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An optical transducer for determining the presence or absence of liquid or the like in a reservoir includes an electrical circuit with a pulse generator and processing electronics to filter out ambient light and compensate for temperature changes. A comparator circuit portion includes a pair of comp

An optical transducer for determining the presence or absence of liquid or the like in a reservoir includes an electrical circuit with a pulse generator and processing electronics to filter out ambient light and compensate for temperature changes. A comparator circuit portion includes a pair of comparators that simultaneously output high and low signals when in the presence of liquid. One of the outputs can be selected to drive an indicator, pump, relay or the like.

대표청구항 ▼

I claim: 1. A liquid level transducer, having a transparent body adapted for exposure to a liquid to be measured, the liquid level transducer comprising: an electrical circuit comprising: a light source for projecting radiant energy into the transparent body; a photosensor for detecting a level of

I claim: 1. A liquid level transducer, having a transparent body adapted for exposure to a liquid to be measured, the liquid level transducer comprising: an electrical circuit comprising: a light source for projecting radiant energy into the transparent body; a photosensor for detecting a level of the radiant energy emanating from the transparent body, the level of radiant energy being indicative of the presence or absence of liquid on the transparent body; a pulsing circuit portion connected to the light source for pulsing the light source between on and off conditions; a rectifier circuit portion connected to the photosensor for rectifying a signal from the photosensor, the rectified signal being proportional to the detected level of radiant energy; an integrator circuit portion connected to the rectifier circuit portion for temporarily storing the rectified signal; a comparator circuit portion connected to the integrator circuit portion for comparing the rectified signal with a predetermined value; and a load switch portion connected to the comparator circuit portion for switching an external load when the rectified signal is at least one of above and below the predetermined value; wherein the comparator circuit portion comprises first and second comparators, the first comparator being configured to output a high signal to the load switch portion when the rectified signal is above the predetermined value, the second comparator being configured to output a low signal to the load switch portion when the rectified signal is above the predetermined value. 2. A liquid level transducer according to claim 1, and further comprising a selector switch portion connected between the outputs of the first and second comparators and the load switch portion for selecting the output of only one of the comparators. 3. A liquid level transducer according to claim 1, and further comprising an anti-hysteresis circuit portion connected to the inputs and outputs of the comparators to prevent oscillation of the load switch portion. 4. A liquid level transducer, having a transparent body adapted for exposure to a liquid to be measured, the liquid level transducer comprising: an electrical circuit comprising: a source for projecting radiant into the transparent body; a photosensor for detecting a level of the radiant energy emanating from the transparent body, the level of radiant energy being indicative of the presence or absence of liquid on the transparent body; a pulsing circuit portion connected to the light source for pulsing the light source between on and off conditions; a rectifier circuit portion connected to the photosensor for rectifying a signal from the photosensor, the rectified signal being proportional to the detected level of radiant energy; an integrator circuit portion connected to the rectifier circuit for temporarily storing the rectified signal; a comparator circuit portion connected to the integrator circuit portion for comparing the rectified signal with a predetermined value; a load switch portion connected to the comparator circuit portion for switching an external load when the rectified signal is at least one of above and below the predetermined value; and a delay timer connected between the integrator circuit portion and the comparator circuit portion to thereby prevent or reduce false signaling due to liquid sloshing. 5. A liquid level transducer according to claim 4, wherein the integrator circuit portion comprises a first resistor in series with a capacitor and the delay timer comprises a second resistor in parallel with the capacitor. 6. An electrical circuit for a liquid level transducer having a transparent body adapted for exposure to a liquid to be measured, the electrical circuit comprising: a light source adapted for projecting radiant energy into the transparent body; a photosensor adapted for detecting a level of the radiant energy emanating from the transparent body, the level of radiant energy being indicative of the presence or absence of liquid on the transparent body; a comparator circuit portion connected to the photosensor for comparing the detected level of radiant energy with a predetermined value, the comparator circuit portion comprising first and second comparators, the first comparator being configured to output a high signal when the detected level of radiant energy is above the predetermined value, the second comparator being configured to output a low signal when the detected level of radiant energy is above the predetermined value; and a load switch portion connected to an output of at least one of the first and second comparators for switching an external load when the detected level of radiant energy is at least one of above and below the predetermined value. 7. An electrical circuit according to claim 6, and further comprising a selector switch portion connected between the outputs of the first and second comparators and the load switch portion for selecting the output of only one of the comparators. 8. An electrical circuit according to claim 7, and further comprising an anti-hysteresis circuit portion connected to the inputs and outputs of the comparators to prevent oscillation of the load switch portion. 9. An electrical circuit according to claim 6, and further comprising an anti-hysteresis circuit portion connected to the inputs and outputs of the comparators to prevent oscillation of the load switch portion. 10. An optical transducer for determining the presence or absence of liquid in a reservoir, the optical transducer comprising: a housing having a hollow interior; an optical probe extending through the housing, the optical probe having a proximal end positioned in the hollow interior and a distal end positioned outside of the housing; electrical circuitry for determining the presence or absence of liquid on the distal end of the optical probe, the electrical circuitry comprising: a light source positioned for projecting radiant energy into the optical probe toward the distal end; a photosensor positioned for detecting a level of radiant energy reflected from the distal end, the level of radiant energy being indicative of the presence or absence of liquid on the optical probe; a comparator circuit portion connected to the photosensor for comparing the detected level of radiant energy with a predetermined value, the comparator circuit portion comprising first and second comparators, the first comparator being configured to output a high signal when the detected level of radiant energy is above the predetermined value, the second comparator being configured to output a low signal when the detected level of radiant energy is above the predetermined value; and a load switch portion connected to an output of at least one of the first and second comparators for switching an external load when the detected level of radiant energy is at least one of above and below the predetermined value. 11. An optical transducer according to claim 10, and further comprising a selector switch portion connected between the outputs of the first and second comparators and the load switch portion for selecting the output of only one of the comparators. 12. An optical transducer according to claim 11, and further comprising an anti-hysteresis circuit portion connected to the inputs and outputs of the comparators to prevent oscillation of the load switch portion. 13. An optical transducer according to claim 10, and further comprising an anti-hysteresis circuit portion connected to the inputs and outputs of the comparators to prevent oscillation of the load switch portion. 14. An optical transducer according to claim 10, and further comprising: a pulsing circuit portion connected to the light source for pulsing the light source between on and off conditions; a rectifier circuit portion connected to the photosensor for rectifying a signal from the photosensor, the rectified signal being proportional to the detected level of radiant energy; and an integrator circuit portion connected between the rectifier circuit portion and the comparator circuit portion for temporarily storing the rectified signal. 15. An electrical circuit according to claim 14, and further comprising a delay timer connected between the integrator circuit portion and the comparator circuit portion to thereby prevent or reduce false signaling due to liquid sloshing. 16. An electrical circuit according to claim 15, wherein the integrator circuit portion comprises a first resistor in series with a capacitor and the delay timer comprises a second resistor in parallel with the capacitor. 17. An optical transducer according to claim 14, and further comprising a selector switch portion connected between the outputs of the first and second comparators and the load switch portion for selecting the output of only one of the comparators. 18. An optical transducer according to claim 14, and further comprising an anti-hysteresis circuit portion connected to the inputs and outputs of the comparators to prevent oscillation of the load switch portion. 19. An optical transducer according to claim 10, wherein the light source and the photosensor are positioned within the hollow interior of the housing.