qt401 Quantum Research Group, qt401 Datasheet - Page 4

qt401

Manufacturer Part Number

qt401

Description

Qslide? Touch Slider Ic

Manufacturer

Quantum Research Group

Datasheet

1.QT401.pdf (16 pages)

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1.7 Drift Compensation

The device features an ability to compensate for slow drift

due to environmental factors such as temperature changes or

humidity. Drift compensation is performed completely under

host control via a special drift command. See Section 3.3.4

for further details.

1.8 Error Flag

An error flag bit (bit 1) is provided in the standard response

byte but only when there is no touch detection present

(Section 3.3); if 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 somewhat

inaccurate position values when touched.

This condition can self-correct via the drift compensation

process after some time under host control (Section 3.3.4).

Alternatively, the host controller can cause the device to

recalibrate immediately by issuing a calibration command

(Section 3.3.2), perhaps also followed by an end-calibrate

command (Section 3.3.3) if desired.

2 Wiring & Parts

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

example PCB layout (of the E401 eval board) is shown in

Figure 1-3.

2.1 Slider Strip Construction

The slider should be a resistive strip of about 100K ohms

+/-50%, from end to end, of a suitable length and width. Arcs

and semicircles are also possible. There are no known length

restrictions.

The slider 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. Carbon thick-film 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 slider is governed largely by the linearity

and consistency of the resistive slider element. Positional

accuracy to within 5% is routinely achievable with good grade

resistors and a uniform construction method.

2.2 Cs Sample Capacitors

Cs1 and Cs2 are the charge sensing capacitors , of type X7R.

The optimal values of Cs1 and Cs2 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

Figure 1-3 E401 PCB Layout (1-sided, 144 x 20 x 0.6mm)

glass. The worst panel is thick plastic. Granularity due to poor

coupling can be compensated for by the use of larger values

of Cs1 and Cs2.

A table of suggested values for Cs1 and Cs2 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 Cs1 and Cs2 improve granularity at the

expense of longer burst lengths and hence more average

power. Conversely where power is more important than

granularity, Cs1 and Cs2 can be reduced to save power at

the expense of resolution. Optimal values depends on the

user application, and some experimentation is necessary.

Cs1 and Cs2 should be matched to within 10% of each other

(ie, 5% tolerance, X7R dielectric) for best left-right end zone

balance, using the E401 reference layout (Figure 1-3). See

also Section 2.3. Linearity is not greatly affected by Cs

mismatching. If the error is too extreme, one of the end

locations could attempt to exceed the physical limits of the

slider. At or below this 10% guideline, the device will correctly

calibrate the end locations to within 1 or 2 millimeters for a

100mm slider.

In critical applications, the capacitors should be sort-matched,

or, the host device should store end location calibration

correction data based on a one-time factory calibration

procedure. Alternatively the Rs end resistors can be factory

adjusted to determine end locations more precisely.

2.3 Rs End Resistors

In auto end-cal mode, Rs1 and Rs2 are used only for EMC

and ESD protection; they should be no more than ~1K ohms.

However they are optional, and in the E401 eval board they

are set to 0.

In fixed cal mode, Rs1 and Rs2 can be varied to adjust the

ends of the slider outwards. Typically they will range from 10K

to 20K each. In fixed cal mode, the end resistors should be

selected to achieve a reasonable 0..127 position

correspondence with the desired mechanical range; in

particular, they should be adjusted so that the reported

Table 1-2 Recommended Cs vs. Materials

Thickness,

0.4

0.8

1.5

2.5

3.0

4.0

(

Acrylic

ε ε ε ε

100nF

10nF

22nF

47nF

=2.8)

QT401 R10.04/0505

Borosilicate glass

(

ε ε ε ε

100nF

5.6nF

10nF

22nF

39nF

47nF

=4.8)

qt401 Quantum Research Group, qt401 Datasheet - Page 4

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