qt401 Quantum Research Group, qt401 Datasheet - Page 3

qt401

Manufacturer Part Number

qt401

Description

Qslide? Touch Slider Ic

Manufacturer

Quantum Research Group

Datasheet

1.QT401.pdf (16 pages)

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setting of drift compensation in Free-Run mode. See also

Section 3.3.4.

1.3 Sleep Mode

After an SPI transmission, the device will enter a low power

sleep state; see Figure 3-1, page 6, and Section 3.2.4, page

7 for details. This sleep state can be extended in order to

lower average power, by simply delaying the rise of /SS.

Coming out of sleep state when /SS rises, the PROX,

DETECT, and DRDY pins will float for ~400µs; it is

recommended that these pins be pulled low to Vss to avoid

false signalling if they being monitored during this time .

Note: Pin /SS clamps to Vss for 250ns after coming out of

sleep state as a diagnostic pulse. To prevent a possible pin

drive conflict, /SS should either be driven by the host as an

open-drain pull-high drive (e.g. with a 100K pullup resistor), or

there should be a ~1K resistor placed in series with the /SS

pin. See Figure 1-1, R3.

1.4 PROX, DETECT Outputs

There are two active-high output pins for detection of hand

proximity and slider position:

The sensitivities of these functions can be set using serial

commands (Sections 3.3.5 and 3.3.6).

These outputs will float for ~400µs after wake from Sleep

mode (see Section 1.3). If Sleep mode is used, it is

recommended that PROX and DETECT (if used) be shunted

to ground with 1nF capacitors to hold their states during the

400µs float interval when emerging from Sleep.

Table 1-1 Pin Descriptions

Note (1): Pin floats briefly after wake from Sleep mode.

PROX output: This pin goes high when a hand is detected

in free space near the slider. This condition is also found

as bit 0 in the standard response when there is no touch

detection (Section 3.3).

DETECT output: This pin goes high when the signal is

large enough to allow computation of finger position. This

condition is also found as bit 7 in the standard response

(Section 3.3).

DETECT

NAME

SNS1A

SNS1B

SNS2B

SNS2A

PROX

DRDY

SCLK

VDD

SDO

VSS

/SS

SDI

N/A

Ground

TYPE

Power

I/O

DESCRIPTION

Positive power pin (+2.5 .. +5V)

Serial data output

Slave Select pin. Active low input to enable serial clocking. 1K ohms in series recommended.

Serial clock input. Clock idles high

Serial data input

Sense pin (to Cs1)

Sense pin (to Cs1, Rs1); connects to ‘0’ end of slider element

Sense pin (to Cs2, Rs2); connects to ‘127’ end of slider element

Sense pin (to Cs2)

Leave open

Active high when a hand is near the slider. May be left unconnected. Note (1)

Active high when slider is touched. May be left unconnected. Note (1)

Data ready output. Goes high to indicate it is possible to communicate with the QT401. Note (1)

Negative power pin

1.5 Position Data

The position value is internally calculated and can be

accessed only when the slider is touched (Detect pin is high).

The position data is a 7-bit number (0..127) that is computed

in real time; the end numbers (0, left; 127, right) map to the

physical ends by one of two possible calibration methods

(see Section 1.6). The position data will update either with a

single rapid touch or will track if the finger is moved

lengthwise along the surface of the slider element. The

position data ceases to be reported when touch detection is

no longer sensed.

1.6 Calibration

Calibration is possible via two methods:

The calibration period requires 10 burst cycles, which are

executed automatically without the need for additional SPI

commands from the host. The spacing between each Cal

burst is 2ms, and the bursts average about 23ms each when

Cs1, Cs2 are 100nF, ie the Cal command requires ~220ms to

execute. Lower values of Cs will result in shorter bursts and

hence shorter cal times.

In addition to the basic calibration, it is also possible to

request that the QT401 adjust its reported data to achieve

physically calibrated end points (0, 127) via a serial command

(command 0x02: Section 3.3.3). This requires an immediately

preceding reference calibration command (command 0x01:

see Section 3.3.2) in order to work correctly.

Calibration should be performed when there is no hand

proximity to the element, or the results may be in error.

Should this happen, the error flag (bit 1 of the standard

response, see Section 3.3) will activate when the hand is

withdrawn again. In most cases this condition will self-correct

if drift compensation is used, and it can thus be ignored. See

also Section 1.8 below.

1) Power up or power cycling (there is no reset input).

2) On command from host via SPI (Command 0x01: see

Section 3.3.2).

QT401 R10.04/0505

qt401 Quantum Research Group, qt401 Datasheet - Page 3

qt401

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