qt113 Quantum Research Group, qt113 Datasheet - Page 7

qt113

Manufacturer Part Number

qt113

Description

Charge-transfer Touch Sensor

Manufacturer

Quantum Research Group

Datasheet

1.QT113.pdf (12 pages)

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any adjacent trace or ground plane next to or under either

SNS trace will cause an increase in Cx load and desensitize

the device.

For proper operation a 100nF (0.1uF) ceramic bypass

capacitor must be used directly between Vdd and Vss;

the bypass cap should be placed very close to the

device’s power pins.

3.5 ESD PROTECTION

The QT113 includes internal diode protection on its pins to

absorb and protect the device from most induced discharges,

up to 20mA. The electrode should always be insulated

against direct ESD; a glass or plastic panel is usually enough

as a barrier to ESD. Glass breakdown voltages are typically

over 10kV per mm thickness.

ESD protection can be enhanced by adding a series resistor

Rseries (see Figure 1-1) in line with the electrode, of value

between 1K and 50K ohms. The optimal value depends on

the amount of load capacitance Cx; a high value of Cx means

Rseries has to be low. The pulse waveform on the electrode

should be observed on an oscilloscope, and the pulse should

look very flat just before the falling edge. If the pulse voltage

never flattens, the gain of the sensor is reduced and there

can be sensing instabilties.

Rseries and Cs should both be placed very close to the

chip.

The use of semiconductor transient protection devices,

Zeners, or MOV's on the sense lead is not advised; these

devices have extremely large amounts of parasitic

capacitance which will swamp the QT113 and render it

unstable or diminish gain.

3.6 EMC ISSUES

External AC fields (EMI) due to RF transmitters or electrical

noise sources can cause false detections or unexplained

shifts in sensitivity.

The influence of external fields on the sensor is reduced by

means of the Rseries described above in Section 3.5. The Cs

capacitor and Rseries (see Figure 1-1) form a natural

low-pass filter for incoming RF signals; the roll-off frequency

of this network is defined by -

If for example Cs = 22nF, and Rseries = 10K ohms, the rolloff

frequency to EMI is 723Hz, vastly lower than any credible

external noise source (except for mains frequencies).

However, Rseries and Cs must both be placed very close to

the body of the IC so that the lead lengths between them and

the IC do not form an unfiltered antenna at very high

frequencies.

2✜R

series

R1.05/0405

qt113 Quantum Research Group, qt113 Datasheet - Page 7

qt113

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