qt401 Quantum Research Group, qt401 Datasheet - Page 5

qt401

Manufacturer Part Number

qt401

Description

Qslide? Touch Slider Ic

Manufacturer

Quantum Research Group

Datasheet

1.QT401.pdf (16 pages)

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values 0 and 127 can be easily achieved by both large and

small fingers at the ends.

Increasing the Rs values will move the reported ends

‘outwards’. If they are too large, the values 0 and/or 127 will

not be reportable. The Rs resistors can have differing values.

Having well-defined ends is important in most applications, so

that the user can select the absolute minimum and maximum

values (ie OFF, MAX etc) reliably. If the numerical ends

cannot be achieved the user can have difficulty in controlling

the product.

The end zones should be defined to be physically large

enough so that over a wide range of values of Cs, Rslider etc

a usable set of ends are always preserved.

End zone tolerances can be affected by Cs1 / Cs2

capacitance matching and the values of Rs1 and Rs2 if fixed

end-cal is used. See also Section 2.2.

2.4 Power Supply

The usual power supply considerations with QT parts applies

also to the QT401. The power should be very clean and come

from a separate regulator if possible. This is particularly

critical with the QT401 which reports continuous position as

opposed to just an on/off output.

A ceramic 0.1uF 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 QT401 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 deleterious effect on acquisition accuracy.

To assist with this problem, the QT401 waits 500µs after

coming out of sleep mode before acquiring to allow power to

fully stabilize. This delay is not present before an acquisition

burst if there is no preceding sleep state.

Use an oscilloscope to verify that Vdd has stabilized to within

5mV or better of final settled voltage before a burst begins.

2.5 PCB Layout and Mounting

The E401 PCB layout (Figure 1-3) should be followed if

possible. This is a 1-sided, 144 x 20 x 0.6mm board; the

blank side is simply adhered to the inside of a 2mm thick (or

less) control panel. Thicker panels can be tolerated with

additional positional error due to capacitive ‘hand shadow’

effects and will also have poorer EMC performance.

This layout uses 18 copper pads connected with 17

intervening series resistors in a chain. The end pads are

larger to ensure a more robust reading of 0 (left) and 127

(right). The finger interpolates between the copper pads (if

the pads are narrow enough) to make a smooth, 0..127 step

output with no apparent stair-casing. A wide ground border

helps to suppress the sense field outside of the strip area,

which would otherwise affect position accuracy.

The small electrodes of this PCB measure about 12.5 x

5.2mm. The lateral (eg 5.2mm) dimension of these electrodes

should be no wider than the expected smallest diameter of

finger touch, to prevent stair-casing of the position response.

Other geometries are possible, for example arcs and

semicircles over a small scale (50mm radius max

recommended semicircle, or any radius as a shallow arc).

The strip can be made longer or shorter and with a different

width. The electrode strip should be about 10mm wide or

more, as a rule. Other features of the PCB layout are:

‘Handshadow’ effects: With thicker or wider panels an effect

known as ‘handshadow’ can become noticeable. If the

capacitive coupling from finger to electrode strip is weak, for

example due to a narrow electrode strip or a thick, low

dielectric constant panel, the remaining portion of the human

hand can contribute a significant portion of the total

detectable capacitive load. This will induce an offset error,

which will depend on the proximity and orientation of the hand

to the remainder of the strip. Thinner panels will reduce this

effect since the finger contact surface will strongly domina te

the total signal and the remaining handshadow capacitance

will not contribute significantly to create an error offset.

Slider strips placed in a vertical position are more prone to

handshadow problems than those that are horizontal.

PCB Cleanliness: All capacitive sensors should be treated

as highly sensitive circuits which can be influenced by stray

conductive leakage paths. QT devices have a basic

resolution in the femtofarad range; in this region, there is no

such thing as ‘no clean flux’. Flux absorbs moisture and

becomes conductive between solder joints, causing signal

drift and resultant false detections or temporary loss of

sensitivity. Conformal coatings will trap in existing amounts of

moisture which will then become highly temperature

sensitive.

The designer should specify ultrasonic cleaning as part of the

manufacturing process, and in extreme cases, the use of

conformal coatings after cleaning.

2.6 ESD Protection

Since the electrode is always placed behind a dielectric

panel, the IC will be protected from direct static discharge.

However even with a panel transients can still flow into the

The components are oriented perpendicular to the strip

length so that they do not fracture easily when the PCB is

flexed during bonding to the panel.

The slider end connections should have a symmetrical

layout; note the dummy end trace connected to Rs1 just

below the slider element, to replicate the upper end trace

connected to Rs2. Without this the slider will be

unbalanced and will tend to skew its result to one side.

The ground ring around the slider measures 2mm thick

and is spaced 1mm from the long end traces. The end

traces should be placed as close as possible to the slider

element and be of the thinnest possible trace thickness.

0-ohm 0805 jumpers are used to connect the ground ring

back to circuit ground. These bridge over the two end

traces.

Additional ground area or a ground plane on the PCB’s

rear will compromise signal strength and is to be avoided.

The slider should normally be used in a substantially

horizontal orientation to reduce tracking accuracy

problems due to capacitive ‘hand shadow’ effects. Thinner

panels and an electrode strip on the back of the PCB (so

it has less material to penetrate) will reduce these effects.

QT401 R10.04/0505

qt401 Quantum Research Group, qt401 Datasheet - Page 5

qt401

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