Heater wire and control therefor
First Claim
1. In combination:
- a heater wire, which comprises;
a heating conductor having a predetermined resistance;
a sensing conductor;
a polymer layer interposed between the heating conductor and the sensing conductor; and
an outer insulative layer covering the heating conductor, polymer layer and sensing conductor; and
a control circuit for controlling an AC (alternating current) power signal applied to the heater wire, the control circuit comprising;
a capacitor, the capacitor being coupleable to one polarity of the AC power signal;
a resistor connected in series with the capacitor and to an opposite polarity of the AC power signal, the resistor being connected to the capacitor to define a junction thereat, one end of the sensing conductor being coupled to the junction of the resistor and capacitor, the junction exhibiting a phase shifted AC power signal when power is applied to the heater wire and control circuit;
a first zero cross detector which detects the zero crossing of the AC power signal and generates a first zero cross signal in response thereto;
a second zero cross detector which detects the zero crossing of the phase shifted AC power signal exhibited at the junction of the resistor and capacitor and which generates a second zero cross signal in response thereto;
a time difference determinator circuit responsive to the first zero cross signal and the second zero cross signal and which determines the time difference between the zero crossing of the AC power signal and the zero crossing of the phase shifted AC power signal and generates a control signal in response thereto; and
a switch responsive to the control signal which controls the duty cycle of the AC power signal provided to the heater wire in response thereto.
2 Assignments
0 Petitions
Accused Products
Abstract
An improved control device and method is usable with flexible heating wire having a conductive core with a Negative Temperature Coefficient (NTC) layer and a helically wound heater conductor within an insulative outer sheath. The conductive core is coupled to a control circuit, a phase shift relative to the AC power supply being indicative of the temperature of the wire. The nonlinear nature of the NTC layer enhances the detection of local hot spots anywhere along the length of the wire. Precise temperature measurement is achieved by measuring the time differences between two zero crossings and the power to the heater compensates for abnormal use such as bunching of the heater wire. The control of the heater wire is particularly suitable for use with appliances such as heating pads and electric blankets.
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Citations
27 Claims
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1. In combination:
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a heater wire, which comprises; a heating conductor having a predetermined resistance; a sensing conductor; a polymer layer interposed between the heating conductor and the sensing conductor; and an outer insulative layer covering the heating conductor, polymer layer and sensing conductor; and a control circuit for controlling an AC (alternating current) power signal applied to the heater wire, the control circuit comprising; a capacitor, the capacitor being coupleable to one polarity of the AC power signal; a resistor connected in series with the capacitor and to an opposite polarity of the AC power signal, the resistor being connected to the capacitor to define a junction thereat, one end of the sensing conductor being coupled to the junction of the resistor and capacitor, the junction exhibiting a phase shifted AC power signal when power is applied to the heater wire and control circuit; a first zero cross detector which detects the zero crossing of the AC power signal and generates a first zero cross signal in response thereto; a second zero cross detector which detects the zero crossing of the phase shifted AC power signal exhibited at the junction of the resistor and capacitor and which generates a second zero cross signal in response thereto; a time difference determinator circuit responsive to the first zero cross signal and the second zero cross signal and which determines the time difference between the zero crossing of the AC power signal and the zero crossing of the phase shifted AC power signal and generates a control signal in response thereto; and a switch responsive to the control signal which controls the duty cycle of the AC power signal provided to the heater wire in response thereto. - View Dependent Claims (2, 3, 4)
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5. In combination:
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a heater wire, which comprises; a heating conductor having a predetermined resistance; a sensing conductor; a polymer layer interposed between the heating conductor and the sensing conductor; and an outer insulative layer covering the heating conductor, polymer layer and sensing wire; and a control circuit for controlling an AC (alternating current) power signal to the heater wire, the control circuit comprising; a first capacitor, the first capacitor being coupleable to one polarity of AC power signal; a first resistor connected in series with the first capacitor and to an opposite polarity of the AC power signal, the first resistor being connected to the first capacitor to define a first junction thereat, one end of the sensing conductor being coupled to the first junction of the first resistor and first capacitor, the first junction exhibiting a first phase shifted AC power signal when power is applied to the heater wire and control circuit; a first zero cross detector which detects the zero crossing of the AC power signal and generates a first zero cross signal in response thereto; a second zero cross detector which detects the zero crossing of the first phase shifted AC power signal exhibited at the first junction of the first resistor and first capacitor and which generates a second zero cross signal in response thereto; a second capacitor; a second resistor, the second resistor being connected in series with the second capacitor to define a series connection therewith, the series connection having a first end and an opposite second end, the first end of the series connection of the second capacitor and the second resistor being coupleable to said one polarity of the AC power signal, and the second end of the series connection of the second capacitor and the second resistor being coupleable to the heating conductor of the heater wire and defining therewith a second junction, the second junction exhibiting a second phase shifted AC power signal when power is applied to the heater wire and control signal; a third zero cross detector which detects the zero crossing of the second phase shifted AC power signal exhibited at the second junction of the series connection of the second capacitor and the second resistor and which generates a third zero cross signal in response thereto; a time difference determinator circuit responsive to the first zero cross signal and the second zero cross signal and which determines the time difference between the zero crossing of the AC power signal and the zero crossing of the first phase shifted AC power signal, and which is further responsive to the first zero cross signal and the third zero cross signal and further determines the time difference between the zero crossing of the AC power signal and the zero crossing of the second phase shifted AC power signal, the time difference determinator circuit generating a control signal in response thereto; and a switch responsive to the control signal which controls the duty cycle of the AC power signal provided to the heater wire in response thereto. - View Dependent Claims (6, 7, 8, 9, 10)
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11. A method of monitoring and controlling a heater wire, the heater wire including a heating conductor having a predetermined resistance, a sensing conductor, a polymer layer interposed between the heating conductor and the sensing conductor, and an outer insulative layer covering the heating conductor, polymer layer and sensing conductor, which comprises the steps of:
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providing an AC (alternating current) power signal to the heater wire; phase shifting the AC power signal in response to a change in resistance of the polymer layer of the heater wire and generating a phase shifted AC power signal in response thereto; detecting the zero crossing of the AC power signal and generating a first zero crossing signal; detecting the zero crossing of the phase shifted AC power signal and generating a second zero crossing signal in response thereto; determining the time difference between the zero crossing of the AC power signal and the zero crossing of the phase shifted AC power signal in response to the first zero crossing signal and the second zero crossing signal and generating a control signal in response thereto; and controlling the duty cycle of the AC power signal provided to the heater wire in response to the control signal. - View Dependent Claims (12, 13, 14, 15)
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16. A method of monitoring and controlling a heater wire, the heater wire including a heating conductor having a predetermined resistance, a sensing conductor, a polymer layer interposed between the heating conductor and the sensing conductor, and an outer insulative layer covering the heating conductor, polymer layer and sensing conductor, which comprises the steps of:
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providing an AC (alternating current) power signal to the heater wire; phase shifting the AC power signal in response to a change in resistance of the polymer layer of the heater wire and generating a first phase shifted AC power signal in response thereto; phase shifting the AC power signal in response to a change in resistance of the heating conductor of the heater wire and generating a second phase shifted AC power signal in response thereto; detecting the zero crossing of the AC power signal and generating a first zero crossing signal; detecting the zero crossing of the first phase shifted AC power signal and generating a second zero crossing signal in response thereto; detecting the zero crossing of the second phase shifted AC power signal and generating a third zero crossing signal in response thereto; determining the time difference between the zero crossing of the AC power signal and the zero crossing of the first phase shifted AC power signal in response to the first zero crossing signal and the second zero crossing signal, and determining the time difference between the zero crossing of the AC power signal and the zero crossing of the second phase shifted AC power signal in response to the first zero crossing signal and the third zero crossing signal, and generating a control signal in response thereto; and controlling the duty cycle of the AC power signal provided to the heater wire in response to the control signal. - View Dependent Claims (17, 18, 19)
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20. A method of monitoring and controlling a heater wire, the heater wire including a heating conductor having a predetermined resistance, a sensing conductor, a polymer layer interposed between the heating conductor and the sensing conductor, and an outer insulative layer covering the heating conductor, polymer layer and sensing conductor, which comprises the steps of:
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providing an AC (alternating current) power signal to the heater wire; generating a phase shifted AC power signal at a connection to the sensing conductor of the heater wire; detecting the zero crossing of the AC power signal and generating a first zero crossing signal; detecting the zero crossing of the phase shifted AC power signal and generating a second zero crossing signal in response thereto; determining if the time difference between the zero crossing of the AC power signal and the zero crossing of the phase shifted AC power signal in response to the first zero crossing signal and the second zero crossing signal is approximately zero and generating a control signal in response thereto; and limiting the AC power signal provided to the heater wire in response to the control signal. - View Dependent Claims (21, 22, 23)
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24. A control circuit for controlling an AC (alternating current) power signal applied to a heater wire, the heater wire including a heating conductor having a predetermined resistance, a sensing conductor, a polymer layer interposed between the heating conductor and the sensing conductor, and an outer insulative layer covering the heating conductor, polymer layer and sensing conductor, the control circuit comprising:
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a phase shift circuit coupled to the sensing conductor of the heater wire and generating a phase shifted AC power signal; a first zero cross detector which detects the zero crossing of the AC power signal and generates a first zero cross signal in response thereto; a second zero cross detector which detects the zero crossing of the phase shifted AC power signal and which generates a second zero cross signal in response thereto; a time difference determinator circuit responsive to the first zero cross signal and the second zero cross signal and which determines the time difference between the zero crossing of the AC power signal and the zero crossing of the phase shifted AC power signal and generates a control signal in response thereto; and a switch responsive to the control signal which controls the duty cycle of the AC power signal provided to the heater wire in response thereto.
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25. A control circuit for controlling an AC (alternating current) power signal applied to a heater wire, the heater wire including a heating conductor having a predetermined resistance, a sensing conductor, a polymer layer interposed between the heating conductor and the sensing conductor, and an outer insulative layer covering the heating conductor, polymer layer and sensing conductor, the control circuit comprising:
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a first phase shift circuit coupled to the sensing conductor of the heater wire and generating a first phase shifted AC power signal; a second phase shift circuit coupled to the heating conductor of the heater wire and generating a second phase shifted AC power signal; a first zero cross detector which detects the zero crossing of the AC power signal and generates a first zero cross signal in response thereto; a second zero cross detector which detects the zero crossing of the first phase shifted AC power signal and which generates a second zero cross signal in response thereto; a third zero cross detector which detects the zero crossing of the second phase shifted AC power signal and which generates a third zero cross signal in response thereto; a time difference determinator circuit responsive to the first zero cross signal and the second zero cross signal and which determines the time difference between the zero crossing of the AC power signal and the zero crossing of the first phase shifted AC power signal, and being further responsive to the first zero cross signal and the third zero cross signal and which further determines the time difference between the zero crossing of the AC power signal and the zero crossing of the second phase shifted AC power signal, the time difference determinator circuit generating a control signal in response thereto; and a switch responsive to the control signal which controls the duty cycle of the AC power signal provided to the heater wire in response thereto.
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26. A control circuit for controlling an AC (alternating current) power signal applied to a heater wire, the heater wire including a heating conductor having a predetermined resistance, a sensing conductor, a polymer layer interposed between the heating conductor and the sensing conductor, and an outer insulative layer covering the heating conductor, polymer layer and sensing conductor, the control circuit comprising:
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a phase shift circuit coupled to the sensing conductor of the heater wire and generating a phase shifted AC power signal; a first zero cross detector which detects the zero crossing of the AC power signal and generates a first zero cross signal in response thereto; a second zero cross detector which detects the zero crossing of the phase shifted AC power signal and which generates a second zero cross signal in response thereto, a time difference determinator circuit responsive to the first zero cross signal and the second zero cross signal and which determines if the time difference between the zero crossing of the AC power signal and the zero crossing of the phase shifted AC power signal is approximately zero and generating a control signal in response thereto; and a switch responsive to the control signal which limits the AC power signal provided to the heater wire in response thereto.
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27. In combination:
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a heater wire, which comprises; a heating conductor having a predetermined resistance; a sensing conductor; a polymer layer interposed between the heating conductor and the sensing conductor; and an outer insulative layer covering the heating conductor, polymer layer and sensing conductor; and a control circuit for controlling an AC (alternating current) power signal applied to the heater wire, the control circuit comprising; a capacitor, the capacitor being coupleable to one polarity of the AC power signal; a resistor connected in series with the capacitor and to an opposite polarity of the AC power signal, the resistor being connected to the capacitor to define a junction thereat, one end of the sensing conductor being coupled to the junction of the resistor and capacitor, the junction exhibiting a phase shifted AC power signal when power is applied to the heater wire and control circuit; a first zero cross detector which detects the zero crossing of the AC power signal and generates a first zero cross signal in response thereto; a second zero cross detector which detects the zero crossing of the phase shifted AC power signal exhibited at the junction of the resistor and capacitor and which generates a second zero cross signal in response thereto; a time difference determinator circuit responsive to the first zero cross signal and the second zero cross signal and which determines if the time difference between the zero crossing of the AC power signal and the zero crossing of the phase shifted AC power signal is approximately zero and generating a control signal in response thereto; and a switch responsive to the control signal which limits the AC power signal provided to the heater wire in response thereto.
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Specification