Difference between revisions of "High dynamic range torque control"

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Torque control is the most important single instrument present in modern motor drives. All operations that motors does, are controlled finally by a torque controller.
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Torque control is the most important single instrument present in modern motor drives. All operations drive does, are handled finally by a torque controller - even if motor is being operated in velocity or positioning modes.
  
 
High dynamic range torque control a.k.a. '''HDRT''' is a torque control technology built in [[VSD-E and VSD-XE|VSD-E/XE series]] and [[Argon (servo drive)|Argon servo drive series]]. HDRT yields approximately 14 bits of torque resolution which is 16 times higher compared to standard 10 bit torque resolution found from typical drives. HDRT has been implemented by using on-the-fly adjusting current sensor gain control combined with low noise electronics and at least 16 bit signal path inside the drive.
 
High dynamic range torque control a.k.a. '''HDRT''' is a torque control technology built in [[VSD-E and VSD-XE|VSD-E/XE series]] and [[Argon (servo drive)|Argon servo drive series]]. HDRT yields approximately 14 bits of torque resolution which is 16 times higher compared to standard 10 bit torque resolution found from typical drives. HDRT has been implemented by using on-the-fly adjusting current sensor gain control combined with low noise electronics and at least 16 bit signal path inside the drive.

Revision as of 19:38, 28 May 2013

Torque control is the most important single instrument present in modern motor drives. All operations drive does, are handled finally by a torque controller - even if motor is being operated in velocity or positioning modes.

High dynamic range torque control a.k.a. HDRT is a torque control technology built in VSD-E/XE series and Argon servo drive series. HDRT yields approximately 14 bits of torque resolution which is 16 times higher compared to standard 10 bit torque resolution found from typical drives. HDRT has been implemented by using on-the-fly adjusting current sensor gain control combined with low noise electronics and at least 16 bit signal path inside the drive.

Applications

HDRT helps following ways:

  • Smoother motion with high resolution feedback
  • High accuracy applications
  • Quiet operation, no hiss from motor
  • Allow supporting wide power range of motors within single drive