QT310-D ETC, QT310-D Datasheet - Page 4

QT310-D

Manufacturer Part Number

QT310-D

Description

PROGRAMMABLE CAPACITANCE SENSOR IC

Manufacturer

ETC

Datasheet

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A ‘virtual capacitive ground’ can be created by connecting the

QT310’s own circuit ground to:

Because the QT310 operates at a relatively low frequency,

about 500kHz, even long inductive wiring back to ground will

usually work fine.

Free-floating ground planes such as metal foils should

maximise exposed surface area in a flat plane if possible. A

square of metal foil will have little effect if it is rolled up or

crumpled into a ball. Virtual ground planes are more effective

and can be made smaller if they are physically bonded to

other surfaces, for example a wall or floor.

1.3.4 F

The electrode can be prevented from sensing in undesired

directions with the assistance of metal shielding connected to

circuit ground (Figure 1-5). For example, on flat surfaces, the

field can spread laterally and create a larger touch area than

desired. To stop field spreading, it is only necessary to

surround the touch electrode on all sides with a ring of metal

connected to circuit ground; the ring can be on the same or

opposite side from the electrode. The ring will kill field

spreading from that point outwards.

If one side of the panel to which the electrode is fixed has

moving traffic near it, these objects can cause inadvertent

detections. This is called ‘walk-by’ and is caused by the fact

that the fields radiate from either surface of the electrode

equally well. Again, shielding in the form of a metal sheet or

foil connected to circuit ground will prevent walk-by; putting a

small air gap between the grounded shield and the electrode

will keep the value of Cx lower and is encouraged. In the case

(1) A nearby piece of metal or metallized housing;

(2) A floating conductive ground plane;

(3) A fastener to a supporting structure;

(4) A larger electronic device (to which its output might be

connected anyway).

IELD

Figure 1-5 Shielding Against Fringe Fields

HAPING

of the QT310, sensitivity can be high enough (depending on

Cx and Cs) that 'walk-by' signals are a concern; if this is a

problem, then some form of rear shielding may be required.

1.4 SENSITIVITY ADJUSTMENTS

There are three variables which influence sensitivity:

There is also a sensitivity dependence of the whole device on

Vdd. Cs and Cx effects are covered in Section 1.2.1.

The threshold setting can be adjusted independently from 1 to

255 counts of signal swing (Section 2.3).

Note that sensitivity is also a function of other things like

electrode size, shape, and orientation, the composition and

aspect of the object to be sensed, the thickness and

composition of any overlaying panel material, and the degree

of mutual coupling of the sensor circuit and the object (usually

via the local environment, or an actual galvanic connection).

Threshold levels of less than 5 counts in BG mode are not

advised; if this is the case, raise Cs so that the threshold can

also be increased.

1.4.1 I

In some cases it may be desirable to greatly increase

sensitivity, for example when using the sensor with very thick

panels having a low dielectric constant, or when sensing low

capacitance objects.

Sensitivity can be increased by using a bigger electrode,

reducing panel thickness, or altering panel composition.

Increasing electrode size can have diminishing returns, as

high values of Cx load will also reduce sensor gain (Figures

5-1 and 5-2). The value of Cs also has a dramatic effect on

sensitivity, and this can be increased in value up to a limit.

Increasing electrode surface area will not substantially

increase sensitivity if its area is already larger than the object

to be detected. The panel or other intervening material can be

made thinner, but again there are diminishing rewards for

NCREASING

Cs (sampling capacitor)

Cx (unknown capacitance)

Signal threshold value

Figure 1-6 Burst Detail

ENSITIVITY

QT310/R1.03 21.09.03

QT310-D ETC, QT310-D Datasheet - Page 4

QT310-D

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