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Claims  |
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What is claimed is:
1. An interface system for a television receiver, said television receiver
comprising a tuner for receiving and selectively tuning to a television
signal, a deflection circuit coupled to said tuner for generating
deflection signals from synchronization signals contained in said
television signal, an audio signal processing circuit coupled to said
tuner for processing an audio signal contained in said television signal,
a video signal processing circuit coupled to said tuner for processing a
video signal contained in said television signal, a display coupled to
said deflection circuit and said video signal processing circuit for
displaying said video signal in dependence on said deflection signals, and
a power supply circuit for supplying operating power to each of the above
components, characterized in that said interface system comprises:
standard bus means having M leads separately connected to said audio signal
processing circuit, said deflection circuit, said video signal processing
circuit and said power supply circuit, where M is an integer greater than
one;
connector means having M contacts connected, respectively, to said M leads
in said standard bus means; and
circuit board means accessible by a user of said television receiver, said
circuit board means having plug means connectable to said connector means,
said plug means having N contacts corresponding, respectively, to at least
some of the M contacts in said connector means, where N is an integer less
than or equal to M, and circuit means connected to said N contacts in said
plug means, said circuit means, when connected through said plug means,
said connector means and said standard bus means to at least one of the
audio signal processing circuit, the video signal processing circuit, the
deflection circuit and the power supply circuit in the television
receiver, modifies the operation of said at least one of the audio signal
processing circuit, the video signal processing circuit, the deflection
circuit and the power supply circuit in the television receiver, whereby
additional features are provided for the user.
2. An interface system as claimed in claim 1, wherein said television
receiver further comprises a remote control receiver for receiving remote
control signals from a remote control transmitter, and a microcomputer for
controlling said television receiver at least partly in response to
signals from said remote control receiver, characterized in that said
standard bus means includes leads separately connected to said remote
control receiver and said microcomputer, said remote control receiver and
said microcomputer being connected to said circuit board means by said
connector means and said plug means so that said remote control signals
may be processed by said circuit means on said circuit board means, and
said circuit means on said circuit board means being controlled by said
microcomputer.
3. An interface system as claimed in claim 1, wherein said interface system
provides a source for a further television signal, and wherein said video
signal processing circuit includes a picture in picture (PIP) circuit for
processing said further television signal as a PIP signal, characterized
in that the circuit means on said circuit board means includes a further
tuner connected to an RF input on said circuit board means for tuning to
said further television signal, a PIP IC coupled to an output of said
further tuner, and a DRAM connected to said PIP IC, said further tuner and
said PIP IC having power and control inputs connected to contacts in said
plug means which in turn connect with contacts in said interface connector
means connected to said power supply circuit and a microcomputer in said
television receiver, and said PIP IC having signal inputs and outputs
connected to contacts in said plug means which, in turn, connect with
contacts in said interface connector means connected to signal outputs of
said video signal processing circuit and signal inputs of said PIP
circuit, whereby, under control of said microcomputer, said further
television signal being tuned by said further tuner is inserted into a
main video signal, tuned by said tuner in said television receiver and
supplied by said video signal processing circuit, as a PIP signal, and the
combined video signal is sent to the PIP circuit in the video signal
processing circuit such that the video signal tuned by said tuner and the
further television signal tuned by said further tuner appear in a same
picture frame.
4. An interface system as claimed in claim 1, wherein said interface system
provide ghost cancellation for said television receiver, and said
television receiver further includes a microcomputer for controlling
functions of the television receiver, characterized in that said circuit
means on said circuit board means include a ghost cancellation IC having
power and control inputs connected to contacts in said plug means for
connecting with contacts in said interface connector means connected to
said power supply circuit and said microcomputer in said television
receiver, said ghost cancellation IC further having signal inputs and
outputs connected to contacts in said plug means for connecting with
contacts in said interface connector means connected to outputs and
inputs, respectively, in said video signal processing circuit, whereby
under control of said microcomputer, said video signal processing circuit
provides a video signal to said ghost cancellation IC and said ghost
cancellation IC provides a ghost-free version of said video signal back to
said video signal processing circuit.
5. An interface system as claimed in claim 1, wherein said interface system
enables said television receiver to receive and process compressed digital
video signals, and said television receiver further includes a
microcomputer for controlling functions of said television receiver,
characterized in that the circuit board means includes an RF input for
receiving said compressed digital video signals modulated on RF carriers,
a further tuner coupled to said RF for tuning in one of said RF carriers,
a front end coupled to an output of said further tuner for processing said
RF carrier and for providing said compressed digital video signals, a
transport coupled to an output of said front end for selectively
unscrambling said compressed digital video signals, a decompression
circuit coupled to an output of said transport for decompressing said
compressed digital video signals, and an encoder coupled to an output of
said decompression circuit for providing separated luminance and
chrominance component signals, said circuit board means further including
an audio interface coupled to outputs of said decompression circuit for
providing digital audio signals, a descrambling circuit coupled to inputs
and outputs of said transport circuit for descrambling the compressed
digital video signals, and a further microcomputer coupled to said
descrambling circuit for controlling the descrambling circuit, and coupled
to a graphics control circuit for generating graphics for display, said
graphics control circuit being connected to an input of said encoder, said
circuit board means further including a modem coupled to said RF input for
transmitting signal from said further microcomputer, each of said elements
having power and control inputs connected to contacts of said plug means
for connecting with contacts in said interface connector means connected
to said power supply circuit and said microcomputer, and said audio
interface and said encoder include signal outputs connected to contacts in
said plug means for connecting with contacts in said interface connector
means connected with inputs in said audio signal processing circuit and
said video signal processing circuit.
6. An interface system as claimed in claim 5, characterized in that said
encoder alternatively provides analog RGB signals which are applied to
separate contacts in said plug means for connecting with contacts in said
interface connector means connected with analog RGB inputs in said video
signal processing circuit. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
1. Field of The Invention
The subject invention relates to television receivers and the various
functionality options now available to a user.
2. Description of The Related Art
Television receivers that are being marketed today have various optional
functions which may be incorporated therein. For example, the television
receiver may include Picture-in-Picture (PIP) in which the video signal
for PIP is provided by a second signal source (a VCR) connected to a
second video input of the television receiver, or a second tuner so that
the television receiver may by itself provide PIP. These and other
optional features are provided by modifying the circuitry inside the
television receiver. Quite naturally, these changes must be implemented in
the production line resulting in a plurality of different models of the
television receiver being fabricated. It should be apparent that this
results in relatively high production costs. In marketing these separate
models of television receivers, a dealer must then anticipate what
features his/her customers would desire, and order sufficient quantities
of the specific models. Any others must be ordered specifically for that
consumer which may result in a lost sale.
In another situation, unless the particular model of television receiver in
the user's possession has the appropriate features, the user must open up
the television receiver, and cut into existing wiring so that the user may
be able to adapt the television receiver for use with, for example, a
computer.
SUMMARY OF THE INVENTION
It is an object of the present invention to devise a standard television
receiver which is easily adaptable for different functionalities.
It is a further object of the present invention to provide a standard
television receiver in which the different functionalities may be adapted
without opening the television receiver and physically modifying the
circuitry therein.
The above objects are achieved in an interface system for a television
receiver, said television receiver comprising a tuner for receiving and
selectively tuning to a television signal, a deflection circuit coupled to
said tuner for generating deflection signals from synchronization signals
contained in said television signal, an audio signal processing circuit
coupled to said tuner for processing an audio signal contained in said
television signal, a video signal processing circuit coupled to said tuner
for processing a video signal contained in said television signal, and a
display coupled to said deflection circuit and said video signal
processing circuit for displaying said video signal in dependence on said
deflection signals, characterized in that said interface system comprises:
standard bus means having M leads separately connected to said audio signal
processing circuit, said deflection circuit and said video signal
processing circuit, where M is an integer greater than one;
connector means having M contacts connected, respectively, to said M leads
in said standard bus means; and
circuit board means accessible by a user of said television receiver, said
circuit board means having plug means connectable to said connector means,
said plug means having N contacts corresponding, respectively, to at least
some of the M contacts in said connector means, where N is an integer less
than or equal to M, and circuit means connected to said N contacts in said
plug means, said circuit means, when connected through said plug means,
said connector means and said standard bus means to at least one of the
audio signal processing circuit, the video signal processing circuit and
the deflection circuit in the television receiver, modifies the operation
of said television receiver thereby providing additional features for the
user.
As shown in FIG. 1, the interface system of the subject invention allows a
television receiver to be modified and/or upgraded to various different
functionalities including: CD-Video, CD-i, television/computer interface,
ghost cancellation, dual tuner PIP, digital compressed video cable
interface, hotel/motel/hospital pay-per-view system, etc., just by
plugging the appropriate circuit board into the interface connector.
BRIEF DESCRIPTION OF THE DRAWINGS
With the above and additional objects and advantages in mind as will
hereinafter appear, the invention will be described with reference to the
accompanying drawings, in which:
FIG. 1 shows the various different applications for the interface system of
the subject invention;
FIG. 2 shows, in block diagram form, a standard television receiver, in
which the interface system is used to provide a second video source and a
second PIP;
FIG. 3 shows, in block diagram form, the standard television receiver, in
which the interface system is used to provide ghost cancellation;
FIG. 4 shows, in block diagram form, the standard television receiver, in
which the interface system is used to provide a hospitality product;
FIG. 5 shows, in block diagram form, the standard television receiver, in
which the interface system is used to interface the television receiver
with a digital compressed video cable system;
FIG. 6 shows the system of FIG. 5, with the exception that analog RGB
signals are being provided; and
FIG. 7 shows how the interface system is mounted in the housing of a
television receiver.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
FIG. 2 shows a standard television receiver 10 having an input 12 for
receiving television signals from, for example, an antenna 14. The input
12 is connected to a tuner 16 for tuning the television to a particular
television signal. The output from the tuner 16 is connected, on the one
hand, to an audio signal processing circuit 18 which separates an audio
signal from the received television signal and generates signals for
application to speakers 20. The audio signal processing circuit 18
includes a stereo decoder 22 which decodes the audio signal in the
television signal from the tuner 16 into separate left and right audio
signals, in which case the speakers include a left and a right speaker for
receiving the amplified left and right audio signals. The output from the
tuner 16 is also applied to a deflection circuit 24 for generating
deflection signals from the synchronization signals contained in the
television signal, and to a video signal processing circuit 26 for
processing the video signal contained in the television signal into
component signals for application to CRT driver circuits 28 for driving a
cathode ray tube (crt) 30, which receives the deflection signals from the
deflection circuit 24. The video signal processing circuit 26 also
includes an on-screen display circuit 32 for providing video signals
indicating messages for display of the crt 30. As noted in FIG. 2, an
infrared remote control transmitter 34 is shown for interaction with a
remote control receiver 36 in the television receiver 10. A microcomputer
38 is also shown which controls the operation of the other elements in the
television receiver 10. Finally, a power supply circuit 40 is shown which
provides operating power to each of the above circuits. It should be noted
that the connecting lines between these components have been omitted for
clarity, any one skilled in the art would know how each of these circuits
would be interconnected.
The subject invention includes the provision of a standard bus having lines
44 connected to each of the above-noted components. These lines 44 are
then connected to contacts 46 in an interface connector 48. A circuit
board 50 is then provided with a plug 52 having contacts 54 for engaging
with the contacts 46 in the interface connector 48. In particular,
depending on the functionalities to be offered by the particular circuit
board 50, various of the contacts 54 in the plug 52 are connected to
circuits 56 mounted on the circuit board 50. In particular, as shown in
FIG. 2, these circuits 56 include a second tuner 56.1, a PIP IC 56.2, and
a DRAM 56.3. The contacts 54 being used in the plug 52 connect with the
contacts 46 in the interface connector 48 connected to the power supply
circuit 40, the deflection circuit 24, the video signal processing circuit
26, and the microcomputer 38. The power supply circuit 40 supplies power
to the second tuner 56.1, the PIP IC 56.2 and the DRAM 56.3. Then, under
control of the microcomputer 38, the video signal processing circuit 26
provides the main video signal to the PIP IC 56.2 on the circuit board 50.
Based on the television signal being tuned with the second tuner 56.1
which, for this purpose, is connected to an RF input 58 mounted on the
circuit board 50, this signal is inserted into the main video signal as a
PIP signal and the combined video signal is sent to a PIP circuit 60 in
the video signal processing circuit 26 for presenting the main video
signal and the PIP video signal as, for example, two side-by-side PIP
images. FIG. 2 further shows the remote control receiver 36 also being
connected to a contact 48 on the interface connector 48 for connecting
with a contact 54 in the plug 52 which, in turn, is connected to the
circuit board 50. This enables remote control signals to be processed both
by a remote control circuit (not shown) on the circuit board 50 as well as
by the microcomputer 38, depending upon the nature of the remote control
signal being received.
FIG. 3 shows an embodiment in which the interface system provides ghost
cancellation. In particular, the circuit board 50' includes a ghost
cancellation IC 62 which receives power from the power supply circuit 40.
Under control of a signal from the microcomputer 38, the video signal
processing circuit 26 provides the video signal to the ghost cancellation
IC 62 which then applies a ghost-free video signal back to the video
signal processing circuit 26
FIG. 4 shows an embodiment in which the interface system provides a
hospitality product. In particular, hospitals, hotels, motels, etc. may
want the feature of being able to provide pay-per-view service. This
hospitality functionality is provided by a circuit board 50" which is
substantially similar to circuit board 50' with the exception that the
ghost cancellation IC 62 is replaced by a hospital IC 62' which receives
further control signals from the microcomputer 38.
In FIG. 5, an embodiment is shown in which the interface system provides
the capability of receiving and processing compressed digital video
signals from, for example, a cable system which includes means for
decryption of "premium" scrambled signals provided by the cable supplier.
In particular, the circuits 56 on the circuit board 50'" include a
tuner/QAM/VSB front end 64, a transport 66, a digital video/audio decoder
(e.g., MPEG 2) 68 with an associated DRAM 70, a digital NTSC encoder 72,
an on-screen display and/or CD-i graphics and DRAM 74, an audio interface
circuit 76, a microcomputer 78 including an FSK modem 80, an input/output
port 82 for the cable, and a port 84 for receiving a decryption card 86.
These separate circuits are interconnected as shown in FIG. 5 and are
connected through contacts 54 on the plug 52 and contacts 46 in the
interface connector 48 to the power supply circuit 40, the microcomputer
38, the audio signal processing circuit 18, and the video signal
processing circuit 26. It should be noted that the contacts 46 on the
interface connector 48 for the power supply circuit 40 and the
microcomputer 38 are the same for all the embodiments of FIGS. 2-4.
However, while the embodiments of FIGS. 2 and 3 provide a CBVS (composite)
video signal for the video signal processing circuit 26, the embodiment of
FIG. 5 provides separate luminance and chrominance component signals for
improved picture performance. Hence, these signals are provided on
contacts 46/54 separate from those that carry the composite video signal
of FIGS. 2 and 3. Additionally, the embodiments of FIGS. 2 and 3 did not
concern audio. Hence, while the audio signal processing circuit 18 is
connected to the interface connector 48 in all cases, only here in FIG. 4
is there a connection from the audio interface circuit 76 to the
respective contacts 54 on the plug 52 on the circuit board 50"'.
The embodiment of FIG. 6 is substantially similar to that of FIG. 5 with
the exception that instead of the digital NTSC encoder 72, this embodiment
includes an RGB matrix interface 88 which provide analog RGB signals.
Again, separate contacts 54 are used on the plug 52 which connect with
respective contacts 46 on the interface connector 48 connected to
respective inputs of the video signal processing circuit 26.
As shown in FIG. 7, the interface connector 48 may mounted in a recessed
area 90 in the back panel 92 of the housing 94 of the television receiver.
A separate cover 96 attached to the appropriate circuit board 50
containing the circuits 56 and the plug 52 engages with the back panel 92
of the housing 94 as the plug 52 engages with the interface connector 48
thereby closing the recessed area 90. Alternatively, the circuit board 50
is inserted into the recessed area 90 separate from the cover 96 until the
plug 52 engages the interface connector 48. The cover 96 is then
positioned over the recessed area 90.
Numerous alterations and modifications of the structure herein disclosed
will present themselves to those skilled in the art. However, it is to be
understood that the above described embodiment is for purposes of
illustration only and not to be construed as a limitation of the
invention. All such modifications which do not depart from the spirit of
the invention are intended to be included within the scope of the appended
claims.
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Description |
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