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Portrait of Thomas Kleckers, Product and Application Manager - Force Sensors and Transducers at HBK
Thomas Kleckers 

Product and Application Manager HBK

In this interview, we speak with Thomas Kleckers, Product Manager at HBK, about the latest advancements in strain transducers and their benefits over traditional force transducers in industrial applications.

In this interview, we speak with Thomas Kleckers, Product Manager at HBK, about the latest advancements in strain transducers and their benefits over traditional force transducers in industrial applications.

 With years of experience in force measurement technology, Thomas shares valuable insights into the design and functionality of HBK’s strain sensors, such as the SLH700. He explains how these innovations are transforming critical sectors like structural monitoring and heavy load measurement. Through his expertise, we gain a deeper understanding of how these technologies can enhance accuracy, simplify installations, and reduce costs in demanding industrial environments.
 

What is the operating principle of strain transducers?

Strain transducers work by detecting the deformation of an object under an applied force. At HBK, we offer two main technologies: CSW piezoelectric strain sensors and SLH strain gauge sensors.

The SLH sensors, in particular, use a full-bridge strain gauge circuit, which allows them to be compatible with a wide range of standard bridge amplifiers, making integration into existing systems very simple and flexible. Designed with ease of installation and durability in mind, the SLH sensor is made from stainless steel, providing excellent corrosion resistance and suitability for harsh industrial environments. Additionally, it is hermetically sealed, offering optimal protection for the strain gauges against moisture and contaminants, achieving an IP68 protection rating. This level of protection is critical for environments where sensors are exposed to extreme conditions such as dust, water, or significant temperature fluctuations.

Finally, the spring body design minimises force shunting, ensuring highly accurate measurements with double the sensitivity of traditional bonded strain gauges. This allows the capture of very low forces or subtle variations with suitable precision. Amplified versions, with current or voltage outputs, further simplify the measurement process, reducing the cost of additional equipment. 
 

In which scenarios would you suggest using strain transducers instead of force transducers?

Strain transducers are particularly well-suited for applications where very high forces or weights need to be measured, often in challenging environments. For instance, they are indispensable when measuring press forces in the meganewton range. Their robustness and resistance to extreme conditions make them ideal for outdoor installations, such as measuring weights on silos. Strain transducers excel in harsh industrial environments, providing reliable measurements even in complex configurations. They are especially practical in situations where integrating a load cell into the machine design is difficult or impossible. Installation is straightforward, requiring only that the transducer be screwed onto a suitable surface, allowing for quick implementation without major infrastructure modifications. Calibration after installation is necessary if quantitative measurements are required.
 

What features make the SLH700 ideal for applications such as structural monitoring and silo weighing?

The SLH700 excels in applications like structural monitoring and silo weighing due to its robust and durability-focused design. Its IP68 protection rating ensures operation in very harsh conditions, including exposure to water, dust, and extreme temperatures. The hermetic sealing fully isolates the internal strain gauges from external elements, extending the sensor’s lifespan and ensuring reliable long-term performance. It is constructed from stainless steel – a preferred material in tough industrial environments. Additionally, its cable is designed to withstand most industrial fluids, providing extra protection against chemical exposure. This combination of durable materials and robust design makes the SLH700 an ideal choice for applications where long-term durability and precision are critical.
 

The SLH700 is offered both with and without an integrated amplifier. When would you recommend using the SLH700 with an integrated amplifier versus without?

Using the SLH700 with an integrated amplifier is often the best solution as it simplifies installation and reduces costs. By providing a direct, usable signal output (in current or voltage), it eliminates the need for additional external amplifiers, which can complicate the system. This makes it particularly advantageous for installations where simplicity and efficiency are priorities. However, for specific applications such as press force monitoring, where multiple sensors need to be used in parallel, the version without an integrated amplifier (passive version) is more appropriate. The 1000 Ohm input resistance allows for multiple sensors to be connected in parallel, which is essential in this type of application.
 

How does the SLH700 differ from other strain sensors for force measurements?

The SLH700 stands out due to several technical features that make it unique. One of the main differences is its low rigidity, which results in minimal force shunting. This means the sensor’s influence on the measurement is extremely reduced, which is critical in applications requiring high precision, especially those involving relatively low forces. Additionally, its robust and hermetically-sealed design allows it to perform reliably in demanding environments where other sensors might fail. The SLH700 is also designed for easy installation, requiring only two screws, which reduces both time and costs associated with system integration. These features make it a versatile sensor, ideal for a wide range of industrial applications.

 

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