at42qt1011 ATMEL Corporation, at42qt1011 Datasheet - Page 4

at42qt1011

Manufacturer Part Number

at42qt1011

Description

One-channel Touch Sensor Ic

Manufacturer

ATMEL Corporation

Datasheet

1.AT42QT1011.pdf (18 pages)

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2.4.2

2.4.3

2.4.4

3. Operation Specifics

3.1

3.1.1

3.1.2

Run Modes

AT42QT1011

Increasing Sensitivity

Decreasing Sensitivity

Proximity Sensing

Introduction

Fast Mode

In some cases it may be desirable to increase sensitivity; for example, when using the sensor

with very thick panels having a low dielectric constant, or when the device is used as a proximity

sensor. Sensitivity can often be increased by using a larger electrode or reducing panel

thickness. Increasing electrode size can have diminishing returns, as high values of Cx will

reduce sensor gain.

The value of Cs also has a dramatic effect on sensitivity, and this can be increased in value with

the trade-off of slower response time and more power. Increasing the electrode's surface area

will not substantially increase touch sensitivity if its diameter is already much larger in surface

area than the object being detected. Panel material can also be changed to one having a higher

dielectric constant, which will better help to propagate the field.

In the case of proximity detection, usually the object being detected is on an approaching hand,

so a larger surface area can be effective.

Ground planes around and under the electrode and its SNSK trace will cause high Cx loading

and destroy gain. The possible signal-to-noise ratio benefits of ground area are more than

negated by the decreased gain from the circuit, and so ground areas around electrodes are

discouraged. Metal areas near the electrode will reduce the field strength and increase Cx

loading and should be avoided, if possible. Keep ground away from the electrodes and traces.

In some cases the QT1011 may be too sensitive. In this case gain can be easily lowered further

by decreasing Cs.

By increasing the sensitivity, the QT1011 can be used as a very effective proximity sensor,

allowing the presence of a nearby object (typically a hand) to be detected.

In this scenario, as the object being sensed is typically a hand, very large electrode sizes can be

used, which is extremely effective in increasing the sensitivity of the detector. In this case, the

value of Cs will also need to be increased to ensure improved sensitivity, as mentioned in

Section

issue in proximity sensing applications; in such applications it is necessary to detect simply the

presence of a large object, rather than a small, precise touch.

The QT1011 has three running modes which depend on the state of the SYNC pin (high or low).

The QT1011 runs in Fast mode if the SYNC pin is permanently high. In this mode the QT1011

runs at maximum speed at the expense of increased current consumption. Fast mode is useful

when speed of response is the prime design requirement. The delay between bursts in Fast

mode is approximately 1 ms, as shown in

2.4.2. Note that, although this affects the responsiveness of the sensor, it is less of an

Figure

3-1.

9542G–AT42–03/10

at42qt1011 ATMEL Corporation, at42qt1011 Datasheet - Page 4

at42qt1011

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