AVOIDING NOISE WHEN USING MULTIPLE CAPACITIVE MEASURING INTEGRATED CIRCUITS
First Claim
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1. A method for decreasing interference between at least two capacitive touch sensing circuits, said method comprising:
- providing a first capacitive touch sensing circuits;
providing a second capacitive touch sensing circuit, wherein the first capacitive touch sensing circuit and the second capacitive touch sensing circuit are operating in an adjacent environment that enables interference between them;
providing a master controller circuit that is coupled to the first and second capacitive touch sensing circuits and which controls the measurement frequencies selected by the first and second capacitive touch sensing circuits;
monitoring noise that is measured by the first and second capacitive touch sensing circuits; and
using the master controller circuit to select a new measurement frequency for the first or second capacitive touch sensing circuits when noise is detected that interferes with operation of the first or second capacitive touch sensing circuits changing measuring frequencies of the first capacitive touch sensing circuit when noise is detected, wherein the new measurement frequency is selected so that it does not interfere with operation of the other capacitive touch sensing circuit.
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Abstract
A system and method for enabling noise avoidance between multiple capacitive touch sensing circuits operating in a same device and which may interfere with each other, wherein a master controller is coupled to all of the capacitive touch sensing circuits to prevent them from using measurement frequencies and from jumping to new measurement frequencies that may interfere with each other, thereby allowing the capacitive touch sensing circuits to function properly.
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1 Claim
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1. A method for decreasing interference between at least two capacitive touch sensing circuits, said method comprising:
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providing a first capacitive touch sensing circuits; providing a second capacitive touch sensing circuit, wherein the first capacitive touch sensing circuit and the second capacitive touch sensing circuit are operating in an adjacent environment that enables interference between them; providing a master controller circuit that is coupled to the first and second capacitive touch sensing circuits and which controls the measurement frequencies selected by the first and second capacitive touch sensing circuits; monitoring noise that is measured by the first and second capacitive touch sensing circuits; and using the master controller circuit to select a new measurement frequency for the first or second capacitive touch sensing circuits when noise is detected that interferes with operation of the first or second capacitive touch sensing circuits changing measuring frequencies of the first capacitive touch sensing circuit when noise is detected, wherein the new measurement frequency is selected so that it does not interfere with operation of the other capacitive touch sensing circuit.
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Specification