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Description  |
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FIELD OF THE INVENTION
This invention concerns the field of radio/VCR/television receiver input
signal switching controls.
BACKGROUND OF THE INVENTION
It is standard practice in the United States for broadcasters to insert
into program material, at various points, a number of commercial messages
of the program's sponsors. Many viewers find these messages to be an
irritating interruption of their viewing pleasure.
Accordingly, many techniques have been devised in an effort to avoid being
subjected to these commercial messages. One such technique is to merely
mute the sound via, for example, a mute pushbutton on a remote control
handunit. A remote control having such a mute function is known from the
RCA CRK33 remote control transmitter handunit manufactured by Thomson
Consumer Electronics, Inc., Indianapolis, Indiana. Unfortunately, muting
the sound does not remove the video of the unwanted commercial message,
and the viewer must watch the commercial in order to know when it has
ended, and therefore, when the viewer can "unmute" the sound.
An improved sound muting technique is known from U.S. Pat. No. 3,870,956
(Wolff) issued 11 Mar. 1975. Wolff discloses a circuit to mute the sound
of a television receiver for a predetermined time, at the end of which
time the receiver sound circuitry is automatically unmuted. The circuitry
of Wolff, however, does not affect the video, and thus a viewer is
subjected to a series of silent commercial messages.
Of course, a viewer may simply tune to a second channel when a commercial
message is displayed on the first tuned channel. A problem with this
technique is that the viewer has no way of knowing when the commercial
message on the first channel is finished. Consequently, the viewer may be
late in returning to the first channel, and may miss a portion of the
program he was watching.
SUMMARY OF THE INVENTION
In order to overcome the above-stated problems, it is desirable that a
tuning system include a timer circuit which can be enabled by a user,
before changing channels to avoid a commercial message, and a memory
circuit which, in response to the enabling of the timer, stores data
indicative of the currently tuned channel. The timer circuit would, upon
expiration of a predetermined time period, return the tuning system to the
original channel by use of the stored channel data.
In another embodiment of the invention, a television system having
picture-in-picture (PIX-IN-PIX) capability, that is, the capability to
produce signals which when displayed include a first program in a main
viewing area of a displayed screen and a second program in a secondary
(inset) viewing are of same display screen, switches a first program
currently selected to occupy the main viewing area to the secondary
viewing area in response to the sequence of the enabling of a timer, and a
selection of a different program. Upon expiration of the timer period, the
first program is redisplayed in the main viewing area.
In a third embodiment of the invention, the controller allows selection of
signals from different signal sources such as a VCR, compact disc player,
AM/FM stereo tuner or the like, to be substituted for the signal from any
other of these sources, during the timed period. Upon expiration of the
timed period, the originally selected signal source will be reselected.
BRIEF DESCRIPTION OF THE DRAWING
FIG. 1 shows in block diagram form a system suitable for use with the
invention.
FIG. 2 illustrates a remote control handunit suitable for use with the
invention.
FIGS. 3 and 4 are flowcharts of a program used by the controller of FIG. 1,
and are useful in understanding the invention.
FIG. 5 illustrates a display screen suitable for use with an aspect of the
invention.
FIG. 6 illustrates, in block diagram form, apparatus suitable for use with
another aspect of the invention.
DETAILED DESCRIPTION OF THE EMBODIMENTS
The invention will now be described with respect to an embodiment in a
television receiver environment, however, it should be understood that the
invention is equally applicable to radio receivers and videocassette
recorders (VCRs).
Referring to FIG. 1, an antenna 100 receives radio frequency (RF) signals
and applies them to a tuner assembly 102. Tuner assembly 102 selects and
amplifies a particular RF signal under control of a tuner controller 104
which provides bandswitching signals and tuning voltage signals to tuner
assembly 102 via a band switch 106.
Tuner assembly 102 converts the received RF signal to an intermediate
frequency (IF) signal and provides IF output signal to IF amplifier and
detector 108. IF amplifier and detector 108 amplifies the IF signal
applied to its input terminal and detects the video information contained
therein. This detected video information is then applied as one input to a
video multiplexer switch unit 110, the other input of which is connected
to a video input terminal 112.
Tuner controller 104 generates the before-mentioned tuning voltage signals
and bandswitching signals in response to control signals applied from a
system control microcomputer MC 114. Microcomputer 114 receives
user-initiated commands from an infrared (IR) receiver 116 and from a
keyboard 118. Microcomputer 114 includes program member (ROM) (not shown)
and stores channel-related data in a random access memory (RAM) 120. RAM
120 may be of either the volatile or non-volatile type. One skilled in the
art will recognize that if volatile memory is utilized that it may be
desirable to use a suitable form of standby power to preserve its contents
when the receiver is tuned off.
Video multiplexer switch unit 110, under control of system control
microcomputer 114, selects either a video signal derived from a received
RF signal, or a video signal input at terminal 112, for connection to a
video signal processor (not shown).
IR receiver 116 receives IR signals transmitted by, for example, a remote
control handunit such as the one shown in FIG. 2 and designated 200.
Remote control handunit 200 may include keys 202 for entering the digits
0-9, for entering channel up and channel down commands and for turning the
receiver on and off. Remote control handunit 200 may also include a key
204 (labelled ANT) for selecting, as a signal source, either the antenna,
or a video input terminal, via control of multiplexer switch unit 110.
Remote control handunit 200 may also include a key 206 (labelled TIMER), a
key 208 (labelled CLEAR), and a key 320 (labelled SWAP), the operation of
which will be described below. Remote control handunit 200 includes
therein electronic circuitry (not shown) for encoding a signal to be
transmitted by an IR diode 212 in accordance with the particular keys
pressed.
Operation of the apparatus illustrated in FIGURES 1 and 2 will now be
described with reference to FIGS. 3 and 4.
If a viewer is watching a television program on, for example, channel 3,
and the television program is interrupted for a commercial message, the
viewer may avoid receiving the commercial message by pressing timer key
206 of remote control handunit 200, and then tuning other channels in the
usual way.
When system control microcomputer 114 receives IR or keyboard data, it
enters a keycode decoding routine, the relevant portion of which is shown
in the flowchart of FIG. 3. The illustrated portion of the decoding
program first checks (step 300) to see if the received code is the CLEAR
keycode. If the CLEAR key has been pressed, then the timing function will
be terminated, and the receiver will not automatically return to the
stored channel. If the received keycode is not the CLEAR keycode, the
routine next checks (step 310) for the "commercial timer" or TIMER
keycode. If the TIMER keycode is not received, the program is exited (step
315). However, if the TIMER keycode is received, the program determines if
the commercial timer is active (step 320). If not, the current status of
the antenna switch is stored (step 325) (if the receiver is so equipped),
data indicative of the currently tuned station is stored in memory 120,
the commercial timer active flag is set (setup 330), and the timer count
is set to an initial time period of 30 seconds (commercial messages, often
simply referred to as "commercials" are usually presented in multiples of
30 seconds in the U.S.). The time remaining in the count is displayed on
the display screen via an on-screen display (OSD) integrated circuit 335.
Displaying the remaining time on the receiver screen reminds the viewer
that he has selected the timer function, and that at the end of the timer
period, the receiver will automatically return the tuner to the channel
watched when the timer function was initiated, unless the viewer cancels
the timer function by pressing the "clear" key. This feature prevents a
viewer (who may have forgotten that he engaged the timer) from being
surprised when the stored channel is automatically returned upon the
expiration of the timer period.
If during the decoding of the received keycode it is determined that the
keycode is the TIMER keycode and the timer is already active, then the
time period is incremented by 30 seconds (step 340). Because the timer is
already active, and channel data is already stored, it is assumed that the
viewer merely wants to extend the time for viewing the currently tuned
channel Therefore, upon second and subsequent TIMER keypresses, data
relating to the currently tuned channel is not stored. The maximum timer
period may be set to any value by the system designer and programmed into
system ROM. In the illustrated embodiment the maximum time period is 1
hour (step 350). If the timer period is incremented by a viewer beyond 59
minutes, the preferred operation is that the timer "wraps around" to 0
minutes without clearing the seconds (step 360). This operation is
preferred because the viewer has selected the timer function, and
therefore the timer function should be performed. In this case, the timer
function is executed by timing the remaining seconds until 0:00.
Alternatively, incrementing beyond 59 minutes could be treated in the same
way as a CLEAR command. This is not preferred because the viewer, in this
case, has selected the timer function, and has not issued CLEAR command,
but nonetheless, the timer function is terminated.
Of course, the timer period need not be incremented in discrete units of 30
seconds as described above. Alternatively, the timer period may be entered
digit by digit via the numbered keys of remote control handunit 200, after
a initial activation of the TIMER key.
The portion of the program of microcomputer 114 illustrated by the
flowchart of FIG. 4 is entered once each second in response to an
interrupt (which may be derived by a counter (not shown) counting cycles
of the AC line). Upon entering this portion of the program, microcomputer
114 checks to see if the commercial timer is active (step 400). If not,
the routine is exited. If so, a check of time remaining is made (step
405), and if the timer count is not equal to 0 minutes, 0 seconds, the
count is decremented by 1 second (step 410), the remaining time is sent to
the OSD circuit for display (step 415), and the routine is exited (step
420). If the time in the counter is equal to 0 minutes, 0 seconds, then
the channel memory 120 is addressed, and a comparision made (step 425) to
determine if the receiver is currently tuned to the channel which was
tuned when the timer key was pressed. (If the receiver is equipped with a
video multiplexer switch unit 110 for switching between an antenna derived
signal and a baseband video signal, then a check of video multiplexer
switch unit status would also be made.) If the receiver is tuned to the
same channel, then no action need be taken other than to clear the
commercial timer active flag (step 430), and remove the "time remaining"
display from the screen (step 435). If the current channel (or video
multiplexer switch unit status) is different from the stored channel (or
video multiplexer switch unit status) then the commercial tuner active
flag is cleared step 440), the stored channel selected and the video
multiplexer switch unit status, if applicable, is restored (step 445), and
the program exited (step 450).
In another embodiment of the invention, a television system (i.e.
television receiver, VCR, or videodisc player) includes PIX-IN-PIX
(picture-in-picture) capability wherein a secondary television picture,
derived from a different source than the main picture, is displayed in
smaller form and is usually located in an inset in a corner of the
television screen.
FIG. 5 illustrates such a PIX-IN-PIX display on a television screen 500.
The main picture 510 is displayed over the majority of the display screen,
while the secondary picture is displayed in an inset 520 in smaller form.
The positions of the programs displayed as the main picture and secondary
picture may be interchanged by the use of a SWAP key 210 on remote control
handunit 200.
When a commercial message appears in a first program (displayed as the main
picture), a viewer, in accordance with another aspect of this invention,
may start the timer and, by changing channels move the first program to
the inset position, and the newly selected channels to the main position.
In this way, the first program is displayed in the inset position, and the
viewer is free to change the channel displayed in the main screen during
the timer period. The first program will return automatically to the main
display area when the timer period expires. The timer remaining 530 is
displayed on the screen as a reminder to the viewer that the timer is
engaged, and that the original program will be redisplayed in the main
screen at the end of the timer period. Note that the first program is
transferred to the inset position only if a different channel had been
selected. If no different channel is selected, then only a timer function
is enabled, with no video signal switching required. Note that upon
expiration of the timed period, the original program can alternatively be
redisplayed over the entirety of the screen, thus cancelling the
PIX-IN-PIX function.
Although the diagram of FIG. 1 shows a single tuner and a separate video
input, the scope of the invention is intended to encompass signals derived
from multiple tuners, or multiple baseband sources (audio or video) or any
combination thereof, so long as signal selection data relating to a first
signal is stored, a timer is engaged and the stored signal selection data
is used to automatically reselect the first signal when the time period
expires.
In this regard, and in accordance with another aspect of the invention, the
system controller may control more than one kind of signals. For example,
the RCA Dimensia System manufactured by Thomson Consumer Electronics,
Inc., Indianapolis, Indiana, controls, via a common control bus, various
audio and video sources, such as an audio amplifier, an AM/FM stereo
tuner, a compact disc player, and a VCR, in addition to controlling a
video monitor.
If the present invention were incorporated into such a system, then it
would be possible to engage the timer when a television or radio
commercial begins, and via commands on the common control bus, switch to
another signal source such as a CD player to listen to music during the
timer period. The controller would, as described above, return to the
original signal source upon the expiration of time period. Such a system
is illustrated in simplified form in FIG. 6. Similarly numbered elements
in FIGS. 1 and 6 perform similar functions. The elements numbered
600'-612', and 604" provide for alternate selection of audio sources in
similar fashion to alternate selection of images. For example, CD player
612' provides a baseband audio signal, and is thus similar to terminal 612
at which is developed a baseband video signal. Note that in this case, the
"tuning" information stored also includes which device was active when the
timer was engaged.
As shown in FIG. 6 an audio multiplexer switch unit 610' is capable of
selecting television audio signals, radio audio signals, or CD player
audio signals, for further processing by an audio signal processor (not
shown). Thus, during a television commercial message, system control
microcomputer 614 may condition audio multiplexer switch unit 610' to
disconnect the television audio signal and allow the user to substitute,
for the timer period, an audio signal from either the radio or a CD
player. For simplicity, the controller for a VCR is not shown, but it is
to be understood that the video signals developed at terminal 612 may be
provided by a VCR.
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