We provide you with torque sensors and torque transducers for rotating and non-rotating torques for a wide range of measuring ranges. Whether with high torsional rigidity, as a special version or x-fold overload protection or in combination with Fz force (tension & torsion). As standard, an analogue, non-amplified strain gauge bridge output signal in mV/V is supplied by all torque sensors, with an additional internal measuring amplifier upon request. This also extends to a digital signal, for example via the well-known USB interface. Another product in our range is the digital rotation measuring flange models AxialTQ.
Torque transducers or torque sensors with contactless transmission are available from us as active sensors with an integrated measuring amplifier. The output signal is analogue (±5V as standard, ±10V optional) or digital outputs. Thanks to the contactless transmission, the measurement data is transmitted between the rotor and stator without signal distortion and without maintenance.
An integrated speed/angle measurement is available as an option for almost all non-contact transducers. Mechanically, our non-contact sensors can be divided into mounted and non-bearing sensors. Bearingless sensors have the decisive advantage that no friction can distort the measurement result and they are usually also suitable for higher speeds.
When measuring torque, you can divide it into so-called “pure” torques or torques that are superimposed with transverse forces or bending moments. Another important difference is whether the torques are static or dynamic, with dynamic meaning torques that change quickly over time.
AxialTQ's unique features allow the torque measurement system to be fully customizable and flexible. Using analog and digital outputs at the same time now offers you reliable real-time control and data acquisition in a wide variety of test benches. Interface AxialTQ will be available in eight torque ratings and five DIN flange sizes. In addition, three accuracy classes, EX, LX and HX, will be offered in the future. Further information follows.