How to Manage power in capacitive touch sensing applications

March 18, 2013 // By Vibheesh B, Cypress
Vibheesh B of Cypress Semiconductor considers how to manage power in capacitive touch sensing applications.

Capacitive touch sensing is replacing mechanical switches and push buttons in a wide variety of applications. Many battery-powered, handheld, and portable electronics have adopted capacitive touch sensing user interfaces. The power constraints of these devices, along with the constant focus on energy efficiency, has made low-power design critical in capacitive touch sensing applications.

Some best practices for reducing power consumption in capacitive touch sensing applications include:
.    Optimize the sensor parasitic capacitance (C P) with board layout best practices
.    Use sleep mode and optimize the sensor report rate
.    Vary the report rate based on finger touch events
.    Use the priority rule to wake up from sleep mode

Optimize the sensor parasitic capacitance (C P) with board layout best practices

Capacitive touch sensors typically consist of copper pads connected to a capacitive sensing controller input pins via traces. Figure 1 shows a typical capacitive sensor including electric field coupling lines.

Figure 1: Typical capacitive sensor pad construction

When a finger comes in contact with the overlay covering a sensor pad, it forms a simple parallel plate capacitor called finger capacitance (C F). Even without a finger touching the overlay, the capacitive sensing controller measures some parasitic capacitance (C P). C P is the sum of the distributed capacitance on the sensor. This includes the capacitance of the sensor pad due to its proximity to circuit ground, the trace connecting the capacitive sensing controller input pin and the sensor pad, vias, and the capacitive sensing controller input pin.

The capacitive sensing controller converts the capacitance measured at its input pin to digital counts using an A-to-D converter. The controller uses a DSP algorithm to continuously monitor the digital counts and identify increases in sensor capacitance due to a finger touch.

To accurately detect a finger touch, the A-to-D converter’s resolution has to be tuned to maintain a specific sensitivity level. If the C P is
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