Dynamic Torque Sensor for Motor, 10-100 Nm

The dynamic torque sensor for motor is a sensor that converts physical changes in torque into precise electrical signals, with optional measurement ranges of 10-1000 Nm. The SUCH dynamic torque sensor has a sensitivity of 1.5±10%mV/V, a temperature compensation range of -10~60℃, high detection accuracy, good stability, and strong anti-interference capability. The dynamic torque transducer for motor can operate at high speeds for extended periods, outputting forward and reverse torque signals. Both ends are keyed connections, and it can be used in electric torque wrenches, transmitting the output torque and power of rotating power equipment such as electric motors and internal combustion engines.

Feature

• High Precision: The resistance strain gauge is an integrated product consisting of a sensitive element and an integrated circuit, ensuring high precision and stable, reliable performance.
• Long-term Operation: The dynamic torque measurement sensor can operate at high speed for extended periods, outputting forward and reverse torque signals. It features strong anti-interference capabilities, fast frequency response, and long lifespan.
• Keyed Connection: Both ends of the dynamic torque sensor for motor are keyed, facilitating installation and use. It can detect torsional torque on various rotating or non-rotating mechanical components.

Dimension (Unit:mm)

Load Characterization Diagram

Definition of Aviation Plugs

Installation

• Torque sensors can be installed horizontally or vertically.
• Power equipment, sensors, and load devices should be installed on a stable foundation to avoid excessive vibration, which may lead to unstable data, reduced measurement accuracy, or even damage to the sensor.
• Use flexible pin couplings or rigid couplings for connection.
• The middle part of the sensor should not be rigidly fixed; a flexible connection should be used.
• The concentricity of the axes of the power equipment, sensor, and load device should be less than Ф0.03mm.
• When the sensor is used vertically, there should be supporting partitions at the input and output ends to prevent the sensor from being subjected to the gravity of the power source and load, thus ensuring measurement accuracy.