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PDF AT42QT1040 Data sheet ( Hoja de datos )
| Número de pieza | AT42QT1040 | |
| Descripción | Touch Sensor IC | |
| Fabricantes | ATMEL Corporation | |
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Features
• Number of Keys:
– Up to 4
• Discrete Outputs:
– 4 discrete outputs indicating individual key touch
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– Patented spread-spectrum charge-transfer (direct mode)
• Electrode Design:
– Simple self-capacitance style (refer to the Touch Sensors Design Guide)
• Electrode Materials:
– Etched copper, silver, carbon, Indium Tin Oxide (ITO)
• Electrode Substrates:
– PCB, FPCB, plastic films, glass
• Panel Materials:
– Plastic, glass, composites, painted surfaces (low particle density metallic paints
possible)
• Panel Thickness:
– Up to 10 mm glass, 5 mm plastic (electrode size dependent)
• Key Sensitivity:
– Fixed key threshold, sensitivity adjusted via sample capacitor value
• Adjacent Key Suppression™
– Patented Adjacent Key Suppression™ (AKS™) technology to enable accurate key
detection
• Interface:
– Pin-per-key outputs, plus debug mode to observe sensor signals
• Moisture Tolerance:
– Good
• Power:
– 1.8V ~ 5.5V
• Package:
– 20-pin 3 x 3 mm VQFN RoHS compliant
• Signal Processing:
– Self-calibration, auto drift compensation, noise filtering, Adjacent Key
Suppression technology
• Applications:
– Mobile, consumer, white goods, toys, kiosks, POS, and so on
QTouch™ 4-key
Sensor IC
AT42QT1040
9524A–AT42–03/09
1 page  
AT42QT1040
The use of AKS is selected by connecting a 1 M resisitor between Vdd and the SNSK0 pin
(see Section 4.1 on page 8 for more information). When AKS is disabled, any combinations of
keys can enter detect.
2.2.5 Auto Drift Compensation
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Signal drift can occur because of changes in Cx and Cs over time. It is crucial that drift be
compensated for, otherwise false detections, non-detections, and sensitivity shifts will follow.
Drift compensation is performed by making the reference level track the raw signal at a slow
rate, but only while there is no detection in effect. The rate of adjustment must be performed
slowly otherwise legitimate detections could be ignored.
Once an object is sensed and a key is in detect, the drift compensation mechanism ceases,
since the signal is legitimately high and should not therefore cause the reference level to
change.
The QT1040's drift compensation is “asymmetric”: the reference level drift-compensates in one
direction faster than it does in the other. Specifically, it compensates faster for decreasing
(towards touch) signals than for increasing (away from touch) signals. The reason for this
difference in compensation rates is that increasing signals should not be compensated for
quickly, since a nearby finger could be compensated for partially or entirely before even
approaching the sense electrode. However, decreasing signals need to be compensated for
more quickly. For example, an obstruction over the sense pad (for which the sensor has already
made full allowance) could suddenly be removed, leaving the sensor with an artificially elevated
reference level and thus become insensitive to touch. In this latter case, the sensor will
compensate for the object's removal very quickly, usually in only a few seconds.
Negative drift (that is, towards touch) occurs at a rate of ~3 seconds, while positive drift occurs at
a rate of ~1 second.
Drifting only occurs when no keys are in detect state.
2.2.6
Response Time
The QT1040's response time is highly dependent on run mode and burst length, which in turn is
dependent on Cs and Cx. With increasing Cs, response time slows, while increasing levels of Cx
reduce response time. The response time will also be slower in slow mode due to a longer time
between burst measurements. This mode offers an increased detection latency in favor of
reduced average current consumption.
2.2.7
Spread Spectrum
The QT1040 modulates its internal oscillator by ±7.5 percent during the measurement burst.
This spreads the generated noise over a wider band reducing emission levels. This also reduces
susceptibility since there is no longer a single fundamental burst frequency.
2.2.8
Max On-duration
If an object or material obstructs the sense pad, the signal may rise enough to create a
detection, preventing further operation. To prevent this, the sensor includes a timer known as
the Max On-duration feature which monitors detections. If a detection exceeds the timer setting,
the sensor performs an automatic recalibration. Max On-duration is set to ~30s.
9524A–AT42–03/09
5
5 Page 
www.datasheet4u.com
AT42QT1040
Table 4-3. Serial Data Output (Continued)
Byte
Purpose
18 Delta 0 Low Byte
19 Delta 0 High Byte
20 Delta 1 Low Byte
21 Delta 1 High Byte
22 Delta 2 Low Byte
23 Delta 2 High Byte
24 Delta 3 Low Byte
25 Delta 3 High Byte
26 Flags
27 Flags2
28 Status Byte
29 Frame Number
Notes
Signed 16-bit integer
Signed 16-bit integer
Signed 16-bit integer
Signed 16-bit integer
Various operational flags
Unsigned bytes
Unsigned byte. See Table 4-4
Repeat of framing index number in
byte 0
Table 4-4.
Bit 7
CAL
Status Byte (Byte 28)
Bit 6
Bit 5
Bit 4
Number of Keys (2-4)
Bit 3
Key 3
Bit 2
Key 2
Bit 1
Key 1
Bit 0
Key 0
Bit 7:
This bit is set during calibration
Bits 4 – 6: Contains the number of keys active
Bits 0 – 3: Show the touch status of the corresponding keys
Figure 4-2 to Figure 4-5 show the usefulness of the debug data out feature. Channels can be
monitored and tweaked to the specific application with great accuracy.
Figure 4-2. Byte Clocked Out (~5 µs Period)
9524A–AT42–03/09
11
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