Digital Rotary Torque Transducers with Square Drives – SGR525/SGR526

The SGR525/SGR526 TorqSense Digital Rotary Strain Gauge Transducers (SGR series) utilise non-contact technology, eliminating the need for noisy slip rings. This makes them ideal for torque auditing applications.

Specifically designed for square shafts, these transducers offer a seamless fit, enhancing measurement accuracy and stability in applications with non-cylindrical shafts.

The SGR series transducers use modern strain gauge signal conditioning techniques to provide a high bandwidth, low cost torque measuring solution with high overrange and overload capabilities and a wide range of digital outputs.

Key Benefits

  • Transducers from 175mNm to 13000Nm
  • Accuracy ±0.1%
  • High mechanical overload 400%
  • Overrange reading 250%
  • High digital sample rate of 4000 samples per second
  • Digital outputs – RS232 and USB (standard), CANbus and Ethernet (optional).
  • Compatible with TorqView Advanced Torque Monitoring Software
  • Non contact signal transmission, no slip rings to wear out
  • Lifetime Warranty

Other Features

  • BIT Self-diagnostics – Diagnostic system checks internal systems and operational conditions for faults, and monitors torque, speed and temperature for overscale conditions.
  • Transducer status LED and simple “Sensor status” output pin, provides transducer health feedback.
  • Sensors to monitor shaft temperature for better compensation and accuracy.
  • Transducer Control software is provided to setup and configure the transducer.
  • 3 analog channels are individually configurable, allowing changes to scaling and data assignment.
  • Ability to connect up to 10 transducers using USB.
  • Minimal side and end load errors
  • Low linearity deviation of ± 0.05 % FSD
  • Low hysteresis error of ± 0.05 % FSD
  • Zero variation in torque signal with rotation (cyclic variation)
  • Wide power supply range 12-32 VDC

TRANSDUCER MODELS: 

  • SGR525 – Torque measurement only
  • SGR526 – Torque, speed & power measurement (360 pulses per revolution encoder)

RESOURCES