ATQT600 Atmel, ATQT600 Datasheet - Page 18
ATQT600
Manufacturer Part Number
ATQT600
Description
KIT EVAL TOUCH FOR QT600
Manufacturer
Atmel
Series
QTouch™r
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:
Part Number:
ATQT600
Manufacturer:
Atmel
Quantity:
135
10620D–AT42–04/09
General Advice
2.5
2-8
Electrostatic Discharge Protection
Any LED terminal already connected full time to either Vdd or ground, even if through a limiting resistor,
does not need such bypassing. LEDs that are constantly driven (for example, just for constant
backlighting) do not normally require bypassing so long as these LEDs are driven before the control chip
is given a chance to calibrate itself on power-up. Multiplexed LEDs usually require bypassing on one
terminal but since multiplex lines drive two or more LEDs, the number of bypass capacitors need not be
one per LED; only one capacitor per common drive line is needed.
Other kinds of signal traces that change impedance can also cause false detections. Any nearby trace
that switches between “floating” and “clamped” states will usually cause a slight apparent capacitance
change and should be bypassed. Push-pull driven traces, so long as they are never three state, do not
require bypassing.
In general, Atmel capacitive sensors do not need extra ESD protection on their electrodes or traces.
Normally, the touch sensor is located behind a dielectric panel that has a breakdown potential of tens of
kilovolts per mm of thickness.
The single greatest threat from ESD tends to occur where there is a gap or hole in the panel, particularly
at the edge of the panel. In these situations an effect known as "creepage" can allow ESD to track
across an insulating surface and connect directly with the sensor or interconnecting tracks
Figure 2-4.
Places to watch for ESD creepage also include regions where flex circuits or tails pass close to a panel
gap (see
Figure
Touch Sensor
Electrode
Behind Panel
Effect of ESD Creepage
2-5).
PCB
ESD can track across
the surface and “zap”
the sensor directly
on the rear of the panel
ESD Strike Here
Touch Sensors Design Guide
Hole In Panel
Overlying Panel
(Figure
2-4).
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