AT42QT2161-MMU Atmel, AT42QT2161-MMU Datasheet - Page 10

AT42QT2161-MMU

Manufacturer Part Number

AT42QT2161-MMU

Description

IC TOUCH SENSOR 16KEY QFN M-MOD

Manufacturer

Atmel

Type

Capacitiver

Datasheet

1.AT42QT2161-MMU.pdf (52 pages)

Specifications of AT42QT2161-MMU

Touch Panel Interface

8, 2-Wire

Number Of Inputs/keys

16 Key, Slider

Resolution (bits)

10 b

Data Interface

I²C, Serial

Voltage Reference

Internal

Voltage - Supply

1.8 V ~ 5.5 V

Current - Supply

1.14mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-VFQFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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3.5

3.6

3.7

Sample Resistors

Signal Levels

Matrix Series Resistors

AT42QT2161

Figure 3-4.

Note:

The sample resistors (Rs0 – Rs1) are used to perform single-slope ADC conversion of the

acquired charge on each Cs capacitor. These resistors directly control acquisition gain; larger

values of Rs will proportionately increase signal gain. For most applications Rs should be 1 M.

Unused Y lines do not require an Rs resistor.

The signal values should normally be in the range of 200 to 750 counts with properly designed

key shapes and values of Rs. However, long adjacent runs of X and Y lines can also artificially

boost the signal values, and induce signal saturation; this is to be avoided. The X-to-Y coupling

should come mostly from intra-key electrode coupling, not from stray X-to-Y trace coupling.

The signal swing from the smallest finger touch should preferably exceed 8 counts, with 12

being a reasonable target. The signal threshold setting (NTHR) should be set to a value

guaranteed to be less than the signal swing caused by the smallest touch.

Increasing the burst length (BL) parameter will increase the signal strengths, as will increasing

the sampling resistor (Rs) values.

The X and Y matrix scan lines can use series resistors (Rx0 – Rx7 and Ry0 – Ry1 respectively)

for improved EMC performance

X drive lines require Rx in most cases to reduce edge rates and thus reduce RF emissions.

Values range from 1 k to 20 k, typically 1 k.

Y lines need Ry to reduce EMC susceptibility problems and in some extreme cases, ESD.

Typical Y values are about 1 k. Y resistors act to reduce noise susceptibility problems by

forming a natural low-pass filter with the Cs capacitors.

It is essential that the Rx and Ry resistors and Cs capacitors be placed very close to the chip.

Placing these parts more than a few millimeters away opens the circuit up to high frequency

interference problems (above 20 MHz) as the trace lengths between the components and the

chip start to act as RF antennae.

The upper limits of Rx and Ry are reached when the signal level and hence key sensitivity are

clearly reduced. The limits of Rx and Ry will depend on key geometry and stray capacitance,

and thus an oscilloscope is required to determine optimum values of both.

The Dwell time is a minimum of ~250 ns - see

Drive Pulse Roll-off and Dwell Time

Dwell time

Y gate

X drive

(Figure 1-1 on page

Lost charge due to

inadequate settling

before end of dwell time

Section 3.7

4).

9614A–AT42–08/10

AT42QT2161-MMU Atmel, AT42QT2161-MMU Datasheet - Page 10

AT42QT2161-MMU

Specifications of AT42QT2161-MMU

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