qt510 Quantum Research Group, qt510 Datasheet - Page 4

qt510

Manufacturer Part Number

qt510

Description

Qwheel? Touch Slider Ic

Manufacturer

Quantum Research Group

Datasheet

1.QT510.pdf (14 pages)

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the Error bit is high, it means the signal has fallen significantly

below the calibration level when not touched. If this happens

the device could report slightly inaccurate position values

when touched.

This condition can self-correct via the drift compensation

process after some time under host control (Section 3.3.3).

Alternatively, the host controller can cause the device to

recalibrate immediately by issuing a calibration command

(Section 3.3.2).

2 Wiring & Parts

The device should be wired according to Figure 1-1. An

example PCB layout (of the E510 eval board) is shown in

Figure 1-3.

2.1 Electrode Construction

The wheel electrode should be a resistive element of about

100K ohms +/-50% between each set of connection points, of

a suitable diameter and width. There are no known diameter

restrictions other than those governed by human factors .

The electrode can be made of a series chain of discrete

resistors with copper pads on a PCB, or from ITO (Indium Tin

Oxide, a clear conductor used in LCD panels and touch

screens) over a display. Thick-film carbon paste can also be

used, however linearity might be a problem as these films are

notoriously difficult to control without laser trimming or

scribing.

The linearity of the wheel is governed largely by the linearity

and consistency of the resistive element. Positional accuracy

to within 5% is routinely achievable with good grade resistors

and a uniform construction method.

2.2 Cs Sample Capacitors

Cs1, Cs2 and Cs3 are the charge sensing sample capacitors;

normally they are identical in nominal value. They should be

of type X7R dielectric.

Figure 1-3 E510 PCB Layout

hence more average power.

Cs1, Cs2 and Cs3 should be X7R type, matched to within

10% of each other (ie, 5% tolerance) for best accuracy. The

E510 reference layout (Figure 1-3) is highly recommended. If

the Cs capacitors are poorly matched, the wheel accuracy will

be affected and there could also be missing codes.

2.3 Rs Resistors

Rs1, Rs2, and Rs3 are low value (typically 4.7K) resistors

used to suppress the effects of ESD and assist with EMC

compliance.

2.4 Power Supply

The usual power supply considerations with QT parts applies

also to the QT510. The power should be very clean and come

from a separate regulator if possible. This is particularly

critical with the QT510 which reports continuous position as

opposed to just an on/off output.

A ceramic 0.1µF bypass capacitor should be placed very

close to the power pins of the IC.

Regulator stability: Most low power LDO regulators have

very poor transient stability, especially when the load

transitions from zero current to full operating current in a few

microseconds. With the QT510 this happens when the device

comes out of sleep mode. The regulator output can suffer

from hundreds of microseconds of instability at this time,

which will have a negative effect on acquisition accuracy.

Table 1-2 Recommended Cs vs. Materials

Thickness,

0.4

0.8

1.5

2.5

3.0

4.0

The optimal Cs values depend on the

thickness of the panel and its dielectric

constant. Lower coupling to a finger caused

by a low dielectric constant and/or thicker

panel will cause the position result to

become granular and more subject to

position errors. The ideal panel is made of

thin glass. The worst panel is thick plastic.

Granularity due to poor coupling can be

compensated for by the use of larger values

of sample capacitors.

A table of suggested values for no missing

position values is shown in Table 1-2.

Values of Cs smaller than those shown in

the table can cause skipping of position

codes. Code skipping may be acceptable in

many applications where fine position data

is not required. Smaller Cs capacitors have

the advantage of requiring shorter

acquisition bursts and hence lower power

drain.

Larger values of Cs improve granularity at

the expense of longer burst lengths and

(

Acrylic

ε ε ε ε

100nF

10nF

22nF

47nF

=2.8)

QT510 R6.04/0505

Borosilicate glass

(

ε ε ε ε

100nF

5.6nF

10nF

22nF

39nF

47nF

=4.8)

qt510 Quantum Research Group, qt510 Datasheet - Page 4

qt510

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