Magnetic detection device using an oscillator whose detection element is a magnetoresitance effective element
First Claim
1. A magnetic detection device which comprises at least one oscillating circuit having a magnetoresistance effective element as an element that determines an oscillating frequency of an oscillating circuit and a comparator for comparing an oscillating frequency of said oscillating circuit with a reference oscillating frequency by taking a ratio therebetween to detect magnetic changes, wherein said magnetoresistance effective element changes its resistance value in response to an amount of change of a magnetic field applied thereto.
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Accused Products
Abstract
A magnetic detection device including at least one oscillator circuit having a magnetoresistance element which converts a change of magnetism detected into a digital signal and a comparator for comparing the digitalized oscillating frequency of the oscillator circuit with another digitalized oscillating frequency generated from another oscillating circuit by taking a ratio thereof or by detecting a phase difference between the pulse signals. Utilizing the magnetic detection device, the amount of change of magnetism can be stably detected with a high accuracy within a wide range of ambient usage temperatures.
Also, a physical quantity detection device including the magnetic detection device which can detect any physical quantity with a high accuracy.
70 Citations
38 Claims
- 1. A magnetic detection device which comprises at least one oscillating circuit having a magnetoresistance effective element as an element that determines an oscillating frequency of an oscillating circuit and a comparator for comparing an oscillating frequency of said oscillating circuit with a reference oscillating frequency by taking a ratio therebetween to detect magnetic changes, wherein said magnetoresistance effective element changes its resistance value in response to an amount of change of a magnetic field applied thereto.
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3. A physical quantity detection device comprising a device for detecting a magnetic change comprising a first oscillating circuit having a magnetoresistance effective element, responsive to said magnetic change used to set an oscillating frequency of said oscillating circuit and a comparator for comparing an oscillating frequency of said first oscillating circuit with a reference oscillating frequency by taking a ratio of the two frequencies and by detecting a variation of said ratio, and outputting a pulse signal indicating a magnetic change indicated by said ratio, and a converter for converting the pulse signal output from said comparator to a pulse signal indicating a change of said physical quantity.
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4. A magnetic detection device comprising:
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a first oscillating circuit having at least a resistor element therein, wherein said resistor element includes a first magnetoresistance effective element whereby a first oscillating frequency of said first oscillating circuit is varied when a resistance value of said magnetoresistance effective element is changed in response to a variation of a magnetic condition to be detected; a second oscillating circuit, having a resistor element therein, a second frequency of which is dependent at least partly on a value of said resistor element; and a comparator for comparing said first oscillating frequency of said first oscillating circuit with said second oscillating frequency of said second oscillating circuit by taking a ratio therebetween to detect changes in said magnetic condition to be detected. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 26, 27, 29, 30)
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21. A physical quantity detection device comprising:
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a device for detecting a magnetic change representing a variation of said physical quantity, comprising a plurality of oscillating circuits, a first oscillating circuit of said plurality having a magnetoresistance effective element responsive to said magnetic change, and a comparator for comparing a first oscillating frequency of said first oscillating circuit with a second oscillating frequency generated from a second oscillating circuit of said plurality by taking a ratio of said first and second oscillating frequencies and by detecting a variation of said ratio and outputting a pulse signal indicating a magnetic change, and a converter for converting the pulse signal output from said comparator to a pulse signal indicating a change of said physical quantity.
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22. A magnetic detection device comprising:
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a first oscillating circuit having at least a two-terminal resistor element therein, wherein said resistor element is a magnetoresistance effective element whereby a first oscillating frequency of said first oscillating circuit is varied when a resistance value of said magnetoresistance effective element is changed in response to a variation of a magnetic condition to be detected; a second oscillating circuit, having a resistor element therein, a second oscillation frequency of which is dependent at least partly on a value of said resistor element; and a comparator for comparing said first oscillating frequency of said first oscillating circuit with said second oscillating frequency of said second oscillating circuit by taking a phase difference between the first and second oscillating frequencies to detect change in said magnetic condition to be detected. - View Dependent Claims (23)
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24. A magnetic detection device, comprising:
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a first oscillating circuit having a magnetoresistance effective element, generating first output pulse signals having a first oscillating frequency which is varied in response to a variation of a magnetic condition to be detected; a second oscillating circuit having a magnetoresistance effective element and generating second output pulse signals having a second oscillating frequency which is varied in response to a variation of said magnetic condition to be detected; at least two counters, at least one respectively connected to each of said first and second oscillating circuits, for counting respective pulse signals output therefrom; delayed pulse signal output means connected to one of said counters, comprising a delay signal output circuit which outputs a plurality of pulse signals when a first pulse signal output from said first oscillating circuit is input thereto, each output pulse signal being delayed from a corresponding first pulse signal by a predetermined different delay time; pulse signal selecting means connected to said delayed pulse signal output means and said second oscillating circuit, receiving as an input a second pulse signal, delayed from said first pulse signal by a desired time, and a plurality of said output pulse signals output from said delayed pulse signal output means, and which selects a certain pulse signal from said plurality of said output pulse signals, having a specific condition with respect to a timing at which said second pulse signal is input thereto, and detecting means for detecting a phase difference between said first and second pulse signals utilizing said pulse signal selected by said pulse signal selecting means to which said detecting means is connected.
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25. A physical quantity detection device, comprising:
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a device for detecting a magnetic change representing a variation of said physical quantity, comprising a first oscillating circuit including a magnetoresistance effective element therein as a resistance element for an oscillating circuit, responsive to a change of an amount of magnetic value for generating a first oscillating frequency, a second oscillating circuit for generating a second oscillating frequency to be compared with said first oscillating frequency; at least two counters, one connected to each of said first and second oscillating circuits, respectively for counting pulse signals output therefrom; a delayed pulse signal output means connected to one of said counters, comprising a delay signal output circuit which outputs a plurality of pulse signals when a first pulse signal output from said first oscillating circuit is input thereto, each pulse signal being delayed from the previous pulse signal by a predetermined different delay time; a pulse signal selecting means connected to said delayed pulse signal output means and said second oscillating circuit, receiving as input a second pulse signal, delayed from said first pulse signal by a desired time, and a plurality of pulse signals output from said delayed pulse signal output means, and which select a certain pulse signal from said plurality of pulse signals, which has a specific predetermined relationship in phase difference to said second pulse signal when input thereto; a detecting means for detecting a phase difference between said first and second pulse signals utilizing said pulse signal selected by said pulse signal selecting means to which said detecting means is connected; a changing condition detecting means connected to said phase deference detecting means and for detecting a changing condition of said phase difference based upon said phase difference detected by said pulse phase difference detecting means; and a detecting means connected to said changing condition detecting means and for detecting a changing condition of said physical quantity depending upon said changing condition of said phase difference detected by said changing condition detecting means. - View Dependent Claims (28)
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31. A magnetic detection device for detecting a movement of an object to be detected that is made of magnetic materials, comprising:
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a plurality of oscillating circuits each having a resistor as circuit element, an oscillating frequency of each circuit being varied in response to a change in an amount of resistance value of each said resistor, said resistor of at least one of said oscillating circuits being a magnetoresistance effective element, in which a value of a resistance is changed in response to movement of said object, each of said plurality of oscillating circuits outputting digital pulses representing its oscillating frequency; a comparator which outputs pulses corresponding to said movement of said object having magnetic materials by comparing a phase difference between pulses output from at least two of said plurality of oscillating circuits.
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32. A magnetic detection device which comprises:
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a first oscillating circuit having a ferromagnetic magnetoresistance effective element as a resistor element thereof, an amount of a resistance value of which is changed in response to a movement of an object made of magnetic material to be detected and generating a first oscillating frequency therefrom; a second oscillating circuit generating a second oscillating frequency; a comparator comparing said first oscillating frequency output from said first oscillating circuit with said second oscillating frequency output said second oscillating circuit by taking any one of a difference and a ratio between the first and the second oscillating frequencies and by determining a variation thereof to detect a magnetic condition; wherein each of said first and second oscillating circuits includes an odd number of inverters which are serially connected to one another, an input of a first stage inverter being connected to an output of a last stage inverter through a first resistor, and an input of said first stage inverter being connected to an output of an mth stage inverter, wherein m denotes an even number smaller than said odd number of inverters, said first resistor of said first oscillating circuit being said resistance element of said first oscillating circuit and including said ferromagnetic magnetoresistance effective element. - View Dependent Claims (33)
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34. A magnetic detection device comprising:
- p1 a plurality of oscillating circuits each having at least a resistor element therein, the resistor element of a first of said plurality of oscillating circuits having a magnetoresistance effective element as said resistor element, an amount of resistance of which being changed in response to a movement of an object made of a magnetic material to be detected,
wherein said first oscillating circuit includes an odd number of inverters which are serially connected, an input of a first stage inverter connected to an output of a last stage inverter through a first resistor, the input of said first stage inverter connected to an output of an Nth stage inverter, where N denotes an odd number equal to or smaller than the odd number of inverters through a capacitor and a second resistor serially arranged, and a node portion defined between said capacitor and the second resistor connected to an output of an Mth stage inverter, wherein M denotes an even number smaller than said odd number through a third resistor having a resistance value smaller than that of said second resistor, said first, second and third resistors constituting said resistor element wherein at least two of said resistors constitute said magnetoresistance effective elements so that a potential of said node portion defined between said second and third resistors is changed in response to a movement of said object, and a second oscillating circuit either having the same construction as that of said first oscillating circuit or including a constant resistor only for providing a reference frequency, and a comparator circuit for comparing output signals from the first and second oscillating circuits to detect a magnetic change. - View Dependent Claims (35, 37)
- p1 a plurality of oscillating circuits each having at least a resistor element therein, the resistor element of a first of said plurality of oscillating circuits having a magnetoresistance effective element as said resistor element, an amount of resistance of which being changed in response to a movement of an object made of a magnetic material to be detected,
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36. A method of magnetic detection comprising the steps of:
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providing a first oscillating circuit having at least a resistor element which is a magnetoresistance effective element, whereby a first oscillating frequency of said first oscillating circuit is varied when an amount of the resistance value is changed in response to a variation of a magnetic condition to be detected; providing a second oscillating circuit, having a resistor element therein, a second oscillation frequency of which is dependent at least partly on a value of said resistor element, and comparing said first oscillating frequency of said first oscillating circuit with said second oscillating frequency of said second oscillating circuit by taking a ratio therebetween, to detect changes in said magnetic condition to be detected.
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38. A physical quantity detection device, comprising:
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a device for detecting a magnetic change representing a variation of said physical quantity, comprising a first oscillating circuit including a magnetoresistance effective element therein as a resistance element for an oscillating circuit, responsive to a change of an amount of magnetic value for generating a first oscillating frequency, a second oscillating circuit for generating a second oscillating frequency to be compared with said first oscillating frequency; at least two counters, one connected to each of said first and second oscillating circuits, respectively for counting pulse signals output therefrom; a delayed pulse signal output means connected to one of said counters, comprising a delay signal output circuit which outputs a plurality of pulse signals when a first pulse signal is input thereto, each pulse signal being delayed from the previous pulse signal by a predetermined different delay time; a pulse signal selecting means connected to said delayed pulse signal output means and said second oscillating circuit, for selecting a pulse signal having a specific condition with respect to a timing at which an intended pulse signal is input thereto; a detecting means for detecting a phase difference between said first and second pulse signals utilizing said pulse signal selected by said pulse signal selecting means to which said detecting means is connected.
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Specification