QT118H-ISG View Datasheet(PDF) - Quantum Research Group
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QT118H-ISG Datasheet PDF : 14 Pages
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1.3 ELECTRODE DESIGN
Figure 1-3 Internal Switching & Timing
1.3.1 ELECTRODE GEOMETRY AND SIZE
E LE C TRO DE
There is no restriction on the shape of
the electrode; in most cases common
R esult
SNS2
sense and a little experimentation can
result in a good electrode design. The
QT118H will operate equally well with
long, thin electrodes as with round or
square ones; even random shapes are
acceptable. The electrode can also be
S tart
a 3-dimensional surface or object.
Do ne
Cs
Cx
Sensitivity is related to electrode
surface area, orientation with respect
SNS1
to the object being sensed, object
composition, and the ground coupling
quality of both the sensor circuit and
the sensed object.
1.3.2 KIRCHOFF’S CURRENT LAW
C ha rge
Amp
Like all capacitance sensors, the
QT118H relies on Kirchoff’s Current
Law (Figure 1-5) to detect the change
in capacitance of the electrode. This law as applied to
capacitive sensing requires that the sensor’s field current
must complete a loop, returning back to its source in order for
capacitance to be sensed. Although most designers relate to
Kirchoff’s law with regard to hardwired circuits, it applies
equally to capacitive field flows. By implication it requires that
crumpled into a ball. Virtual ground planes are more effective
and can be made smaller if they are physically bonded to
other surfaces, for example a wall or floor.
‘Ground’ as applied to capacitive fields can also mean power
wiring or signal lines. The capacitive sensor, being an AC
device, needs only an AC ground return.
the signal ground and the target object must both be coupled
together in some manner for a capacitive sensor to operate
1.3.5 SENSITIVITY ADJUSTMENT
properly. Note that there is no need to provide actual
1.3.5.1 Gain Pin
hardwired ground connections; capacitive coupling to ground The QT118H can be set for one of 3 gain levels using option
(Cx1) is always sufficient, even if the coupling might seem pin 5 (Table 1-1). This sensitivity change is made by altering
very tenuous. For example, powering the sensor via an
the internal numerical threshold level required for a detection.
isolated transformer will provide ample ground coupling,
Note that sensitivity is also a function of other things: like the
since there is capacitance between the windings and/or the values of Cs and Cx, electrode size, shape, and orientation,
transformer core, and from the power wiring itself directly to the composition and aspect of the object to be sensed, the
'local earth'. Even when battery powered, just the physical
thickness and composition of any overlaying panel material,
size of the PCB and the object into which the electronics is and the degree of ground coupling of both sensor and object.
embedded will generally be enough to couple a few
picofarads back to local earth.
The Gain input should never be connected to a pullup or
pulldown resistor or tied to anything other than SNS1 or
1.3.3 VIRTUAL CAPACITIVE GROUNDS
SNS2, or left unconnected (for high gain setting).
When detecting human contact (e.g. a fingertip), grounding
of the person is never required. The human body naturally
has several hundred picofarads of ‘free space’ capacitance to
the local environment (Cx3 in Figure 1-4), which is more than
two orders of magnitude greater than that required to create
Figure 1-4 Kirchoff's Current Law
a return path to the QT118H via earth. The QT118H's PCB
however can be physically quite small, so there may be little
‘free space’ coupling (Cx1 in Figure 1-4) between it and the
CX2
environment to complete the return path. If the QT118H
circuit ground cannot be earth grounded by wire, for example
via the supply connections, then a ‘virtual capacitive ground’
may be required to increase return coupling.
S e nse E le ctro de
A ‘virtual capacitive ground’ can be created by connecting the
QT118H’s own circuit ground to:
SENSOR
- A nearby piece of metal or metallized housing;
- A floating conductive ground plane;
- Another electronic device (to which its might be
CX 1
connected already).
Free-floating ground planes such as metal foils should
maximize exposed surface area in a flat plane if possible. A
square of metal foil will have little effect if it is rolled up or
Su rro und in g e nv iro nm en t
CX3
lq
3
QT118H R1.08 / 0405
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