Accurate rotor position sensor and method using magnet and sensors mounted adjacent to the magnet and motor
First Claim
1. A method for controlling a brushless electric motor having a rotor, at least one sense element with a plurality of magnetic poles, and at least first and second Hall effect sensors mounted 90 electrical degrees apart to measure magnetic flux from the magnetic poles in a direction tangential to the sense element, wherein one of a) the sense element and b) the first and second sensors is mounted in a fixed relationship with the rotor, comprising the steps of:
- measuring magnetic flux tangential to the at least one sense element using the at least first and second sensors and outputting a corresponding measurement signal for each at least one first and second sensor;
using the measurement signals to decode a rotational position of the rotor; and
controlling the motor based on the decoded rotor position.
2 Assignments
0 Petitions
Accused Products
Abstract
An inexpensive and accurate device for sensing rotor position and detecting rotational speed over a broad range of speeds in an electric motor includes a sense ring magnet and two analog Hall effect sensors. The sense ring is magnetized in an alternating north-south fashion with a number of poles that correspond to a number of motor field poles. The Hall effect sensors are placed so that they measure magnetic flux tangential to the sense ring. The Hall effect sensors are preferably located at a distance from the sense ring where the Hall effect sensor output waveforms are substantially triangular, with a highly linear portion centered at zero flux between the minimum and maximum waveform peaks. The linear portions of the waveforms are decoded using an A/D converter and control software to provide an accurate measure of the rotor position.
99 Citations
12 Claims
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1. A method for controlling a brushless electric motor having a rotor, at least one sense element with a plurality of magnetic poles, and at least first and second Hall effect sensors mounted 90 electrical degrees apart to measure magnetic flux from the magnetic poles in a direction tangential to the sense element, wherein one of a) the sense element and b) the first and second sensors is mounted in a fixed relationship with the rotor, comprising the steps of:
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measuring magnetic flux tangential to the at least one sense element using the at least first and second sensors and outputting a corresponding measurement signal for each at least one first and second sensor;
using the measurement signals to decode a rotational position of the rotor; and
controlling the motor based on the decoded rotor position. - View Dependent Claims (2, 4, 5, 6, 7)
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3. The method of 1, wherein the measurement signal has a substantially sinusoidal waveform shape.
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8. A method for controlling a brushless electric motor having a rotor, at least one sense element with a plurality of magnetic poles, and at least first and second sensors mounted to measure magnetic flux from the magnetic poles in a direction tangential to the sense element, wherein one of a) the sense element and b) the first and second sensors is mounted in a fixed relationship with the rotor, comprising the steps of:
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measuring magnetic flux tangential to the at least one sense element using the at least first and second sensors and outputting a corresponding measurement signal for each at least one first and second sensor;
for each signal, selecting threshold values that equal values of the signal that occur at plus and minus 45 electrical degrees from a zero crossing of the signal;
discarding portions of the signals whose absolute values are greater than the absolute values of the threshold values, wherein the remaining portions of the signals are linear segments, and wherein each position of the sense element with respect to the at least first and second sensors corresponds to a point on one of the linear segments;
determining the rotational position of the rotor based on the remaining portions of the signals; and
controlling the motor based on the determined rotor position.
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9. A method for controlling a brushless electric motor having a rotor, at least one sense element with a plurality of magnetic poles, and at least first and second sensors mounted to measure magnetic flux from the magnetic poles in a direction tangential to the sense element, wherein one of a) the sense element and b) the first and second sensors is mounted in a fixed relationship with the rotor, comprising the steps of:
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measuring magnetic flux tangential to the at least one sense element using the at least first and second sensors and outputting a corresponding measurement signal for each at least one first and second sensor;
for each signal, selecting threshold values that equal values of the signal that occur at plus and minus 45 electrical degrees from a zero crossing of the signal;
determining the rotational position of the rotor based on signal values between the threshold values; and
controlling the motor based on the determined rotor position. - View Dependent Claims (10)
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11. A method for controlling a brushless electric motor having a rotor, at least one sense element with a plurality of magnetic poles, and at least first and second sensors each having a sensing plane oriented perpendicular to a surface of the sense element to measure magnetic flux from the magnetic poles in a direction tangential to the sense element, wherein one of a) the sense element and b) the first and second sensors is mounted in a fixed relationship with the rotor, and wherein the at least first and second sensors are mounted 90 electrical degrees apart, comprising the steps of:
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measuring magnetic flux tangential to the at least one sense element using the at least first and second sensors and outputting a corresponding measurement signal for each at least one first and second sensor;
using the measurement signals to decode a rotational position of the rotor; and
controlling the motor based on the decoded rotor position. - View Dependent Claims (12)
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Specification