Circuit for monitoring the mechanical power from an induction motor and for detecting excessive heat exchanger icing
First Claim
1. A method for generating an electrical signal which is substantially proportional to the mechanical power delivered by an induction motor, the method comprising detecting an electronic signal proportional to the average product of motor current multiplied by the cosine of the phase angle between motor current and the motor voltage.
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Accused Products
Abstract
An electronic signal proportional to Icosθ for an induction motor is substantially proportional to the mechanical power output of the motor. This signal is detected by rectifying a signal which is an analog of motor current in phase with the motor voltage and time averaging the rectified signal. Comparing the averaged signal to a reference level permits the interruption of motor current for an underload or an overload condition. The circuit permits detection of excessive ice formation on the outdoor heat exchanger of a heat pump system. The circuit is connected to the impeller drive motor which forces air across the heat exchanger and stops the motor and initiates the de-ice procedure when the ice blockage causes mechanical power delivered by the motor to deviate to a selected level.
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Citations
10 Claims
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1. A method for generating an electrical signal which is substantially proportional to the mechanical power delivered by an induction motor, the method comprising detecting an electronic signal proportional to the average product of motor current multiplied by the cosine of the phase angle between motor current and the motor voltage.
- 2. A method for generating an electrical signal which is substantially proportional to the mechanical power delivered by an induction motor, the method comprising rectifying a signal which is an analog of said motor current in phase with said motor voltage and averaging said rectified signal.
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4. A method for detecting the iced condition of the forced air heat exchanger of a heat pump system including an induction motor driven air impeller for effecting the flow of air across said heat exchanger and for stopping said motor upon detection of excess icing, the method comprising:
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(a) detecting a signal proportional to the average product of the current of said motor multiplied by the cosine of the phase angle between said current and the voltage across said motor; (b) comparing said average product signal to a reference signal; and (c) interrupting the current flow to said motor when said average product signal becomes substantially equal to said reference signal. - View Dependent Claims (5)
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6. An apparatus for providing an electrical signal which is proportional to the mechanical output power of an induction motor, said apparatus comprising:
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(a) current detecting means connected in the power supply circuit of said motor for providing a signal proportional to motor current; (b) switching means connected to the output of said current detecting means and to said motor for rectifying the signal from said output in phase with the voltage applied to said motor; and (c) integrating circuit means connected to said switch means for time averaging said rectified signal to provide said proportional signal. - View Dependent Claims (7, 8)
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9. An apparatus for detecting the excessive icing of the outdoor heat exchanger of a heat pump system including an induction motor driven impeller for effecting the flow of air across said heat exchanger and for initiating the de-icing of said heat exchanger, said apparatus comprising:
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(a) current detecting means connected in the power supply circuit of said motor for providing a signal proportional to motor current; (b) switching means connected to the output of said current detecting means and to said motor for rectifying the signal from said output in phase with the voltage applied to said motor; and (c) integrating circuit means connected to said switching means for time averaging said switched signal to provide said proportional signal; (d) comparator circuit means having a reference input and an input connected to the output of said integrating circuit for switching its output state when said averaged signal becomes substantially equal to said reference signal; and (e) de-icing means connected to the output of said comparator for de-icing said heat exchanger in response to said change of state. - View Dependent Claims (10)
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Specification