Dynamic determination of friction in a closed loop control system
First Claim
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1. Device for dynamically measuring the friction associated with an electromechanical system comprising in combination:
- an electromechanical system including a motor;
controller means operable to generate a controlled input signal for driving said motor;
means disposed in a feedback loop operable for monitoring the output of said motor and for generating a feedback signal;
means for receiving the controlled signal and the feedback signal and to generate an error signal therefrom; and
digital filtering means for receiving the error signal and operable to control the phase and magnitude of said error signal, said digital filtering means having a filter being characterized by the mathematical expression;
##EQU22## Wherein;
D(z) represents the transfer function of the filter,z/(z-1) represents a discrete integrator, ##EQU23## represents the stabilizing factor for the feedback loop; and
a latch circuit disposed between the digital filtering means and the electromechanical system, said latch circuit being operable to store a signal outputted from the filtering means.
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Abstract
A novel method and apparatus for dynamically monitoring the friction associated with an electromechanical system including a motor. The apparatus includes a closed loop servo with a unique filtering means in the feed forward loop for controlling the phase and magnitude of a "digital" ramp function used to drive the electromechanical system. The value of the filtered error signal outputted from the filtering means correlates with the friction in said electromechanical system.
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7 Claims
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1. Device for dynamically measuring the friction associated with an electromechanical system comprising in combination:
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an electromechanical system including a motor; controller means operable to generate a controlled input signal for driving said motor; means disposed in a feedback loop operable for monitoring the output of said motor and for generating a feedback signal; means for receiving the controlled signal and the feedback signal and to generate an error signal therefrom; and digital filtering means for receiving the error signal and operable to control the phase and magnitude of said error signal, said digital filtering means having a filter being characterized by the mathematical expression;
##EQU22## Wherein;
D(z) represents the transfer function of the filter,z/(z-1) represents a discrete integrator, ##EQU23## represents the stabilizing factor for the feedback loop; and
a latch circuit disposed between the digital filtering means and the electromechanical system, said latch circuit being operable to store a signal outputted from the filtering means. - View Dependent Claims (2, 3, 6)
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4. Method for monitoring the friction associated with an electromechanical system including a motor, comprising the following steps:
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generating a "digital" ramp input signal; applying the "digital" ramp input signal to the motor; monitoring the output of the motor and generating a feedback signal; algebraically summing the "digital" ramp input signal and the feedback signal to generate an error signal; and filtering the error signal with a filter circuit having at least one pole at the origin of its transfer function to output a drive signal whose value represents the friction associated with said electromechanical system. - View Dependent Claims (5)
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7. Device for dynamically measuring the friction associated with an electromechanical system comprising in combination:
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an electromechanical system including a motor; controller means coupled to the electromechanical system, said controller means being operable to generate a "digital" ramp input signal for driving said motor; means operable for monitoring the output of said motor and for generating a feedback signal; means for receiving the "digital" ramp signal and the feedback signal and to generate an error signal therefrom; and a digital filtering means, including a digital filter and a latching circuit, operable to receive the error signal and operable to control the phase and magnitude of said error signal so that the output signal from said filtering means correlates with friction associated with said electromechanical system.
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Specification