How do the different types of torque meters and what are the differences between them? We outline the most important facts in this comprehensive introduction to torque transducers.
Torque Meters manufactured in US by FUTEK Advanced Sensor Technology (FUTEK), a leading manufacturer producing a huge selection of Torque Transducers, utilizing one of the most advanced technologies in the Sensor Industry: Metal foil strain gauge technology. It is is defined as a transducer used for torque measurement (torque sensing) that converts an input mechanical torque into an electrical output signal. Torsions Sensors are also commonly known as Torque Transducer, Torque Cell or Moment Sensor. There are two main types of Torque Sensors: Reaction Torque Sensors or Rotational Torque Sensors.
What is a Torque Meter?
By definition, torque meter is a type of transducer, specifically a torque transducer that converts a torque measurement (reaction, dynamic or rotary) into another physical variable, in this case, into an electrical signal that can be measured, converted and standardized. As the torque applied to the sensor increases, the electrical output signal changes proportionally (torque detector). Torque sensors are one of the force measurement devices and torque measuring tool for measuring force FUTEK specializes on.
What are the types of Torque Meter?
There are two main categories of Torsions Meters: rotary torque sensor and reaction torque sensors. In summary, a reaction sensor measures stationary torque (static or non-rotational), and rotary measures rotational torque (dynamic torque sensor).
Understanding the application and defining the requirements is a crucial part of selecting the right torque sensor.
Rotary Torque Meters (dynamic or rotational torque)
Rotational sensors (or dynamic torque sensor) are utilized in applications where the torque measurement must be taken at a spinning shaft, engine or a stationary motor. In this case, the transducer must rotate in-line attached to the shaft. A rotary torque transducer is fitted with a slip ring or wireless electronics to transmit the torque signal while rotating (non-contact sensor).
Rotary Torque Transducers are frequently used as testing/auditing tools for motors, torque measuring tool, turbines, and generators to measure rotational torque. A shaft-to-shaft Rotating Torque Sensor can be also utilized for feedback control, monitoring torque, and analyzing the efficiency of test stands and for torque measurement of rotating shaft using strain gauge.
How to measure torque of a motor? The Rotating Torque measurement (aka rotary torque measurement) is coupled between the motor and the load. As the shaft spins, the Torsions Sensor measures the torque produced by the motor in response to the load applied to the rotating shaft. Some Rotary Sensors are equipped with built-in encoders. These encoders measure the angle/speed produced during the test. Torsion measurements can successfully be monitored on a local digital display (aka torque sensor indicator), such as a Panel Mount Display, a HandHeld Display, connected to a PLC, or streamed to a PC using a digital USB instrument (i.e. digital torque sensor).
Rotary Torque Meteris also a crucial part of dynamometers (or dyno for short), as it provides torque measurement and angular speed (RPM) to easily calculate output power, allowing accurate calculation of motor or engine performance in Kw or HP as well as its electromechanical efficiency.
Reaction Torque Meters (static)
In some applications, the torque measurement taken with an in-line rotary sensor may be measured at the point where the torque is transferred to the ground using a reaction torque transducer (static torque measurement).
A reaction torsion meter (not LVDT displacement sensors) has two mounting flanges (flange-to-flange sensor). One face is fixed to the ground or a rigid structural member and the other to the rotating shaft or rotary element. Rotation generates shear forces between the flanges, which is captured by the foil strain gauges bonded to the sensor beams and transduced into electrical current by the Wheatstone bridge.
For a given application, a reaction sensor (aka moment sensor) is often less complex and, therefore less expensive than a rotary sensor. Reactionary torque transducers are frequently used as a torque calibration tool or torque wrench calibration tool. Reaction Torque sensors can also be used as miniature electrical torque screwdrivers, allowing Engineers to have live feedback of the torque and/or do study the torque applied during assembly. The automotive industry uses steering torque sensors for Steer by Wire systems validation and verification and other car sensors applications (automotive sensors).
How does a Torque Meter work?
How to measure torque? Firstly, we need to understand the underlying physics and material science behind the torque sensor working principle, which is the strain gauge (aka Strain gage). Metal foil strain gauge is a force transducer whose electrical resistance varies with applied force. In other words, it converts strain derived from force, pressure (aka industrial pressure sensors for pressure measurement), tension, compression, torque, weight (aka weight sensors), etc… into a change in electrical resistance, which can then be standardized for measuring torque.
Structurally, a reaction torsion sensor is made of a metal body (also called flexure) to which foil strain gauges are bonded. The sensor body is usually made of aluminum or stainless steel, which gives the transducer two important characteristics: (1) provides the sturdiness to withstand high torques; and, (2) has the elasticity to minimally deform and return to its original shape when the torque is removed.
When torque is applied (clockwise or counterclockwise), the metal body acts as a “spring” and is slightly deformed, and unless it is overloaded, it returns to its original shape. As the flexure deforms, the strain gage also changes its shape and consequently its electrical resistance, which creates a differential voltage variation through a Wheatstone Bridge circuit. Thus, the change in voltage is proportional to the torque applied to the transducer, which can be calculated via the torque sensor circuit voltage output.
In a Rotary Torque Sensor, the strain gauge is bonded to the rotating shaft that slightly deforms when torque is applied. The shaft deflection induces stress in the strain gauge that changes its resistance. A combination of strain gauges (usually 4) is arranged in an electrical circuit, the Wheatstone bridge amplifier, that converts the resistance variations into a voltage output, which can be calibrated and measured.
Rotary Torque Sensors are designed to measure torque of a rotating shaft. Thus, it is necessary to transfer power to the strain gauge bridge, as well as a means to receive the signal from the rotating torque meter or shaft. This can be accomplished using slip rings, wireless telemetry, or rotary transformers. Optionally, sensors can also embed encoder for angle or speed measurement.
The sensors must be carefully designed seeking to eliminate off-axis loading (also called side loads or extraneous moments), and must be sensitive only to counterclockwise and counterclockwise torque loading. The sensor output is a function of force and distance (T=F x d), and is usually expressed in inch-pounds (in-lb)., foot-pounds (ft-lb) or Newton-meters (N.m).
For further information, watch our Webinar on how Torque Sensors works.
How to choose a Torque Meter for your application?
A question that we frequently hear is: “What is the right sensor for my application?” The reason why it gets asked so often is that it can be tricky to navigate the various sensor offerings on the market. So, be it a small torque sensor or a high capacity torque sensors (not a string potentiometer), make sure to follow the steps below for adequate torque sensor sizing.
To help you select your load cell, FUTEK developed an easy to follow, 4-Steps guide. Here is a glimpse to help you narrow down your choices. Check out our “How to choose a Torque Sensor” complete guide for further information.
What is a Rotary Torque Sensor? How it works?
TRH605 Rotary Torque Sensor set up with USB520 Universal Amplifier
FUTEK has special types of Universal Signal Conditioner Module that supports a wide range of sensor inputs such as ± 10 VDC, 0-20 mA, ±400 mV/V and TTL encoder pulses type inputs. USB520 USB Universal Signal Conditioner Module can be paired with various sensor types and eliminates the need for external power supply to the sensor and display equipment. The module is supplied by PC power through a USB Cable, providing excitation voltage 5-24 VDC to the sensor and simultaneously 5 VDC for Encoders.
For more details on our 4-Steps Guide, please visit our How to choose a Torque Sensor” complete guideline.