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CROSS REFERENCE TO RELATED APPLICATIONS OR PUBLICATIONS
U.S. Pat. No. 4,703,359; and
U.S. Ser. No. 739,357 filed May 30, 1985 and assigned to the same assignee.
Both of the above are incorporated by reference into the present
application to constitute a part thereof.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a system for restoring control features of
a television receiver normally lost when an external tuning device, such
as a cable converter, is used in conjunction with the receiver. Normally,
the television receiver is then tuned to an empty channel, while the
external tuning device receives the incoming signal, converts its carrier
to the empty channel carrier and transmits this signal to the television
receiver. Since the television receiver is permanently tuned to the empty
channel, channel associated features such as parental control, on screen
display of the channel being received, etc. are rendered inactive.
2. Background
U.S Pat. No. 4,386,436 describes a system in which a portion of the
receiver system is used to control an external appliance through the AC
power supply line. The user enters an appliance control command into the
keyboard. The appliance control command is encoded and modulated onto a
carrier signal which is transmitted on the AC power supply line. The AC
power supply to the external appliance is controlled by an external
appliance control module located near the appliance and responsive to the
control command from the television receiver.
U.S. Pat. No. 4,529,980 a receiver-transmitter arrangement for controlling,
for example, a garage door opening can send a code generated in the
receiver to the transmitter by means of a light emitting diode.
Neither of these patents relate to restoring the channel associated
functions in a television tuning system while an external tuning device is
in use.
SUMMARY OF THE INVENTION
It is an object of the present invention to restore the auxiliary functions
previously lost when the television receiver is used in conjunction with
an external tuning system. Such channel-associated functions include, but
are not limited to, parental control or on-screen channel display.
Control functions for any other remotely-controllable device such as a VCR
can also be initiated via the television receiver in accordance with the
present invention.
In accordance with the present invention, a television receiver has a
remote control transmitter incorporated therein. The remote control
transmitter is connected to the tuning system. When the tuning system
receives signals externally applied by the user, it responds by generating
activating signals for the remote control transmitter. The remote control
transmitter in turn translates these activating signals into control
signals for an externally controllable device. In particular, the remote
control transmitter applies the signals for the externally controllable
device to a light emitting source such as a light emitting diode. The
light emitting diode is either mounted in a line of sight relationship to
the receiving apparatus in the controllable device, or else a wired
connection is made. Preferably, the signals are infrared signals.
In a particular preferred embodiment, the system operates as a function
restorer which restores channel associated functions normally
automatically executed when a television tuning system is tuned to a
selected channel. These automatically executed functions are suppressed
when the television tuning system is tuned to an available channel
different from the selected channel for operation in conjunction with
external tuning means. In accordance with the invention, the user first
generates an external tuner selection signal signifying desired operation
with the external tuning device. The user then generates a first selected
channel signal which signifies the channel he wishes to receive. In the
receiver are means responsive to the external tuner selection signal and
the first selected channel signal which tune the tuning means to an
available channel rather than the selected channel, but execute the
channel associated function. In addition, there are remote control
transmitter means in the television receiver which are connected to the
television tuning system. The remote control transmitter means generate a
second selected channel signal corresponding to the first selected channel
signal. The second selected channel signal is then transmitted to the
external tuning means for tuning the external tuning means to the selected
channel.
In the preferred embodiment, the remote control transmitter is a universal
remote control transmitter which is capable of controlling different types
of devices, such as, for example, VCRs and cable converters. Particularly
desirable is a remote control transmitter capable of controlling different
types of devices also of different manufacturers.
The operation and the objectives of the present invention will become
clearer in the following description of the preferred embodiments,
particularly when considered in association with the drawing.
BRIEF DESCRIPTION OF THE DRAWING
FIG. 1 is a pictorial representation of a television receiver and cable
converter incorporating the present invention;
FIG. 2 is a block diagram of the system according to the present invention
as interconnected to the T.V. tuning system;
FIG. 3 is a flowchart of the identify routine according to the present
invention; and
FIG. 4 is a flowchart of the channel change routine according to the
present invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
In FIG. 1, a television receiver 10 includes a tuning system 12 which, in
the absence of the present invention operates under control of an IR
receiver 14. Receiver 14 responds to infrared (IR) command signals
generated by a hand-held remote control transmitter 16.
Normally, when a cable converter 18 is used in conjunction with receiver
10, receiver 10 would be permanently tuned to an empty channel, such as
channel 3, while the tuning function would be taken over by the cable
converter, again under control of a remote control transmitter. When the
remote control transmitter is a universal transmitter such as described in
U.S. application Ser. No. 739,357, filed May 30, 1985 or U.S. Pat. No.
4,703,359, or any other universal or reconfigurable remote transmitter,
the cable converter and the television receiver can be controlled by the
user with the same remote transmitter.
When the cable converter is in use, the television receiver is permanently
tuned to an empty channel, while the cable converter is tuned to the
desired incoming channel. The incoming signal is converted in the cable
converter to a carrier suitable for receipt by the television receiver on
the empty channel to which the television receiver tuning system is tuned.
Many television receivers now in use have channel associated features. For
example, parental control systems are available which do not allow viewing
of a given channel unless a particular code word is entered into the
system. Also, some television receivers allow on-screen display of the
channel to which the receiver is tuned as shown in FIG. 1 by the channel
designation indicated by reference number 22. Other channel associated
features exist in present television sets and further development of such
functions is expected. All of these are lost for conventional television
receivers in which the tuning system is essentially bypassed by an
external tuning system such as that of a VCR or a cable converter.
According to the present invention, to restore channel-associated functions
to a television receiver, a universal remote control transmitter capable
of operating cable converters and/or other external devices of different
manufacturers, indicated by reference numeral 20 in FIG. 1, is built into
the television receiver and interfaced to the tuning system. This remote
control transmitter may be one disclosed in one of the cross-referenced
patent application or patent, which are hereby incorporated by reference
into the present application. As mentioned above, this type of remote
control transmitter can operate any number of external devices of
different types and different manufacturers. The appropriate control
signals for a type of equipment, manufacturer, and desired command are
selected under external control from values stored in memory in the
transmitter. The exact operation of such units is not a subject of the
present invention. It suffices to say that units exist by which remotely
controlled devices from different manufacturers can be controlled by one
and the same unit. This is the type of unit referred to herein as a
universal remote control transmitter. Such a universal remote control
transmitter is designated by reference numeral 20 in FIG. 1. Of course if
the present invention is to be used in an integrated system furnished by a
given manufacturer, a remote control transmitter controlling only that
manufacturer's device can be substituted for the universal remote control
transmitter. Also, instead of a universal remote control transmitter, a
reconfigurable one may be used.
The T.V. tuning system and remote control transmitter are illustrated in
greater detail in the block diagram of FIG. 2. In this figure, an IR
receiver 14 or a keyboard 21 furnish the desired signals to the receiver
tuning system. The latter includes a microprocessor 24, a frequency or
phase-locked loop 26, a tuner 28, a display controller 30, and memory 32,
including a RAM 34 and a ROM 35.
The tuning system microprocessor 24 is connected via a line 36 to a remote
control transmitter 37, built into the T.V. receiver. Transmitter 37
includes an infrared (IR) transmitter microprocessor 38. IR transmitter
microprocessor 38 is connected to a RAM 40, a ROM 42 (together
constituting a transmitter memory 43) and an IR driver 44 which in turn is
connected to a light emitting diode 45, one possible means for
transmitting signals from the television receiver to the cable converter
or other external device in accordance with the present invention.
The operation of the television receiver illustrated in FIG. 2 will best be
understood with reference to the microprocessor flowcharts of FIGS. 3 and
4. First, in a one time operation, if the remote control transmitter built
into the television receiver is a universal type transmitter, the
particular cable converter which is to be controlled by the light emitting
diode (LED) 45 must be identified. In other words, remote control
transmitter 37 must "learn" which particular set of codes stored in memory
43 is to be used to energize driver 44 and thus LED 45. The identify
routine illustrated in FIG. 3 is a preferred embodiment of such routine.
Specifically, an interactive routine, with prompts showing on the screen,
is illustrated. The steps carried out by the system are indicated by
numbers without letters, user interaction being signified by numbers
followed by A.
Referring first to FIG. 3, the identify sub-program is normally in an idle
state 50. The user then sends a command to go to menu in a step 50A. The
tuning system decodes the menu select command in step 52 and displays the
menu in step 54. The user then selects the "identify" function of the menu
in step 54A. Thereafter, in a step 56, the tuning system displays the
choice of appliance types:
1. VCR;
2. cable converter;
3. none.
These categories of course are strictly exemplary. Any external tuner may
be involved for a function restorer embodiment.
From this display, the user selects the desired device in step 56A. The
selected information is transferred in step 58 by the tuning system 24 to
the transmitter microprocessor 38. Next, thereafter, in step 60, the user
is prompted to select a vacant channel, for example channel 3 or channel
4. Again, other channels may be selected or a choice of vacant channels
may be programmed into the equipment without requiring user choice. Since
a choice is required in the example given, the user selects the desired
empty channel in a step 60A. This information, too, is transmitted by
tuning system 24 to microprocessor 38.
Step 62, the final identification of the cable converter to be controlled
can take one of a number of forms. In the illustrated example, a prompt is
displayed on the screen which tells the user to press a certain button or
buttons until the cable converter to be controlled changes channels. When
the cable converter changes channels, the user is told to release the
button.
Tuning system 24 transmits the signal caused by pressing of the button or
buttons directly to remote controller transmitter 37 (step 64). In
response, the remote control transmitter energizes LED 45 to transmit, for
example, channel up signals in different formats, associated with
different manufacturers. When the correctly formatted signal is received
by the cable converter, it will change channels. The user, in response,
will release the button or buttons. This information is again transmitted
by tuning system 24 directly to remote control transmitter 37 (step 64).
The transmitter now knows that the last sent command was in the proper
format. Future commands will be formatted accordingly. Release of the
button or buttons completes the identify routine (step 66) and the program
is returned to the idle step 50.
Once the cable converter has been identified in accordance with the above
described routine, a user controlled channel change is carried out as
illustrated in FIG. 4. As shown in FIG. 4, the user first selects the
cable converter or other external tuning device by means of selector
switch 23. Next, the user enters the number of his selected channel either
by means of an external remote control transmitter 16 operating in
conjunction with the IR receiver 14, or by means of the keyboard 21. The
tuning command is applied to a command decoder, part of microprocessor 24.
The output of the command decoder is entered as step 70 in the flowchart
of FIG. 4. It is then determined, (decision 72) whether a channel change
command is involved. If not, the channel change program is bypassed (74)
and exits to the main program.
However, if there has been a channel change command, switch 23 is tested in
step 76 to see whether a cable converter for other external tuning system
has been selected. If not, the normal TV tuning algorithm is executed
(step 78).
If, on the other hand, an external tuning device has been noted in step 76,
the channel change command and selected channel data is transmitted to the
transmitter microprocessor (step 80) and the internal remote control
transmitter 37 is activated. In addition, the normal tuning algorithm for
a selected empty channel (e.g. channel 3) is executed (step 82). In step
84 channel-associated functions are carried out, either in conjunction
with step 80 or in conjunction with step 78. These channel associated
functions include, but are not limited to, parental control and display of
the selected channel on the television screen. The latter is illustrated
in FIG. 4. The sub-program is exited following step 84.
In a preferred embodiment, the channel change command and the selected
channel data are transmitted from the output of the universal remote
control transmitter by means of a light emitting diode or diodes to an
infrared receiver in the cable converter. The cable converter must then be
mounted in a fixed position relative to the television receiver, the
infrared light emitting diode being preferably mounted on the back of the
television receiver. Alternatively, a wired connection would suffice.
Although the present invention has been illustrated in a specific
embodiment, many different implementations are possible and will readily
occur to one skilled in the art. It is intended that all such variations
be encompassed in the invention as claimed in the following claims.
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