qt118h Quantum Research Group, qt118h Datasheet - Page 2

qt118h

Manufacturer Part Number

qt118h

Description

Charge-transfer Touch Sensor

Manufacturer

Quantum Research Group

Datasheet

1.QT118H.pdf (14 pages)

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1 - OVERVIEW

The QT118H is a digital burst mode charge-transfer (QT)

sensor designed specifically for touch controls; it includes all

hardware and signal processing functions necessary to

provide stable sensing under a wide variety of changing

conditions. Only a few low cost, non-critical discrete external

parts are required for operation.

Figure 1-1 shows the basic QT118H circuit using the device,

with a conventional output drive and power supply

connections. Figure 1-2 shows a second configuration using

a common power/signal rail which can be a long twisted pair

from a controller; this configuration uses the built-in pulse

mode to transmit the output state to the host controller.

1.1 BASIC OPERATION

The QT118H employs short, low duty cycle bursts of QT

cycles to acquire capacitance. Burst mode permits power

consumption in the low microamp range, dramatically

reduces RF emissions, lowers susceptibility to EMI, and yet

permits excellent response time. Internally the signals are

digitally processed to reject impulse noise, using a

'consensus' filter which requires four consecutive

confirmations of a detection before the output is activated.

The QT switches and charge measurement hardware

functions are all internal to the QT118H (Figure 1-3). A

single-slope switched capacitor ADC includes both the

required QT charge and transfer switches in a configuration

that provides direct ADC conversion. The sensitivity depends

on the values of Cs, Cx, and to a smaller degree, Vdd. Vdd is

used as the charge reference voltage.

Higher values of Cs increase gain; higher values of Cx load

reduce it. The value of Cs can thus be increased to allow

larger values of Cx to be tolerated (Figures 4-1 and 4-2, page

10).

Piezo sounder drive: The QT118H can drive a piezo

sounder after a detection for feedback. The piezo sounder

replaces or augments the Cs capacitor; this works since

piezo sounders are also capacitors, albeit with a large

thermal drift coefficient. If C

additional capacitor. If C

‘topped up’ with a ceramic capacitor in parallel. The QT118H

drives a ~4kHz signal across SNS1 and SNS2 to make the

piezo (if installed) sound a short tone for 75ms immediately

after detection, to act as an audible confirmation.

CMOS

LOGIC

piezo

3.5 - 5.5V

piezo

is too small, it can simply be

is in the proper range, no

Figure 1-2 2-wire operation, self-powered

Twisted

pair

n-ch Mosfet

1N4148

OUT

OPT1

OPT2

Vdd

Vss

Option pins allow the selection or alteration of several special

features and sensitivity.

1.2 ELECTRODE DRIVE

The internal ADC treats Cs as a floating transfer capacitor; as

a direct result, the sense electrode can in theory be

connected to either SNS1 or SNS2 with no performance

difference. However, the noise immunity of the device is

improved by connecting the electrode to SNS2, preferably via

a series resistor Re (Figure 1-1) to roll off higher harmonic

frequencies, both outbound and inbound.

In order to reduce power consumption and to assist in

discharging Cs between acquisition bursts, a 470K series

resistor Rs should always be connected across Cs (Figure

1-1).

The rule Cs >> Cx must be observed for proper operation.

Normally Cx is on the order of 10pF or so, while Cs might be

10nF (10,000pF), or a ratio of about 1:1000.

It is important to minimize the amount of unnecessary stray

capacitance Cx, for example by minimizing trace lengths and

widths and backing off adjacent ground traces and planes so

as keep gain high for a given value of Cs, and to allow for a

larger sensing electrode size if so desired.

The PCB traces, wiring, and any components associated with

or in contact with SNS1 and SNS2 will become touch

sensitive and should be treated with caution to limit the touch

area to the desired location.

SNS2

SNS1

GAIN

OUTPUT = DC

TIMEOUT = 10 Secs

TOGGLE = OFF

GAIN = HIGH

10µF

Figure 1-1 Standard mode options

OUT

OPT1

OPT2

+2.5 ~ +5

Vdd

Vss

SNS2

GAIN

SNS1

2nF - 500nF

ELECTRODE

QT118H R1.08 / 0405

SENSING

ELECTRODE

SENSING

qt118h Quantum Research Group, qt118h Datasheet - Page 2

qt118h

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