JP2004088442A - System and device for transmitting sound and video and sound receiver - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sound and video transmission system capable of appropriately reducing deviation between reproduced sound and reproduced video which occurs because a sound signal and a video signal, the reproducing timing of which should be matched, are respectively transmitted in different transmission systems. <P>SOLUTION: In a sound and video transmitting device 1, the video signal is transmitted by radio from a video radio transmitting part 13, and the sound signal is transmitted by a cable from a sound outputting part 18. In such a case, a sound delaying part 17 provided in the sound and video transmitting device 1 makes adjustment by delaying the sound signal so that the phase difference between the transmitted sound signal and video signal can be made small down to a degree that a viewer viewing sound and video reproduced by the signals cannot notice the phase difference. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an audio / video transmission system such as a home theater system, an audio / video transmission device used in the system, and an audio receiving device.
[0002]
[Prior art]
In general, when a home theater system is constructed at home, a plurality of AV devices are required, for example, a video signal is reproduced by a front projector device, and an audio signal is reproduced by a 5.1 channel speaker system. In this case, the video signal and the audio signal are transmitted between the respective AV devices connected by the wired transmission medium.
[0003]
FIG. 14 is a block diagram showing a configuration example of a conventional home theater system (audio / video transmission system). As shown in FIG. 14, this conventional home theater system includes an audio / video transmission device 100 such as an AV switcher, a video display device 200 such as a CRT, an audio amplification device 300 such as a 5.1-channel audio amplifier, and the like. It comprises a speaker 400 and an audio / video generating device 500 such as a DVD (Digital Versatile Disk).
[0004]
As shown in FIG. 14, in the conventional home theater system, the audio / video generation device 500 and the audio / video transmission device 100 are connected by a video wire 601 and a voice wire 602. The audio / video transmission device 100 and the video display device 200 are connected by a video cable 603, and the audio / video transmission device 100 and the audio amplification device 300 are connected to a voice cable 604. Further, the audio amplification device 300 and the speaker 400 are also connected by wire.
[0005]
The video signal from the video signal output unit 501 of the audio / video generation device 500 is supplied to the audio / video transmission device 100 via the video cable 601. The audio / video transmission device 100 receives a video signal from the audio / video generation device 500 through the video input unit 101, and transmits the video signal to the video signal processing unit 102 controlled by the control unit 104 and the video signal through the video transmission unit 103. Output to the wired 603.
[0006]
The video signal from the audio / video transmission device 100 is supplied to the video display device 200 through the video cable 603. In the video display device 200, the video signal from the audio / video generation device 500 is received by receiving the video signal from the audio / video transmission device 100 through the video receiving unit 201 and supplying this to the display 203 through the video drive circuit 202. Is displayed on the display 203.
[0007]
Similarly, the audio signal from the audio signal output unit 502 of the audio / video generation device 500 is supplied to the audio / video transmission device 100 through the audio cable 602. In the audio / video transmission device 100, the audio input unit 105 receives an audio signal from the audio / video generation device 500, and receives the audio signal through the audio signal processing unit 106 controlled by the control unit 104 and the audio transmission unit 107. Output to the wired cable 604.
[0008]
The audio signal from the audio / video transmission device 100 is supplied to the audio amplification device 300 through the audio cable 604. In the audio amplifying device 300, the audio signal from the audio / video generating device 500 is received by receiving the audio signal from the audio / video transmitting device 100 through the audio receiving unit 301 and supplying this to the speaker 400 through the audio driving circuit 302. Is emitted from the speaker 400.
[0009]
In this manner, the video signal from the audio / video generation device 500, and the video and audio corresponding to the audio signal are output through the display 203 and the speaker 400, and the display 203 having a relatively large screen, For example, the multi-channel audio amplification device 300 and the speaker 400 allow the user to enjoy a realistic image and sound.
[0010]
[Problems to be solved by the invention]
By the way, as described above with reference to FIG. 14, in a conventional audio / video transmission system such as a home theater system, video signals and audio signals are reliably and stably transmitted by connecting each AV device with a cable. In addition, the reproduction timing of the video based on the video signal and the reproduction timing of the audio based on the audio signal, which should be originally synchronized with each other, does not shift. That is, there is no phase difference between the video signal and the audio signal in the transmission process, and there is no deviation between the two.
[0011]
However, in this case, there is a problem that it is troublesome to route cables connecting the AV devices. In addition, there is a problem that the aesthetic appearance of the room where the AV equipment is installed is impaired, for example, the routed cable is exposed indoors.
[0012]
In recent years, wireless transmission technology using radio waves has rapidly advanced as a technology for transmitting video signals and audio signals between AV devices. The transfer rates of video signals and audio signals that can be transmitted by wireless transmission have also reached a level at which viewing and listening can be sufficiently enjoyed.
[0013]
Therefore, by using wireless transmission by radio waves as a transmission medium for connecting each AV device, rather than using a cable such as a coaxial cable, the trouble of routing the cable is minimized, and the installation position of each AV device is free. It is conceived to improve the degree and not to impair the aesthetics of the room.
[0014]
However, when wireless transmission is realized in an audio-video transmission system, a memory is provided in a wireless transmission unit and a wireless reception unit in order to reduce a transfer error during wireless transmission and stably transmit a video signal or an audio signal. It is necessary to provide a buffer by Therefore, it takes longer to transmit the video signal or the audio signal than when transmitting the video signal or the audio signal using a wired transmission medium made of a conductor such as copper.
[0015]
For example, in the conventional audio / video transmission system shown in FIG. 14, the transmission medium 601 connecting the audio / video transmission device 100 and the video display device 300 is used as a wireless transmission medium, and the audio / video transmission device 100 and the audio amplification device 300 are used. It is conceivable to transmit the video signal and the audio signal by different transmission methods, for example, by using a wired transmission medium such as a coaxial cable as the transmission medium connecting the two.
[0016]
In this case, each of the video signal and the audio signal is transmitted through two transmission media having different transmission methods, that is, a wireless transmission medium and a wired transmission medium, and in the transmission process of the video signal and the audio signal, , A phase difference occurs between the two.
[0017]
Then, when an image corresponding to the image signal wirelessly transmitted to the image display device 200 is displayed on the display 203, and the sound corresponding to the audio signal transmitted to the audio amplifier device 300 by wire is emitted from the speaker 400, the image The above-described phase difference generated between the signal and the audio signal is recognized by a user (user) of the audio-video transmission system as a so-called lip sync (a shift between the image and the audio) which is a phase difference between the image and the audio. In other words, the user may feel uncomfortable.
[0018]
As described above, in an audio / video transmission system such as a home network system using a plurality of AV devices, if there is a portion where the video signal transmission system and the audio signal transmission system are different, so-called lip sync occurs. There is a need for a solution to this problem.
[0019]
In view of the above, the present invention is based on the fact that the audio signal and the video signal, which provide audio and video to be reproduced with their reproduction timings, are transmitted by different transmission systems. It is an object of the present invention to provide an audio-video transmission system, an audio-video transmission device, and an audio receiving device that can appropriately reduce the difference between the reproduced audio and the reproduced video and that are easy to use for the user and that have high reliability. I do.
[0020]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the audio-video transmission system according to the first aspect of the present invention includes:
An audio-video transmission device for transmitting audio and video signals for providing audio and video to be reproduced at the same reproduction timing by different transmission systems, and the audio transmitted from the audio-video transmission device. An audio-video transmission system including an audio reception device that receives a signal and a video reception device that receives the video signal transmitted from the audio-video transmission device,
The audio-video transmission device,
A delay unit for delaying the audio signal to be transmitted by a predetermined time,
The delay means delays the audio signal by a time determined such that a phase difference between the audio signal and the video signal transmitted from the audio / video transmission device is smaller than a limit detected by a viewer. It is characterized by the following.
[0021]
According to the audio-video transmission system of the first aspect of the present invention, the audio-video transmission apparatus transmits the audio signal and the video signal signal, which are to be processed with their reproduction timings, in different transmission systems. Is to be. In this case, the audio-video transmission is performed so that the phase difference between the transmitted audio signal and the video signal is small enough not to be detected by a viewer watching the audio and video reproduced by these signals. The audio signal is delayed by delay means provided in the device.
[0022]
Thereby, an audio-video transmission system capable of providing a reproduced video and a reproduced audio without reducing a so-called lip-sync in which the reproduced video and the reproduced audio are shifted from each other and without giving a sense of incongruity to a viewer. Can be realized.
[0023]
An audio-video transmission system according to a second aspect of the present invention is the audio-video transmission system according to the first aspect,
The audio-video transmission device,
Transfer rate changing means for changing the transfer rate of the video signal according to a change instruction of the transfer rate of the video signal from a user,
Control means for controlling the delay time of the audio signal in the delay means according to a transfer rate of the video signal;
It is characterized by having.
[0024]
According to the audio-video transmission system according to the second aspect of the present invention, the transfer rate of the video signal can be changed by the transfer rate conversion means in accordance with an instruction from the user. In this case, the delay time of the audio signal in the delay means is controlled by the control means in accordance with the latest transfer rate of the video signal.
[0025]
Thereby, even if the transfer rate of the video signal is released to the user, the delay time (delay amount) of the audio signal in the delay means can always be appropriately adjusted.
[0026]
The audio-video transmission system according to claim 3 is the audio-video transmission system according to claim 1,
The audio-video transmission device,
Transmission status detection means for detecting the state of the transmission environment of the video signal,
Automatic transfer rate changing means for automatically changing the transfer rate of the video signal based on a detection result from the transmission state detecting means,
Automatic control means for controlling the delay time of the video signal in the delay means according to the transfer rate of the video signal
It is characterized by having.
[0027]
According to the audio-video transmission system according to the third aspect of the present invention, the state of the transmission environment between the audio-video transmission device and the video reception device is detected by the transmission status detection means of the audio-video transmission device. The transmission status detecting means transmits, for example, response information from the video receiving apparatus, receives the response information, and receives, for example, an S / N ratio (signal-to-noise ratio) or an error rate (error rate) in the received signal. ) Can be detected.
[0028]
Then, the transfer rate of the video signal is automatically changed according to the detection result from the transmission status detecting means by the automatic transfer rate changing means. Thus, the delay time of the audio signal in the delay means is controlled by the automatic control means according to the transfer rate automatically changed.
[0029]
Thus, even when the transfer rate of the video signal can be automatically adjusted to an appropriate value, the delay time (delay amount) of the audio signal in the delay unit is always set according to the transfer rate. It can be adjusted appropriately.
[0030]
An audio-video transmission system according to a fourth aspect of the present invention is the audio-video transmission system according to the first, second, or third aspect,
The audio-video transmission device,
An adjustment control unit that adjusts the delay time in response to a user's instruction to adjust the delay time of the audio signal in the delay unit is provided.
[0031]
According to the audio-video transmission system according to the fourth aspect of the present invention, the delay time of the audio signal in the delay unit can be adjusted by the adjustment control unit in response to the adjustment instruction from the user. You.
[0032]
Accordingly, even a user who senses a very small phase difference between the audio signal and the video signal sensitively can adjust the phase difference, so that the reproduced audio and the reproduced video can be viewed well. An audio-video transmission system can be provided.
[0033]
The audio-video transmission system according to the invention described in claim 5 is:
An audio-video transmission device for transmitting audio and video signals for providing audio and video to be reproduced at the same reproduction timing by different transmission systems, and the audio transmitted from the audio-video transmission device. An audio-video transmission system including an audio reception device that receives a signal and a video reception device that receives the video signal transmitted from the audio-video transmission device,
The audio receiving device,
A delay unit for delaying the received audio signal by a predetermined time,
The delay unit delays the audio signal by a time determined such that a phase difference between the audio signal and the video signal transmitted from the audio / video transmission device is lower than a limit detected by a viewer. It is characterized by the following.
[0034]
According to the audio-video transmission system of the invention described in claim 5, the audio-video transmission device transmits the audio signal and the video signal signal in different transmission systems. In this case, the audio receiving apparatus is configured to reduce the phase difference between the transmitted audio signal and the video signal to such an extent that the phase difference between the transmitted audio signal and the video signal is not detected by a viewer who views the audio and video reproduced by these signals. The audio signal is delayed by the delay means provided in.
[0035]
Thereby, an audio-video transmission system capable of providing a reproduced video and a reproduced audio without reducing a so-called lip-sync in which the reproduced video and the reproduced audio are shifted from each other and without giving an uncomfortable feeling to a viewer. Can be realized.
[0036]
An audio-video transmission system according to a sixth aspect of the present invention is the audio-video transmission system according to the fifth aspect,
The transfer rate of the video signal from the audio-video transmission device can be changed in response to a change instruction from a user or automatically detecting the state of the transmission environment of the video signal and changing the status. It has been
The audio receiving device,
Control means for receiving a notification of the transfer rate of the video signal transmitted from the audio / video transmission device, and controlling the delay time of the audio signal in the delay means in accordance with the transfer rate of the video signal;
It is characterized by having.
[0037]
According to the audio-video transmission system of the invention described in claim 6, the transfer rate of the video signal can be changed according to an instruction from the user or automatically according to the state of the transmission environment. Have been able to. In this case, upon receiving the notification of the transfer rate of the video signal from the audio-video transmission device, the control unit controls the delay time of the audio signal in the delay unit according to the latest transfer rate of the video signal.
[0038]
Thereby, even if the transfer rate of the video signal is released to the user, the delay time (delay amount) of the audio signal in the delay means can always be appropriately adjusted.
[0039]
An audio-video transmission system according to a seventh aspect of the present invention is the audio-video transmission system according to the fifth or sixth aspect,
The audio receiving device,
An adjustment control unit that adjusts the delay time in response to a user's instruction to adjust the delay time of the audio signal in the delay unit.
[0040]
According to the audio-video transmission system of the present invention, the delay time of the audio signal in the delay means can be adjusted by the adjustment control means in response to the adjustment instruction from the user. You.
[0041]
As a result, for example, even a user who is sensitive to a very small phase difference generated between an audio signal and a video signal can adjust the delay time of the audio signal, and can reproduce well. It is made possible to provide an audio-video transmission system capable of viewing audio and reproduced video.
[0042]
The audio-video transmission system according to the invention of claim 8 is the audio-video transmission system according to claim 1, claim 2, claim 3, claim 4, claim 5, claim 6, or claim 7. A transmission system,
The audio-video transmission device and the video reception device are connected by a radio transmission path using radio waves,
The audio-video transmission device and the audio reception device are connected by a wired transmission path.
[0043]
According to the audio-video transmission system of the present invention, the video signal is transmitted by radio transmission by radio waves, and the audio signal is transmitted by wire transmission. The phase difference with the signal can be reduced by the delay means of the audio signal.
[0044]
Thus, even when the audio signal and the video signal are transmitted using completely different transmission methods, such as wired transmission and radio transmission using radio waves, the delayed audio signal is delayed by the function of the delay unit that delays the audio signal. Audio and video transmission system capable of reducing the phase difference between the video signal and the video signal, and capable of favorably viewing the reproduced audio and the reproduced video.
[0045]
The audio-video transmission system according to the ninth aspect of the present invention is the audio-video transmission system according to the first, second, third, fourth, fifth, sixth or seventh aspects. And
The audio-video transmission device and the audio reception device are connected by a wired transmission line using a digital coaxial signal or an optical signal.
[0046]
According to the audio-video transmission system according to the ninth aspect, the audio signal is transmitted through a digital coaxial signal or a wired transmission line using an optical signal. With the function, a phase difference between the delayed audio signal and the video signal can be reduced, and an audio-video transmission system capable of favorably viewing reproduced audio and reproduced video can be provided.
[0047]
The audio-video transmission system according to the tenth aspect of the present invention is the audio-video transmission system according to the first, second, third, fourth, fifth, sixth or seventh aspects. And
The audio-video transmission device and the audio reception device are connected by a wireless transmission path using infrared rays.
[0048]
According to the audio-video transmission system according to the tenth aspect of the present invention, the audio signal is transmitted through the wireless transmission path using infrared rays. Even in this case, the function of the delay means for delaying the audio signal causes the delayed audio signal to be transmitted. It is possible to provide an audio-video transmission system that can reduce a phase difference with a video signal and can favorably view reproduced audio and reproduced video.
[0049]
An audio-video transmission system according to claim 11 is the audio-video transmission system according to claim 1, 2, 3, 4, 5, 6, or 7. And
The delay means includes:
A digital input terminal for receiving a digital audio interface signal input;
Serial / parallel conversion means for converting the digital audio interface signal from the digital input terminal into a parallel signal;
A memory for temporarily storing a parallel signal from the serial / parallel conversion means;
Parallel / serial conversion means for converting the parallel signal from the memory into a serial signal and restoring an original digital audio interface signal;
First clock signal generation means for generating at least a clock signal to be supplied to the serial / parallel conversion means from the digital audio interface signal from the input end;
With
By controlling the conversion timing between the serial / parallel conversion means and the parallel / serial conversion means, the input audio signal is delayed by a predetermined time.
[0050]
According to the audio / video transmission system of the present invention, the delay means for delaying the audio is provided with a serial / parallel conversion means, a memory, and a parallel / serial conversion means for appropriately delaying the digital audio interface signal. At least the clock signal supplied to the serial / parallel converter is generated by the first clock signal generator based on the digital audio interface signal to be delayed.
[0051]
Accordingly, even when a digital audio interface signal is supplied, it is possible to appropriately delay the digital audio interface signal and reduce a phase difference between an audio signal and a video signal generated due to a different transmission method. An audio-video transmission system can be constructed.
[0052]
The audio-video transmission system according to the twelfth aspect is the audio-video transmission system according to the eleventh aspect,
The first clock signal generation means has a PLL unit of any one of a bit clock PLL system, a word sync PLL system, and a double PLL system using a second PLL.
[0053]
According to the audio-video transmission system of the twelfth aspect of the present invention, the first clock signal generating means is any one of a bit clock PLL system, a word sync PLL system, and a double PLL system using a second PLL. Used and configured.
[0054]
Thereby, a clock signal can be efficiently formed from the digital audio interface signal. Also, which PLL system is used can be selected appropriately from the viewpoint of high quality sound quality or manufacturing cost.
[0055]
The audio-video transmission system according to claim 13 is the audio-video transmission system according to claim 11 or 12,
The delay means includes:
An analog input terminal for receiving an analog audio signal input;
Analog / digital conversion means for converting the analog audio signal from the analog input terminal into a digital audio signal and supplying the digital / audio signal to the serial / parallel conversion means;
Digital / analog conversion means for converting a digital audio signal from the parallel / serial conversion means into an analog signal;
When processing the analog audio signal from the analog input terminal, the analog / digital conversion means, the serial / parallel conversion means, the memory, the parallel / serial conversion means, and the digital / analog conversion means Second clock signal generating means for generating a clock signal to be supplied based on a reference clock signal from an oscillator;
It is characterized by having.
[0056]
According to the audio / video transmission system of the present invention, the delay means for delaying the audio includes the analog / digital conversion means, the digital / analog conversion means, and the second clock generation means. Thus, it is possible to appropriately delay a digital audio signal or an analog audio signal.
[0057]
As a result, a hybrid audio / video transmission system capable of appropriately delaying a digital audio signal even when a digital audio signal is supplied or an analog audio signal is supplied is constructed. Be able to be.
[0058]
The audio-video transmission system according to the invention described in claim 14 is the audio-video transmission system according to claim 1, 2, 3, 4, 5, 6, or 7. And
The delay means includes:
An analog input terminal for receiving an analog audio signal input;
Analog / digital conversion means for converting the analog audio signal from the analog input end into a digital audio signal;
Serial / parallel conversion means for converting the digital audio signal from the analog / digital conversion means into a parallel signal;
A memory for temporarily storing a parallel signal from the serial / parallel conversion means;
Parallel / serial conversion means for converting the parallel signal from the memory into a serial signal and restoring an original digital audio signal;
Digital / analog conversion means for converting a digital audio signal from the parallel / serial conversion means into an analog signal;
When processing the analog audio signal from the analog input terminal, the analog / digital conversion means, the serial / parallel conversion means, the memory, the parallel / serial conversion means, and the digital / analog conversion means Clock signal generating means for generating a clock signal to be supplied based on a reference clock signal from an oscillator;
Characterized by having
According to the audio-video transmission system of the invention described in claim 14, the delay means for delaying the audio converts the analog audio signal into a digital signal, in the same manner as when a digital audio signal is supplied, This can be appropriately delayed.
[0059]
As a result, even if an analog audio signal is supplied, it is possible to construct an audio-video transmission system capable of appropriately delaying the analog audio signal.
[0060]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of an audio-video transmission system, an audio-video transmission device, and an audio receiving device according to the present invention will be described with reference to the drawings. Hereinafter, a case where the audio-video transmission system, the audio-video transmission device, and the audio receiving device according to the present invention are applied to a home theater system constructed at home will be described as an example.
[0061]
[First Embodiment]
[Home theater system configuration]
FIG. 1 is a block diagram for explaining the home theater system according to the first embodiment. As shown in FIG. 1, the home theater system according to the first embodiment includes an audio / video transmission device 1 such as an AV switcher, a video display device 2 such as a CRT or a projector, a 5.1-channel audio amplifier and the like. , A speaker 4 for 5.1 channels, for example, and an audio / video generating device 5 such as a DVD player.
[0062]
As described above, the audio / video generation device 5 is a so-called reproduction device such as a DVD player, and includes a reproduction system that reads a video signal or an audio signal of, for example, a movie from a recording medium and processes these. is there. However, for simplicity of description, details of the reproduction system of the audio / video generation device 5 are omitted here.
[0063]
The audio / video generation device 5 includes a video signal output unit 51 and an audio signal output unit 52 for supplying the video / audio signal read from the recording medium to the audio / video transmission device 1 at the subsequent stage. ing. In the first embodiment, the video signal output unit 51 outputs a digital video signal, and the audio signal output unit 52 outputs a digital audio interface signal.
[0064]
Also, as described above, the audio / video generation device 5 reproduces the movie content and the like with the original reproduction timing synchronized, and reproduces the reproduced audio and the reproduced image without any deviation. An audio signal and a video signal to be output are output.
[0065]
In FIG. 1, the audio / video transmission device 1 receives a video signal and an audio signal from the audio / video generation device 5, and supplies a video signal to be supplied to the video display device 2 and an audio amplification device 3. And audio signals to be supplied to the video display device 2 and the audio amplification device 3 at the subsequent stage.
[0066]
As shown in FIG. 1, the audio / video transmission device 1 includes a video signal processing system including a video input unit 11, a video signal processing unit 12, and a video wireless transmission unit 13, an audio input unit 15, an audio signal processing unit 16, An audio signal processing system including an audio delay unit 17 and an audio output unit 18 is provided. The control unit 14 controls the video signal processing system and the audio signal processing system.
[0067]
The control unit 14 of the audio / video transmission device 1 includes a key operation unit 141 provided with a plurality of operation keys for receiving a key operation input from a user, and a remote control signal such as an infrared remote control signal corresponding to the operation input from the user. Is connected to a remote control signal light receiving section 142 for receiving light.
[0068]
The control unit 14 of the audio / video transmission device 1 can obtain an instruction input from the user through the key operation unit 141 and the remote control signal light receiving unit 142, and can control each unit according to the instruction input. Here, the instruction input from the user is, for example, an instruction input for various adjustments such as an instruction input for turning on / off the power, an instruction input for changing a transfer rate of a video signal transmitted from the video wireless transmission unit 13, and the like. is there.
[0069]
In FIG. 1, a video display device 2 is a device for displaying a video according to a video signal output from the audio / video transmission device 1, and includes a video wireless reception unit 21, a video drive circuit 22, and a display 23. , A control unit 24. The control unit 24 of the video display device 2 includes a key operation unit 241 provided with a plurality of operation keys for receiving a key operation input from a user, and a remote control signal such as an infrared remote control signal corresponding to the operation input from the user. The remote control signal receiving section 242 for receiving light is connected.
[0070]
The control unit 24 of the video display device 2 can obtain an instruction input from the user through the key operation unit 241 and the remote control signal light receiving unit 242, and can control each unit according to the input. Here, the instruction input from the user is, for example, an instruction input for turning on / off the power, an instruction input for various adjustments on the video, and the like.
[0071]
Further, in FIG. 1, the audio amplification device 3 is a portion that processes an audio signal output from the audio / video transmission device 1, and includes an audio reception unit 31, an audio drive circuit 32, and a control unit 33. The control unit 33 of the audio amplification device 3 also has a key operation unit 331 provided with a plurality of operation keys for receiving a key operation input from a user, and receives a remote control signal of, for example, infrared rays according to the operation input from the user. Remote control signal receiving unit 332 to be connected.
[0072]
The control unit 33 of the audio amplification device 3 can obtain an instruction input from the user through the key operation unit 331 and the remote control signal light receiving unit 332, and can control each unit according to the input. Here, the instruction input from the user is, for example, an instruction input for turning on / off the power supply, or an instruction input for various adjustments on sound.
[0073]
Further, as shown in FIG. 1, a speaker 4 is provided at a stage subsequent to the audio amplification device 3. The speaker 4 can receive a sound signal from the sound amplifying device 3 and emit sound corresponding thereto.
[0074]
In the case of the home theater system according to the first embodiment, as shown in FIG. 1, the video signal output unit 51 of the audio / video generation device 5 and the video input unit 11 of the audio / video transmission device 1 The audio signal output unit 52 of the audio / video generation device 5 and the audio input unit 15 of the audio / video transmission device 1 are connected by a wired transmission medium 61.
[0075]
The video wireless transmission unit 13 of the audio / video transmission device 1 and the video wireless reception unit 21 of the video display device 2 are connected via a wireless transmission medium 63 by radio waves. The audio receiver 18 of the audio amplification device 3 is connected to the audio receiver 18 via a wired transmission medium 64.
[0076]
As described above, in the first embodiment, the transmission of the video signal from the audio / video transmission device 1 to the video display device 2 is wirelessly transmitted by radio waves, but the video signal and the audio signal are transmitted in other portions. Is transmitted by wire. In this case, the wireless transmission of the video signal from the audio / video transmission device 1 to the video display device 2 reduces the transfer error as compared with the wired transmission of the audio signal from the audio / video transmission device 1 to the audio amplification device 3. Slows down due to processing.
[0077]
Therefore, in the home theater system according to the first embodiment, an audio delay unit 17 is provided between the audio signal processing unit 16 and the audio output unit 18 of the audio signal processing system of the audio / video transmission device 5. . The audio signal is delayed by the audio delay unit 17 so that the video signal transmitted from the audio / video transmission device 1 to the video display device 2 via the wireless transmission medium 63 and the audio / video transmission device 1 via the wired transmission medium 64 The phase difference between the audio signal transmitted to the audio amplification device 3 and the audio signal is reduced.
[0078]
[Operation of home theater system]
Hereinafter, the operation of the home theater system according to the first embodiment will be described. The video signal from the video signal output unit 51 of the audio / video generation device 5 is supplied to the video input unit 11 of the audio / video transmission device 1 via the wired transmission medium 61. The video input unit 11 receives the supplied video signal and supplies it to the video signal processing unit 12.
[0079]
The video signal processing unit 12 performs various processes on the supplied video signal based on the control from the control unit 14 to form a transmission video signal to be transmitted to the video display device 2. This is supplied to the video wireless transmission unit 13. The video wireless transmission unit 13 is controlled by the control unit 14, forms a video signal in a format to be actually transmitted from the video signal for transmission from the video signal processing unit 12, and transfers the video signal according to the control from the control unit 14. Radio transmission by radio at the rate.
[0080]
The video signal wirelessly transmitted from the video / wireless transmission unit 13 of the audio / video transmission device 1 is received by the video / wireless reception unit 21 of the video display device 2 and converted into a signal of a format that can be processed by the video display device 2. After that, it is supplied to the video drive circuit 22.
[0081]
The video drive circuit 22 supplies the video signal supplied thereto to the display 23 to form a video signal for displaying a video on the display screen of the display. The video signal from the video drive circuit 22 is supplied to the display 23. As a result, a video image corresponding to the video signal from the audio / video generation device 5 is displayed on the display screen of the display 23.
[0082]
On the other hand, the audio signal from the audio signal output unit 52 of the audio / video generation device 5 is supplied to the audio input unit 15 of the audio / video transmission device 1 via the wired transmission medium 62. The audio input unit 15 receives the audio signal supplied thereto and supplies it to the audio signal processing unit 16.
[0083]
The audio signal processing unit 16 performs various processes on the audio signal supplied thereto under the control of the control unit 14, and supplies the processed audio signal to the audio delay unit 17. The audio delay unit 17 delays the audio signal supplied thereto under the control of the control unit 14, and supplies the delayed audio signal to the audio output unit 18. The audio output unit 18 supplies the audio signal supplied thereto to the audio receiving unit 31 of the audio amplifying device 3 through the wired transmission medium 64.
[0084]
The audio receiving unit 31 of the audio amplifying device 3 takes in the audio signal supplied thereto, converts the signal into a format that can be processed by the audio amplifying device 3, and supplies the signal to the audio driving circuit 32. The audio drive circuit 32 forms an audio signal to be supplied to the speaker 4 from the audio signal supplied thereto. The audio signal from the audio drive circuit 32 is supplied to the speaker 4. As a result, a sound corresponding to the sound signal from the sound / video generating device 5 is emitted from the speaker 4.
[0085]
As described above, in the home theater system according to the first embodiment, in the audio / video transmission device 1, the audio signal output from the audio / video transmission device 1 is delayed by the audio delay unit 17. I have. This reduces the phase difference between the video signal wirelessly transmitted by radio waves from the audio / video transmission device 1 to the video display device 2 and the audio signal transmitted by wire from the audio / video transmission device 1 to the audio amplification device 3. By doing so, the so-called lip sync is reduced.
[0086]
That is, the wireless transmission medium 63 and the wired transmission medium 64 have different transmission media types, such as wireless and wired, respectively, and have different transmission systems. Due to this, a relatively large phase difference occurs between the video signal transmitted to the video display device 2, which is originally supposed to be synchronized with the reproduction timing, and the audio signal transmitted to the audio amplification device 3. .
[0087]
However, in the first embodiment, since the audio delay unit 17 of the audio / video transmission device 1 delays the audio signal so as to reduce the above-described phase difference, the audio signal is supplied to the video display device 2. So-called lip sync, in which the phase difference between the video signal and the audio signal supplied to the audio amplifier 3 is reduced, and the reproduction timing of the video displayed on the display 23 and the audio emitted from the speaker 5 is shifted. To prevent the user from feeling discomfort due to lip-sync.
[0088]
Note that the delay time (delay amount) of the audio signal in the audio delay unit 17 can be determined according to the transfer rate of the video signal transmitted from the video wireless transmission unit 13 (the transfer amount of data per unit time). That is, the phase difference between the audio signal and the video signal is suppressed to at least the detection limit, which is the average phase difference between the audio signal and the video signal, at which a person notices the occurrence of lip sync. Specifically, by setting the phase difference between the video signal and the audio signal transmitted from the audio / video transmission device 1 to 50 milliseconds or less, preferably 45 milliseconds or less, the lip sync that can be detected by the viewer can be reduced. Can be reduced.
[0089]
[Configuration example (1) of voice delay unit 17]
Next, in the home theater system shown in FIG. 1, a configuration example of the audio delay unit 17 provided in the audio / video transmission device 1 will be described. FIG. 2 is a block diagram for explaining the audio delay circuit 17 of this example (configuration example (1)).
[0090]
As shown in FIG. 2, the audio delay circuit 17 of this example includes a memory controller 171, an oscillator (abbreviated as OSCillator) 172 in FIG. , A serial / parallel converter (hereinafter abbreviated as an S / P converter) 175, a memory 176, and a parallel / serial converter (hereinafter abbreviated as a P / S converter) 177.
[0091]
The memory controller 171 converts the frequency of the clock signal CLK2 formed by the clock controller 173 and the S / P conversion section of the audio signal supplied to the audio delay section 17 under the control of the control section 14 of the audio / video transmission apparatus 1. It controls the conversion timing of the 175 and the P / S converter 177, the writing of data to the memory 176, and the reading of data from the memory 176.
[0092]
The audio signal processed by the audio signal processing unit 16 shown in FIG. 1 is supplied to the PLL unit 174 of the audio delay unit 17 and the S / P conversion unit 175 as shown in FIG. Here, the audio signal is a digital audio interface signal as described above.
[0093]
Since the digital audio interface signal is a single signal that has been bi-phase mark modulated, the digital audio interface signal can be properly extracted and extracted from the received digital audio interface signal itself in order to process it. Needs to be generated.
[0094]
Here, bi-phase mark modulation will be described. FIG. 3 is a diagram for explaining biphase mark modulation. FIG. 3A shows source data in NRZ (Non Return-to-Zero) code representation, FIG. 3B shows a one-bit clock BCK, and FIG. 3C shows source data in FIG. 3 (B) shows the addition data with BCK, FIG. 3 (D) shows the modulated clock (double bit clock) 2BCK, and FIG. 3 (E) shows the biphase mark signal of FIG. 3 (A).
[0095]
As is apparent from a comparison between the source data before modulation shown in FIG. 3A and the bi-phase mark signal shown in FIG. 3E, the bi-phase mark modulation uses one of the modulation clocks 2BCK. Assuming that the cycle is T (周期 bit clock cycle), a modulation method in which “1” and “0” of the source data are represented by whether the inversion time of the signal “1” or “0” is 1T or 2T. is there. In FIG. 3E, “1” of the source data is represented as 1T, the inversion time of the signal “1” and “0”, and “0” of the source data is represented by “1” and “0” of the signal. Is expressed as 2T.
[0096]
In this bi-phase mark modulation, the total number of signals "1" (high-level period) and "0" (low-level period) is equal, and the DC (direct current) component of the transmission line can be minimized. It can be said that this is a modulation method in which reproduction of a clock signal from a data signal is easy.
[0097]
The portion that generates the clock signal CLK1 used in the S / P converter 175 and the P / S converter 177 from such a bi-phase mark modulated digital audio interface signal is the PLL unit 174 shown in FIG. . The PLL unit 174 can be formed by a bit clock PLL system, a word sync PLL system, or a double PLL system using a second PLL (second PLL).
[0098]
[About the bit clock PLL method]
Here, a configuration example of the above-described bit clock PLL system PLL unit and a configuration example of the word sync PLL system PLL unit will be described. First, a configuration example of the PLL unit of the bit clock PLL system will be described.
[0099]
FIG. 4 is a block diagram for explaining a PLL unit formed by the bit clock PLL method. As shown in FIG. 4, the PLL unit of the bit clock PLL system includes a change point extraction unit 401, a synchronization detection unit 402, a phase comparator 403, an LPF (Low-Pass filter) 404, a VCO (Voltage Controlled Oscillator) 405, A frequency divider (counter) 406 generates a target clock signal from a signal conversion point.
[0100]
In FIG. 4, a demodulation signal 407 for demodulating a digital audio interface signal and a demodulated digital signal are supplied to a signal demodulation unit 407 that receives a modulated clock (double bit clock) 2BCK and a 1-bit clock BCK from a frequency divider 406. An erroneous logic detector 408 for detecting an erroneous logic part from the audio signal, so that the digital audio interface signal can be demodulated and the detection processing of the synchronization detector 402 can be adjusted according to the demodulation result. It was done.
[0101]
In the case of the PLL unit of the bit clock PLL system shown in FIG. 4, the circuit scale is small because the configuration is simple, the manufacturing cost of the PLL unit can be relatively low, and the signal "1" When a PLL is configured at both the transition points "", "0", "0", and "1", the VCO clock can be synchronized with almost the center of both signal transition points, and signal extraction for signal waveform deformation can be performed. There are advantages such as a larger margin.
[0102]
In addition, in order to reduce jitter (fluctuation of the time axis), a double PLL system using a 2nd-PLL having a low time constant including a phase comparator 411, an LPF 412, a VCO 413, and a counter 414 in FIG. 4 may be used.
[0103]
[About word sync PLL system]
Next, a configuration example of a PLL unit of the word sync PLL system will be described. FIG. 5 is a block diagram for explaining a PLL unit formed by the word sync PLL method. As shown in FIG. 4, the PLL unit of the word sync PLL system includes a synchronization detection unit 421, an Fs detection unit 422, a phase comparator 423, an LPF 424, a VCO 425, and a crystal oscillator (in FIG. 5, described as XTAL OSC). 426, a multiplier 427, and a frequency divider (counter) 428, and generates a target clock signal from a synchronization pattern in the signal.
[0104]
5 also includes a signal demodulation unit 430 that receives the supply of the modulation clock (double bit clock) 2BCK and the 1-bit clock BCK from the frequency divider 428 and demodulates the digital audio interface signal. A time axis distortion correction unit 429 for correcting time distortion due to waveform deformation is provided, so that audio signals can be demodulated with high reliability.
[0105]
In the case of the PLL unit of the word sync PLL system shown in FIG. 5, since the PLL is configured based on the trailing edge of the 3T word synchronization signal which is not affected by the modulation signal in the digital audio interface signal, an error occurs. Since no lock occurs and the clock jitter is small, it is possible to prevent the distortion of the 1-bit D / A with a single PLL, and the time constant of the PLL can be reduced, which is advantageous in sound quality. . Although FIG. 5 shows a configuration of a single PLL, a configuration of a double PLL system is also possible.
[0106]
As an example of the configuration of the PLL unit 174, as described above, the case where the bit clock PLL system, the word sync PLL system, or the double PLL system is used has been described. However, the present invention is not limited to these, and it is of course possible to use another PLL system or a double PLL system of another PLL system.
[0107]
Then, as shown in FIG. 2, the PLL unit 174 generates a clock signal CLK1 to be supplied to the S / P conversion unit 175 and the P / S conversion unit 177 from the digital audio interface signal supplied from the audio processing unit 16. Are supplied to the S / P converter 175 and the P / S converter 177.
[0108]
In addition, the clock controller 173 generates a clock signal CLK2 to be supplied to the memory 176 based on a clock signal of a predetermined frequency from the oscillator 172 and supplies the clock signal CLK2 to the memory 176 under the control of the memory controller 171. .
[0109]
The S / P conversion unit 175 converts the supplied digital audio interface signal, which is a serial signal, into a parallel signal according to the clock signal CLK1 from the PLL unit 174 and the control signal S / P from the memory controller 171. Convert.
[0110]
The parallel signal from the S / P converter 175 is written to the memory 176 based on the clock signal CLK2 from the clock controller 173 and the control signal WR from the memory controller 171. The parallel signal written in the memory 176 is read out from the memory 176 based on the clock signal CLK2 from the clock controller 173 and the control signal RD from the memory controller 171 and supplied to the P / S converter 177.
[0111]
The P / S converter 177 converts the parallel signal read from the memory 176 into a serial signal based on the clock signal CLK1 from the PLL unit 174 and the control signal P / S from the memory controller 171. , And supplies the digital audio interface signal to the audio output unit 18 so as to supply the digital audio interface signal to the subsequent audio amplification device 3 through the wired transmission medium 64.
[0112]
In the audio delay unit 17 shown in FIG. 2, while the parallel signal (audio signal) from the S / P conversion unit 175 is recorded in the memory 176, the control unit 14 uses the control signal from the memory controller 171. It is determined by controlling S / P and P / S. The control unit 14 can control the delay time of the audio signal in the audio delay unit 17 according to the transfer rate of the audio signal wirelessly transmitted from the video wireless transmission unit 13.
[0113]
In the case of the audio delay unit 17 having the configuration shown in FIG. 2, the clock signal CLK1 supplied to the S / P conversion unit 175 and the P / S conversion unit 176 is generated by the PLL unit 174 based on the digital audio interface signal. In addition, the clock signal CLK2 supplied to the memory 176 is formed in the clock controller 173.
[0114]
As a result, the processing in the S / P conversion unit 175 and the P / S conversion unit 177 and the writing and reading of data to and from the memory 176 can be performed at appropriate timing, and the digital processing that is the target of the delay processing is performed. The audio interface signal is not degraded, and the sound quality is not degraded.
[0115]
[Configuration example (2) of voice delay unit 17]
Next, in the home theater system shown in FIG. 1, another configuration example of the audio delay unit 17 provided in the audio / video transmission device 1 will be described. FIG. 6 is a block diagram for explaining the audio delay unit 17 of another example (configuration example {circle around (2)}). In the audio delay unit 17 of the other example shown in FIG. 6, the same components as those of the audio delay unit 17 shown in FIG. 2 are denoted by the same reference numerals, and description thereof will be omitted.
[0116]
The audio delay unit 17 of the configuration example (2) shown in FIG. 6 is provided with a clock controller 178 and an oscillator (described as OSC in FIG. 6) 179. The clock controller 178 and the oscillator 179 A clock signal CLK3 to be supplied to the P / S converter 177 is generated.
[0117]
That is, the clock controller 178 generates a clock signal CLK3 to be supplied to the P / S conversion unit 177 based on the clock signal of a predetermined frequency from the oscillator 179 and based on the control of the memory controller 171. / S converter 177.
[0118]
As described above, the clock signal CLK3 to be supplied to the P / S converter 177 is not generated from the digital audio interface signal input in the PLL unit 174 as in the configuration example (1) shown in FIG. , A clock controller 178, and an oscillator 179.
[0119]
As a result, the clock signal CLK3 read from the memory 176 and converted into a serial signal in the P / S converter 177 can be generated and used, so that the jitter is small and the serial signal is small. The digital audio interface signal returned to the original state by being converted into a signal can be reproduced with high quality.
[0120]
Therefore, by using the audio delay unit 17 having the configuration shown in FIG. 6, it is possible to construct a home theater system capable of high-quality audio reproduction.
[0121]
[Example of configuration of voice delay unit 17 [3]]
Next, in the home theater system shown in FIG. 1, another configuration example of the audio delay unit 17 provided in the audio / video transmission device 1 will be described. FIG. 7 is a block diagram for explaining the audio delay unit 17 of another example (configuration example {circle around (3)}). In the audio delay unit 17 of the other example shown in FIG. 7, the same components as those of the audio delay unit 17 shown in FIG. 2 are denoted by the same reference numerals, and description thereof will be omitted.
[0122]
As shown in FIG. 7, the audio delay unit 17 of the configuration example (3) is almost the same as the audio delay unit 17 of the configuration example (1) shown in FIG. Does not include the oscillator 172 that supplies the reference clock signal to The audio delay unit 17 of the configuration example (3) shown in FIG. 7 sends the clock signal CLK1 generated in the PLL unit 174 and supplied to the S / P conversion unit 175 and the P / S conversion unit 177 to the clock controller 172. We also try to supply.
[0123]
The clock controller 172 generates a clock signal CLK2 to be supplied to the memory 176 under the control of the memory controller 171 based on the clock signal CLK1 generated in the PLL unit 174, and supplies the clock signal CLK2 to the memory 176.
[0124]
As described above, the audio delay unit 17 of the configuration example (3) shown in FIG. 7 converts the supplied digital audio interface signal from the supplied digital audio interface signal to the S / P converter 175 and the P / S converter without using the oscillator (OSC). A clock signal CLK1 to be supplied to the memory 176 is generated while using the clock signal CLK1 to be supplied to the memory 177 as a reference signal.
[0125]
Therefore, the configuration of the audio delay unit 17 can be made simpler, and an inexpensive audio delay unit 17 can be realized. In addition, since each of the clock signals CLK1 and CLK2 supplied to the S / P converter 175, the P / S converter 177, and the memory 176 is formed from a digital audio interface signal, the delay processing of the digital audio interface signal which is an audio signal is performed. In the process, the digital audio interface signal does not deteriorate significantly.
[0126]
As described above, in the home theater system according to the first embodiment, the video signal from the audio / video transmission device 1 is transmitted to the video display device 2 through the wireless transmission medium 63, and the video signal from the audio / video transmission device 1 is transmitted. The audio signal reduces the phase difference between the video signal and the audio signal caused by being transmitted to the audio amplifying device 3 through the wired transmission medium 64, so that the so-called lip sync is not noticeable. An audio delay circuit 17 is provided in an audio signal processing system of an audio / video transmission device.
[0127]
In order to keep the sound quality of the reproduced sound relatively high, the sound delay unit 17 of the configuration example (1) configured as shown in FIG. 2 can be used to improve the sound quality of the reproduced sound. In order to achieve the highest possible quality, the audio delay unit 17 of the configuration example (2) configured as shown in FIG. 6 is used.
[0128]
The demand for high-quality reproduced audio is not high, and when constructing a home theater system that is as inexpensive as possible, the audio delay unit 17 of the configuration example (3) configured as shown in FIG. 7 should be used. To Thus, by changing the configuration of the audio delay unit 17, it is possible to construct an audio / video transmission system according to the purpose.
[0129]
Further, even in the audio delay unit 17 having the same configuration, by changing the PLL system of the PLL unit 174, the cost of the PLL unit 174 and the degree of high-quality reproduced audio can be changed.
[0130]
For example, if the quality of the reproduced sound is required to be at a certain level and the cost of the sound delay unit 17 is desired to be lower, the PLL unit 174 is provided with the bit clock PLL system shown in FIG. The single PLL method is used. In order to improve the sound quality as much as possible, the double PLL system of the bit clock PLL system shown in FIG. 4, the single PLL system of the word sync PLL system shown in FIG. 5, and the double PLL system are used. Use it.
[0131]
As described above, the audio delay unit 17 and the PLL unit 174 having the optimal configurations are selected from the viewpoint of the manufacturing cost of the audio delay unit 17 and the enhancement of the quality of the reproduced audio. The home theater system can be constructed in consideration of the degree of production and the manufacturing cost.
[0132]
[Modification of First Embodiment]
In the home theater system according to the first embodiment shown in FIG. 1, the audio delay unit 17 is provided between the audio processing unit 16 and the audio output unit 18 in the audio / video transmission device 1 such as an AV switcher. did. However, the position where the audio delay unit 17 is provided is not limited to this, and can be provided at various positions as described below.
[0133]
[Modification 1]
FIG. 8 is a block diagram illustrating a first modification of the home theater system according to the first embodiment. 8, the same components as those of the home theater system shown in FIG. 1 are denoted by the same reference numerals, and a detailed description thereof will be omitted.
[0134]
As can be seen by comparing the home theater system of the first modification shown in FIG. 8 with the home theater system shown in FIG. 1, the home theater system of the first modification shown in FIG. 1 is different from the home theater system shown in FIG. 1 in that an audio delay unit 17 is provided.
[0135]
That is, as shown in FIG. 1, the delay processing of the audio signal is performed not only after the audio signal is transmitted to the audio amplifier 2 but also before the audio signal processor 16 transmits the audio signal to the audio amplifier 2. This may be performed on the audio signal before the format is changed.
[0136]
[Modification 2]
FIG. 9 is a block diagram illustrating a second modification of the home theater system according to the first embodiment. 9, the same components as those of the home theater system shown in FIG. 1 are denoted by the same reference numerals, and a detailed description thereof will be omitted.
[0137]
The home theater system of the second modification shown in FIG. 9 is roughly divided into the audio / video generation device 5 such as a DVD player and the audio / video transmission device such as an AV switcher, similarly to the home theater system shown in FIG. 8, a video display device 2 such as a CRT or a projector, an audio amplification device 9 such as a 5.1-channel audio amplifier, and a speaker 4.
[0138]
However, the audio / video transmission device 8 and the audio amplification device 9 of the modification 2 shown in FIG. 9 are different in configuration from the audio / video transmission device 1 and the audio amplification device 3 of the home theater system shown in FIG. Things.
[0139]
That is, the audio / video transmission device 8 of the modification 2 shown in FIG. 9 is different from the audio / video transmission device 1 shown in FIG. The audio amplifying device 9 of the second modification shown in FIG. 9 is different from the audio amplifying device 3 shown in FIG. 1 in that an audio delay unit 91 is provided between the audio receiving unit 31 and the audio driving circuit 32. Are different.
[0140]
That is, in the case of the second modification, the audio signal delay processing is performed in the audio amplifier 9 by providing the audio delay unit 91 in the audio amplifier 9. In this case, the audio delay unit 91 of the audio amplification device 9 can be configured in the same manner as the audio delay unit 17 described with reference to FIGS.
[0141]
Also in this case, the delay time of the audio signal is adjusted by controlling the audio delay unit 91 by the control unit 33 of the audio amplification device 9 as in the case of the control unit 14 of the audio / video transmission device 1 described above. It is possible.
[0142]
In the case of the home theater system shown in FIG. 9, the control unit 33 of the audio amplification device 9 sends the transfer rate of the video signal transmitted from the video wireless transmission unit 13 from the control unit 14 of the audio / video transmission device 8. By obtaining such information, the delay time of the audio signal can be controlled according to the information.
[0143]
The control unit 33 adjusts the delay time (delay amount) of the audio signal in the audio delay unit 91 in accordance with an instruction input from the user obtained through the key operation unit 331 or the remote control signal receiving unit 332. It is also possible to
[0144]
[Modification 3]
FIG. 10 is a block diagram illustrating a third modification of the home theater system according to the first embodiment. As shown in FIG. 10, in the case of the third modification, the audio / video transmission device 10 does not exist independently of the audio / video generation device but has a format in which the audio / video generation device and the audio / video transmission device are combined. Is used.
[0145]
That is, the audio / video transmission device 10 shown in FIG. 10 has a reproduction function of an audio signal and a video signal realized by the video generation unit 10V and the audio generation unit 10A, and a wireless transmission function of the video signal to the video display device 2. And a playback device such as a DVD player, which has a function of wired transmission to the audio amplification device 3. In FIG. 10, the same components as those of the home theater system shown in FIG. 1 are denoted by the same reference numerals, and a detailed description thereof will be omitted.
[0146]
As shown in FIG. 10, in the home theater system including the audio / video transmission device 10, the video display device 2, the audio amplification device 3, and the speaker 4, the audio / video transmission device 10 includes the audio delay unit 17. Thus, the audio signal is delayed, the phase difference between the video signal transmitted wirelessly and the audio signal transmitted via wire is reduced, and the so-called lip sync can be made inconspicuous.
[0147]
Of course, the audio delay unit 17 may be provided after the audio signal processing unit 16 as shown in FIG. 10, or the audio delay unit 17 may be provided before the audio signal processing unit 16 to delay the audio signal. You may do so. Further, the audio / video transmission device 10 may not include the audio delay unit 17 and use the audio amplification device 9 having the audio delay unit 91 shown in FIG. 9 instead of the audio amplification device 3. It is possible.
[0148]
As described with reference to FIGS. 1 and 8 to 10, the audio / video transmission devices 1, 8, and 10 having the audio delay unit 17 and the audio amplifying device 9 having the audio delay unit 91 are appropriately The audio delay unit 17 or the audio delay unit 91 is provided at the position of to reduce the phase difference between the video signal transmitted by radio and the audio signal transmitted by wire, which should be originally synchronized with the reproduction timing, to reduce the lip. Makes sink inconspicuous.
[0149]
Thereby, the lip sync between the reproduced video and the reproduced audio of the content is reduced through the image display device, the audio amplifying device, and the speaker, so that the reproduced video and the reproduced audio can be used without discomfort. You.
[0150]
Further, as described above, the delay time (delay amount) of the audio delay units 17 and 91 is set to an appropriate delay time according to the transfer rate from the audio / video transmission devices 1 and 10 to the video display device 2, for example. The phase difference between the video signal wirelessly transmitted and the audio signal transmitted by wire is less than the detection limit of the so-called lip-sync, specifically, 50 milliseconds or less, preferably 45 milliseconds or less. I have to.
[0151]
It is also conceivable that the user of the home theater system manually changes the transfer rate of the video signal transmitted from the audio / video transmission devices 1, 7, 8, and 10, for example. For example, depending on the number of floors (basement, first floor, second floor, third floor,...) Of the room in which the home theater system is formed, the installation environment of the home theater system, time of use, and the like, there are few interference waves and the like, and the video signal can be comparatively good. There are cases where wireless transmission is possible and cases where transmission errors are likely to occur due to a large amount of interference waves.
[0152]
For this reason, for example, in a time zone where there is little interference wave from midnight to 5:00 a.m., the video signal is transmitted at a high transfer rate, and the video signal is relatively transmitted from 5:00 a.m. to 12:00 noon (noon). In a time zone where there are few interfering waves, the video signal is transmitted at a medium transfer rate, and after noon until midnight at midnight, there are relatively many interfering waves etc. In some cases, it is desired to change the transfer rate of the video signal.
[0153]
Therefore, the user transmits the video signal through the remote controller that transmits the remote control signal received by the key operation unit 141 and the remote control signal receiving unit 142 of the audio / video transmission devices 1, 7, 8, and 10 of each home theater system described above. Be prepared to change rates.
[0154]
Then, the control unit 14 of the audio / video transmission device 1, 7, 8, 10 controls the audio delay unit 17 according to the latest transfer rate of the video signal, and always delays the audio signal by an appropriate time. You can do so.
[0155]
The transfer rate of the video signal is changed, for example, by changing the key operation units 141 and 331 of the audio / video transmission device 1 and the audio amplification device 9 provided with the audio delay units 17 and 91 or the remote control signal receiving units 142 and 332. Through a remote controller that transmits a remote control signal received by the user.
[0156]
Of course, it can be performed through a device that does not have an audio delay unit, such as a key operation unit 242 of the video display device 2 or a remote control that transmits a remote control signal received by the remote control signal receiving unit 242, and displays the video. The data may be transmitted from the device 2 to the audio / video transmission devices 1, 7, 8, 10 and the audio amplification device 9 by wireless or wire.
[0157]
The transfer rate can be changed in a plurality of predetermined steps such as 5 Mbps, 7 Mbps, 9 Mbps, 10 Mbps, or the like, or can be changed to any value from 5 Mbps to 10 Mbps. It is possible. Of course, this is only an example, and it can be changed to another value.
[0158]
It is also conceivable to automatically change the transfer rate of a video signal transmitted from an audio / video transmission device to a transfer rate that is considered to be the best without the intervention of a user. .
[0159]
For example, in the audio / video transmission devices 1, 7, 8, and 10, according to the state of the transmission environment (for example, radio wave condition) of the video signal, for example, when the transmission environment is good, the transfer rate of the video signal is increased, When the transmission environment is poor, the transfer rate can be automatically changed, such as lowering the transfer rate.
[0160]
In this case, for example, the video wireless receiving unit 21 of the video display device 2 has not only a function of simply receiving a video signal, but also the video wireless transmitting unit 13 of the audio / video transmitting devices 1, 7, 8, and 10. In response to the control signal from the communication device, a response signal corresponding to the control signal and various notification signals to the audio / video transmission devices 1, 7, 8, and 10 can be returned.
[0161]
In addition, the video wireless transmission units 13 of the audio / video transmission devices 1, 7, 8, and 10 not only transmit video signals but also receive response signals and notification signals from the video display device 2 and send these signals to the control unit. 14 to enable control according to this, and detect the S / N ratio and error rate of the received response signal and notification signal from the video display device 2 as information indicating the status of the transmission environment. It can be so.
[0162]
By notifying the control unit 14 of the detection result in the video wireless transmission unit 13, when the S / N ratio is low and the error rate is high, the transfer rate is suppressed low, and conversely, the S / N ratio is good. When the error rate is low, the control unit 14 controls the video processing unit 12 to increase the transfer rate, so that the video signal can be transmitted at the optimal transfer rate according to the situation of the transmission environment. To be.
[0163]
Then, as described above, the control unit 14 controls the audio delay unit 17 in accordance with the transfer rate of the video signal automatically changed, and also controls the audio / video transmission device 8 to transmit the audio amplification device 9. By providing the information about the transfer rate to the control unit 33, the control unit 33 of the audio amplifying device 9 controls the audio delay unit 91, and thereby, according to the transfer rate of the video signal automatically changed, The audio signal can be delayed by an appropriate amount of time.
[0164]
Further, as described above, in addition to automatically controlling the delay time of the audio signal in the audio delay units 17 and 91 in accordance with the transfer rate of the video signal from the audio / video transmission device, the user manually operates the audio delay unit. The delay time of the audio signal in 17, 17 may be adjustable.
[0165]
In this way, by allowing the user to manually adjust the delay time, even a user who is sensitively aware of a slight deviation between the reproduced image and the reproduced sound is not concerned about it. Be able to adjust.
[0166]
The instruction for adjusting the delay time of the audio signal by the user is, for example, the key operation of the audio / video transmission device 1 or the audio amplification device 9 provided with the audio delay units 17 and 91 as in the case of changing the transfer rate. This is performed through the remote controller that transmits the remote control signal received by the remote control signal receiving units 142 and 332 or the remote control signal receiving units 142 and 332, and the control units 14 and 33 control the audio delay units 17 and 91 accordingly. Just fine.
[0167]
Of course, it can be performed through a device without the audio delay units 17 and 91, for example, a remote controller that transmits a remote control signal received by the key operation unit 242 or the remote control signal light receiving unit 242 of the video display device 2. It is also possible to perform transmission by wireless or wire from the video display device 2 to the audio / video transmission devices 1, 7, 8, 10 and the audio amplification device 9.
[0168]
That is, at least between the audio / video transmission devices 1, 7, 8, 10 and the video display device 2 and between the audio / video transmission devices 1, 7, 8, 10 and the audio amplification devices 3, 9 Not only is the video signal or audio signal transmitted in one direction, but also, for example, the video wireless transmission unit 12 of the audio / video transmission device transmits control signals from the video display device 2 and the audio amplification devices 3 and 9, Information and various notification signals are received and taken in, and the control unit 14 can be notified of them.
[0169]
The video wireless receiving unit 21 of the video display device 2 and the voice receiving unit 31 of the audio amplifying devices 3 and 9 transmit control signals, response information, and various notification signals to the audio / video transmitting devices 1, 7, 8, and 10. Keep it. By doing so, mutual control can be performed between the devices.
[0170]
[Second embodiment]
In the above-described first embodiment, an example has been described in which the audio signal to be processed is a digital audio signal (digital audio interface signal). However, the audio signal to be processed is not limited to a digital audio signal. That is, a home theater system that processes analog audio signals may be constructed.
[0171]
Thus, in the second embodiment described below, an example in which the present invention is applied to a home theater system capable of processing an analog audio signal will be described. Even though the home theater system processes analog audio signals, the configuration of the home theater system according to the first embodiment shown in FIGS. 1, 8, 9 and 10 does not change significantly, and The signal to be processed is an analog signal, and each of these parts is for an analog signal.
[0172]
For example, in the home theater system configured as shown in FIG. 1, at least one of the video signal and the audio signal transmitted from the audio / video generation device 5 to the audio / video transmission device 1 through the wired transmission media 61 and 62. The audio signal is an analog audio signal. From the audio / video transmission device 1, the video signal is transmitted wirelessly by radio waves, but the audio signal is transmitted by wire, and the transmitted video signal and the transmitted audio signal are transmitted. A case will be described in which the audio delay unit 17 delays the audio signal in order to reduce the phase difference generated between them.
[0173]
In this case, assuming that the audio delay unit 17 receives an analog audio signal and outputs an analog audio signal, the audio delay unit 17 can be configured as shown in FIG. The same reference numerals are given to the same components as those of the audio delay unit shown in FIG. 11 and the audio delay unit 17 of the first embodiment shown in FIG. 2, and detailed description thereof will be omitted.
[0174]
As shown in FIG. 11, the audio delay unit 17 according to the second embodiment includes an oscillator 191, a clock controller 192, an A / D converter 193, and a D / A converter 194. The clock controller 192, based on the reference clock signal CLK from the OSC 191, controls the clock signal CLK4 to be supplied to the A / D conversion unit 193 and the D / A conversion unit 194, under the control of the memory controller 171. A clock signal CLK5 to be supplied to the unit 175, a clock signal CLK6 to be supplied to the memory 176, and a clock signal CLK7 to be supplied to the P / S conversion unit 177 are generated and supplied to each unit.
[0175]
The A / D converter 193 converts the supplied analog audio signal into a digital audio signal (serial signal) according to the clock signal CLK4, and supplies the converted digital audio signal to the S / P converter 175. . The S / P converter 175 converts the digital audio signal supplied thereto into a parallel signal in accordance with the clock signal CLK5 and the control signal S / P from the memory controller 171 and converts the digital audio signal thus converted into a parallel signal. Output.
[0176]
The digital audio signal of the barrel signal output from the S / P conversion unit is written into the memory 176 according to the clock signal CLK6 and the control signal WR from the memory controller 173, and is also written into the clock signal CLK6 and the memory controller 173. The data is read from the memory 176 according to the control signal RD and supplied to the P / S converter 177.
[0177]
The P / S converter 177 converts the parallel digital audio signal from the memory 176 into a serial signal based on the clock signal CLK7 and the control signal P / S from the memory controller 171 and performs D / A conversion. To the unit 194. The D / A converter 194 converts the supplied digital signal into an analog audio signal in accordance with the clock signal CLK4, outputs the analog audio signal, and supplies the analog audio signal to a subsequent circuit portion.
[0178]
As described above, by using the oscillator 191 and the clock controller 192 to form the clock signals CLK4 to CLK7 to be supplied to each part for processing the audio signal, and using the clock signals CLK4 to CLK7, even if the signal is an analog audio signal. The delay can be delayed by a delay time corresponding to the video signal transmitted wirelessly.
[0179]
In this case, the delay time can be adjusted by controlling the control signals S / P and P / S from the memory controller 171. The memory controller 171 is controlled by the control unit 14 in the same manner as in the first embodiment, and the control unit 14 controls the analog audio signal in accordance with the transfer rate of the video signal. Control the delay time.
[0180]
In this way, even if the audio signal to be processed is an analog audio signal, the analog audio signal is delayed according to the transfer rate of the video signal transmitted wirelessly, and the video signal after asexual transmission and the And the lip sync can be reduced.
[0181]
In the second embodiment, the common clock signal CLK4 is used by the A / D converter 193 and the D / A converter 194, but the present invention is not limited to this. The A / D converter 193 and the D / A converter 194 may each use a dedicated clock signal. Conversely, the S / P converter 175 and the P / S converter 177 each use a dedicated clock signal, but the S / P converter 175 and the P / S converter 177 use a common clock signal. A signal may be used.
[0182]
In the second embodiment, the audio delay unit 17 shown in FIG. 11 outputs an analog audio signal. However, the present invention is not limited to this. Alternatively, the signal may be converted into an analog signal at the supply destination.
[0183]
[Third Embodiment]
By the way, an audio / video transmission device that wirelessly transmits a video signal and transmits an audio signal by wire, and that can handle only a digital signal can be configured as described in the first embodiment. , An analog signal only can be configured as described in the second embodiment. It is also desired to provide a so-called hybrid audio / video transmission device that can handle both digital signals and analog signals.
[0184]
Therefore, in the third embodiment, an example in which the present invention is applied to a home theater system capable of processing both a digital signal and an analog signal will be described.
[0185]
Speaking of a home theater system that processes both digital audio signals and analog audio signals, the home theater system of the first embodiment shown in FIGS. 1, 8, 9, and 10 and the configuration thereof are large. There is no change, and each unit is configured to be able to process both digital signals and analog signals.
[0186]
In this case, an analog signal is converted into a digital signal and processed, or a digital signal processing system and an analog signal processing system are provided for processing.
[0187]
Then, in order to reduce a phase difference generated between the wirelessly transmitted video signal and the wiredly transmitted audio signal, which should be originally synchronized with each other, the audio signal is delayed as described above. However, in the third embodiment, the audio delay unit 17 is also configured as a so-called hybrid that can process either a digital audio signal or an analog audio signal.
[0188]
FIG. 12 shows an audio delay unit which can process both a digital audio signal and an analog audio signal and which is used in a home theater system configured as shown in FIGS. 1, 8, 9 and 10. 17 is a block diagram for describing a configuration example of No. 17. FIG. In the audio delay unit shown in FIG. 12, the same components as those of the audio delay unit shown in FIGS. 2, 6, and 7 are denoted by the same reference numerals, and description thereof will be omitted.
[0189]
The audio delay unit 17 used in the home theater system according to the third embodiment has two input terminals for a digital audio signal and an analog audio signal, as shown in FIG. And two output terminals. Here, the input digital audio signal and the output digital audio signal are digital audio interface signals as in the case of the above-described first embodiment.
[0190]
Then, when both the digital audio signal and the analog audio signal are input, the audio delay unit 17 of the third embodiment preferentially processes the digital audio signal which is the digital audio interface signal. Things. Hereinafter, the configuration and operation of the audio delay unit 17 according to the third embodiment will be described with reference to FIG.
[0191]
As shown in FIG. 12, the audio delay unit 17 according to the third embodiment includes a memory controller 171, a PLL unit 174, an S / P converter 175, a delay memory 176, a P / S converter 177, It includes a / D converter 193, a D / A converter 194, a clock controller 195, a PLL lock detection circuit 196, an oscillator 197, and switch circuits SW1, SW2, and SW3.
[0192]
Each of the switch circuits SW1, SW2, and SW3 is switched according to whether the audio signal to be processed is a digital audio signal or an analog audio signal. The PLL unit 174 generates a reference clock signal CLK1 when processing a digital audio signal, and the oscillator 197 generates a reference clock signal CLK2 when processing an analog audio signal. .
[0193]
The clock controller 195 generates clock signals CLK4, CLK5, CLK6, and CLK7 to be supplied to each unit based on the reference clock signal CLK1 or clock signal CLK2. Further, the PLL lock detection circuit 196 is for detecting whether or not the PLL unit 174 is locked, so that it can be determined whether or not a digital audio signal has been input.
[0194]
Then, the digital audio signal, which is a digital audio interface signal, is supplied to the PLL unit 174 and the input terminal a of the switch circuit SW2, and the analog audio signal is supplied to the A / D conversion unit 193.
[0195]
As described in the first embodiment, the PLL unit 174 is configured by a single PLL system or a double PLL system of a bit clock PLL system or a word sync PLL system, or another PLL system. The PLL unit 174 is locked when a digital audio signal which is a digital audio interface signal is input, and is unlocked when there is no digital audio signal input.
[0196]
The PLL lock detection circuit 196 detects whether the PLL unit 174 is in the locked state or the unlocked state, and notifies the control unit 14 of the detection result. Thereby, the control unit 14 detects whether the PLL unit is in the locked state or the unlocked state via the PLL lock detection circuit 196, and determines whether the digital audio signal is input in response to the detection. It is possible to determine.
[0197]
When the control unit 14 determines that a digital audio signal has been input based on the detection result from the PLL lock detection circuit 196, the control unit 14 switches the switch circuits SW1 and SW2 to the input terminal a and switches the switch circuit SW3 to the output terminal a. Switch to the side. As a result, the audio delay section 17 processes the digital audio signal.
[0198]
As described above, when the switch circuit SW1 is switched to the input terminal a side, the clock signal CLK1 from the PLL unit 174 is supplied to the clock controller 195 as the reference clock signal CLK3.
[0199]
The clock controller 195 controls the clock signal CLK5 to the S / P converter 175, the clock signal CLK6 to the memory 176, and the P / S converter based on the reference clock signal CLK3 from the switch circuit SW1 and according to the control from the memory controller. A clock signal CLK7 to 177 is generated and supplied to each unit as shown in FIG.
[0200]
In this case, since the switch circuit SW2 is switched to the input terminal a and the switch circuit SW3 is switched to the output terminal a, the digital audio signal is supplied to the S / P converter 175.
[0201]
Then, as described in the first embodiment, the digital audio signal is converted to a parallel signal by the S / P converter 175, written into the memory 176, temporarily recorded, and then read from the memory 176. The signal is output to the P / S converter 177 and returned to the original serial signal (digital audio interface signal), which is output to the subsequent circuit through the output terminal a of the switch circuit SW3.
[0202]
At this time, the conversion speed in the S / P conversion unit 175 and the conversion speed in the P / S conversion unit are controlled by the control signals S / P and P / S from the memory controller 171, and the parallel signals are stored in the memory 176. The recording time is controlled so that the digital audio signal is delayed by a predetermined delay time. As described above, this delay time is processed in the video signal processing system in parallel with the processing of the audio signal, and can be controlled by the control unit 14 according to the transfer rate of the video signal wirelessly transmitted. I have to.
[0203]
When the control unit 14 determines that the digital audio signal is not input based on the detection result from the PLL lock detection circuit 196, the control unit 14 switches the switch circuits SW1 and SW2 to the input terminal b side, and switches the switch circuits SW3 and SW3. Is switched to the output terminal b side. Thus, the audio delay unit 17 processes the analog audio signal.
[0204]
In this way, when the switch circuit SW1 is switched to the input terminal b side, the clock signal CLK2 from the oscillator 197 is supplied to the clock controller 195 as the reference clock signal CLK3.
[0205]
The clock controller 195, based on the reference clock signal CLK3 from the switch circuit SW1, controls the clock signal CLK4 to the A / D converter 193 and the D / A converter 194 and the S / P converter 175 in accordance with the control from the memory controller. A clock signal CLK5 to the memory 176, a clock signal CLK6 to the memory 176, and a clock signal CLK7 to the P / S converter 177 are generated and supplied to each unit as shown in FIG.
[0206]
In this case, since the switch circuit SW2 is switched to the input terminal a and the switch circuit SW3 is switched to the output terminal a, the A / D converter 193 converts the analog audio signal into a digital signal based on the clock signal CLK4. Is supplied to the S / P converter 175 through the switch circuit SW2.
[0207]
Then, as described above, the audio signal converted from the analog audio signal into the digital serial signal passes through the S / P converter 175, the memory 176, and the P / S converter 177, and the control signal S / After being delayed by a predetermined delay time by P and P / S, the signal is supplied to the D / A converter 194 through the output terminal b of the switch circuit SW3, where it is converted to the original analog audio signal based on the clock signal CLK4. After being converted, it is output to a subsequent circuit.
[0208]
In the case of the audio delay unit 17 of the third embodiment shown in FIG. 12, a clock signal CLK7 to be supplied to the P / S conversion unit 177 is generated, similarly to the audio delay unit shown in FIG. An oscillator and a clock controller are provided to reduce the jitter, which is the fluctuation of the time axis of the audio signal, so that an audio delay unit that realizes high-quality sound can be configured.
[0209]
Further, when the input analog audio signal is converted into a digital signal and delayed according to a circuit portion or a device provided at a subsequent stage of the audio delay unit 17 shown in FIG. Of course, it may be configured to output the digital signal converted as is.
[0210]
[Another Example of Third Embodiment]
FIG. 13 is a block diagram for explaining another example of the audio delay unit 17 used in the third embodiment. In the audio delay unit shown in FIG. 13, the same components as those of the audio delay unit shown in FIG. 12 are denoted by the same reference numerals, and description thereof will be omitted.
[0211]
As shown in FIG. 13, the audio delay circuit 17 of this example does not include the switch circuit SW1, and the clock signal CLK1 from the PLL unit 174 and the clock signal CLK2 from the oscillator 197 are both clocked. It is configured to be supplied to the controller 198.
[0212]
The clock controller 198 includes a clock signal CLK4 to the A / D converter 193 and the D / A converter 194, a clock signal CLK5 to the S / P converter 175, and a memory 176, similarly to the clock controller 195 shown in FIG. And a clock signal CLK7 to the P / S converter 177. However, the clock controller 195 of the audio delay unit 17 shown in FIG. 12 is different from the clock controller 198 of the audio delay unit 17 of FIG. 13 in how the reference clock signals CLK1 and CLK2 are used.
[0213]
Also in the case of the audio delay unit 17 shown in FIG. 13, the PLL lock detection circuit 196 detects whether the PLL unit 174 is in the locked state or the unlocked state, and notifies the control unit 14 of this. The control unit 14 determines whether a digital audio signal has been supplied.
[0214]
When determining that the digital audio signal has been supplied, the control unit 14 notifies the memory controller 171 of the signal, switches the switch circuit SW2 to the input terminal a, and switches the switch circuit SW3 to the output terminal a.
[0215]
In this case, the memory controller 171 determines to process the digital audio signal based on the notification from the control unit 14, and uses the clock signal CLK1 from the PLL unit 174 and the clock signal CLK2 from the oscillator 197 to perform the necessary processing. The clock controller 198 is controlled to generate a clock signal.
[0216]
The clock controller 198 generates a clock signal CLK5 to the S / P converter 175 and a clock signal CLK7 to the P / S converter 177 based on the clock signal CLK1 from the PLL unit 174, and , A clock signal CLK6 to the memory 176 is generated based on the clock signal CLK2, and the generated clock signals are supplied to a target circuit portion.
[0217]
Then, as described with reference to FIG. 12, the supplied digital audio signal is delayed through the S / P converter 175, the memory 176, and the P / S converter 177, and is delayed by a predetermined delay time. The digital audio signal thus output is output through the output terminal a of the switch circuit SW3, and is supplied to a subsequent circuit portion.
[0218]
When the controller 14 determines that the digital audio signal is not supplied, the controller 14 notifies the memory controller 171 of the digital audio signal, switches the switch circuit SW2 to the input terminal b, and switches the switch circuit SW3 to the output terminal b. Switch.
[0219]
In this case, based on the notification from the control unit 14, the memory controller 171 determines that the analog audio signal is to be processed, and controls the clock controller 198 to generate a necessary clock signal using the clock signal CLK2.
[0220]
The clock controller 198 includes a clock signal CLK4 to the A / D converter 193 and the D / A converter 194, a clock signal CLK5 to the S / P converter 175, and a memory 176, based on the clock signal CLK2 from the oscillator 197. , And a clock signal CLK7 to the P / S converter 177, and supplies these generated clock signals to a target circuit portion.
[0221]
Then, as described with reference to FIG. 12, after the supplied analog audio signal is converted into a digital signal by the A / D converter 193 based on the clock signal CLK4, the converted digital is A signal subjected to delay processing through the P conversion unit 175, the memory 176, and the P / S conversion unit 177, and a signal delayed by a predetermined delay time is output through the output terminal b of the switch circuit SW3 and supplied to the D / A conversion unit 194. Here, after being converted into an analog audio signal based on the clock signal CLK4, it is supplied to a subsequent circuit portion.
[0222]
As described above, the audio delay unit 17 of the example shown in FIG. 13 controls the clock signal supplied to the memory 176 regardless of whether the audio signal supplied thereto is a digital audio signal or an analog audio signal. CLK6 uses a reference clock signal CLK2 of a predetermined frequency from the oscillator 197.
[0223]
Thereby, the writing and reading of the audio signal after being converted into the parallel signal to and from the memory 176 can be performed based on the clock signal CLK6 generated based on the clock signal CLK2 from the oscillator 197, so that the jitter , And high quality of sound quality can be realized.
[0224]
As described above, the audio delay unit 17 used in the third embodiment shown in FIGS. 12 and 13 receives the supply of both the digital audio signal and the analog audio signal, and Can be subjected to delay processing. This makes it possible to construct a hybrid home theater system that can process audio signals and video signals that are digital signals or analog signals.
[0225]
Note that, in the case of the audio delay unit 17 of the example shown in FIG. 13, similarly to the audio delay unit shown in FIG. 6, an oscillator for generating the clock signal CLK7 to be supplied to the P / S conversion unit 177 is provided. It is also possible to provide a clock controller to reduce jitter, which is fluctuation of the time axis of the audio signal, and to configure an audio delay unit for realizing higher quality sound.
[0226]
Further, when the input analog audio signal is converted into a digital signal and delayed according to a circuit portion or a device provided at a subsequent stage of the audio delay unit 17 shown in FIG. Of course, it may be configured to output the digital signal converted as is.
[0227]
In the first, second, and third embodiments described above, the audio signals from the audio / video transmission devices 1, 7, 8, 10 to the audio amplification devices 3, 9 are transmitted by wire. However, the wired transmission may be various wired transmissions, for example, a wired transmission using a digital coaxial signal or an optical signal. That is, an audio signal can be transmitted as an electric signal or an optical signal through various wired transmission media, and the present invention can be applied to such various cases.
[0228]
In the first, second, and third embodiments described above, the video signals from the audio / video transmission devices 1, 7, 8, and 10 to the video display device 2 are wirelessly transmitted, and the audio / video transmission devices Although the case where the audio signals from 1, 7, 8, and 10 to the audio amplifying devices 3 and 9 are transmitted by wire has been described as an example, the present invention is not limited to this.
[0229]
For example, video signals from the audio / video transmission devices 1, 7, 8, 10 to the video display device 2 are transmitted by radio waves by radio waves, and are transmitted from the audio / video transmission devices 1, 7, 8, 10 to the audio amplification devices 3, 9 The present invention can also be applied to a case where the audio signal is transmitted wirelessly by infrared rays.
[0230]
In other words, the present invention is applicable not only to the case where wireless transmission and wired transmission are simply called, but also to the case where video signals and audio signals are transmitted using different transmission methods, such as radio transmission using radio waves and radio transmission using infrared rays. It is possible, because the signal processing process differs depending on the transmission method or the transmission method, there is a phase difference between two signals that are originally synchronized and the reproduction timing is adjusted. In such a case, the earlier transmission is delayed in accordance with the difference between the two transfer rates, thereby reducing the phase difference between the video signal and the audio signal that should be originally synchronized with the reproduction timing. The timing can be prevented from being largely shifted.
[0231]
Therefore, when a video signal is transmitted wirelessly by radio waves and an audio signal is transmitted by wire or optical communication, the video signal has a larger amount of information, and it is necessary to take sufficient measures against transmission errors. Although the audio signal is delayed since the audio signal is delayed, the video signal is delayed when the video signal is delayed than the audio signal.
[0232]
Further, in the above-described embodiment, the audio / video generation device is described as a DVD player, but the audio / video generation device may be a DVD tape player, a video tape recorder, a laser disk player, a personal computer, or the like. It is also possible to use various other audio and video reproducing devices and recording / reproducing devices. It goes without saying that a television tuner, a digital television broadcast receiver called an IRD (Integrated Receiver Decoder), or a cable television receiver called an STB (Set-Top Box) may be used.
[0233]
Further, in the above-described embodiment, the audio / video transmission device has been described as having two processing systems, the video signal processing system and the audio signal processing system. The video transmission device may be divided into two housings. Further, in the above-described embodiment, the video display device and the audio amplification device are expressed as separate components, but the video display device and the audio amplification device are housed in one housing. You may.
[0234]
In addition, the present invention relates to two different signals which are originally synchronized and whose reproduction timing is synchronized, such as a sound signal and a video signal of a movie reproduced from a DVD, are transmitted by different transmission schemes. For example, when two different signals are transmitted, two video signals for different information, two audio signals for different information, and various other two different signals are transmitted. Applicable to
[0235]
Further, in the above-described embodiment, the case where two different signals are transmitted by different transmission methods such as the audio signal and the video signal 2 has been described. All or some of a plurality of signals which should be synchronized and reproduced at the same timing, such as transmitting four signals of two different video signals and two different audio signals at the same time, in different transmission schemes The present invention can be applied to the case where the transmission is performed by using the method described above. In this case, a delay unit may be provided in a processing system (transmission process) for a signal transmitted to the receiving side earlier than the signal transmitted based on the latest signal, and the amount of delay may be controlled. Good.
[0236]
【The invention's effect】
As described above, according to the present invention, it is possible to reduce a phase difference between a video signal and an audio signal that is generated due to a difference in transmission method between a video signal and an audio signal that should be originally synchronized with each other, The problem of lip sync, which has been a problem in the conventional audio-video transmission system, can be solved.
[0237]
In addition, an audio-video transmission system, an audio-video transmission device, and an audio reception device that reduce the phase difference between the video signal and the audio signal can be configured with an optimal configuration in consideration of the manufacturing cost of the device and the quality of the audio.
[Brief description of the drawings]
FIG. 1 is a block diagram for explaining a home theater system according to an embodiment to which an audio-video transmission system and an audio-video transmission device according to the present invention are applied;
FIG. 2 is a block diagram for explaining a configuration example of an audio delay unit 17 used in the home theater system of the embodiment shown in FIG.
FIG. 3 is a diagram for explaining biphase mark modulation applied to a digital audio interface signal supplied to an audio delay unit 17 shown in FIG. 2;
4 is a block diagram for explaining a configuration example of a PLL unit 174 of the audio delay unit 17 shown in FIG.
FIG. 5 is a block diagram for explaining another configuration example of the PLL unit 174 of the audio delay unit 17 shown in FIG.
FIG. 6 is a block diagram for explaining another configuration example of the audio delay unit 17 of the home theater system shown in FIG.
FIG. 7 is a block diagram for explaining another configuration example of the audio delay unit 17 of the home theater system shown in FIG.
FIG. 8 is a block diagram for explaining another example of a home theater system configured by applying the audio-video transmission system and the audio-video transmission device according to the present invention.
FIG. 9 is a block diagram for explaining a home theater system configured by applying the audio / video transmission system and the audio receiving device according to the present invention.
FIG. 10 is a diagram for explaining another example of a home theater system configured by applying the audio-video transmission system and the audio-video transmission device according to the present invention.
FIG. 11 is a block diagram illustrating a configuration example of an audio delay unit 17 when processing an analog audio signal.
FIG. 12 is a block diagram illustrating a configuration example of an audio delay unit 17 that enables delay processing of both a digital audio signal and an analog audio signal.
FIG. 13 is a block diagram for explaining another configuration example of the audio delay unit 17 that enables delay processing of both a digital audio signal and an analog audio signal.
FIG. 14 is a block diagram illustrating a conventional example of an audio-video transmission system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Audio / video transmission equipment, 2 ... Video display equipment, 3 ... Audio amplification equipment, 4 ... Speaker, 5 ... Audio / video generation equipment, 7, 8 ... Audio / video transmission equipment, 9 ... Audio amplification equipment, 10 ... Audio / video transmission device, 11 video input unit, 12 video signal processing unit, 13 wireless video transmission unit, 14 control unit, 141 key operation unit, 142 remote control signal reception unit, 15 audio input unit, 16 audio signal processing unit, 17 audio delay unit, 18 audio output unit, 21 video radio reception unit, 22 video drive circuit, 23 display, 24 control unit, 241 key operation unit, 242 remote control Signal receiving unit, 31 ... Sound receiving unit, 32 ... Sound driving circuit, 33 ... Control unit, 331 ... Key operation unit, 332 ... Remote control signal receiving unit, 91 ... Sound delay unit, 10V ... Video generation unit, 10A ... Sound generation Parts, 61, 62, 4 ... wired by the transmission medium, 63 ... transmission medium using radio waves

Claims (32)

An audio-video transmission device for transmitting audio and video signals for providing audio and video to be reproduced at the same reproduction timing by different transmission systems, and the audio transmitted from the audio-video transmission device. An audio-video transmission system including an audio reception device that receives a signal and a video reception device that receives the video signal transmitted from the audio-video transmission device,
The audio-video transmission device,
A delay unit for delaying the audio signal to be transmitted by a predetermined time,
The delay unit delays the audio signal by a time determined such that a phase difference between the audio signal and the video signal transmitted from the audio / video transmission device is smaller than a limit detected by a viewer. An audio-video transmission system characterized by the above. The audio-video transmission system according to claim 1,
The audio-video transmission device,
Transfer rate changing means for changing the transfer rate of the video signal according to a change instruction of the transfer rate of the video signal from a user,
Control means for controlling the delay time of the audio signal in the delay means in accordance with a transfer rate of the video signal. The audio-video transmission system according to claim 1,
The audio-video transmission device,
Transmission status detection means for detecting the state of the transmission environment of the video signal,
Automatic transfer rate changing means for automatically changing the transfer rate of the video signal based on a detection result from the transmission state detecting means,
An audio-video transmission system comprising: an automatic control unit that controls the delay time of the video signal in the delay unit according to a transfer rate of the video signal. The audio-video transmission system according to claim 1, 2 or 3, wherein
The audio-video transmission device,
An audio-video transmission system, comprising: an adjustment control unit configured to adjust the delay time in response to a user's instruction to adjust the delay time of the audio signal in the delay unit. An audio-video transmission device for transmitting audio and video signals for providing audio and video to be reproduced at the same reproduction timing by different transmission systems, and the audio transmitted from the audio-video transmission device. An audio-video transmission system including an audio reception device that receives a signal and a video reception device that receives the video signal transmitted from the audio-video transmission device,
The audio receiving device,
A delay unit for delaying the received audio signal by a predetermined time,
The delay unit delays the audio signal by a time determined such that a phase difference between the audio signal and the video signal transmitted from the audio / video transmission device is lower than a limit detected by a viewer. An audio-video transmission system characterized by the above. The audio-video transmission system according to claim 5, wherein
The transfer rate of the video signal from the audio-video transmission device can be changed in response to a change instruction from a user or automatically detecting the state of the transmission environment of the video signal and changing the status. It has been
The audio receiving device,
Control means for receiving a notification of the transfer rate of the video signal transmitted from the audio / video transmission device, and controlling the delay time of the audio signal in the delay means in accordance with the transfer rate of the video signal. An audio-video transmission system characterized by the following. The audio-video transmission system according to claim 5 or 6, wherein:
The audio receiving device,
An audio-video transmission system, comprising: an adjustment control unit configured to adjust the delay time in response to a user's instruction to adjust the delay time of the audio signal in the delay unit. The audio-video transmission system according to claim 1, claim 2, claim 3, claim 4, claim 5, claim 6, or claim 7,
The audio-video transmission device and the video reception device are connected by a radio transmission path using radio waves,
The audio-video transmission system is characterized in that the audio-video transmission device and the audio reception device are connected by a wired transmission path. The audio-video transmission system according to claim 1, claim 2, claim 3, claim 4, claim 5, claim 6, or claim 7,
The audio-video transmission system is characterized in that the audio-video transmission device and the audio reception device are connected by a wired transmission line using a digital coaxial signal or an optical signal. The audio-video transmission system according to claim 1, claim 2, claim 3, claim 4, claim 5, claim 6, or claim 7,
The audio-video transmission system is characterized in that the audio-video transmission device and the audio reception device are connected by a wireless transmission path using infrared rays. The audio-video transmission system according to claim 1, claim 2, claim 3, claim 4, claim 5, claim 6, or claim 7,
The delay means includes:
A digital input terminal for receiving a digital audio interface signal input;
Serial / parallel conversion means for converting the digital audio interface signal from the digital input terminal into a parallel signal;
A memory for temporarily storing a parallel signal from the serial / parallel conversion means;
Parallel / serial conversion means for converting the parallel signal from the memory into a serial signal and restoring an original digital audio interface signal;
First clock signal generation means for generating at least a clock signal to be supplied to the serial / parallel conversion means from the digital audio interface signal from the input terminal;
An audio-video transmission system, wherein an input audio signal is delayed by a predetermined time by controlling conversion timing between the serial / parallel conversion means and the parallel / serial conversion means. The audio-video transmission system according to claim 11, wherein
Wherein the first clock signal generating means has a PLL unit of any one of a bit clock PLL system, a word sync PLL system, and a double PLL system using a second PLL. system. The audio-video transmission system according to claim 11 or 12, wherein
The delay means includes:
An analog input terminal for receiving an analog audio signal input;
Analog / digital conversion means for converting the analog audio signal from the analog input terminal into a digital audio signal and supplying the digital / audio signal to the serial / parallel conversion means;
A digital / analog converter for converting a digital audio signal from the parallel / serial converter into an analog signal; and an analog / digital converter for processing the analog audio signal from the analog input terminal. A second clock signal generating unit that generates a clock signal to be supplied to the converting unit, the memory, the parallel / serial converting unit, and the digital / analog converting unit based on a reference clock signal from an oscillator. An audio-video transmission system characterized by the above. The audio-video transmission system according to claim 1, claim 2, claim 3, claim 4, claim 5, claim 6, or claim 7,
The delay means includes:
An analog input terminal for receiving an analog audio signal input;
Analog / digital conversion means for converting the analog audio signal from the analog input end into a digital audio signal;
Serial / parallel conversion means for converting the digital audio signal from the analog / digital conversion means into a parallel signal;
A memory for temporarily storing a parallel signal from the serial / parallel conversion means;
Parallel / serial conversion means for converting the parallel signal from the memory into a serial signal and restoring an original digital audio signal;
Digital / analog conversion means for converting a digital audio signal from the parallel / serial conversion means into an analog signal;
When processing the analog audio signal from the analog input terminal, the analog / digital conversion means, the serial / parallel conversion means, the memory, the parallel / serial conversion means, and the digital / analog conversion means And a clock signal generating means for generating a clock signal to be supplied based on a reference clock signal from an oscillator. An audio-video transmission device for transmitting audio signals and video signals for providing audio and video to be reproduced at the same reproduction timing by different transmission methods, wherein the audio signal to be transmitted is transmitted for a predetermined time. A delay means for delaying,
The delay unit delays the audio signal by a time determined such that a phase difference between the audio signal and the video signal transmitted from the audio / video transmission device is lower than a limit detected by a viewer. An audio-video transmission device characterized by the above-mentioned. The audio-video transmission device according to claim 15,
Change instruction receiving means for receiving an instruction to change the transfer rate of the video signal from a user,
Transfer rate changing means for changing the transfer rate of the video signal, according to the change instruction received through the change instruction receiving means,
Control means for controlling the delay time of the audio signal in the delay means in accordance with a transfer rate of the video signal. The audio-video transmission device according to claim 15,
Transmission status detection means for detecting the state of the transmission environment of the video signal,
Automatic transfer rate changing means for automatically changing the transfer rate of the video signal based on a detection result from the transmission state detecting means,
An audio-video transmission device comprising: an automatic control unit that controls the delay time of the video signal in the delay unit according to a transfer rate of the video signal. The audio-video transmission device according to claim 15, claim 16, or claim 17,
Adjustment instruction receiving means for receiving an adjustment instruction for the delay time of the audio signal in the delay means from a user,
An audio-video transmission device comprising: an adjustment control unit configured to adjust the delay time according to the adjustment instruction received through the adjustment instruction reception unit. The audio-video transmission device according to claim 15, claim 16, claim 17, or claim 18,
Wireless transmission means for wirelessly transmitting the video signal by radio waves,
An audio / video transmission device comprising: a wired transmission path connecting the audio / video transmission device and the audio receiving device; and a wired transmission unit for transmitting the audio signal. The audio-video transmission device according to claim 15, claim 16, claim 17, or claim 18,
An audio / video transmission apparatus comprising: a coaxial signal transmitting unit for transmitting the audio signal by wire as a digital coaxial signal or an optical signal; or an optical signal transmitting unit. The audio-video transmission device according to claim 15, claim 16, claim 17, or claim 18,
An audio-video transmission device comprising a wireless transmission unit for transmitting the audio signal by infrared rays. The audio-video transmission device according to claim 15, claim 16, claim 17, or claim 18,
The delay means includes:
A digital input terminal for receiving a digital audio interface signal input;
Serial / parallel conversion means for converting the digital audio interface signal from the digital input terminal into a parallel signal;
A memory for temporarily storing a parallel signal from the serial / parallel conversion means;
Parallel / serial conversion means for converting the parallel signal from the memory into a serial signal and restoring an original digital audio interface signal;
First clock signal generation means for generating at least a clock signal to be supplied to the serial / parallel conversion means from the digital audio interface signal from the input terminal;
An audio-video transmission apparatus characterized in that an input audio signal is delayed by a predetermined time by controlling a conversion timing between the serial / parallel conversion means and the parallel / serial conversion means. The audio-video transmission device according to claim 22,
Wherein the first clock signal generating means has a PLL unit of any one of a bit clock PLL system, a word sync PLL system, and a double PLL system using a second PLL. system. The audio-video transmission device according to claim 22 or claim 23,
The delay means includes:
An analog input terminal for receiving an analog audio signal input;
Analog / digital conversion means for converting the analog audio signal from the analog input terminal into a digital audio signal and supplying the digital / audio signal to the serial / parallel conversion means;
A digital / analog converter for converting a digital audio signal from the parallel / serial converter into an analog signal; and an analog / digital converter for processing the analog audio signal from the analog input terminal. Conversion means, the memory, the parallel / serial conversion means, and second clock signal generation means for generating a clock signal to be supplied to the digital / analog conversion means based on a reference clock signal from an oscillator. An audio-video transmission device characterized by the following. The audio-video transmission device according to claim 15, claim 16, claim 17, or claim 18,
The delay means includes:
An analog input terminal for receiving an analog audio signal input;
Analog / digital conversion means for converting the analog audio signal from the analog input end into a digital audio signal;
Serial / parallel conversion means for converting the digital audio signal from the analog / digital conversion means into a parallel signal;
A memory for temporarily storing a parallel signal from the serial / parallel conversion means;
Parallel / serial conversion means for converting the parallel signal from the memory into a serial signal and restoring an original digital audio signal;
Digital / analog conversion means for converting a digital audio signal from the parallel / serial conversion means into an analog signal;
When processing the analog audio signal from the analog input terminal, the analog / digital conversion means, the serial / parallel conversion means, the memory, the parallel / serial conversion means, and the digital / analog conversion means And a clock signal generating means for generating a clock signal to be supplied based on a reference clock signal from an oscillator. An audio receiving apparatus for receiving an audio signal transmitted from an audio / video transmitting apparatus for transmitting an audio signal and a video signal for providing audio and video to be reproduced at the same timing by different transmission schemes And
A delay unit for delaying the received audio signal by a predetermined time,
The delay unit delays the audio signal by a time determined such that a phase difference between the audio signal and the video signal transmitted from the audio / video transmission device is lower than a limit detected by a viewer. A voice receiving device characterized by the above-mentioned. The voice receiving device according to claim 26,
The transfer rate of the video signal from the audio-video transmission device can be changed in response to a change instruction input from a user, or in response to automatic detection of the state of the transmission environment of the video signal. So that
Control means for receiving a notification of the transfer rate of the video signal transmitted from the audio / video transmission device and controlling the delay time of the audio signal in the delay means in accordance with the transfer rate of the video signal. A voice receiving device characterized by the above-mentioned. The voice receiving device according to claim 26 or claim 27,
An audio receiving apparatus comprising: an adjustment control unit configured to adjust the delay time in response to an input of an instruction to adjust the delay time of the audio signal in the delay unit from a user. The voice receiving apparatus according to claim 26, claim 27, or claim 28,
The delay means includes:
A digital input terminal for receiving a digital audio interface signal input;
Serial / parallel conversion means for converting the digital audio interface signal from the digital input terminal into a parallel signal;
A memory for temporarily storing a parallel signal from the serial / parallel conversion means;
Parallel / serial conversion means for converting the parallel signal from the memory into a serial signal and restoring an original digital audio interface signal;
First clock signal generation means for generating at least a clock signal to be supplied to the serial / parallel conversion means from the digital audio interface signal from the input terminal;
An audio receiving apparatus characterized in that an input audio signal is delayed by a predetermined time by controlling a conversion timing between the serial / parallel conversion means and the parallel / serial conversion means. The voice receiving device according to claim 29,
The audio receiving apparatus according to claim 1, wherein the first clock signal generating means has a PLL unit of a bit clock PLL system, a word sync PLL system, or a double PLL system using a second PLL. . An audio-video transmission system according to claim 26, claim 27 or claim 28,
The delay means includes:
An analog input terminal for receiving an analog audio signal input;
Analog / digital conversion means for converting the analog audio signal from the analog input terminal into a digital audio signal and supplying the digital / audio signal to the serial / parallel conversion means;
A digital / analog converter for converting a digital audio signal from the parallel / serial converter into an analog signal; and an analog / digital converter for processing the analog audio signal from the analog input terminal. Conversion means, the memory, the parallel / serial conversion means, and second clock signal generation means for generating a clock signal to be supplied to the digital / analog conversion means based on a reference clock signal from an oscillator. A voice receiving device characterized by the above-mentioned. The voice receiving apparatus according to claim 26, claim 27, or claim 28,
An analog input terminal for receiving an analog audio signal input;
The delay means includes:
Analog / digital conversion means for converting the analog audio signal from the analog input end into a digital audio signal;
Serial / parallel conversion means for converting the digital audio signal from the analog / digital conversion means into a parallel signal;
A memory for temporarily storing a parallel signal from the serial / parallel conversion means;
Parallel / serial conversion means for converting the parallel signal from the memory into a serial signal and restoring an original digital audio signal;
Digital / analog conversion means for converting a digital audio signal from the parallel / serial conversion means into an analog signal;
When processing the analog audio signal from the analog input terminal, the analog / digital conversion means, the serial / parallel conversion means, the memory, the parallel / serial conversion means, and the digital / analog conversion means A clock signal generating unit configured to generate a clock signal to be supplied based on a reference clock signal from an oscillator.

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