Physical quantity detecting apparatus
First Claim
1. A physical quantity detecting apparatus comprising:
- a sensor element activated by a supply voltage and outputting an electric signal associated with a physical quantity applied to the sensor element;
an analog-to-digital (A/D), converter for digitizing the electric signal to obtain corresponding digital data;
control means for calculating a control amount based on the digital data in order to control the sensor element and reset the electric signal to a predetermined output by generating a PWM digital control signal in accordance with the control amount, wherein the control means outputs a detection value indicating said physical quantity; and
activation means for activating the sensor element in accordance with the PWM digital control signal by outputting a PWM digital control voltage corresponding to the PWM digital control signal to the sensor element, said activation means being a digital circuit.
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Accused Products
Abstract
A physical amount detecting apparatus, preferably, an acceleration sensor, includes a sensor element, an A/D converter, a control unit and an activation unit. The sensor element is activated by a supply voltage and outputs an electric signal in accordance with a predetermined physical amount. The A/D converter digitizes an analog electric signal and outputs digital data. The control unit calculates a control amount in order to control the sensor element, as the electric signal is set to a predetermined output, based on the digital data, and generates a control signal in accordance with the control amount. The activation unit activates the sensor element in accordance with the control signal. As a result, the control unit outputs a detecting signal indicating a physical amount in accordance with the control amount or the control signal.
58 Citations
24 Claims
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1. A physical quantity detecting apparatus comprising:
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a sensor element activated by a supply voltage and outputting an electric signal associated with a physical quantity applied to the sensor element; an analog-to-digital (A/D), converter for digitizing the electric signal to obtain corresponding digital data; control means for calculating a control amount based on the digital data in order to control the sensor element and reset the electric signal to a predetermined output by generating a PWM digital control signal in accordance with the control amount, wherein the control means outputs a detection value indicating said physical quantity; and activation means for activating the sensor element in accordance with the PWM digital control signal by outputting a PWM digital control voltage corresponding to the PWM digital control signal to the sensor element, said activation means being a digital circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A physical quantity detecting apparatus comprising:
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a sensor element activated by a supply voltage and outputting an electric signal associated with a physical quantity applied to said sensor element; an analog-to-digital (A/D) converter for digitizing the electric signal to obtain corresponding digital data; control means for calculating a control amount in order to control the sensor element and reset the electric signal to a predetermined output by generating a control signal in accordance with the control amount, wherein the control means outputs a detection value indicating said physical quantity, the control means having; an oscillator having a plurality of inversion circuits ring-connected to each other, one of the inversion circuits being formed as a start inversion circuit of which the inverting operation is controllable from an external stage, and for rotating the pulse signal, when the start inversion circuit is started by an input signal and outputting oscillation pulses at a predetermined time interval; count means for counting an oscillation pulse from the oscillator and outputting the pulse signal when the count value reaches the previously set value; a programmable delay line including a plurality of delay stages cascade-connected to each other, the plurality of delay stages comprising a basic path for passing the pulse signal from the count means, a delay path being formed by cascade-connecting a plurality of inversion circuits to each other and passing the pulse signal delayed by a predetermined delay time, and a selector for selecting either the basic path or the delay path as the path of the input signal in accordance with the digital data which are input from an external stage, wherein the programmable delay line outputs the delay signal which is delayed by a delay time less than the time interval of the oscillation time of the oscillator; data control supplying means for receiving digital control data having predetermined bits indicating the delay time of the input signal, setting upper bits of the digital control data as count values of the count means, supplying lower bits of the digital control data to the programmable delay line, and setting the delay time of the programmable delay line; and output means for generating the input signal for a predetermined period to start the oscillator, stopping the oscillator when the delay signal is output from the programmable delay line, and generating a high level signal until the delay signal is output from the programmable delay line after the input signal is generated, wherein the control means further comprises a pulse width modulating circuit for setting the control amount to the digital control data and outputting the output signal having a pulse width in accordance with the control amount as the control signal, and controls the power supply time to the sensor element from the power supply means in accordance with a pulse width modulated signal which is output from the pulse width modulating circuit; and activation means for activating the sensor element in accordance with the control signal by outputting a digital PWM control voltage to the sensor element. - View Dependent Claims (16, 17)
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12. A physical quantity detecting apparatus as claimed in claims, wherein the sensor element comprises:
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a movable portion formed so as to be able to displace a sensor element body; a center electrode provided for any one of the movable portion or the sensor element body; control electrodes provided on both sides of the center electrode and opposite to each other in the vicinity of the center electrode; and displacement detecting means for outputting the electric signal in accordance with the displacement of the movable portion, wherein the output of the displacement detecting means is input to the A/D converter, and the position of the movable portion is adjusted by a static electric force which occurs due to a supply voltage between the center electrode and each control electrode, and the activation means includes a pair of switches for supplying a predetermined drive voltage to two electrodes formed by the center electrode and each control electrode and alternately turned on/off in response to the pulse width modulated signal from the pulse width modulating circuit. - View Dependent Claims (13, 14, 15)
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18. A physical quantity detecting apparatus, comprising:
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a sensor element activated by a supply voltage and outputting an electric signal associated with a physical quantity applied to said sensor element, said sensor element comprising; a moveable electrode which moves based on a physical quantity applied to the sensor element; a first fixed control electrode which does not move based on the physical quantity applied to the sensor element and which is located near the moveable electrode; and a second fixed control electrode which does not move based on the physical quantity applied to the sensor element and which is located opposite the first fixed control electrode; an analog-to-digital (A/D) converter for digitizing the electric signal to obtain corresponding digital data; control means for calculating a digital control amount in order to control the sensor element and reset the electric signal to a predetermined output by generating a PWM digital control signal in accordance with the digital control amount, wherein the control means also outputs a detection value indicating said physical quantity, wherein said control means includes an oscillation means for generating signals based on a period corresponding to a predetermined clock based on the calculated digital control amount, wherein the oscillation means directly converts the digital control amount into the PWM digital control signal; and activation means for activating the sensor element in accordance with the PWM digital control signal, wherein a different potential is alternately applied to the first and second fixed control electrodes from said activation means, the moveable electrode is connected to a predetermined power source, and a resistor for current limitation is connected between the predetermined power source and the moveable electrode.
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19. An acceleration sensor comprising:
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a sensor element activated by a supply voltage and outputting an electric signal associated with an acceleration force applied to said sensor element; an analog-to-digital (A/D converter for digitizing the electric signal output from the sensor element to obtain corresponding digital data; control means for receiving the digital data from the A/D converter, calculating a control amount to control the sensor element and reset the electric signal from the sensor element to a predetermined output by outputting the control signal in accordance with the control amount; activation means for activating the sensor element in accordance with the control signal from the control means by outputting a PWM digital control voltage to the sensor element, the activation means being a digital circuit; wherein the A/D converter comprises; a pulse running circuit formed by a plurality of inversion circuits, each of which inverts an input signal and outputs an inverted signal and wherein an inverting time is changed by a power voltage, one of the inversion circuits being formed by a start inversion circuit whose inverting operation is controllable from an external stage, the pulse running circuit running a pulse signal in accordance with a start operation of the start inversion circuit; and running position detecting means for detecting a running position of the pulse signal within the pulse running circuit and outputting binary digital data in accordance with the running position, wherein the electric signal from the sensor element is used as the power voltage for each inversion circuit in the pulse running circuit, the binary digital data from the running position detecting means is output as the digital data, and the control amount or the control signal is output as a detecting signal indicating said acceleration.
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20. An acceleration sensor comprising:
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a sensor element activated by a supply voltage and outputting an electric signal associated with an acceleration force applied to said sensor element; an analog-to-digital (A/D) converter for digitizing the electric signal output from the sensor element to obtain corresponding digital data; control means for receiving the digital data from the A/D converter, calculating a control amount to control the sensor element and reset the electric signal from the sensor element to a predetermined output by outputting the control signal in accordance with the control amount; activation means for activating the sensor element in accordance with the control signal from the control means by outputting a digital PWM control voltage to the sensor element, the activation means being a digital circuit; wherein the A/D converter comprises; a pulse running circuit formed by a plurality of inversion circuits, each of which inverts an input signal and outputs an inverted signal and wherein an inverting time is changed by a power voltage, one of the inversion circuits being formed by a start inversion circuit in which an inverting operation is controllable from an external stage, the pulse running circuit running a pulse signal in accordance with a start operation of the start inversion circuit; running position detecting means for detecting a running position of the pulse signal within the pulse running circuit and outputting binary digital data in accordance with the running position; and detection controlling means for starting the start inversion circuit and inverting the operation of the pulse running circuit, and operating the running position detecting means after a predetermined time; and wherein the electric signal from the sensor element is used as the power voltage for each inversion circuit in the pulse running circuit, the binary digital data from the running position detecting means is output as the digital data, and the control amount or the control signal is output as a detecting signal indicating said acceleration.
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21. An acceleration sensor comprising:
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a sensor element including an element having a first electrode, a second electrode having a predetermined gap for the first electrode which can be changed relatively in accordance with an acceleration force applied to the sensor element, a third electrode provided across the first electrode and opposite to the second electrode and having another gap for the first electrode which can be changed relatively in accordance with the applied acceleration, the sensor element outputting an electric signal associated with the acceleration; an A/D converter for digitizing the electric signal from the sensor element to obtain a corresponding digital data; control means for receiving the digital data from the A/D converter, calculating a control amount to control the sensor element and reset the electric signal from the element to a predetermined output, and outputting the control signal in accordance with the control amount; pulse generating means for receiving the control amount from the control means, and outputting a control pulse signal having a pulse width corresponding to the control signal; switch means for receiving the control pulse signal from the pulse generating means, and passing electric charges to or from the second electrode and the third electrode in accordance with a predetermined pattern and a pulse width of the control pulse signal; wherein the A/D converter comprises; a pulse rotating circuit formed by a plurality of inversion circuits, each of which inverts an input signal and outputs an inverted signal and wherein an inverting time is changed by a power voltage, one of the inversion circuits being formed by a start inversion circuit in which an inverting operation is controllable from an external stage, the pulse rotating circuit rotating a pulse signal in accordance with a start operation of the start inversion circuit; a counter for counting the number of rotations of the pulse signal within the pulse rotating circuit, and outputting the result as binary digital data; rotating position detecting means for detecting the rotating position of the pulse signal within the pulse rotating circuit based on the output signal from each inversion circuit in the pulse rotating circuit and outputting the binary digital data in accordance with the rotating position; and detecting controlling means for starting the start inversion circuit and inverting operation of the pulse rotating circuit, and operating the rotating position detecting means after a predetermined time, wherein the electric signal from the sensor element is used as the power voltage for each inversion circuit in the pulse running circuit, the binary digital data from the counter and the binary digital data from the rotating position detecting means are output as the digital data, and the control amount or the control signal is output as a detecting signal indicating acceleration.
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22. A physical quantity detecting apparatus comprising:
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a sensor element activated by a supply voltage and outputting an electric signal associated with a physical quantity, the sensor element having; a moveable electrode which moves in response to a physical quantity applied to the sensor element; a first fixed control electrode which does not move based on the physical quantity applied to the sensor element and which is located near the moveable electrode; and a second fixed control electrode which does not move based on the physical quantity applied to the sensor element and which is located opposite the first fixed control electrode; an analog-to-digital (A/D) converter for digitizing the electric signal to obtain corresponding digital data; control means for calculating a control amount based on the digital data in order to control the sensor element and reset the electric signal to a predetermined output by generating a control signal in accordance with the control amount, wherein the control means outputs a detection value indicating a physical value in accordance with the control amount or the control signal; and activation means for activating the sensor element in accordance with the control signal by alternately applying a differential potential to the first and second fixed control electrodes, wherein the moveable electrode is connected to a predetermined power source and a resistor is connected between the predetermined power source and the moveable electrode.
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23. A physical quantity detecting apparatus, comprising:
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a sensor element activated by a supply voltage and outputting an electric signal corresponding with a physical quantity applied to the sensor element; an analog-to-digital (A/D converter for digitizing the electric signal to obtain corresponding digital data; control means for calculating a control amount based on the digital data in order to control the sensor element and reset the electric signal to a predetermined output by generating a PWM digital control signal in accordance with the control amount, wherein the control means outputs a detection value indicating said physical quantity and wherein the control means includes an oscillation means for generating signals based on a period in response to a predetermined clock, based on a calculated control amount; and activation means for activating the sensor element in accordance with the PWM digital control signal. - View Dependent Claims (24)
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Specification