A HBM: public. 3. Application. The T40B torque flange measures static and dynamic torques on stationary and rotating shafts. Test beds can. Consult HBM Test and Measurement’s entire Torque T40B catalogue on DirectIndustry. Page: 1/8. The key features of T40B, a digital torque transducer from HBM are ruggedness and accuracy. It is equipped with a magnetic rotational speed measuring system.
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Download article as PDF. The market offers countless options for incremental rotational speed measurement systems. However, these systems are designed solely for measuring rotational speed. Combining rotational speed and torque measurement capabilities in a single measurement sensor imposes unique demands on the measurement of rotational speed:.
Integrating the rotational speed measurement system with the transducer greatly facilitates handling.
If necessary, the second shaft end is no longer required for a speed measuring system and is available for other t40, such as an additional torque sensor. The magnetic plastic ring’s metal carrier is mounted onto the torque transducer’s second free sensor, so it is fully integrated. This saves space and significantly facilitates installation. The system is based on contactless sensing of a magnetic pulse wheel using an anisotropic magneto-resistive AMR sensor.
When the sensor used is subjected to a magnetic field, its resistance value changes, depending on the angle of magnetization and the resistor’s direction vector.
The magnetic field is modulated by the relative motion between material measure and sensor. The magnetic field is sensed in radial direction. This guarantees a robust and stable signal.
The maximum air gap between pulse wheel and sensor is 2. This makes the measurement system extremely insensitive to the relative motion between rotor and stator that can result from vibration in the test bench.
The magnetic incremental encoder generates pulses when the drive train is rotated. The number of pulses per revolution corresponds to the speed or position.
The system available is a bi-directional encoder; bhm is, the AMR sensor used y40b two full bridges for signal acquisition. The two bridges are arranged offset from each other by a quarter of a period.
The generated sine and cosine signals are digitized by downstream electronics. The periodic sine and cosine signals are further subdivided by interpolation, thereby further increasing the basic resolution by electronic means. This reduces the quantization error; calculation of the input hb current rotational speed provides results that are more precise. Two square wave signals that are 90 bhm out of phase electrically are available as output signals.
The second signal signal B enables decoding the direction of motion right – left.
T40B with Rotational Speed Measuring System and Rference Pulse | HBM
With clockwise rotation that is, to the rightsignal B is one t400b ahead of signal A. With a rising edge of signal B, signal A is on ‘low level.
With anti-clockwise rotation to the leftsignal A is one phase ahead of signal B.
With a rising edge of signal A, signal B is on ‘high level. The out-of-phase signal pair A and B is also called a quadrature signalbecause it allows increasing the resolution further. Signals A and B now generate one pulse per pole pair. The resolution can be increased, for example, with every edge of signal A and B triggering a pulse.
This is known as quadruple evaluation. For the T40B and T40FM’s t4b0 speed measuring system, this t40g that the resolution of pulses per revolution can be increased to pulses per revolution. Incremental transmission from the rotational speed nbm system to the drive controller offers the advantage that only two signals are required for transmitting information about direction of motion, speed and relative position. The disadvantage is that the absolute position is no longer known after a power failure because the rotational speed measuring system measures only the change compared to the initial position.
With positioning systems, however, it is essential to know the absolute position.
HBM T40B – Digital Torque Transducer
For this reason, a so-called reference run is performed at power-on. This requires a reference pulse 0-index. This signal is generated by a separate sensor, which senses the corresponding magnetic field in axial direction. It is synchronized with the rising edge of signal A.
Universal Torque Transducer | T40B | Digital Torque Meter | HBM
After power-on, the rotational speed measuring system needs to be rotated until the reference pulse has been detected. The absolute value of the angle is available at the latest after one revolution.
This third track generates one pulse per full revolution. Determining the rotor position or the positioning accuracy demands high angular resolution.
With quadruple evaluation of the quadrature signal, the system provides an angular accuracy of 2 12 steps. Differential signal transmission offers the advantage that undesired interference fields affect all signals to the same extent and therefore do not change the signal difference. As a result, digital signal transmission is highly immune to interference, so it is the ideal solution for long cable lengths or for use in areas subject to electromagnetic fields.
Combining rotational speed and torque measurement capabilities in a single measurement sensor imposes unique demands on the measurement of rotational speed: The mechanical and application-specific features of the measurement sensor must not be impaired by the speed measuring system. A high-resolution system that simultaneously allows large relative motion between the rotor and the stator is required.
The integrated rotational speed measuring system must not interfere with the transmission of the required nominal rated or limit torques. T40B torque transducer with rotational speed measuring system and reference pulse.
Digitization with AMR sensor. Contact us Please send a message and a representative will contact you shortly.