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Accelerometer Sensors from Kistler
This Component Finder will make it easier for you to search for generic acceleration sensors that can be used for general measurements in research and development or in test laboratories. As well as generic acceleration sensors, Kistler offers a vast range of customized solutions for acceleration measurement in specific applications (see the information box on the right).
Accurate acceleration sensors are essential when measuring vibrations that can be heard as noise or felt as oscillations in vehicles or machines (noise, vibration, harshness – or NVH for short). In bridge-building and space travel too, vibration measurement is a key factor in verifying safety and cost-effectiveness. Kistler’s piezoelectric acceleration sensors always keep precise track of amplitude and frequency when measuring vibrations.
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Force Sensors from Kistler
This Component Finder will make it easier for you to search for generic force sensors that can be used for general measurements in research and development or in test laboratories. As well as generic force sensors, Kistler offers a vast range of customized force measurement solutions in specific applications (see the information box on the right).
In universities and industry, for basic research or quality assurance: exact data is always essential in order to measure forces and make processes more cost-effective. Thanks to their rugged design, piezoelectric quartz sensors from Kistler keep precise track of quasi-static and highly dynamic force processes, even when conditions are difficult. Our force sensors can also handle simultaneous measurements of multiple orthogonal force components.
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Pressure Sensors from Kistler
This Component Finder will make it easier for you to search for generic pressure sensors that can be used for general measurements in research and development or in test laboratories. As well as generic pressure sensors, Kistler offers a vast range of customized solutions for pressure measurement in specific applications (see the information box on the right).
Kistler offers both piezoelectric and piezoresistive sensors to measure pressure – so we have the right solution for many applications. Piezoelectric pressure sensors are suitable for measuring highly dynamic, dynamic and quasi-static pressure curves or pulsations. Piezoresistive pressure sensors are suitable for measuring static and quasi-static pressure curves.
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Signal Conditioning
This Component Finder will make it easier for you to search for signal processing solutions that can be used for general measurements in research and development or in test laboratories. As well as generic signal processing solutions, Kistler offers a vast range of customized solutions for signal processing in specific applications (see the information box on the right).
Accurate, low-noise processing of the sensor signals that are emitted is essential to obtain measurement results that can be utilized. Kistler offers an attractive portfolio of solutions for signal processing and subsequent data digitization. Piezoelectric sensors (PE sensors) with a charge output operate reliably with charge amplifiers. On the other hand, piezoelectric sensors with integrated electronics (IEPE sensors) are supplied by Piezotron® couplers which decouple and amplify the signal.
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Torque Sensors from Kistler
This Component Finder will make it easier for you to search for generic torque sensors that can be used for general measurements in research and development or in test laboratories. As well as generic torque sensors, Kistler offers a vast range of customized solutions for torque measurement in specific applications (see the information box on the right).
In universities and industry, for basic research or quality assurance: Kistler torque sensors guarantee precise definition of the power and friction values of drives, transmissions and pumps. Strain gage technology (DMS) is a powerful solution for measurements on rotating shafts, and also for long-term dynamic and static measurements. Maximum precision, the most rigid structure possible and high temperature stability: thanks to these assets, strain gage technology can accomplish the most demanding tasks. Piezoelectric reaction torque sensors offer convincing features such as exceptional overload protection, high signal resolution and a wide frequency range. They are ideal for measurement tasks when conditions are difficult due to geometry, temperature range or dynamics.