QT310-D ETC, QT310-D Datasheet - Page 9

QT310-D

Manufacturer Part Number

QT310-D

Description

PROGRAMMABLE CAPACITANCE SENSOR IC

Manufacturer

ETC

Datasheet

1.QT310-D.pdf (20 pages)

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Toggle Latch Mode cannot be used with BG2 or OBJ modes,

modes (Sections 1.6, 2.8.4, 2.8.5).

2.7.4 H

Setup: Enable/Disable;

The OUT pin can have HeartBeat™ ‘health’ indicator pulses

superimposed on it. This operates by floating the 'OUT' pin for

approximately 15µs before each burst.

Heartbeat can be used to determine if the sensor is operating

properly. The frequency of the floats can be used to see if the

IC is operating within desired limits. The Heartbeat signal can

be tested by connecting a 10K resistor to OUT that is toggled

by a microcontroller depending on the logic level of OUT.

Heartbeat pulses can be removed simply by placing a

capacitor on the OUT pin; if OUT is loaded into a high-

impedance CMOS input or MOSFET, this is usually enough.

It is possible to disable HeartBeat provided SC is set to zero,

by setting the HB control bit to '1'. Otherwise, the Heartbeat

signal is always enabled.

2.7.5 O

The OUT pin is a push-pull CMOS type.

OUT can source or sink up to 2mA of non-inductive current. If

an inductive load is used, such as a small relay, the load

should be diode-clamped to prevent damage. The current

must be limited to 2mA max continuous to prevent detection

side effects from occurring, which happens when the load

current creates voltage drops on the die and bonding wires;

these small shifts can materially influence the signal level to

cause detection instability.

2.8 DETECTION MODES

SD - Sense Direction: Pos or Neg; Default: Positive

DM - Detect Mode: BG or OBJ;

BG - BG Mode: BG1 or BG2;

It is possible to change the basic way the device detects and

operates via the cloning process as described below. In

particular, it is possible to determine whether the device

responds to increases in Cx (‘normal’ detection) or decreases

in Cx (‘absence’ detection). It is also possible to change how

the device calibrates itself, in one of three possible modes.

2.8.1 S

Increasing Cx load on the electrode will result in a shorter

burst length. Since internal computations are based on burst

length, a shorter burst length means a smaller internal signal

number; conversely, a longer burst length means less Cx but

higher internal signal numbers. In summary:

These relationships, are important to understand to avoid

confusion. They mirror signal values shown in QT3View and

the burst length as viewed on an oscilloscope.

Cx rises

Cx drops

/CAL_

IGNAL

EART

UTPUT

CLR must be used as a calibrate input in these two

shorter Burst Length

longer Burst Length

EAT

EFINITIONS

RIVE

™ O

APABILITY

UTPUT

(HB)

Default: Enabled

less internal signal

more internal signal

Default: BG

Default: BG1

2.8.2 S

The programmable SD option controls whether the device

responds to increases in Cx (‘normal’ detection) or decreases

in Cx (‘absence’ detection). The default mode is positive.

2.8.2.1 Positive Sense Direction (default)

This is the normal mode of operation for touch sensing.

Calibration is normally done when an object is not present;

OUT becomes active if an object approaches.

In this configuration, if Cx increases enough the internal

signal will pass the threshold level, and OUT will become

active. Cx must fall again so the internal signal traverses the

hysteresis level for OUT to become inactive.

The threshold and hysteresis levels are set relative to the

reference level determined during calibration.

2.8.2.2 Negative Sense Direction

In this mode, if the part is made to calibrate when an object is

present, OUT will become active if the object departs (Cx

decreases).

In this configuration, if Cx decreases enough the internal

signal will pass the threshold level, and OUT will become

active. Cx must rise again so the internal signal traverses the

hysteresis level for OUT to become inactive.

The threshold and hysteresis levels are set relative to the

reference level determined during calibration.

2.8.3 D

The IC can be set to calibrate and detect in one of two

different modes to suit the application. The selection is made

using the cloning process.

The device default is BG. There are two BG modes, BG1 and

BG2, which must be further selected as described below. The

BG mode default is BG1.

OBJ mode is described in Section 2.8.5.

2.8.4 BG (B

The BG modes are useful when it is easier to calibrate on the

baseline signal level than the signal from the object to be

detected. The detection is always made relative to this

reference level, and the sensitivity is governed by the

adjustable threshold level (as well as capacitor Cs, and load

Cx). The BG modes are generally easier to use than OBJ.

There are two BG modes, BG1 and BG2. In these modes,

threshold and hysteresis values are calculated relative to the

reference level, which in turn is determined during calibration.

The two modes differ in that BG1 mode the calibration is

volatile whereas in BG2 mode the calibration reference is

stored in eeprom and reused until the next calibration.

Hysteresis can be altered as per Section 2.4.

Sense direction (SD) behavior: In both BG modes OUT can

be made active on either positive or negative Cx changes

(Section 2.8.2). SD selection affects which side of the

reference the threshold and hysteresis points are placed.

PTIONS

: P

: BG

: BG1

ENSE

ETECT

OS OR

ACKGROUND

IRECTION

OBJ;

ODE

BG2;

;

(DM) S

(SD)

) D

ETECTION

EFAULT

ELECTION

QT310/R1.03 21.09.03

: BG

OSITIVE

ODES

QT310-D ETC, QT310-D Datasheet - Page 9

QT310-D

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