Circuit configuration for a capacitive touch switch
First Claim
1. A circuit configuration for a capacitive touch switch, the circuit configuration comprising:
- at least one sensor circuit containing;
a capacitive sensor element changing its capacitance value when touched;
a capacitor connected in parallel with said capacitive sensor element and defining a parallel circuit;
a capacitance/frequency converter connected to said parallel circuit containing said capacitor and said capacitive sensor element, said capacitance/frequency converter generating and outputting a frequency signal having a frequency being dependent on a total capacitance of said parallel circuit formed of said capacitor and said capacitive sensor element;
said at least one sensor circuit being one of a plurality of sensor circuits outputting output signals and each of said sensor circuits having said capacitive sensor element;
an evaluation circuit receiving the frequency signal being an output signal from said sensor circuit for determining whether said capacitive sensor element is actuated or not; and
a switch connected between said plurality of sensor circuits and said evaluation circuit, the output signals from said plurality of sensor circuits being alternately supplied to said evaluation circuit through said switch.
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Accused Products
Abstract
A circuit configuration for a capacitive touch switch contains at least one sensor circuit with a capacitive sensor element which changes its capacitance value when touched, and an evaluation circuit which is supplied with an output signal from the sensor circuit in order to determine whether the capacitive sensor element is actuated or not. The at least one sensor circuit has a capacitance which is connected in parallel with the capacitive sensor element, and a capacitance/frequency converter which is connected to the parallel circuit containing the capacitance and the capacitive sensor element and generates, at its output, a frequency signal whose frequency depends on the total capacitance of the parallel circuit containing the capacitance and the capacitive sensor element. The evaluation circuit may thus use a significant change in the frequency of the output signal from the sensor circuit to deduce, in a simple manner, that the capacitive sensor element has been touched.
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Citations
12 Claims
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1. A circuit configuration for a capacitive touch switch, the circuit configuration comprising:
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at least one sensor circuit containing; a capacitive sensor element changing its capacitance value when touched; a capacitor connected in parallel with said capacitive sensor element and defining a parallel circuit; a capacitance/frequency converter connected to said parallel circuit containing said capacitor and said capacitive sensor element, said capacitance/frequency converter generating and outputting a frequency signal having a frequency being dependent on a total capacitance of said parallel circuit formed of said capacitor and said capacitive sensor element; said at least one sensor circuit being one of a plurality of sensor circuits outputting output signals and each of said sensor circuits having said capacitive sensor element; an evaluation circuit receiving the frequency signal being an output signal from said sensor circuit for determining whether said capacitive sensor element is actuated or not; and a switch connected between said plurality of sensor circuits and said evaluation circuit, the output signals from said plurality of sensor circuits being alternately supplied to said evaluation circuit through said switch. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A circuit configuration for a capacitive touch switch, the circuit configuration comprising:
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a plurality of sensor circuits each having a capacitive sensor element changing its capacitance value when touched, and a capacitor connected in parallel with said capacitive sensor element and defining a parallel circuit; a switch directly connected to each said parallel circuit from each of said plurality of sensor circuits and having a switch output; a capacitance/frequency converter connected to said switch output, said capacitance/frequency converter generating and outputting a frequency signal having a frequency being dependent on a total capacitance of a respective said parallel circuit formed of said capacitor and said capacitive sensor element of one of said plurality of said sensor circuits, said capacitance/frequency converter having a common inverter with input hysteresis; an evaluation circuit receiving the frequency signal being an output signal from a respective one of said plurality of sensor circuits for determining whether said capacitive sensor element is actuated or not; and said plurality of sensor circuits generating output signals alternately supplied to said evaluation circuit through said switch and said common inverter.
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12. A circuit configuration for a capacitive touch switch, the circuit configuration comprising:
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a plurality of sensor circuits each having a capacitive sensor element changing its capacitance value when touched, and a capacitor connected in parallel with said capacitive sensor element and defining a parallel circuit; a switch directly connected to each said parallel circuit from each of said plurality of sensor circuits and having a switch output; a capacitance/frequency converter connected to said switch output, said capacitance/frequency converter generating and outputting a frequency signal having a frequency being dependent on a total capacitance of a respective said parallel circuit formed of said capacitor and said capacitive sensor element of one of said plurality of said sensor circuits, said capacitance/frequency converter having a common negating AND gate with input hysteresis; an evaluation circuit receiving the frequency signal being an output signal from a respective one of said plurality of sensor circuits for determining whether said capacitive sensor element is actuated or not; and said plurality of sensor circuits generating output signals alternately supplied to said evaluation circuit through said switch and said common negating AND gate.
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Specification