Displacement Sensors

Displacement transducers and displacement sensors ensure reliable measurement results in many areas of research, development and production. Almost all of our displacement transducers work according to the extremely reliable inductive measurement principle. They are easy to use and rugged, can achieve high precision, and feature minimum wear.

Fiber Optic Technology

Based on the newLight® technology, FS61DSP Displacement Sensor is a ruggedized Fiber Bragg Grating (FBG) sensor designed to measure linear displacement on different types of structures. The sensor uses two FBGs in a push-pull configuration for effective temperature compensation.

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Inductive technology

An inductive displacement sensor functions according to the principle of inductance. A metallic core is moved in the vicinity of a coil through which alternating currents flow, thereby causing a change in the impedance and the alternating current resistance of the coil wit

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Strain gauge technology

The strain-gauge-based DD1 displacement and strain transducer measures displacements in a range of ±2.5 mm very accurately, offering the HBM accuracy class of 0.1. It is a unique product in the market due to its wide range of possible applications.

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Accessories for displacement sensors

Enhance the capabilities of your displacement transducers with our precision-engineered accessories.

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For reliable displacement measurements

HBK offers various displacement transducers, sensors and probes in a variety of designs and lengths. They use inductive measurement principle, strain gauge measuring bridges or fiber bragg gratings.

How Does an Inductive Displacement Sensor Work?

An inductive displacement sensor functions according to the principle of inductance. However, the following questions still need answering: What exactly is it? What is behind it? How is it technically implemented? What are its advantages?

Inductive working principle

Going back to the basis of the principle of action, it can be stated as follows:

A metallic core is moved in the vicinity of a coil through which alternating currents flow, thereby causing a change in the impedance and the alternating current resistance of the coil within this coil. This change can be measured and amplified with skillful wiring (see Wheatstone Bridge Circuit, explained briefly). Thus, a change in displacement can be represented in an electrical signal.

There are different approaches to the technical implementation. Most displacement transducers at HBK are designed as active quarter bridges or half bridges, which, then, are internally supplemented to form half or full bridges. Strictly speaking, this means that only one or two parts of the bridge circuit are coils, while the other parts are represented by resistors.

In order to optimize linearity and temperature behavior, special methods are employed to wind the coil and create the magnetic core.

Advantages of Inductive Displacement Measurement Technology

As there is no contact between core and coil due to the principle, the inductive measuring principle should be regarded as wear free. It is, of course, ideal for service life and maintenance costs. Depending on the version, only the linear guide touches the probe rod with a guide. However, the guide can be designed very well and can, hence, be used for many years without any problems.

Furthermore, a special feature of the inductive measuring principle is the quasi infinite resolution as, in contrast to other principles, it only has a coupling through a magnetic flux. The limitation lies in the technology of the amplifier used. However, with modern measurement technology and high-quality products, resolutions in the micrometer range can be achieved.

Moreover, a third and often significant advantage of this principle is the special quarter- or half-bridge design. In contrast to Linear Variable Differential Transformers (LVDT), HBK displacement transducers have fewer coils and, therefore, require less installation space.

Displacement Sensor Product Range from HBK

After the explaining the function and advantages of HBK, the question of how to implement them still remains. At HBK, the inductive displacement sensors can be divided into three series:

WA-L and WA-T: The "all-rounders"; versatile; with loose plunger(-L) or as probe (-T)
WI: price optimized; compact; probe
W1ELA/0: Installation variant consisting of coil former and plunger; no housing

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