QT60248-ASG Atmel, QT60248-ASG Datasheet - Page 19

QT60248-ASG

Manufacturer Part Number

QT60248-ASG

Description

IC SENSOR QMATRIX 24CHAN 32TQFP

Manufacturer

Atmel

Series

QMatrix™, QProx™r

Type

Capacitiver

Datasheet

1.QT60168-ASG.pdf (28 pages)

Specifications of QT60248-ASG

Number Of Inputs/keys

24 Key

Resolution (bits)

9, 11 b

Data Interface

Serial, SPI™

Voltage - Supply

3 V ~ 5 V

Current - Supply

25mA

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

32-TQFP, 32-VQFP

Output Type

Logic

Interface

SPI

Input Type

Logic

Operating Supply Voltage

3 V to 5 V

Maximum Operating Temperature

+ 105 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

For Use With

427-1087 - BOARD EVAL QT60248-AS QMATRIX

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

427-1108

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

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Part Number:

QT60248-ASG

Manufacturer:

ATMEL

Quantity:

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Part Number:

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However, an obstruction over the sense pad, for which the

sensor has already made full allowance for, could suddenly

be removed leaving the sensor with an artificially suppressed

reference level and thus become insensitive to touch. In this

latter case, the sensor should compensate for the object's

removal by raising the reference level relatively quickly.

Drift compensation and the detection time-outs work together

to provide for robust, adaptive sensing. The time-outs

provide abrupt changes in reference calibration depending

on the duration of the signal 'event'.

NDRIFT Typical values:

NDRIFT Default value:

PDRIFT Fixed value:

5.4 Detect Integrators - NDIL, FDIL

NDIL is used to enable or disable keys and to provide signal

filtering. To enable a key, its NDIL parameter should be

non-zero (ie NDIL=0 disables a key). See Section 2.2.

To suppress false detections caused by spurious events like

electrical noise, the device incorporates a 'detection

integrator' or DI counter mechanism that acts to confirm a

detection by consensus (all detections in sequence must

agree). The DI mechanism counts sequential detections of a

key that appears to be touched, after each burst for the key.

For a key to be declared touched, the DI mechanism must

count to completion without even one detection failure.

The DI mechanism uses two counters. The first is the ‘fast

DI’ counter FDIL. When a key’s signal is first noted to be

below the negative threshold, the key enters ‘fast burst’

mode. In this mode the burst is rapidly repeated for up to the

specified limit count of the fast DI counter. Each key has its

own counter and its own specified fast-DI limit (FDIL), which

can range from 1 to 15. When fast-burst is entered the QT

device locks onto the key and repeats the acquire burst until

the fast-DI counter reaches FDIL, or, the detection fails

beforehand. After this the device resumes normal

keyscanning and goes on to the next key.

The ‘Normal DI’ counter counts the number of times the

fast-DI counter reached its FDIL value. The Normal DI

counter can only increment once per complete scan of all

keys. Only when the Normal DI counter reaches NDIL does

the key become formally ‘active’.

The net effect of this is that the sensor can rapidly lock onto

and confirm a detection with many confirmations, while still

scanning other keys. The ratio of ‘fast’ to ‘normal’ counts is

completely user-settable via the Setups process. The total

number of required confirmations is equal to FDIL times

NDIL.

If FDIL = 5 and NDIL = 2, the total detection confirmations

required is 10, even though the device only scanned through

all keys only twice.

The DI is extremely effective at reducing false detections at

the expense of slower reaction times. In some applications a

slow reaction time is desirable; the DI can be used to

intentionally slow down touch response in order to require

the user to touch longer to operate the key.

If FDIL = 1, the device functions conventionally; each

channel acquires only once in rotation, and the normal detect

(2 to 3.3 seconds per count of drift compensation)

(2.5s / count of drift compensation)

Note: This value cannot be altered and does not appear

in the Setups block.

9 to 11

0.4 secs

integrator counter (NDIL) operates to confirm a detection.

Fast-DI is in essence not operational.

If FDIL m 2, then the fast-DI counter also operates in addition

to the NDIL counter.

If Signal [ NThr: The fast-DI counter is incremented towards

FDIL due to touch.

If Signal >NThr then the fast-DI counter is cleared due to

lack of touch.

Disabling a key: If NDIL =0, the key becomes disabled.

Keys disabled in this way are pared from the burst sequence

in order to improve sampling rates and thus response time.

See Section 2.2, page 3.

NDIL Typical values:

NDIL Default value:

FDIL Typical values:

FDIL Default value:

5.5 Negative Recal Delay - NRD

If an object unintentionally contacts a key resulting in a

detection for a prolonged interval it is usually desirable to

recalibrate the key in order to restore its function, perhaps

after a time delay of some seconds.

The Negative Recal Delay timer monitors such detections; if

a detection event exceeds the timer's setting, the key will be

automatically recalibrated. After a recalibration has taken

place, the affected key will once again function normally

even if it is still being contacted by the foreign object. This

feature is set on a per-key basis using the NRD setup

parameter.

NRD can be disabled by setting it to zero (infinite timeout) in

which case the key will never auto-recalibrate during a

continuous detection (but the host could still command it).

NRD is set using one byte per key, which can range in value

from 0..254. NRD above 0 is expressed in 0.5s increments.

Thus if NRD =120, the timeout value will actually be 60

seconds. 255 is not a legal number to use.

NRD Typical values:

NRD Default value:

NRD Range:

5.6 Positive Recalibration Delay - PRD

A recalibration occurs automatically if the signal swings more

positive than the positive threshold level. This condition can

occur if there is positive drift but insufficient positive drift

compensation, or, if the reference moved negative due to a

NRD auto-recalibration, and thereafter the signal rapidly

returned to normal (positive excursion).

As an example of the latter, if a foreign object or a finger

contacts a key for period longer than the Negative Recal

Delay (NRD), the key is by recalibrated to a new lower

reference level. Then, when the condition causing the

negative swing ceases to exist (e.g. the object is removed)

the signal suddenly swings positive to its normal reference.

It is almost always desirable in these cases to cause the key

to recalibrate quickly so as to restore normal touch

operation. The time required to do this is governed by PRD.

In order for this to work, the signal must rise through the

positive threshold level PTHR continuously for the PRD

period.

QT60248-AS R4.02/0405

20 to 60 (10 to 30 seconds)

20 (10 seconds)

0..254 (∞, 0.5 .. 127s)

2, 3

4 to 6

QT60248-ASG Atmel, QT60248-ASG Datasheet - Page 19

QT60248-ASG

Specifications of QT60248-ASG

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