Displacement Sensor Models (LVDT)
Linear Variable Displacement Transformer (LVDT) sensors from Stellar Technology are used worldwide in the gauging and monitoring of assembly processes, valve position, resistance weld stroke, oil & well drilling equipment, mining equipment and pavement studies. Take a look at all of our LVDT options below and find the displacement sensor to meet your needs.
Complement Your LVDT Transducer
As a leading LVDT manufacturer, Stellar Technology also provides a selection of DIN-rail mount signal conditioners to complement our AC/AC LVDTs.
These products provide valuable complementary solutions for those applications requiring high-level analog outputs in situations where the LVDT may be exposed to conditions detrimental to internal signal conditioning or the required LVDT configuration will not accommodate internal amplifiers.
Additionally, our LVDT sensors and transducers are used for many different types of scientific, industrial and research applications ranging from precision dimensional gauging to monitoring of fault-line movement.
All Stellar Technology LVDT sensors and transducers are fully welded and constructed of stainless steel, and utilize free unguided, captive guided or captive guided spring return armatures to meet the needs of the application.
Our LVDT transducers and sensors are available in AC or DC versions and accurately measure position and displacement within stroke ranges from ±0.01” to ±18.5” with accuracies of 0.25 to 0.5 percent FS. Non-linearity is 1 to 0.10 percent.
The Benefits of Using LVDT Transducers or Sensors
When measuring displacement, it’s important to have accurate readings with your selected displacement sensor. With some LVDT sensors, you can measure movements as small as a few millionths of an inch, but these transducers offer many more benefits beyond accuracy, such as:
- Long-Lasting Capabilities - Because of the unique design, there is no physical contact across the sensing element, meaning there is no wear on the linear displacement sensor.
- Friction-Free Operations - This design also allows for operations free of rubbing, dragging or other sources of friction, making them ideal for materials testing or high-resolution dimensional gauging systems.
- Unmatched Durability - Between the design and the high-quality materials we use to make each of our LVDT transducers, our sensors are designed to withstand the elements.
- Quick Response to Changes - As changes occur in the core position, LVDT transducers are able to quickly respond and adjust accordingly.
How to Select LVDT Sensors and Transducers
Don’t forget, if you have trouble finding a Stellar Technology LVDT transducer that accommodates your unique needs, you can work with our engineering team to create a custom sensor for your application.
With that being said, here are a few considerations to keep in mind as you make your selection:
Performance Considerations for a Linear Displacement Sensor
The first step to finding the right LVDT sensor is to determine what exactly you need it to do. What do you need it to measure? What performance capabilities must it have?
Before looking for an LVDT transducer, you should first:
- Determine the measuring range/scope that needs to be measured (the displacement from the null point)
- Determine the relationship between the LVDT and the part being measured
- Probe locates on part, but not attached
- Probe is attached, but cannot be removed from LVDT body
- Probe is attached and can be separated from LVDT body
- Select armature type needed
- Spring return (for applications measuring multiple targets)
- Captive guided (for applications requiring longer measurement ranges - ±0.5” to ±18.5”)
- Free unguided (for applications in which part moves parallel to LVDT body and requires frequent measurements)
- Identify engineering units required (inches, centimeters, millimeters, customer-specified)
- Accuracy of the sensor
- Thermal effect (how temperature affects the output)
- Total accuracy (static + thermal)
Mechanical Considerations for LVDT Sensors
- Physical requirements such as:
- Size constraints
- Probe-to-part relationship
- Location access
- Type of armature needed
- Thread type (captive guided, free unguided)
- Probe tip (spring guided)
- Mounting and fixtures
- Mounting orientation
- Mounting blocks
- Electrical output signal from the displacement sensor
- AC/AC (mV/V or V/V sensitivity)
- Electrical termination
- Connector or integral cable
- Need for mating connectors and cable assemblies
- Connector/cable orientation (axial or radial)
- Wiring codes and pin-outs
- Type of power supply per output
- Signal conditioning
- DIN-rail mount
- Set-up (outputs with armature position)
The environment in which your LVDT transducers will be housed is a vital consideration. This can affect the way your LVDT sensors function and their ability to adapt to the situation. Selecting an LVDT transducer that corresponds to the proper environment is essential.
Here are some environmental factors that should always been considered when selecting your sensor, including linear displacement sensors:
- Operating temperature range
- Compensated temperature range
- EMI/RFI conditions
- IP or NEMA rating requirements
- Hazardous environments; utilize a sensor that is:
- Intrinsically safe
- Indoor or outdoor use
- Exposure to the elements
- Dust, dirt, water, oils
- Temperature extremes
- Animals, critters, rodents, etc.
- Fresh water/salt water
- Case pressure
Certain applications may have specific requirements and needs. It’s important to recognize these needs so you can choose an LVDT transducer that can accommodate your application.
Special requirements for displacement sensors may include:
- Calibrations requirements
- Special approvals/certifications
- Special labeling requirements
- Service frequency
Contact Industry-Leading LVDT Manufacturer Stellar Technology Today
If you would like to learn more about our LVDT transducers and sensors, or would like to talk to someone about creating a custom sensor for your application, please contact us today.