Capacitive sensing, solid state touch button system
First Claim
1. A capacitive sensing touch button for controlling a function, said button comprising:
- a button surface for receiving a reference signal, said button surface outputting a signal shifted in phase, relative to the reference signal, upon contact of said button surface by a user;
an oscillator, operatively connected to said button surface, to provide the reference signal to said button surface, said oscillator having a predetermined duty cycle;
phase shift to pulse width converter, operatively connected to said button surface and said oscillator, to convert the phase-shifted signal into a pulse width based on the amount of the phase shift relative to the reference signal;
auto-balancing compensation, operatively connected to said phase shift to pulse width converter, including at least two integrators, each having a different time constant, each of said integrators receiving the pulse widths and converting the pulse width into a dc voltage, said auto-balancing compensation outputting either a SET signal or a RESET signal based on the relative dc voltage values produced by said integrators, thereby avoiding false activation of the controlled function due to residual impedence and/or external influences at said button surface; and
delay-on circuitry, operatively connected to said auto-balancing compensation, to receive the signal output therefrom, said delay-on circuitry generating a control signal to control the controlled function provided that said SET signal is present at least a predetermined time period, thereby avoiding false activation of the controlled function due to transient noise.
1 Assignment
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Accused Products
Abstract
A solid state touch or control button assembly (10), with no moving button parts and operated by capacitive sensing by monitoring the phase shift of a signal applied to the face of the button, including in a first embodiment (FIGS. 2A & 2B) a auto balancing button and in a second embodiment (FIGS. 3A & 3B) a constant pressure button. If skin or other material comes into contact with the touch surface, the capacitance is changed and sensed, causing the electrical or electronic function controlled by the touch button to be activated (or deactivated, depending on the design, or otherwise altered). LEDs then are activated, providing visual feedback to the button pusher through a light ring (2A) surrounding the button surface (1). False activation of the button by residual impedance and external influences, such as temperature change, cleaner residue build-up and other deposits, are avoided by compensating for them by slowly auto balancing to all such phase shifts, with the rate of auto balance being set to be faster than the rate of change of the steady state phase shift; and, additionally, false activations by noise transients, including those due to EMI, FRI and other environmental fluctuations, are avoided by delaying the activation of the button by an appropriate amount of time, such as, for example, of the order of about one hundred (100 msec.) milliseconds.
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Citations
7 Claims
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1. A capacitive sensing touch button for controlling a function, said button comprising:
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a button surface for receiving a reference signal, said button surface outputting a signal shifted in phase, relative to the reference signal, upon contact of said button surface by a user; an oscillator, operatively connected to said button surface, to provide the reference signal to said button surface, said oscillator having a predetermined duty cycle; phase shift to pulse width converter, operatively connected to said button surface and said oscillator, to convert the phase-shifted signal into a pulse width based on the amount of the phase shift relative to the reference signal; auto-balancing compensation, operatively connected to said phase shift to pulse width converter, including at least two integrators, each having a different time constant, each of said integrators receiving the pulse widths and converting the pulse width into a dc voltage, said auto-balancing compensation outputting either a SET signal or a RESET signal based on the relative dc voltage values produced by said integrators, thereby avoiding false activation of the controlled function due to residual impedence and/or external influences at said button surface; and delay-on circuitry, operatively connected to said auto-balancing compensation, to receive the signal output therefrom, said delay-on circuitry generating a control signal to control the controlled function provided that said SET signal is present at least a predetermined time period, thereby avoiding false activation of the controlled function due to transient noise. - View Dependent Claims (2, 3)
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4. A capacitive sensing touch button for controlling a function, said button comprising:
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a button surface for receiving a reference signal, said button surface outputting a signal shifted in phase, relative to the reference signal, upon contact of said button surface by a user; an oscillator to provide the reference signal to said button surface, said oscillator having a predetermined duty cycle; phase shift to pulse width converter to convert the phase-shifted signal into a pulse width based on the amount of the phase shift relative to the reference signal; an integrator to convert the pulse width into a dc voltage; a level detector to output a control signal when the dc voltage is greater than a predetermined threshold voltage; and a delay/dwell timer to receive said control signal and to control the controlled function provided that said control signal is present at least a predetermined time period, thereby avoiding false activation of the controlled function due to transient noise. - View Dependent Claims (5, 6, 7)
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Specification