Touch Sensor For Mobile Device With Radio
First Claim
1. A system including touch detection, comprising:
- a plurality of input pins coupled to a plurality of external connection pads within a pad area for an integrated circuit (IC);
a plurality of oscillators located within the pad area for the IC, each oscillator being coupled to at least one input pin and being configured to output an oscillating signal having a frequency dependent upon a touch sensor coupled to the at least one input pin; and
touch detection circuitry coupled to receive the oscillating signals from the plurality of oscillators and configured to output touch detection signals based upon changes to the oscillating signals.
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Accused Products
Abstract
An integrated circuit that includes a wireless transceiver and a touchpad detection circuit is disclosed. The integrated circuit includes oscillators in the pad area of the device, thus minimizing silicon area used for this function. The oscillators consist of an inverting input buffer, such as a Schmidt trigger with a resistive feedback path from the output of the input buffer back to its input. The input of the buffer is also in communication with the external connection pad within the pad area. This allows an external component, such as a capacitor or touch sensor to be coupled to the oscillator. The method of operating a touchpad is also disclosed, where the oscillators may be selectively enabled.
10 Citations
16 Claims
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1. A system including touch detection, comprising:
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a plurality of input pins coupled to a plurality of external connection pads within a pad area for an integrated circuit (IC); a plurality of oscillators located within the pad area for the IC, each oscillator being coupled to at least one input pin and being configured to output an oscillating signal having a frequency dependent upon a touch sensor coupled to the at least one input pin; and touch detection circuitry coupled to receive the oscillating signals from the plurality of oscillators and configured to output touch detection signals based upon changes to the oscillating signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A touch pad monitoring system, comprising:
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an integrated circuit (IC), having a general purpose I/O (GPIO) pin, adapted to be in communication with a touch sensor, comprising; an inverting input buffer, disposed in a pad area of the IC and comprising an input in communication with the GPIO pin, an output, and a resistive feedback path, disposed in the pad area, connecting the output of the input buffer to the input of the input buffer; wherein the inverting buffer and the resistive feedback path comprise an oscillator, the frequency of which is dependent on the touch sensor coupled to the GPIO pin. - View Dependent Claims (10, 11)
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12. A method of operating a touchpad, comprising:
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providing a plurality of touch sensors, defining the touch pad;
a reference capacitor;
a reference inverting input buffer having a resistive feedback path from its output to its input, where its input is in communication with the reference capacitor, thereby forming a reference oscillator;
a reference period measurement block in communication with the output of the reference inverting input buffer to measure a period of the reference oscillator;
a plurality of inverting input buffers, each having a respective resistive feedback path from its output to its input, where each input is in communication with a respective one of the plurality of touch sensors to create a plurality of oscillators;
two multiplexers, each having a plurality of inputs, each input in communication with an output of a respective one of the plurality of input inverting buffers, each of the multiplexers having a respective output, selectable from the plurality of inputs; and
two period measurement blocks, each in communication with a respective output of one of the two multiplexers to measure a period of one of the touch sensors;selecting two of the touch sensors to monitor by configuring the multiplexers to select an input corresponding to the two touch sensors to pass to the respective outputs; enabling the reference period measurement block and the two period measurement blocks to simultaneously measure a period of the reference oscillator and the two touch sensors, respectively; reading the measured periods of the reference oscillator and the two touch sensors; creating ratios of the measured periods of the two touch sensors to the reference oscillator to compensate for variations in voltage; and comparing the created ratios to average values to determine whether a touch sensor is being actuated. - View Dependent Claims (13, 14, 15, 16)
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Specification