Fuel mixing ratio detecting device
First Claim
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1. A fuel mixing ratio detecting device comprising:
- an LC resonance circuit having an electrostatic capacity detecting portion for detecting an electrostatic capacity of fuel and means electrically equivalent to a coil connected in parallel with the electrostatic capacity detecting portion;
a phase lock circuit having a voltage-controlled oscillator for generating a high-frequency signal having a frequency determined by a control voltage and for applying the generated high-frequency signal to the LC resonance circuit, a phase comparator for detecting a phase difference between a voltage and a current of the high-frequency signal applied to the LC resonance circuit, and a control unit for controlling the control voltage supplied to the voltage-controlled oscillator according to a difference between the phase difference detected by the phase comparator and a preliminarily set phase-difference target value;
target value switching means for changing the phase difference target value between a first target value and a second target value different from the first target value to thereby set the changed target value in the control unit;
dielectric-constant computing means for computing a dielectric constant of the fuel on the basis of a first control output of the phase lock circuit after the phase-difference target value is changed to the first target value by the target value switching means;
electric-conductivity computing means for computing an electric conductivity of the fuel on the basis of an amount of shift between the first control output, which is outputted from the phase lock circuit after the phase-difference target value is changed to the first target value by the target value switching means, and a second control output, which is outputted from the phase lock circuit after the phase-difference target value is changed to the second target value by the target value switching means; and
mixing-ratio detecting means for detecting a fuel mixing ratio of the fuel from the computed dielectric constant and the computed electric conductivity.
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Abstract
A fuel mixing ratio detecting device can detect a fuel mixing ratio of a mixed fuel with high precision, regardless of the value of an electric conductivity of the fuel. The device comprises a sensor portion (an LC resonance circuit) having an electrostatic capacity detecting portion for detecting an electrostatic capacity of the fuel, which fills a space between electrodes, and a coil connected in parallel with the electrostatic capacity detecting portion, a voltage-controlled oscillator for generating a high-frequency signal having a predetermined frequency by performing a voltage control operation, a phase comparator for detecting a phase difference between a voltage and a current of the high-frequency signal applied to the sensor portion A, a target value switching unit for changing a phase difference target value between a first target value of 0° and a second target value other than 0°, a control unit for controlling the voltage control operation of the voltage-controlled oscillator according to a difference between the phase difference detected by the phase comparator and the set target value, and a computing unit for computing a dielectric constant of the fuel from the frequency of the high-frequency signal when the phase difference has the first target value and for computing the electric conductivity of the fuel from an amount of shift between the frequency of a first high-frequency signal when the phase difference has the first target value and the frequency of a second high-frequency signal when the phase difference has the second target value and for detecting the mixing ratio of the fuel from the computed dielectric constant and the computed electric conductivity.
59 Citations
10 Claims
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1. A fuel mixing ratio detecting device comprising:
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an LC resonance circuit having an electrostatic capacity detecting portion for detecting an electrostatic capacity of fuel and means electrically equivalent to a coil connected in parallel with the electrostatic capacity detecting portion; a phase lock circuit having a voltage-controlled oscillator for generating a high-frequency signal having a frequency determined by a control voltage and for applying the generated high-frequency signal to the LC resonance circuit, a phase comparator for detecting a phase difference between a voltage and a current of the high-frequency signal applied to the LC resonance circuit, and a control unit for controlling the control voltage supplied to the voltage-controlled oscillator according to a difference between the phase difference detected by the phase comparator and a preliminarily set phase-difference target value; target value switching means for changing the phase difference target value between a first target value and a second target value different from the first target value to thereby set the changed target value in the control unit; dielectric-constant computing means for computing a dielectric constant of the fuel on the basis of a first control output of the phase lock circuit after the phase-difference target value is changed to the first target value by the target value switching means; electric-conductivity computing means for computing an electric conductivity of the fuel on the basis of an amount of shift between the first control output, which is outputted from the phase lock circuit after the phase-difference target value is changed to the first target value by the target value switching means, and a second control output, which is outputted from the phase lock circuit after the phase-difference target value is changed to the second target value by the target value switching means; and mixing-ratio detecting means for detecting a fuel mixing ratio of the fuel from the computed dielectric constant and the computed electric conductivity. - View Dependent Claims (7)
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2. A fuel mixing ratio detecting device comprising:
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an LC resonance circuit having an electrostatic capacity detecting portion for detecting an electrostatic capacity of fuel and means electrically equivalent to a coil connected in parallel with the electrostatic capacity detecting portion; a phase lock circuit having a voltage-controlled oscillator for generating a high-frequency signal having a frequency determined by a control voltage and for applying the generated high-frequency signal to the LC resonance circuit, a phase comparator for detecting a phase difference between a voltage and a current of the high-frequency signal applied to the LC resonance circuit, and a control unit for controlling the control voltage supplied to the voltage-controlled oscillator according to a difference between the phase difference detected by the phase comparator and a preliminarily set phase-difference target value; target value switching means for changing a phase difference target value between a first target value and a second target value different from the first target value and for setting the changed target value in the control unit; dielectric-constant computing means for computing a dielectric constant of the fuel on the basis of the frequency of a first high-frequency signal generated by the voltage-controlled oscillator after the phase-difference target value is changed to the first target value by this target value switching means; electric-conductivity computing means for computing an electric conductivity of the fuel on the basis of an amount of frequency shift between a frequency of the first high-frequency signal, which is generated by the voltage-controlled oscillator after the phase-difference target value is changed to the first target value by the target value switching means, and a frequency of a second high-frequency signal, which is generated by the voltage-controlled oscillator after the phase-difference target value is changed to the second target value by the target value switching means; and mixing-ratio detecting means for detecting a fuel mixing ratio of the fuel from the computed dielectric constant and the computed electric conductivity.
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3. A fuel mixing ratio detecting device comprising:
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an LC resonance circuit having an electrostatic capacity detecting portion for detecting an electrostatic capacity of fuel and means electrically equivalent to a coil connected in parallel with the electrostatic capacity detecting portion; a phase lock circuit having a voltage-controlled oscillator for generating a high-frequency signal having a frequency determined by a control voltage and for applying the generated high-frequency signal to the LC resonance circuit, a phase comparator for detecting a phase difference between a voltage and a current of the high-frequency signal applied to the LC resonance circuit, and a control unit for controlling the control voltage supplied to the voltage-controlled oscillator according to a difference between the phase difference detected by the phase comparator and a preliminarily set phase-difference target value; target value switching means for changing a phase difference target value between a first target value and a second target value different from the first target value and for setting the changed target value in the control unit; dielectric-constant computing means for computing a dielectric constant of the fuel on the basis of a first control voltage applied by the control unit to the voltage-controlled oscillator after the phase-difference target value is changed to the first target value by this target value switching means; electric-conductivity computing means for computing an electric conductivity of the fuel on the basis of an amount of shift between the first control voltage, which is applied by the control voltage to the voltage-controlled oscillator after the phase-difference target value is changed to the first target value by this target value switching means, and a second control voltage, which is applied by the control unit to the voltage-controlled oscillator after the phase-difference target value is changed to the second target value by the target value switching means; and mixing-ratio detecting means for detecting a fuel mixing ratio of the fuel from the computed dielectric constant and the computed electric conductivity.
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4. A fuel mixing ratio detecting device comprising:
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an LC resonance circuit having an electrostatic capacity detecting portion for detecting an electrostatic capacity of fuel and means electrically equivalent to a coil connected in parallel with the electrostatic capacity detecting portion; a phase lock circuit having a voltage-controlled oscillator for generating a high-frequency signal having a frequency determined by a control voltage and for applying the generated high-frequency signal to the LC resonance circuit, a phase comparator for detecting a phase difference between a voltage and a current of the high-frequency signal applied to the LC resonance circuit, and a control unit for controlling the control voltage supplied to the voltage-controlled oscillator according to a difference between the phase difference detected by the phase comparator and a preliminarily set phase-difference target value; target value setting means for setting a first target value in the control unit as a phase difference target value; target value modulating means for modulating the first target value by a predetermined modulation amount; dielectric-constant computing means for computing a dielectric constant of the fuel on the basis of a first control output of the phase lock circuit, which corresponds to the first target value; electric-conductivity computing means for computing an electric conductivity of the fuel based on an amount of shift between the first control output of the phase lock circuit, which corresponds to the first target value, and a second control output of the phase lock circuit, which corresponds to the modulated first target value; mixing-ratio detecting means for detecting the fuel mixing ratio of the fuel from the computed dielectric constant and the computed electric conductivity.
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5. A fuel mixing ratio detecting device comprising:
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an LC resonance circuit having an electrostatic capacity detecting portion for detecting an electrostatic capacity of fuel and means electrically equivalent to a coil connected in parallel with the electrostatic capacity detecting portion; a phase lock circuit having a voltage-controlled oscillator for generating a high-frequency signal having a frequency determined by a control voltage and for applying the generated high-frequency signal to the LC resonance circuit, a phase comparator for detecting a phase difference between a voltage and a current of the high-frequency signal applied to the LC resonance circuit, and a control unit for controlling the control voltage supplied to the voltage-controlled oscillator according to a difference between the phase difference detected by the phase comparator and a preliminarily set phase-difference target value; target value setting means for setting a first target value in the control unit as a phase difference target value; target value modulating means for modulating the first target value by a predetermined modulation amount; dielectric-constant computing means for computing a dielectric constant of the fuel on the basis of a frequency of a high-frequency signal generated by the voltage-controlled oscillator correspondingly to the first target value; electric-conductivity computing means for computing an electric conductivity of the fuel based on an amount of shift between the frequency of the high-frequency signal of the phase lock circuit, which corresponds to the first target value, and the frequency of the modulated high-frequency signal; and mixing-ratio detecting means for detecting the fuel mixing ratio of the fuel from the computed dielectric constant and the computed electric conductivity.
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6. A fuel mixing ratio detecting device comprising:
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an LC resonance circuit having an electrostatic capacity detecting portion for detecting an electrostatic capacity of fuel and means electrically equivalent to a coil connected in parallel with the electrostatic capacity detecting portion; a phase lock circuit having a voltage-controlled oscillator for generating a high-frequency signal having a frequency determined by a control voltage and for applying the generated high-frequency signal to the LC resonance circuit, a phase comparator for detecting a phase difference between a voltage and a current of the high-frequency signal applied to the LC resonance circuit, and a control unit for controlling the control voltage for the voltage-controlled oscillator according to a difference between the phase difference detected by the phase comparator and a preliminarily set phase-difference target value; target value setting means for setting a first target value in the control unit as a phase difference target value; target value modulating means for modulating the first target value by a predetermined modulation amount; dielectric-constant computing means for computing a dielectric constant of the fuel on the basis of a control voltage applied by the control unit to the voltage-controlled oscillator; electric-conductivity computing means for computing an electric conductivity of the fuel based on an amount of shift between a first control output of the phase lock circuit, which corresponds to the first target value, and a second control output of the phase lock circuit, which corresponds to the modulated first target value; and mixing-ratio detecting means for detecting the fuel mixing ratio of the fuel from the computed dielectric constant and the computed electric conductivity.
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8. A fuel mixing ratio detecting device comprising:
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an LC resonance circuit having an electrostatic capacity detecting portion for detecting an electrostatic capacity of fuel and means electrically equivalent to a coil connected in parallel with the electrostatic capacity detecting portion; a phase lock circuit having a voltage-controlled oscillator for generating a high-frequency signal having a frequency determined by a control voltage and for applying the generated high-frequency signal to the LC resonance circuit, a phase comparator for detecting a phase difference between a voltage and a current of the high-frequency signal applied to the LC resonance circuit, and a control unit for controlling the control voltage supplied to the voltage-controlled oscillator according to a difference between the phase difference detected by the phase comparator and a preliminarily set phase-difference target value; target value setting means for setting a first target value in the control unit as a phase difference target value of 0°
;dielectric-constant computing means for computing a dielectric constant of the fuel on the basis of a frequency of a high-frequency signal outputted from the voltage-controlled oscillator, which corresponds to the phase difference target value of 0°
;impedance detecting means for detecting an impedance of the LC resonance circuit when the phase difference target value is set to 0°
;electric-conductivity computing means for computing an electric conductivity of the fuel according to the detected impedance; and mixing-ratio detecting means for detecting a fuel mixing ratio of the fuel from the computed dielectric constant and the computed electric conductivity. - View Dependent Claims (9, 10)
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Specification
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Current AssigneeMitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
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Original AssigneeMitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
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InventorsSuzuki, Hiroyoshi
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Primary Examiner(s)Chilcot, Richard
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Assistant Examiner(s)MCCALL, ERIC SCOTT
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Application NumberUS08/436,763Time in Patent Office617 DaysField of Search73/23.31, 73/23.32, 73/61.41, 73/61.43, 73/61.44, 73/61.61, 73/113, 73/117.2, 73/118.1, 73/119 AUS Class Current73/61.44CPC Class CodesG01N 27/221 by investigating the dielec...G01N 33/2852 alcohol/fuel mixtures
