QT411 Datasheet, PDF(4/12 Page) Quantum Research Group

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QT411 Datasheet, PDF (4/12 Pages) Quantum Research Group – QSLIDE TOUCH SLIDER IC

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Figure 1-3 Conventional PCB Layout (1-sided)

Copper side faces away from the panel; the bare side is glued to the inside of the product.

element. The position data ceases to be reported when touch

detection is no longer sensed.

1.6 Calibration

Calibration is possible via two methods:

1) Power up or power cycling (there is no reset input).

2) On command from the host via the SPI port

(Command 0x01: see Section 3.3.2).

The calibration period requires 10 burst cycles, which are

executed automatically without the need for additional SPI

commands from the host. The spacing between each Cal

burst is 1ms, and the bursts average about 31ms each, i.e.

the Cal command requires ~325ms to execute. The power up

calibration has 6 extra bursts to allow for power supply

stabilization, and requires a total of ~550ms to begin normal

operation.

Calibration should be performed when there is no hand

proximity to the element, or the results may be in error.

Should this happen, the error flag (bit 1 of the standard

response, see Section 3.3) will activate when the hand is

withdrawn. In most cases this condition will self-correct if drift

compensation is used, and it can thus be ignored. See

Section 1.9 below.

Note: During calibration, the device cannot communicate.

DRDY will remain low during this interval.

electrode afterwards, so that the drift compensation

mechanism does not artificially create a threshold offset

during the iteration process. Between threshold changes, the

probe must be removed to at least 100mm from the panel.

1.8 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 under host control

via a special drift command. See Section 3.3.3 for further

details.

1.9 Error Status

An error flag status is provided via a special command. An

error can only occur when a finger was touching the sensing

strip during power-on or recalibration, and then removed. In

this sequence of events, the finger is âcalibrated awayâ and is

not recognized as a touch. When the finger is removed, the

signals from the device are inverted and a position is reported

as though the strip has been touched. However, this position

report is in error.

After any calibration event (i.e. a power-on cycle or a CAL

command) the next detection event should be checked to see

if it is in error by using the special error command. If it an

error is reported, the device should be immediately calibrated

again to restore normal function (Section 3.3.2).

1.7 Sensitivity Setting

The sensitivity of the slider area to finger detection is

dependent on the values of the three Cs capacitors (Section

2.2) and the threshold setting (Section 3.3.5). Larger values

of Cs increase sensitivity and also reduce granularity (missing

codes), at the expense of higher power consumption due to

longer acquisition bursts.

The threshold setting can be used to fine tune the sensitivity

of the sensing element. When setting the threshold, use the

smallest finger size for which detection is desired (normally a

6mm diameter spot), and probe at one of the two center

connection points where sensitivity is weakest. The linear

stretches between connection points are generally slightly

higher in sensitivity due to the collection of charge from two

channels.

A âstandard fingerâ probe can be made by taking a piece of

metal foil of the required diameter, gluing it on the end of a

cylinder of sponge rubber, and connecting it to ground with a

wire. This probe is pressed against the panel centered on one

of the middle two connection points; the threshold parameter

is iterated until the sensor just detects. It is important to push

the probe into the panel quickly and not let it linger near the

2 Wiring & Parts

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

examples of a PCB layout is shown in Figure 1-3.

2.1 Electrode Construction

The strip electrode should be a resistive element of between

200K to 500K ohms (400K nominal target value) between

each set of connection points, of a suitable length and width.

Under heavy capacitive loading (for example if the element

Table 1-2 Recommended Cs vs. Materials

Thickness,

0.4

0.8

1.5

2.5

3.0

4.0

Acrylic

(ÎµR =2.8)

10nF

22nF

47nF

100nF

Borosilicate glass

(ÎµR =4.8)

5.6nF

10nF

22nF

39nF

47nF

100nF

QT411-ISSG R6.01/1005

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