Feedback stabilized ozone generator circuit
First Claim
1. A control arrangement useful to regulate a transformer enabled ozone generating circuit having a secondary winding thereof connected across an ozone generating gap, comprising:
- first and second primary windings included in said transformer, each inductively coupled to said secondary winding;
switching means characterized by a conductive and a non-conductive state rendered operative in response to an enabling signal and connected between said first and second primary windings for effecting conduction through said first primary winding; and
enabling means connected to said switching means and to said second primary winding for transmitting said enabling signal to said switching means in response to the comparison of the conduction output of said switching means and a predetermined electrical signal.
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Accused Products
Abstract
A control circuit is connected to sense the impedance changes in a transformer driven ozone generating circuit cause by inadvertent immersion in water of the ozone generating field and to respond by reducing the strength of the ozone generating field as result thereof. To retain some ozone generating usefulness during the presence of mist or vapors in the ozone generating field the control circuit includes a series connected operational amplifier in the feedback loop that while operating in its linear range effects a proportional feedback response to reduce the ozone output. In this manner the usefulness of ozone generation is extended during highly active periods in a pool or spa.
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Citations
7 Claims
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1. A control arrangement useful to regulate a transformer enabled ozone generating circuit having a secondary winding thereof connected across an ozone generating gap, comprising:
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first and second primary windings included in said transformer, each inductively coupled to said secondary winding; switching means characterized by a conductive and a non-conductive state rendered operative in response to an enabling signal and connected between said first and second primary windings for effecting conduction through said first primary winding; and enabling means connected to said switching means and to said second primary winding for transmitting said enabling signal to said switching means in response to the comparison of the conduction output of said switching means and a predetermined electrical signal. - View Dependent Claims (2, 3)
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4. A control circuit useful to regulate a coronal discharge cell for generating ozone within an electrode gap connected across a secondary winding, of a transformer, comprising:
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first and second primary windings included in said transformer, each inductively coupled with said secondary winding; switching means connected between said first and second primary windings characterized by a conductive and a non-conductive state rendered operative in response to an enabling signal for effecting conduction through said first primary winding; and a source of electrical excitation connected across said first primary winding, said switching means and said second primary winding; and enabling means connected to said switching means including a first operational amplifier defined by an input and an output operatively connected to compare the conduction through said switching means against a preselected portion of said electrical excitation connected to transmit said enabling signal to said switching means for enabling the operation of said switching means in response to the comparison of the conduction output of said switching means and a predetermined electrical signal. - View Dependent Claims (5, 6, 7)
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Specification