Method and apparatus for pest deterrence
First Claim
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1. A pest deterrent device comprising:
- a sensor capable of detecting a pest;
a trigger circuit electrically coupled to the sensor, the trigger circuit providing a triggering signal having a first polarity in response to a triggering event, the trigger circuit activating a load during the triggering signal, the triggering signal being coupled to a summing junction through a capacitor as positive feedback;
a negative feedback path electrically coupling an inverse triggering signal to the summing junction to discharge the capacitor and turn off the triggering signal and the load after a triggering period, the trigger circuit providing a lockout signal following the triggering signal, the lockout signal being coupled to the summing junction through the capacitor as positive feedback and an inverse lockout signal being coupled to the summing junction as negative feedback to lock out the load until the lockout signal is turned off after a lockout period.
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Abstract
A pest deterrent device attracts the attention of a pest with ultrasonic noise and then produces a series of flashes to drive off the pest. In one embodiment, the device continuously produces ultrasound, changing the ultrasound when a pest is detected. In another embodiment, the device does not produce ultrasound until a pest is detected. In a further embodiment, the flash charging circuit is used to modulate the ultrasound while the flash is operated. In a particular embodiment, four ultrasonic speakers are arranged in a series-parallel configuration with a total capacitance of about 0.2 micro-Farads achieve 120 dB of sound output with a supply voltage of about 12-18 V.
34 Citations
8 Claims
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1. A pest deterrent device comprising:
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a sensor capable of detecting a pest;
a trigger circuit electrically coupled to the sensor, the trigger circuit providing a triggering signal having a first polarity in response to a triggering event, the trigger circuit activating a load during the triggering signal, the triggering signal being coupled to a summing junction through a capacitor as positive feedback;
a negative feedback path electrically coupling an inverse triggering signal to the summing junction to discharge the capacitor and turn off the triggering signal and the load after a triggering period, the trigger circuit providing a lockout signal following the triggering signal, the lockout signal being coupled to the summing junction through the capacitor as positive feedback and an inverse lockout signal being coupled to the summing junction as negative feedback to lock out the load until the lockout signal is turned off after a lockout period. - View Dependent Claims (2, 3, 4, 5)
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6. A pest deterrent device comprising:
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a sensor capable of detecting a pest;
a trigger circuit electrically coupled to the sensor, the trigger circuit providing a triggering signal having a first polarity in response to a triggering event, the trigger circuit activating a load during the triggering signal, the triggering signal being coupled from an output of an inverting amplifier to a summing junction of a second inverting amplifier through a capacitor as positive feedback;
a negative feedback path electrically coupling an inverse triggering signal from a second output of the second inverting amplifier to the summing junction to discharge the capacitor and turn off the triggering signal and the load, the trigger circuit providing a lockout signal following the triggering signal, the lockout signal being coupled from the output of the first inverting amplifier to the summing junction through the capacitor as positive feedback and an inverse lockout signal being coupled from the second output of the second inverting amplifier to the summing junction as negative feedback to lock out the load until the lockout signal is turned off.
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7. A method of locking out a detector circuit, the method comprising:
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providing a detection signal from the detector circuit to a saturation amplifier;
producing a first saturated output signal from the saturation amplifier, the first saturated output signal having a first electrical polarity;
electrically coupling the first saturated output signal to an inverting input of a second amplifier;
inverting the first saturated output signal to produce a triggering signal having a second electrical polarity and being configured to activate a load;
electrically coupling the triggering signal through a capacitor to an inverting summing junction of the saturation amplifier;
electrically coupling the first saturated output signal to the inverting summing junction of the saturation amplifier;
discharging the inverting summing junction to turn off the triggering signal and the load after a trigger period;
producing a second saturated output signal from the saturation amplifier, the second saturated output signal having the second electrical polarity;
inverting the second saturated output signal to produce a lockout signal having the first electrical polarity and being configured to de-activate the load;
electrically coupling the lockout signal through the capacitor to the inverting summing junction of the saturation amplifier;
electrically coupling the second saturated output signal to the inverting summing junction of the saturation amplifier;
discharging the inverting summing junction to turn off the lockout signal after a lockout period. - View Dependent Claims (8)
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Specification