QT240-ISSG Atmel, QT240-ISSG Datasheet
QT240-ISSG
Specifications of QT240-ISSG
QT240-ISS-G
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QT240-ISSG Summary of contents
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... QT240-ISSG 4 K ™ OUCH SNS2 1 SNS2K 2 SNS1 3 SNS1K 4 QT240 OUT1 5 20-SSOP OUT2 6 OUT3 7 VSS 8 SS/SYNC 9 n. Instrument panels ! Gaming machines SSOP-20 QT240-ISSG Copyright © 2003-2006 QRG Ltd QT240R R1.11/1006 IC ENSOR SNS3K 20 SNS3 19 SNS4K 18 SNS4 17 n.c. 16 OSC 15 VDD 14 /RES 13 OUT4 12 11 n.c. ...
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... QT240 Specifics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
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... Overview 1.1 Introduction QT240 devices are burst mode digital charge-transfer (QT) sensor ICs designed specifically for touch controls; they include all hardware and signal processing functions necessary to provide stable sensing under a wide variety of conditions. Only a single low cost capacitor per channel is required for operation. ...
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... Load capacitances can also be added to overly sensitive channels to ground, to reduce their gains. These should be in the order of a few picofarads. 2 QT240 Specifics 2.1 Signal Processing 2.1.1 Introduction These devices process all signals using 16 bit math , using a number of algorithms pioneered by Quantum ...
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... Cx should be below 50pF to prevent errors; this value can be read with a conventional capacitance meter with the QT240 removed. The option setting resistors are mandatory and cannot be deleted. They must be strapped to either Vdd or Vss. ...
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... A sync pulse on SYNC/SS in Slow mode acts to break the QT240 out of its sleep state between bursts, and to do another burst. The device will then go back to sleep again and await a new SYNC pulse Sync pulse does not arrive within about 90ms, it will wake again and run normally ...
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... If the supply voltage drifts or shift s quickly, the drift compensation mechanism will not be able to keep up, causing sensitivity anomalies or false detections. The QT240 will track slow changes in Vdd, but can be seriously affected by rapid voltage steps. If the supply is shared with another electronic system, care should be taken to assure that the supply is free of digital spikes, sags, and surges which can cause adverse effects ...
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... Higher values of Rsns will make crosstalk problems worse; try to keep Rsns to 22K or less if possible. In general try to keep the QT240 close to the electrodes and reduce the adjacency of the sense wiring to ground planes and other signal traces; this will reduce the Cx load, reduce interference effects, and increase signal gain ...
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... Fosc; Fast mode only; Circuit of Figure 1.2 bursts Fast mode only Units Notes mA Fast mode µA Slow mode, no Sync V/s Required for startup, w/o reset circuit V /RES V /RES V SYNC V SYNC V OUTn, 4mA sink V OUTn, 1mA source µA OPT1, OPT2, OPT3 bits QT240R R1.11/1006 O C ...
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... Nominal timing dependent on Fosc, Sync Option pin selected; secs Nominal timings; dependent on Fosc, Sync B A ø G Base level Metric (mm) Min Typ 7.39 4.98 0.23 6.88 1. 0.650 0.10 0.66 0.10 8º 0º QT240R R1.11/1006 H Max 8.20 5.59 0.38 7.49 1.85 - 0.25 0.86 0.20 8º ...
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... Marking QT240-ISSG xxxx = fab code 4.8 Moisture Sensitivity Level (MSL) MSL Rating lQ Part Temperature Range +85 C QT240-IG © QRG xxxxR 1 Peak Body Temperature O MSL3 260 C 11 Package SSOP-20 Specifications IPC/JEDEC J-STD-020C QT240R R1.11/1006 ...
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This device is covered under one or more United States and corresponding international patents. QRG patent numbers can be found online at www.qprox.com. Numerous further patents are pending, which may apply to this device or the applications thereof. The ...