Proximity detector employing a crystal oscillator
First Claim
1. A proximity detecting crystal oscillator circuit comprising:
- biasing means for providing a variable voltage including a fixed source of DC voltage, a transistor having a base, collector and emitter, said collector being connected to said fixed source of voltage, a capacitor coupled between the emitter and base, a resistor coupled between said emitter and ground, a resistor coupled to the collector and to a supply lead, a three-lead range selecting variable resistor having a first lead coupled to the collector of said transistor, a second variable lead coupled to said first lead, and a third lead coupled to a first lead of a second three-lead variable resistor, said second variable resistor having a second lead coupled through a resistor to ground, and a third variable lead coupled to said supply lead;
crystal means including a crystal having first and second leads, said second lead being coupled to said supply lead;
impedance means comprising a first capacitor coupled between said first lead of said crystal and ground, a second capacitor connected on one side of said second lead, a third capacitor connected between the other side of said second capacitor and ground, and a current limiting resistor coupled in electrical parallel with said third capacitor;
output means for providing a crystal oscillation output signal from said crystal means comprising a second transistor having a base, collector and emitter, the base of said second transistor being coupled to the common point between the second and third capacitor, the collector of said second transistor being coupled through a resistor to said fixed source of DC potential and a coupling capacitor coupled to the collector of said second transistor to provide an alternating output signal when said crystal is oscillating, said first, second and third capacitors being set to such values that said crystal is in a selected one of the states of oscillation or non-oscillation;
means coupled to the impedance means for changing the capacitance of the impedance means in response to the proximity of a capacitance means thereto; and
means responsive to the output from said output means for providing an alarm/indicator signal, said means coupled to said impedance means comprising capacitance varying means responsive to the proximity thereto of a body having at least a preselected capacitance for varying the capacitance coupled to said crystal means to alternatively instantaneously initiate or terminate oscillation produced by said crystal means independently of the rate of movement of the body relative to said means for varying the capacitance coupled to said crystal means.
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Abstract
A proximity detector includes a crystal which is coupled to an impedance circuit having a value selected to sustain or prevent oscillation of the crystal. At selected points in the impedance circuit, a sensing line is coupled to add capacitance to initiate or terminate crystal oscillation. A detector circuit coupled to the amplified output of the oscillator signal is used to control an alarm circuit. By coupling the sensing line so that capacitance is added to the impedance circuit when the proximity of an individual or other animal tissue is sensed, oscillation of the crystal is initiated or terminated to control the alarm circuit. The oscillator circuit provides improved stability and sensitivity for use of the circuit in a variety of environments.
32 Citations
10 Claims
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1. A proximity detecting crystal oscillator circuit comprising:
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biasing means for providing a variable voltage including a fixed source of DC voltage, a transistor having a base, collector and emitter, said collector being connected to said fixed source of voltage, a capacitor coupled between the emitter and base, a resistor coupled between said emitter and ground, a resistor coupled to the collector and to a supply lead, a three-lead range selecting variable resistor having a first lead coupled to the collector of said transistor, a second variable lead coupled to said first lead, and a third lead coupled to a first lead of a second three-lead variable resistor, said second variable resistor having a second lead coupled through a resistor to ground, and a third variable lead coupled to said supply lead; crystal means including a crystal having first and second leads, said second lead being coupled to said supply lead; impedance means comprising a first capacitor coupled between said first lead of said crystal and ground, a second capacitor connected on one side of said second lead, a third capacitor connected between the other side of said second capacitor and ground, and a current limiting resistor coupled in electrical parallel with said third capacitor; output means for providing a crystal oscillation output signal from said crystal means comprising a second transistor having a base, collector and emitter, the base of said second transistor being coupled to the common point between the second and third capacitor, the collector of said second transistor being coupled through a resistor to said fixed source of DC potential and a coupling capacitor coupled to the collector of said second transistor to provide an alternating output signal when said crystal is oscillating, said first, second and third capacitors being set to such values that said crystal is in a selected one of the states of oscillation or non-oscillation; means coupled to the impedance means for changing the capacitance of the impedance means in response to the proximity of a capacitance means thereto; and means responsive to the output from said output means for providing an alarm/indicator signal, said means coupled to said impedance means comprising capacitance varying means responsive to the proximity thereto of a body having at least a preselected capacitance for varying the capacitance coupled to said crystal means to alternatively instantaneously initiate or terminate oscillation produced by said crystal means independently of the rate of movement of the body relative to said means for varying the capacitance coupled to said crystal means. - View Dependent Claims (5)
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2. A proximity detecting crystal oscillator circuit comprising:
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biasing means for providing a variable voltage including a fixed source of DC voltage, a transistor having a base, collector and emitter, said collector being connected to said fixed source of voltage, a capacitor coupled between the emitter and base, a resistor coupled between said emitter and ground, a resistor coupled to the collector and to a supply lead, a three-lead range selecting variable resistor having a first lead coupled to the collector of said transistor, a second variable lead coupled to said first lead, and a third lead coupled to a first lead of a second three-lead variable resistor, said second variable resistor having a second lead coupled through a resistor to ground, and a third voltage lead coupled to said supply lead; crystal means including a crystal having first and second leads, said second lead being coupled to said supply lead; impedance means comprising a first capacitor coupled between said first lead of said crystal and ground, a second a current limiting resistor coupled in electrical parallel with said third capacitor; output means for providing a crystal oscillation output signal from said crystal means comprising a second transistor having a base, collector and emitter, the base of said second transistor being coupled to the common point between the second and third capacitor, the collector of said second transistor being coupled through a resistor to said fixed source of DC potential and a coupling capacitor coupled to the collector of said second transistor to provide an alternating output signal when said crystal is oscillating, said first, second and third capacitors being set to such values that said crystal is in a selected one of the states of oscillation or non-oscillation; means coupled to the impedance means for changing the capacitance of the impedance means in response to the proximity of a capacitance means thereto; and means responsive to the output from said output means for providing an alarm/indicator signal, said circuit comprising a proximity detection system for detecting fouls on a bowling lane, said means coupled to the impedance means comprising at least one proximity sensing electrically conductive wire positioned adjacent the foul line of a bowling alley for varying the capacitance impedance coupled to the crystal means in response to the proximity of an individual. - View Dependent Claims (3, 4)
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6. A proximity detecting crystal oscillator circuit comprising:
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biasing means for providing a variable voltage including a fixed source of DC voltage, a transistor having a base, collector and emitter, said collector being connected to said fixed source of voltage, a capacitor coupled between the emitter and base, a resistor coupled between said emitter and ground, a resistor coupled to the collector and to a supply lead, a three-lead range selecting variable resistor having a first lead coupled to the collector of said transistor, a second variable lead coupled to said first lead, and a third lead coupled to a first lead of a second three-lead variable resistor, said second variable resistor having a second lead coupled through a resistor to ground, and a third variable lead coupled to said supply lead; crystal means including a crystal having first and second leads, said second lead being coupled to said supply lead; impedance means comprising a first capacitor coupled between said first lead of said crystal and ground, a second capacitor connected on one side to said second lead, a third capacitor connected between the other side of said second capacitor and ground, and a current limiting resistor coupled in electrical parallel with said third capacitor; output means for providing a crystal oscillation output signal from said crystal means comprising a second transistor having a base, collector and emitter, the base of said second transistor being coupled to the common point between the second and third capacitor, the collector of said second transistor being coupled through a resistor to said fixed source of DC potential and a coupling capacitor coupled to the collector of said second transistor to provide an alternating output signal when said crystal is oscillating, said first, second and third capacitors being set to such values that said crystal is in a selected one of the states of oscillation or non-oscillation; means coupled to the impedance means for changing the capacitance of the impedance means in response to the proximity of a capacitance means thereto; and means responsive to the output from said output means for providing an alarm/indicator signal. - View Dependent Claims (7, 8, 9, 10)
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Specification