JPH087746Y2 - Audio mode switching device for multi-channel tuning - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field The present invention is a screen multiplex video tape recorder for multi-channel selection, in which multi-channel selection is performed by setting the audio multiplex mode for each channel. The present invention relates to an audio mode switching method and device for multi-channel channel selection so as to output in the selected audio multiplex mode.

Conventional technology PIP (picture-in-picture) TV is a TV that can output a moving picture or a child picture of a still picture as a part of the mother picture (main picture) as the video signal processing method is digitized.

Such a PIP TV was able to initially output a screen through the tuner on the mother screen and a moving image or a stop screen via a non-broadcasting video source such as a VTR on the child screen. Also, a technology that can replace (swap) the source of the child screen has been developed, and a system that can simultaneously receive two broadcast video sources such as a 2-tuner system has been developed.

In particular, recently, not only over-the-air broadcasting and VTR, but also cable programs such as CATV, teletext or videotex, RGB sources by computer graphics, video signal sources such as video disc players and video cameras, and the characteristics of the signals are also extremely high. The digitalization of video signal processing has been further promoted in order to process such various signals and output the video.

In response to such a tendency, digital tuners that have recently appeared are capable of simultaneously receiving video signals from a plurality of broadcast sources, multiplexing them, and outputting them to output a large number of broadcasts to the screen at the same time. However, it is the so-called multiple PIP (M
-PIP).

As such multiple PIP TV can set multiple sub-screens on the mother screen, it can exhibit various new functions not found on the conventional PIP TV. One of them is a multi-channel search function, which sequentially outputs the video signal output from the digital tuner to each sub-screen, so that the program being broadcast from each broadcast source or the program being output from each video signal source can be displayed. A so-called multi-channel search function capable of searching can be performed.

The multi-channel search method for such multiple PIP TV is
Hi-fi released by Nippon Matsushita Electric Co., Ltd. on December 1, 1986
VTR "NV-D21" (December 1986 issue of Japan Video Saloon magazine)
This is the method used in (see page 139).

In this method, the user first operates the ten keys etc. to input the channel to be searched and stores it, and then
If you press the channel search key, multiple sub-screens will be set on the screen. Inside the system, the video signals for the selected and stored channels will be sequentially written and read in the corresponding memory, and the channels stored in each sub-screen will be read. A multi-channel search was performed by outputting a still image for.

In such a conventional multi-channel search, each channel has an independent audio multiplex mode at the time of channel selection (at the time of screen multiplex broadcasting selection in which one mother screen has many sub-screens). If not, an audio signal is output according to the selected audio mode on the mother screen.

That is, even if each child screen is selected as the mother screen, an audio signal is output according to the selected audio mode of the first mother screen, so that the audio mode is fixed to one even when multi-channel tuning is performed.

Therefore, although the diversification of the screen can be expected due to multiple channels, the diversification of the audio mode due to each channel cannot be expected because the audio mode is fixed to one.

Problem to be Solved by the Invention The purpose of the present invention is to set the audio multiplex mode for each channel when selecting multiple channels so that an independent audio multiplex mode is output for each channel and select the mother screen and subscreen channels. The present invention provides a method and apparatus for switching the audio mode.

Means for Solving the Problems In order to achieve the above object, an audio mode switching device according to the present invention as set forth in claim 1, comprises a mother screen and a plurality of child screens which are overlapped with a part of the mother screen. In a voice mode switching device for multi-channel tuning of a PIP video device that displays, a voice multiple mode setting key for selecting and inputting a voice multiple setting mode, and a voice for at least one of the sub screen and the mother screen. A language selection key for inputting voice mode data indicating a multiplex mode, a memory for storing the voice mode data in a memory location corresponding to at least one of the sub-screen and the mother screen, and a user's audio selection key Depending on your selection, select one of the channels currently displayed as the inset screen to display it as the inset screen. Selection processing means for playing and outputting audio mode data corresponding to the selected channel from the audio mode data selected by the language selection key and stored in the memory, and output by the selection means. Means for outputting an audio signal corresponding to the audio mode data.

The audio mode switching device according to the present invention is the audio mode switching device for multi-channel tuning of a PIP video device, the user writing indicating audio multiplexing mode for each of a plurality of displayed channels. When selecting switching between a microcomputer storing audio mode data and a mother screen channel, an audio multiplex mode selection signal is generated in response to the audio multiplex selection signal generated and input by the microcomputer in response to the audio mode data. And a voice multiplexing module for decoding and outputting a voice multiplexing audio signal corresponding to the voice multiplexing mode selection signal.

Embodiment Hereinafter, the present invention will be described in more detail with reference to the illustrated drawings.

FIG. 1 is a view showing an audio mode switching device according to the present invention, in which a mother screen signal selected by a mother screen selector is Y /
It is applied to the C processing unit 3 and PIP by inputting the playback video signal.
The processing unit 4 is configured to apply the final mother screen signal.

On the other hand, the PIP processing unit 4 is configured to output a small screen signal selected by the small screen selecting unit 2 as a multiple screen (mother screen + small screen) under the control of the microcomputer 8. And
The control signal of the remote controller is amplified by the preamplifier in the remote controller 7 and then applied to the microcomputer 8. The microcomputer 8 is configured so that clocks, data and strobing signals (STB ₁ , STB ₂ ) are applied to the _first and second tuners 9 and 10 used to create multiple channels on one screen. On the other hand, the automatic fine adjustment of the first and second tuners 9 and 10 (AF
T) is applied to the multiplexer 11 to select the AFT of the first and second tuners 9 and 10 as the control signal θ ₂ output from the microcomputer 8.

Moreover, the output signal of the OSD (on-screen display) control section 6 which generates the character signal by applying the clock and data of the microcomputer 8 is applied to the mixer 5 and is output by being superimposed on the screen multiplex signal of the PIP processing section 4. To be configured.

And the voice control terminal (MTS ₂ ) of the microcomputer 8
Connects the collector of the transistor (TR ₁₎ Voice control terminal connected to the base of the resistance to (MTS ₁₎ (R ₁₎ a diode (D ₁₎ and a transistor (TR _1), a
The collector output of the transistor (TR ₁ ) is applied to the audio multiplex module 13 so that the audio multiplex module is
13 is configured to output the voice multiplex mode. That is, by selecting each of the multiple channels, the output of the audio control terminals (MTS ₁ , MTS ₂ ) of the microcomputer 8 changes depending on the audio mode of each channel, which controls the driving of the transistor (TR ₁ ). By doing so, input to the audio multiplexing module 13 at low level, high level, high impedance state,
The voice multiplexing module 13 outputs the native language when the low level is input, outputs the foreign language when the high level is input, and outputs the native language + the foreign language when the impedance is high.

Therefore, in the present invention, the audio multiplex mode output by the audio multiplex module 13 changes depending on the channel selection during multichannel selection.

FIG. 2 is a flow chart of the operation of the audio mode switching circuit according to the present invention, in which the audio multiplex setting mode key is pressed to select the audio multiplex mode of the channel to be stored in the RAM, and then the audio selection key is pressed to store the straw. By outputting the bing stop data, selecting the first tuner 9 on the mother screen, and outputting the output of the audio control terminals (MTS ₁ , MTS ₂ ) stored by the audio multiplex setting mode key, the audio multiplex broadcasting can be performed. To

After performing the above process, the process returns to the second tuner 10 to release the strobing stop state, and to judge the state of pressing the voice multiplex setting mode key. Here, strobing refers to a state in which a moving child screen (moving screen) among the N child screens rotates instead of a stopped child screen (still screen).
The strobing stop means that the moving child screen is in the rotation stop state.

The operation flow chart of the audio mode switching circuit as shown in FIG. 2 is built in the microcomputer 8 shown in FIG. 1 by pressing each mode key to select the audio multiplex mode of each channel, and the audio selection key. Stop the strobing with and select the mother screen. By controlling the output of the audio control terminals (MTS ₁ , MTS ₂ ) selected by the channel and changing the input impedance value of the audio multiplexing module 13, the first selected audio is selected. The multiplex mode is selected.

The operation of the voice mode switching device of the present invention having the above-mentioned structure will be described as follows.

In FIG. 1, the PIP processing unit 4 receives the mother screen signal finally selected by the Y / C processing unit 3 and the child screen signal output from the child screen selecting unit 2 and outputs the clock and serial data of the microcomputer 8. The PIP processing unit 4 considers the normal data input only when the strobe signal is applied to one pulse after the screen multiplexed signal of the mother screen + the child screen is output and serial data is input at this time. It comes to do the operation of.

At this time, the mother screen selector 1 and the subsidiary screen selector 2 select _one of the input signals T ₁ and T ₂ lines by the control signals Q ₀ , Q ₁ , Q ₃ and Q ₄ applied from the microcomputer 8. As a result, the mother screen signal is applied to the Y / C processing unit 3 and is applied to the child screen signal PIP processing unit 4.

When the reproduced video signal is not applied by applying the final mother screen signal to the Y / C processing unit 3 or the final mother screen signal to the PIP processing unit 4, the mother screen signal of the mother screen selecting unit 1 is transferred to the PIP processing unit 4.
When the reproduction video signal is applied, the reproduction video signal is output to the mother screen.

Moreover, in order to configure multiple channels on one screen,
The two tuners 9 and 10 are used, and the channel selected is determined by the clock and serial data applied from the microcomputer 8. At this time, the selection of the first and second tuners 9 and 10 is performed by the strobing signal (STB ₁ , It is determined by the applied state of STB ₂ ). And multiplexer 11, tuners 1, 2 (9, 1
It is used for the AFT of 0), and the AFT of the tuner (9) and the AFT of the tuner 2 (10) are selected by the control signal Q ₂ of the microcomputer 8. Moreover, the remote controller 7 connected to the microcomputer 8 amplifies the control signal of the remote controller and applies it to the microcomputer 8, so that the microcomputer 8 decodes this signal and judges the key press of the remote controller, It is possible to carry out various actions.

That is, the general operation of the microcomputer 8 is controlled by pressing the function key of the remote controller to amplify the signal and apply it to the microcomputer 8. Then, the OSD control unit 6 receives the clock of the microcomputer 8, serial data and strobing signal in order to superimpose the necessary character signal on the output screen of the PIP processing unit 4 and creates the desired character data. Try to stack it on one side of the screen.

That is, in the mixer 5, the screen multiplexed signal of the PIP processing unit 4 and the O
The character signals of the SD controller 6 are overlapped to output a screen multiplex signal for displaying OSD characters.

Audio control terminals MTS ₁ and MTS ₂ of the microcomputer 8 in such a multi-channel channel selection video tape recorder
The output is determined according to the operation flowchart of FIG.

That is, the microcomputer 8 detects the pressing of the voice multiplex setting mode key in step 200, and if it is not pressed, it detects the pressing of the audio selection key which changes the mother screen each time it is pressed. If no button is pressed, the above operation will be repeated. But process 200
If the voice multiple setting mode key is pressed at
The user selects the audio mode of the selected channel by using the language selection key in step 210, and the determined audio mode data is transferred to the RAM corresponding to the selected channel. Stored at 220.

After determining the audio mode of the selected channel through the above process and storing the value, in step 230, when the release key of the audio multiplex setting mode is detected, if the release key is not pressed, the language is selected. With the key, the selected voice mode can be changed, and when the release key is pressed, the pressing of the voice multiplex setting mode key is checked.

Therefore, if the voice multiplex setting mode key is pressed once again, the above-mentioned operation is repeated, and each voice mode state of the multiple channels is stored in the ram corresponding to the selected channel.

If the audio mode of each channel is not selected through the above process, that is, after all the audio modes of each channel are selected, in step 240, the audio selection key is checked to see if the audio selection key is pressed and the mother screen changes only once. If is pressed, the microcomputer 8 outputs strobing stop data in step 250 and causes the first tuner 9 to select the mother screen (step 260).

That is, if the audio selection key is pressed, the strobing stop data is output, and the mother screen is selected by the first tuner 9, the microcomputer 8 determines which channel is selected, and then selects the language selection key. Processed audio mode output through audio control terminals MTS ₁ and MTS ₂ .
It will output at 270.

At this time, the process of selecting the audio multiplex mode of each channel by the output of the terminals MTS ₁ and MTS ₂ for the audio control will be described later.

Thus, if the mother screen audio mode signal selected by the first tuner 9 is output at the audio control terminals MTS ₁ and MTS ₂ , the strobing stop release data is further sent to the second tuner 10 in step 280. Is output to bring the set into a more normal driving state (step 29
0). That is, if the voice mode signal of the mother screen is output,
By outputting the strobing stop release data to the second tuner 10 that selects the sub screen, the multi-channel screen becomes a normal screen state in which the moving screen (moving screen) rotates again.

Therefore, through the above operation flow process, the voice control terminals MTS ₁ and MTS _{2 of the} microcomputer 8 output the mode signals as shown in the table below, and such mode signals drive the transistor (TR ₁ ) and the diode D ₁ . Control to input the logical signal as shown in the table below to the input side of the audio multiplexing module (KA2268N: 13). In the audio multiplexing module 13, this value is input to the final audio multiplexing as shown in the table below. The mode is output.

(L: OV, H: SV, Zi = high impedance) In this way, the present invention is a multi-channel reception method, in which the audio mode state by each channel is preset, and then the audio mode output is output by selecting each channel. By controlling the drive of the transistor TR ₁ and the diode D ₁ , the audio multiplex module 13 outputs the audio signal in the audio multiplex mode preset by each channel selection.

Effect of the Invention The present invention, which operates as described above, can output an audio signal in an independent audio multiplex mode for each channel when selecting multiple channels, so that the audio signal can be enjoyed by the screen contents of each channel. There is an effect that can be.

[Brief description of drawings]

FIG. 1 is a diagram showing an apparatus most suitable for carrying out a voice mode switching method according to the present invention, and FIG. 2 is an operation flowchart of the voice multiple mode switching apparatus shown in FIG. 1 ... Mother screen selection unit, 2 ... Sub screen selection unit, 3 ... Y / C processing unit, 4 ... PIP processing unit, 5 ... Mixer, 6 ... On-screen display control unit, 7 ... Remote control, 8 ... Microcomputer,
9 ... 1st tuner, 10 ... 2nd tuner, 11 ... Multiplexer, 12 ... Audio multiplex mode selection part, 13 ... Audio multiplex module.

Claims (3)

[Scope of utility model registration request] 1. A multi-channel tuning audio mode switching device for a PIP video device, which displays a mother screen and a plurality of child screens overlapping with a part of the mother screen, by selecting an audio multiplex setting mode. A voice multiplex mode setting key for inputting, a language selection key for inputting voice mode data indicating a voice multiplex mode for at least one of the sub-screen and the mother screen, and at least one of the sub-screen and the mother screen A memory for storing the audio mode data in a memory location corresponding to the, and one of the channels currently displayed as a sub-screen is selected as a mother screen according to the user's selection of the audio selection key. The voice mode data stored in the memory selected by the language selection key while being displayed For multi-channel tuning, including selection processing means for outputting the audio mode data corresponding to the selected channel from among the above, and means for outputting an audio signal corresponding to the audio mode data output by the selection processing means. Voice mode switching device. 2. An audio mode switching device for multi-channel tuning of a PIP video device, a microcomputer storing user-written audio mode data indicating an audio multiplex mode for each of a plurality of displayed channels, and a mother screen channel. An audio multiplex mode selection section which generates an audio multiplex mode selection signal in response to the audio multiplex mode selection signal input and generated by the microcomputer in response to the audio multiplex mode data; An audio mode switching device for multi-channel tuning, comprising an audio multiplexing module for decoding and outputting an audio multiplexed audio signal corresponding to a signal. 3. The audio multiplex mode selecting unit changes the impedance value according to an input audio multiplex selection signal, so that the corresponding audio multiplex audio signal can be selected by the audio multiplex module. An audio mode switching device for multi-channel tuning according to item 2.