QT114A-ISG Atmel, QT114A-ISG Datasheet - Page 41

QT114A-ISG

Manufacturer Part Number

QT114A-ISG

Description

IC TOUCH SENSOR PROX 8SOIC

Manufacturer

Atmel

Series

QLevel™r

Type

Liquid or Powderr

Datasheet

1.AT42QT1040-MMH.pdf (72 pages)

Specifications of QT114A-ISG

Output Configuration

Open Collector: Dry-Low

Mounting Type

Surface Mount

Operating Temperature

-40°C ~ 85°C

Voltage Rating

2.45 ~ 5.25 V

Current

20uA

Current - Supply

Output Type

Interface

Input Type

Operating Supply Voltage

2.5 V to 5.25 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

SOIC-8

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Package / Case

Lead Free Status / Rohs Status

Details

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4.2.5

4.2.6

4.2.7

4.2.8

Touch Sensors Design Guide

Illumination Effects

Floating Conductive Items

Conductive Paints

Transparent Y Electrodes

With the planar construction of mutual-capacitance type electrodes it is fine to make holes in the X

portion of the electrode to allow light to shine though, much as described in

Effects” on page

Try not to remove too much of the X area or you risk making a dead spot in the key.

Transparent electrode materials also work well with this type of sensor if you take care to meet RC time

constant constraints (see

Mutual-capacitance type sensors are much less sensitive to floating metal as self-capacitance types.

The reason for this is that the measured field is localized between X and Y. However, it is still good

practice to avoid such risks, as described in

The considerations for the use of conductive paints described in

page 3-7

Transparent Y electrodes can end up with significant series resistance if made from materials like ITO or

Orgacon. This can be a problem due to excessive RC delay. Consider using printed silver or carbon

tracks or copper traces to add more than one connection point, if possible, to lower the resistance (see

Figure 4-9 on page

required transparent area, of course) is possible.

Figure 4-9.

apply.

Lowering Resistance with Extra Silver, Carbon or Copper Traces

3-5. The rules for LEDs are described in

4-9). Selective use of silver or copper over the top of the electrode (outside the

Section 2.1 “Charge Transfer” on page

total

= 5 x

s W

Digital Multimeter

/sq

total

= 20 x

Section 3.2.6 “Floating Conductive Items” on page

s W

/sq

Mutual-capacitance Zero-dimensional Sensors

Section 2.4 “Nearby LEDs” on page

2-1).

Section 3.2.7 “Conductive Paints” on

Extra connection

reduces worst

resistance by 4 times

Section 3.2.5 “Illumination

Silver,

Carbon

or Copper

10620D–AT42–04/09

2-7.

3-6.

4-9

QT114A-ISG Atmel, QT114A-ISG Datasheet - Page 41

QT114A-ISG

Specifications of QT114A-ISG

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