T
ABLE 1-1 PIN LISTING - QT220-ISSG
1 - OVERVIEW
QT220 devices are burst mode digital charge-transfer (QT)
sensor ICs designed specifically for touch controls; they
include all hardware and signal processing functions
necessary to provide stable sensing under a wide variety of
conditions. Only a single low cost capacitor per channel is
required for operation.
Pin
Name Description
1
SNS1A
SNS1K
n.c.
Sense pin (to Rs1+ Cs1)
2
Sense pin (to Cs1 electrode)
Do not connect
Speed option
Do not connect
Output, key 1
Output, key 2
Ground
3
4
SPEED
n.c.
OUT1
OUT2
VSS
5
6
Figures 1-1 and 1-2 show basic circuits for these devices.
See Table 1-1 for device pin listings.
7
8
9
SYNC/SS Sync in and/or spread spectrum drive
The devices employ bursts of charge-transfer cycles to
acquire signals. Burst mode permits low power operation,
dramatically reduces RF emissions, lowers susceptibility to
RF fields, and yet permits excellent speed. Internally, signals
are digitally processed to reject impulse noise using a
'consensus' filter that requires six consecutive confirmations
of detection.
10
11
12
13
14
15
16
17
18
19
20
n.c.
n.c.
Unbonded internally
Unbonded internally
n.c.
Do not connect
/RES
VDD
OSC
n.c.
Reset pin, active low. Can usually tie to Vdd.
Power: +4.0 to +5.0V locally regulated
Oscillator bias in
Do not connect
n.c.
Do not connect
The QT switches and charge measurement hardware
functions are all internal to the device. A single-slope
switched capacitor ADC includes the QT charge and transfer
switches in a configuration that provides direct ADC
conversion; an external Cs capacitor accumulates the charge
from sense-plate Cx, which is then measured.
OPT2
SNS2A
Option OPT2
Sense pin (to Rs2 + Cs2)
SNS2K/OPT1 Sense pin (to Cs2, electrode); option OPT1
optional passive parts (if desired). Sync operation is not
supported in this mode.
Larger values of Cx cause the charge transferred into Cs to
rise more rapidly, reducing available resolution; as a
minimum resolution is required for proper operation, this can
result in dramatically reduced gain. Larger values of Cs
reduce the rise of differential voltage across it, increasing
available resolution by permitting longer QT bursts. The
value of Cs can thus be increased to allow larger values of
Cx to be tolerated. The IC is responsive to both Cx and Cs,
and changes in either can result in substantial changes in
sensor gain.
1.2 ELECTRODE DRIVE; WIRING
The QT220 has two completely independent sensing
channels. The conversion process treats Cs on each channel
as a floating transfer capacitor; as a direct result, sense
electrodes can be connected to either SNS pin and the
sensitivity and basic function will be the same; however
electrodes should be connected to SNSnK lines to reduce
EMI susceptibility.
The PCB traces, wiring, and any components associated
with or in contact with either SNS pin will become touch
sensitive and should be treated with caution to limit the touch
area to the desired location.
Unused channels: If a channel is not used, a dummy sense
capacitor (nominal value: 1nF) of any type plus a 2.2K series
resistor must be connected between unused SNS pin pairs
ensure correct operation.
1.1 OPERATING MODES
The QT220 features spread-spectrum acquisition
capability, external synchronization of acquire
bursts, and fast and slow acquisition modes. These
modes are enabled via high-value resistors
connected to the SNS pins to ground or Vdd. These
resistors are required in every circuit.
F
IGURE 1-1 LOW
P
OWER, SYNCHRONIZED
C
IRCUIT
10 second
RSNS1
22K
RSNS2
22K
timeout shown
There are two basic modes as shown in Figures 1-1
and 1-2.
CS1
Low-power Sync mode: In this mode the device
operates with about a 100ms response time and
very low current (about 90µA average at 4.0V). This
CS2
R1
1M
R2
1M
10nF
10nF
R3
1M
RS1
2.2K
mode allows the device to be synchronized to an
external clock source, which can be used to either
suppress external interference (such as from
50/60Hz wiring) or to decrease response time
(which will also increase power consumption).
Spread-spectrum operation is not directly supported
in this mode. Sync usage is optional; the Sync pin
should simply be grounded if unused.
S1
RS2
2.2K
S2
OPT1
SPEED
OPT
S3
OPT2
VDD
VDD
VDD
62K R4
OUT1
OUT2
Fast, Spread-Spectrum mode: In this mode the
device operates with ~40ms response times but
higher current drain (~1.5mA @ 4.0V). This mode
also supports spread-spectrum operation via a few
SYNC
LQ
2
QT220R R1.02/0905
QUANTUM [ QUANTUM RESEARCH GROUP ]
