SFH4050_ データシートの表示(PDF) - OSRAM GmbH
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SFH4050_ Datasheet PDF : 14 Pages
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3. Application Specific Design
Guidelines
3.1 Matrix-based Design
Newly developed slim and cost effective
emitter resp. detector packages allow a
significant reduction of bezel height,
overcoming one of the main drawbacks of
this traditional concept.
The number of employed IREDs depends
mainly on screen size and required
resolution. For simple applications their
spacing might be as wide as one IRED per
inch.
In most enhanced large screen systems an
IR controller sequentially pulses the IREDs.
This is important to avoid any simultaneous
crosstalk between different emitters.
If sequential operation is not feasible there
are some other measures necessary to
counterfight unintended crosstalk (although
intended optical crosstalk into neighboring
detectors is necessary to increase the
resolution beyond the IRED spacing).
The most important and best measure is the
proper mechanical design to achieve a good
optical shadowing. The combination with a
narrow-angled detector is also an
appropriate action to minimize ambient light
issues.
Suitable emitter/detector products with
narrow half-angle and small package height
for matrix-based touchscreens can be found
in Tab. 2 at the end of this note. These slim
products enable a cost effective and
appealing design.
3.2 Camera-based with Direct Illumination
Depending on the optical design and
working principle of camera-based
touchscreens, either diffuse wide-angle
IREDs for direct illumination or emitters for
coupling light into a light guide are
advisable.
To extract the signal from ambient IR-noise
the usual operation is in pulsed mode by
comparing two scans. The first, the
reference scan (without IR illumination) is
compared with the signal scan (with IR
illumination). Based on the difference the
touch event can be extracted.
Suitable components for the former setup
are either pairs of SFH4050 or SFH4655,
which can illuminate the complete 90° field
of view. The slim package is an excellent fit
for a compact design.
3.3 Camera-based with Light Guide
Illumination
An efficient system requires a homogeneous
and diffuse illumination of the area above
the screen due to an. e.g. edge emitting light
guide. The selection of an IRED for coupling
into a light guide element depends on a
number of criteria. Most important is the
design of the light guide (fiber), especially
the distribution of the outcoupling elements
along the light guide. The spacing of these
elements is either uniform or gets narrower
with increasing distance from the IRED
coupling site. The latter variation is usually
designed for standard wide-angle
components, whereas the first prefers
emitters with a more focused beam to
achieve the homogeneous and diffuse
outcoupling along the light guide. In general,
only customized solutions provide an
optimized illumination along the light guide.
However, for coupling light from the emitter
into waveguides there are some general
guidelines (see also the OSRAM application
note “Light Guides” for a more detailed
discussion). First of all, the air-gap between
the emitter and the light guide needs to be
minimized. Even better options include holes
in the acrylic glass for the emitter. To get a
good optical contact an index matching can
significantly reduce the Fresnel-losses (typ.
at least 2 x 4 % at the emitter – air-gap –
glass interfaces). A second issue concerns
the type of coupling, e.g. butt coupling
(perpendicular to the plain cut light guide
surface) or angled coupling. The first type
usually employs standard wide-angle
August 13, 2010
page 5 of 14
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