Capacitive touch detection
First Claim
1. A multi-channel signal mixing console comprising a plurality of groups of controls each including a motorized fader, such that each group of controls is assigned by an input means to particular signal channels, each motorized fader including a touch detection circuit, wherein each of said touch detection circuits is associated with a respective conductive area for detection of increased capacitance at the conductive area, wherein each of said touch detection circuits is operable during a predetermined active period, and wherein a timing circuit is provided for generating non-overlapping active periods for each of the touch detection circuits by applying an enable pulse from one of a plurality of pulse generators to one respective one of said plurality of touch detection circuits to define said predetermined active period, and to an input of a next one of said plurality of pulse generators to define a next active period to form a cascading touch detection circuit enabling scheme such that no more than one detection circuit is active at any time, thereby minimizing interaction between the detection circuits if more than one conductive area should be touched simultaneously, wherein upon detection of touch of a motorized fader, the other controls in the group associated with that fader are assigned to the channel represented by that fader.
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Accused Products
Abstract
A capacitive touch detection system, which can be used to inhibit motorized faders in an audio mixing system, includes touch detection circuits each having a respective conductive area for touch determination by detection of increased capacitance at the conductive area. The touch detection circuits are operable during predetermined active periods initiated by a clock generator which activates a pulse generator to produce an enable pulse EP1 for one detection circuit. The trailing edge of that enable pulse EP1 generates a non-overlapping enable pulse EP2 for the next detection circuit, and the process continues so that no more than one detection circuit is active at any time. This minimizes interaction between detection circuits if more than one conductive area is touched simultaneously.
17 Citations
2 Claims
- 1. A multi-channel signal mixing console comprising a plurality of groups of controls each including a motorized fader, such that each group of controls is assigned by an input means to particular signal channels, each motorized fader including a touch detection circuit, wherein each of said touch detection circuits is associated with a respective conductive area for detection of increased capacitance at the conductive area, wherein each of said touch detection circuits is operable during a predetermined active period, and wherein a timing circuit is provided for generating non-overlapping active periods for each of the touch detection circuits by applying an enable pulse from one of a plurality of pulse generators to one respective one of said plurality of touch detection circuits to define said predetermined active period, and to an input of a next one of said plurality of pulse generators to define a next active period to form a cascading touch detection circuit enabling scheme such that no more than one detection circuit is active at any time, thereby minimizing interaction between the detection circuits if more than one conductive area should be touched simultaneously, wherein upon detection of touch of a motorized fader, the other controls in the group associated with that fader are assigned to the channel represented by that fader.
Specification