT sensors are primarily used to measure and monitor movements, displacements, positions, strokes, deflections, dislocations, etc. in vehicles, machines and systems.
- LVDT Type: Current Balance AC-AC
- Linearity: 0.3000 ±% Full Scale
- Measurement Range: 0.0394 inch
- Operating Temperature: -4 to 176 F
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Supplier: Stellar Technology, Inc.
Description: LVDT displacement transducers provided by Stellar Technology are used for a myriad of test and measurement applications; from precision dimensional gauging to monitoring of fault-line movement. Whether the application is for aerospace, automotive testing, factory automation, quality
- LVDT Type: Current Balance DC-DC
- Linearity: 0.5000 ±% Full Scale
- Measurement Range: 0.5000 to 3 inch
- Operating Temperature: -60 to 180 F
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Supplier: Columbia Research Labs, Inc.
Description: The Columbia S Series LVDT's are designed to sense linear displacement over the ranges of +/-0.04" to +/-0.30" and translate this motion into a precisely proportional voltage for measurement and control. These transducers consist of a coil assembly potted and mechanically swaged into a
- LVDT Type: Current Balance AC-AC
- Linearity: 0.2000 ±% Full Scale
- Measurement Range: 0.3000 inch
- Operating Temperature: -65 to 275 F
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GT series gauging transducer employs precision linear bearings to optimise the LVDTs measurement precision and repeatability. Using the well-proven linear variable differential transformer (LVDT) principle delivering infinite resolution with absolute (read more)
Browse Linear Position Sensors Datasheets for RDP Electrosense -
displacement transducer. This transducer uses the Linear Variable Differential Transformer (LVDT) principle which means that it is probably the most robust and reliable position sensor type available. The strength of the LVDT sensor's principle is that there is no electrical contact across the (read more)
Browse Linear Variable Differential Transformers (LVDT) Datasheets for RDP Electrosense -
GT series gauging transducer employs precision linear bearings to optimise the LVDTs measurement precision and repeatability. Using the well-proven linear variable differential transformer (LVDT) principle delivering infinite resolution with absolute measurement (read more)
Browse Linear Variable Differential Transformers (LVDT) Datasheets for RDP Electrosense -
displacement transducer. This transducer uses the Linear Variable Differential Transformer (LVDT) principle which means that it is probably the most robust and reliable position sensor type available. The strength of the LVDT sensor's principle is that there is no electrical contact across the transducer (read more)
Browse Linear Variable Differential Transformers (LVDT) Datasheets for RDP Electrosense -
displacement transducer. This transducer uses the Linear Variable Differential Transformer (LVDT) principle which means that it is probably the most robust and reliable position sensor type available. The strength of the LVDT sensor's principle is that there is no electrical contact across the (read more)
Browse Linear Position Sensors Datasheets for RDP Electrosense -
are available. These transducers are for displacement / position measurement. They make an accurate position measurement of the movement of the armature (the sliding part) relative to the body of the displacement transducer. This transducer uses the Linear Variable Differential (read more)
Browse Linear Position Sensors Datasheets for RDP Electrosense -
transducer. This transducer uses the Linear Variable Differential Transformer (LVDT) principle which means that it is probably the most robust and reliable position sensor type available. The strength of the LVDT sensor's principle is that there is no electrical contact across the transducer position (read more)
Browse Linear Position Sensors Datasheets for RDP Electrosense -
transducer uses the Linear Variable Differential Transformer (LVDT) principle which means that it is probably the most robust and reliable position sensor type available. The strength of the LVDT sensor's principle is that there is no electrical contact across the transducer position sensing element which (read more)
Browse Linear Variable Differential Transformers (LVDT) Datasheets for RDP Electrosense -
transducer uses the Linear Variable Differential Transformer (LVDT) principle which means that it is probably the most robust and reliable position sensor type available. The strength of the LVDT sensor's principle is that there is no electrical contact across the transducer position sensing element (read more)
Browse Linear Variable Differential Transformers (LVDT) Datasheets for RDP Electrosense -
displacement transducer. This transducer uses the Linear Variable Differential Transformer (LVDT) principle which means that it is probably the most robust and reliable position sensor type available. The strength of the LVDT sensor's principle is that there is no electrical contact across (read more)
Browse Linear Position Sensors Datasheets for RDP Electrosense
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Ratiometric Measurements in the Context of LVDT-sensor Signal Conditioning
Ratiometricity is a common approach for measuring analog-sensor signals for the purpose of conditioning and standardizing the signal for proper operation with an industrial control system. In the context of linear-variable differential-transformer (LVDT) signal conditioning, ratiometric measurement
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Factors to Consider When Selecting an LVDT
With the myriad of linear position sensors available on today's market, selecting the right LVDT (Linear Variable Differential Transformer)for an application involves two high level choices, based on interfacing to the LVDT, as well as some lower level choices, based on the LVDT's performance
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AN509 SCM5B43 - DC LVDT Input Module
Linear variable displacement transducers (LVDTs) provide a method of measuring displacements with very high accuracy and infinite resolution. These type of transducers utilize a precision linear variable differential transformer (also referred to in the industry as LVDT) as a measuring source
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Application Note: Velocity Measurements
How do I measure the velocity of a hydraulic cylinder using a LVDT signal?. The customer is testing aircraft hydraulic cylinders. He is plotting the throw of the cylinder using an LVDT (Linear Variable Displacement Transformer) which outputs a voltage proportional to the displacement along
More Information Top
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Handbook of Force Transducers
The bridge signal is demodulated by the linear variable differential transformer ( LVDT ) chip AD698 (Analog Devices).
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Buckling Experiments: Experimental Methods in Buckling of Thin-Walled Structures Volume 2 Shells Built-up Structures Composites and Additional Topics Complete ...
The other end ring was then placed on the shell in the rig and scanning was performed (see Figure 10.13 ), a simple contact probe, a linear variable differential transformer ( LVDT ), being used for stiffened shells.
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Structural Health Assessment of Timber Structures
The deflections were measured with three linear variable differential transformers ( LVDT ) placed below the loading points as well as in the middle.
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Advances in FRP Composites in Civil Engineering
A linear variable differential transformer ( LVDT ) was placed besides the specimen to measure the displacement of FRP plate (Figure 3) relative to the fixed support.
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Method and Appartus for Calibrating a Linear Variable Differential Transformer
U.S. PATENT DOCUMENTS A calibration apparatus for calibrating a linear variable differential transformer ( LVDT ) having an armature posi- tioned in au LVDT armature orifice, and the armature able to move along an axis of movement.
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http://academiccommons.columbia.edu/download/fedora_content/download/ac:141650/CONTENT/AN_columbia_0054D_10428.pdf
7.3 The Linear Variable Differential Transformer ( LVDT ) . . . . . . . . . . . .
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Clinical pharmacology, physiology and pathophysiology of superficial veins‐1.
One of these, relying on the use of a linear variable differential transformer ( LVDT ) for determining changes in the compliance of superficial veins at a standardized congestion pressure, has been found very suitable for the practical application in both patients and healthy …
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Springer Handbook of Metrology and Testing
One contains a linear variable differ- ential transformer ( LVDT ) that moves as a consequence of specimen deformation and produces an electrical sig- nal that is proportional to the motion.
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Springer Handbook of Materials Measurement Methods
One contains a linear variable differen- tial transformer ( LVDT ) that moves as a consequence of specimen deformation and produces an electrical sig- nal that is proportional to the motion.
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Handbook of Non-Invasive Methods and the Skin
The measuring rod is connected to a linear variable differential transformer ( LVDT ), the output of which is recorded graphically.