QT140-ASG Atmel, QT140-ASG Datasheet - Page 9

QT140-ASG

Manufacturer Part Number

QT140-ASG

Description

IC SENSOR 4KEY 5V 5MA SGL 28SSOP

Manufacturer

Atmel

Series

QProx™, QTouch™r

Type

Capacitiver

Datasheet

1.QT140-D.pdf (14 pages)

Specifications of QT140-ASG

Touch Panel Interface

10, 2-Wire

Number Of Inputs/keys

4 Key

Resolution (bits)

10, 14 b

Voltage Reference

Internal

Voltage - Supply

3 V ~ 5.5 V

Current - Supply

2.5mA

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

8-SSOP

Output Type

Logic

Input Type

Logic

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Interface

Other names

427-1111-2
QT140-ASG

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Unused channels should not have sense traces or

electrodes connected to them.

3.6 ESD PROTECTION

In cases where the electrode is 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

electrodes via induction, or in extreme cases via dielectric

breakdown. Porous materials may allow a spark to tunnel

right through the material. Testing is required to reveal any

problems. The device does have diode protection on its SNS

pins which absorb and protect the device from most induced

discharges, up to 20mA; the usefulness of the internal

clamping will depending on the dielectric properties, panel

thickness, and rise time of the ESD transients.

In extreme cases ESD dissipation can be aided further by

adding 1K series resistors in series with the electrodes as

shown in Figures 1-6 through 1-8. Because the charge time

is 1.2µs, the circuit can tolerate large values of series-R, up

to 20k ohms in cases where electrode Cx load is below

10pF. Extra diode protection at the electrodes can also be

used, but this often leads to additional RFI problems as the

diodes will rectify RF signals into DC which will disturb the

signals.

If the series-R is too large, sensitivity will drop off.

Directly placing semiconductor transient protection devices

or MOV's on the sense leads is not advised; these devices

have extremely large amounts of nonlinear parasitic C which

will swamp the capacitance of the electrode and cause

strange sensing problems.

Series-R’s should be low enough to permit at least 6 RC

time-constants to occur during the charge and transfer

phases, where R is the added series-R and C is the load Cx.

If the device is connected to an external control circuit via a

cable or long twisted pair, it is possible for ground-bounce to

cause damage to the Out pins and/or interfere with key

sensing. Noise current injection into the power supply is best

dealt with by shunting the noise aside to chassis ground with

capacitors, and further limited using resistors or ferrites.

3.7 RFI PROTECTION

PCB layout, grounding, and the structure of the input circuitry

have a great bearing on the success of a design that can

withstand strong RF interference.

The circuit is remarkably immune to RFI provided that certain

design rules are adhered to:

Achieving RF immunity requires diligence and a good

working knowledge of grounding, shielding, and layout

techniques. Very few projects involving these devices will fail

EMC tests once properly constructed.

1. Use SMT components to minimize lead lengths.

2. Connect electrodes to SNSnA, not SNSnB pins.

3. Use a ground plane under and around the circuit and

4. Ground planes and traces should be connected only to a

5. Route sense traces away from other traces or wires that

6. Sense electrodes should be kept away from other

7. Keep the Cs sampling capacitors and all series-R

8. Use a 0.1µF minimum ceramic bypass cap very close to

9. Use series-R’s in the sense lines, of as large a value as

10.Bypass input power to chassis ground and again at

along the sense lines, that is as unbroken as possible

except for relief under and beside the sense lines to

reduce total Cx. Relieved rear ground planes along the

SNS lines should be ‘mended’ by bridging over them at

1cm intervals with 0.5mm ‘rungs’ like a ladder.

common point near the Vss pins of the IC.

are connected to other circuits.

circuits and grounds which are not directly connected to

the sensor’s own circuit ground; other grounds will

appear to float at high frequencies and couple RF

currents into the sense lines.

components close to the IC.

the Vss / Vdd supply pins.

the circuit can tolerate without degrading sensitivity

appreciably.

circuit ground to reduce line-injected noise effects.

Ferrites over the power wiring may be required to

attenuate line injected noise.

QT140/150 1.01/1102

QT140-ASG Atmel, QT140-ASG Datasheet - Page 9

QT140-ASG

Specifications of QT140-ASG

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