Self-configuring flexible heater
First Claim
1. A flexible heater system comprising:
- a first input-power terminal;
a second input-power terminal, the first input-power terminal and the second input-power terminal configured to be electrically connected to an AC input-supply voltage;
a first heater supply terminal electrically coupled to the first input-power terminal through a first supply network;
a second heater supply terminal electrically coupled to the second input-power terminal through a second supply network;
a flexible heater that includes a first heater element that includes one or more resistive elements and a second heater element that includes one or more resistive elements, the first heater element having a first resistance approximately equal to a second resistance of the second heater element;
at least one switch having a 110 Volt mode and a 220 Volt mode, when in the 110 Volt mode, the at least one switch connects the first and second heater elements in a parallel fashion to the first and second heater supply terminals, and when in the 220 Volt mode, the at least one switch connects the first and second heater elements in a serial fashion to the first and second heater supply terminals; and
a switch circuit having an AC/DC converter having input terminals connected to the first and second input-power terminals, the AC/DC converter generating a DC output signal proportional to the magnitude of the AC input-supply voltage, the switch circuit also having a resistor/diode network configured to establish a predetermined DC voltage threshold corresponding to a predetermined AC voltage between 110 Volts and 220 Volts, wherein if the DC output signal is greater than the predetermined DC voltage threshold then the switch circuit puts the at least one switch in the 220 Volt mode, and if the DC output signal is less than the predetermined DC voltage threshold, then the switch circuit puts the at least one switch in the 110 Volt mode, so that a power dissipated by the first heater element and the second heater element is approximately equal when the AC input-supply voltage is at 110 Volts or 220 Volts.
1 Assignment
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Accused Products
Abstract
In general, this disclosure describes example techniques for a flexible heater system to automatically configure itself to operate over different input supply voltages. The flexible heater system may include a flexible heater that includes a first heater element and a second heater element. The flexible heater system may also include a switch circuit that may automatically couple the first heater element and the second heater element in a first configuration when an input supply voltage is at a first voltage level. The switch circuit may also automatically couple the first heater element and the second heater element in a second configuration when the input supply voltage is at a second voltage level.
12 Citations
6 Claims
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1. A flexible heater system comprising:
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a first input-power terminal; a second input-power terminal, the first input-power terminal and the second input-power terminal configured to be electrically connected to an AC input-supply voltage; a first heater supply terminal electrically coupled to the first input-power terminal through a first supply network; a second heater supply terminal electrically coupled to the second input-power terminal through a second supply network; a flexible heater that includes a first heater element that includes one or more resistive elements and a second heater element that includes one or more resistive elements, the first heater element having a first resistance approximately equal to a second resistance of the second heater element; at least one switch having a 110 Volt mode and a 220 Volt mode, when in the 110 Volt mode, the at least one switch connects the first and second heater elements in a parallel fashion to the first and second heater supply terminals, and when in the 220 Volt mode, the at least one switch connects the first and second heater elements in a serial fashion to the first and second heater supply terminals; and a switch circuit having an AC/DC converter having input terminals connected to the first and second input-power terminals, the AC/DC converter generating a DC output signal proportional to the magnitude of the AC input-supply voltage, the switch circuit also having a resistor/diode network configured to establish a predetermined DC voltage threshold corresponding to a predetermined AC voltage between 110 Volts and 220 Volts, wherein if the DC output signal is greater than the predetermined DC voltage threshold then the switch circuit puts the at least one switch in the 220 Volt mode, and if the DC output signal is less than the predetermined DC voltage threshold, then the switch circuit puts the at least one switch in the 110 Volt mode, so that a power dissipated by the first heater element and the second heater element is approximately equal when the AC input-supply voltage is at 110 Volts or 220 Volts. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification