EVK2160A Atmel, EVK2160A Datasheet - Page 11

EVK2160A

Manufacturer Part Number

EVK2160A

Description

KIT EVAL FOR AT42QT2160-MMU

Manufacturer

Atmel

Series

Quantum, QTouch™r

Datasheets

1.AT42QT2160-MMU.pdf (49 pages)

2.EVK2160A.pdf (12 pages)

Specifications of EVK2160A

Sensor Type

Touch, Capacitive

Sensing Range

8 Buttons/Keys, Slider

Interface

I²C

Voltage - Supply

1.8 V ~ 5.5 V

Embedded

Utilized Ic / Part

AT42QT2160

Silicon Manufacturer

Atmel

Silicon Core Number

AT42QT2160-MMU

Kit Application Type

Sensing - Touch / Proximity

Application Sub Type

Capacitive Touch

Kit Contents

Board CD Docs

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Sensitivity

Lead Free Status / Rohs Status

Supplier Unconfirmed

Other names

427-1141

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

EVK2160A

Manufacturer:

Atmel

Quantity:

135

Current page: 11 of 49
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4.10.3

4.10.4

4.11

9502A–AT42–07/08

Power Supply Considerations

Tracks

PCB Cleanliness

LED terminals which are multiplexed or switched into a floating state and which are within or

physically very near a key structure (even if on another nearby PCB) should be bypassed to

either Vss or Vdd with at least a 10nF capacitor to suppress capacitive coupling effects which

can induce false signal shifts. The bypass capacitor does not need to be next to the LED, in fact

it can be quite distant. The bypass capacitor is noncritical and can be of any type.

LED terminals which are constantly connected to Vss or Vdd do not need further bypassing.

The central pad on the underside of the chip should be connected to ground. Do not run any

tracks underneath the body of the chip, only ground.

Figure 4-7.

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 “clean flux". Flux absorbs moisture and becomes

conductive between solder joints, causing signal drift and resultant false detections or transient

losses of sensitivity or instability. 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

cases where a high level of humidity is anticipated, the use of conformal coatings after cleaning

to keep out moisture.

See

power supply fluctuates slowly with temperature, the device will track and compensate for these

changes automatically with only minor changes in sensitivity. If the supply voltage drifts or shifts

quickly, the drift compensation mechanism will not be able to keep up, causing sensitivity

anomalies or false detections.

As the device uses the power supply itself as an analog reference, the power should be very

clean and come from a separate regulator. A standard inexpensive Low Dropout (LDO) type

regulator should be used that is not also used to power other loads such as LEDs, relays, or

other high current devices. Load shifts on the output of the LDO can cause Vdd to fluctuate

enough to cause false detection or sensitivity shifts.

Section 10.2 on page 43

Position of Tracks

Example of g

for the Vdd range and short-term power supply fluctuations. If the

ood

tracking

Example of bad tracking

AT42QT2160

EVK2160A Atmel, EVK2160A Datasheet - Page 11

EVK2160A

Specifications of EVK2160A

Available stocks

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