ATQT600 Atmel, ATQT600 Datasheet - Page 25

ATQT600

Manufacturer Part Number

ATQT600

Description

KIT EVAL TOUCH FOR QT600

Manufacturer

Atmel

Series

QTouch™r

Datasheets

1.AT42QT1040-MMH.pdf (72 pages)

2.ATAVRQTOUCHX.pdf (178 pages)

Specifications of ATQT600

Sensor Type

Touch Screen

Interface

USB

Embedded

Yes, Other

Utilized Ic / Part

ATtiny88, ATmega324PA, ATxmega128A1

Processor To Be Evaluated

ATtiny88, ATmega324, ATxmega128

Data Bus Width

8 bit, 16 bit

Interface Type

USB

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Operating Supply Voltage

1.6 V to 3.6 V

Silicon Manufacturer

Atmel

Kit Application Type

Sensor

Application Sub Type

Touch Sensor

Kit Contents

USB Bridge, MCU Cards, Touchpad Cards

Svhc

No SVHC (15-Dec-2010)

Mcu Supported Families

ATtiny88,

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Supply

Sensitivity

Sensing Range

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ATQT600

Manufacturer:

Atmel

Quantity:

135

Current page: 25 of 72
Download datasheet (2Mb)

3.2.5

Touch Sensors Design Guide

Illumination Effects

Figure 3-6.

It is important to note that interconnecting traces should not be run over ground or power planes where

possible, especially when the separation to the plane is small (for example, when the traces and the

ground or power plane are on adjacent layers of a multilayer PCB). Doing so can quickly desensitize the

key. If sensor traces must run close to other foreign signals, avoid tracking them in parallel in order to

reduce the coupling. Where they cross, cross them at 90° for the same reason.

Running interconnections as part of a cable loom is not a good idea in any circumstances. However,

running sensor traces inside a low capacitance coaxial cable can be done as a last resort, but expect low

sensitivity keys.

LEDs that are very close to the sensor should be bypassed as described in

on page

Backlighting can be achieved by using transparent sensor materials or by making a small hole in the

sensor itself to allow light to shine through from behind (see

for simple, low cost backlighting of the key area to back-illuminate a graphic symbol. Properly

constructed, the result will be a very sensitive key even in the middle.

The width of the copper should be at least as wide as the panel is thick to provide adequate coupling; the

electric field penetrates the panel material to “focus” inwards, while being terminated outwards from the

ring by a ground plane. This method works well only if the panel material is thick enough (and with a high

enough 

sensitivity will be lost. If the hole in the middle is too big and/or the panel has a low 

the fields in the middle will be weak and the key will not function as intended.

Remember, too, that the LED looks like a ground load – and a constant one if you have remembered to

bypass it – and this will further reduce sensitivity.

2-7.

) to conduct the fields inwards. Remember to keep the hole small: the larger the hole, the more

Gap of at least ½T

between the two traces

³½T

Spacing of Adjacent Traces

Minimum possible for technology and RC time constant

Example for PCB: 0.2 mm

Self-capacitance Zero-dimensional Sensors

Sensor Trace

Figure 3-7 on page

Section 2.4 “Nearby LEDs”

Sensor Trace

3-6). This method allows

and/or is too thin,

10620D–AT42–04/09

3-5

ATQT600 Atmel, ATQT600 Datasheet - Page 25

ATQT600

Specifications of ATQT600

Available stocks

Related parts for ATQT600