JP3617390B2 - Digital signal recording / reproducing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to hardware scale reduction of a signal processing circuit in a digital signal recording / reproducing apparatus such as D-VHS.
[0002]
[Prior art]
In recent years, with the digitization of television broadcasts such as digital satellite broadcasts, digitization of video signals is rapidly progressing. Under such circumstances, a digital signal recording / reproducing apparatus capable of recording / reproducing a digital video / audio signal is being developed and commercialized.
[0003]
One such digital signal recording / reproducing apparatus is a D-VHS (registered trademark) recording / reproducing apparatus. This D-VHS recording / reproducing apparatus uses a mechanism system of a VHS (registered trademark) recording / reproducing apparatus, which is widely used as an analog video tape recorder, to record and reproduce digital video signals. The digital video signal and the digital audio signal encoded by the MPEG (Moving Picture Experts Group) 2 method can be recorded and reproduced in the form of a bit stream (hereinafter referred to as an MPEG bit stream) based on the MPEG transport stream standard. .
[0004]
In addition, there are several types of D-VHS recording / reproducing apparatuses. One of them is not only recording / reproducing an incoming MPEG bit stream, but also analog video signals and analog audio signals by analog input. Can be converted into an MPEG bit stream and recorded, or the reproduced MPEG bit stream can be converted and output as an analog video signal and an analog audio signal.
[0005]
In addition, a DV-VHS recording / reproducing apparatus that can convert a DV bit stream from a DV digital signal recording / reproducing apparatus, which is widely used as a home digital video camera, into an MPEG bit stream and record it as an MPEG bit stream has been developed. Has been. However, since the MPEG system and the DV system have different compression / decompression systems, the incoming DV bit stream is temporarily decompressed and then subjected to the MPEG system's compression / encoding process as an MPEG bit stream and then recorded on the recording medium. become.
[0006]
FIG. 5 includes a digital interface and an analog input / output terminal, and switches and records an incoming MPEG bit stream or DV bit stream and an analog video / audio signal, and outputs a reproduced MPEG bit stream from the digital interface. Or a D-VHS recording / reproducing apparatus capable of outputting from an analog input / output terminal in the form of an analog video signal.
[0007]
The recording / reproducing apparatus shown in FIG. 1 will be briefly described. Vin is a video signal input terminal for receiving an analog video signal from the outside. The incoming analog video signal is converted into a digital video by the A / D converter 10. After being converted into a signal, the video processing unit 11 performs processing such as demodulation of the color signal. Then, the digital video signal in the form of a luminance signal and a color difference signal is subjected to MPEG2 compression compression processing in the MPEG encoder unit 13 after passing through the switch 12.
[0008]
On the other hand, Ain is an audio signal input terminal for receiving an analog audio signal from the outside, and the incoming analog audio signal is converted into a digital audio signal by the A / D converter 14 and further passed through the switch 15. The audio processing unit 16 performs, for example, MPEG1 audio layer 2 compression encoding processing.
[0009]
Then, the stream processing unit 17 generates an MPEG bit stream from the MPEG video signal from the MPEG encoder unit 13 and the MPEG audio signal from the audio processing unit 16. The MPEG bit stream from the stream processing unit 17 is then output to the interface ASIC 18 for signal switching.
[0010]
Also, Dio is a digital interface terminal based on the IEEE 1394 standard, 19 is a digital interface based on the IEEE 1394 standard, and an MPEG bit stream or DV bit stream coming from the outside is connected to the interface ASIC 18 via the digital interface terminal Dio and the digital interface 19. Is output.
[0011]
The interface ASIC 18 outputs the MPEG bit stream output from the stream processing unit 17 to the D-VHS signal processing unit 20 and the digital interface 19, while the MPEG bit stream output from the digital interface 19 is output to the D-VHS signal processing unit 20. And output to the stream processing unit 17.
[0012]
Further, as will be described later, when the digital interface 19 outputs a DV bit stream, the interface ASIC 18 outputs the DV bit stream only to the stream processing unit 17, and when the D-VHS signal processing unit 20 outputs the MPEG bit stream. The interface ASIC 18 outputs this to the digital interface 19 and the stream processing unit 17.
[0013]
Then, when the interface ASIC 18 outputs the MPEG bit stream to the D-VHS signal processing unit 20, the D-VHS signal processing unit 20 adds a header and an error correction code according to the D-VHS specification, and thus obtained. The digital recording signal is output to the recording amplifier 21. The digital recording signal via the recording amplifier 21 is recorded on the recording medium 22.
[0014]
As described above, the recording / reproducing apparatus shown in FIG. 1 records the MPEG bit stream and the analog video / audio signal coming from the outside on the recording medium 22. When a DV bit stream comes in from the digital interface terminal Dio, the digital interface 19 identifies this, and the DV bit stream is output only to the stream processing unit 17 via the interface ASIC 18.
[0015]
Then, the stream processing unit 17 outputs this DV bit stream to the DV decoder unit 23, and the DV decoder unit 23 performs a DV type expansion process. The digital video signal and the digital audio signal are extracted by the decompression process in the DV decoder unit 23, and the digital video signal is supplied to one input of the switch 12 and the digital audio signal is supplied to one input of the switch 15.
[0016]
These digital video signals and digital audio signals are recorded on the recording medium 22 as MPEG bit streams by the same processing as the processing after the switchers 12 and 15 when the analog video signals and analog audio signals are recorded. . The digital video signal and the digital audio signal output from the DV decoder unit 23 are connected to the video processing unit 11 and a D / A converter 28, which will be described later, through paths (not shown), respectively, in the form of analog video / audio signals. Is output.
[0017]
Further, as described above, when recording an MPEG bit stream and a DV bit stream coming from the outside, this video / audio signal can be output through an output path of an analog video / audio signal, which will be described later. When recording an incoming analog video / audio signal, it can be output in the form of an MPEG bit stream via the digital interface terminal Dio.
[0018]
When the digital signal recorded on the recording medium 22 is reproduced, the digital reproduction signal from the recording medium 22 is output to the reproduction processing unit 25 via the reproduction preamplifier 24, and the reproduction processing unit 25 performs waveform equalization. And reproduction signal detection processing such as Viterbi decoding is performed.
[0019]
The digital reproduction signal that has been processed by the reproduction processing unit 25 is subjected to error correction processing by the D-VHS signal processing unit 20, and an MPEG bit stream is extracted. The MPEG bit stream thus obtained is output to the outside in the form of an MPEG bit stream via the interface ASIC 18, the digital interface 19, and the digital interface terminal Dio, and the MPEG video signal and MPEG audio are output by the stream processing unit 17. A signal is extracted.
[0020]
Here, the extracted MPEG video signal is decompressed by the MPEG decoder unit 26 to restore the digital video signal. The digital video signal from the MPEG decoder unit 26 is further subjected to processing such as color signal modulation by the video processing unit 11, and the digital video signal output from the video processing unit 11 is converted to an analog video signal by the D / A converter 27. Is converted from the video signal output terminal Vout.
[0021]
On the other hand, the MPEG audio signal extracted by the stream processing unit 17 is subjected to decompression processing by the audio processing unit 16, converted to an analog audio signal by the D / A converter 28, and output from the audio signal output terminal Aout. Is done. In this way, a digital reproduction signal reproduced from the recording medium 22 can be output in the form of an MPEG bit stream or in the form of an analog video / audio signal.
[0022]
Each configuration described above is connected to the microcomputer 29 via a bus (not shown), and the microcomputer 29 controls each configuration.
[0023]
[Problems to be solved by the invention]
However, when the MPEG encoder unit 13, the MPEG decoder unit 26, and the DV decoder unit 23 are configured by hardware such as LSI as described above and are to be operated by fixed software incorporated in association with the hardware, In addition to the increase in the circuit scale, there is a problem that the apparatus becomes complicated and it is difficult to reduce the cost.
[0024]
[Means for Solving the Problems]
[0025]
A digital signal recording / reproducing apparatus according to the present invention comprises:
An incoming bit stream in accordance with the first compression encoding scheme; an incoming bit stream in which the second compression encoding scheme is converted into a bit stream in accordance with the first compression encoding scheme; The analog signal to be recorded is recorded on a recording medium as a bit stream obtained by compressing and encoding the analog signal using the first compression encoding method, and a reproduction signal reproduced from the recording medium is recorded on the first compression encoding In a digital signal recording / reproducing apparatus capable of outputting in the form of a bit stream according to the system and the form of the analog signal,
A first conversion for converting a bit stream based on the second compression encoding method into a bit stream based on the first compression encoding method, and a digital signal obtained by subjecting the analog signal to A / D conversion processing. A codec capable of performing a second conversion for converting into a bit stream according to the first compression encoding method and a third conversion for converting the bit stream according to the first compression encoding method into the digital signal. Department and
A microcode storage unit storing a plurality of microcodes corresponding to the first to third conversions;
A plurality of microcodes stored in the microcode storage unit are appropriately downloaded to the codec unit, and the codec unit and the microcode storage are performed so that the codec unit performs the first, second, or third conversion. And a microcomputer for controlling the unit.
[0026]
Further, in the digital signal recording / reproducing apparatus according to the present invention, each bit stream includes at least video information, and a period during which the microcode is downloaded from the microcode storage unit to the codec unit is from the codec unit. The video information is not output in the form of an analog signal.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a diagram for explaining a digital signal recording / reproducing apparatus according to the present invention. The same components as those of the digital signal recording / reproducing apparatus shown in FIG.
[0028]
The digital signal recording / reproducing apparatus according to the present invention includes the MPEG encoder unit 13, the MPEG decoder unit 26, the DV decoder unit 23, the stream processing unit 17, and the switchers 12 and 15 in the digital signal recording / reproducing apparatus shown in FIG. The configuration is replaced with a codec unit 30 and a memory 31, and a blue back output unit 32 is further added.
[0029]
Here, the operation when recording an analog video / audio signal or MPEG bit stream coming from outside will be described first. In the figure, Vin is a video signal input terminal from which an analog video signal comes from the outside. The incoming analog video signal is converted into a digital video signal by the A / D converter 10 and then the video processing unit 11. A process such as demodulation of color signals is performed at. The digital video signal in the form of a luminance signal and a color difference signal is output to the codec unit 30.
[0030]
On the other hand, Ain is an audio signal input terminal for receiving an analog audio signal from the outside. The incoming analog audio signal is converted into a digital audio signal by the A / D converter 14, and further, for example, by the audio processing unit 16 An MPEG1 audio layer 2 compression encoding process is performed and output to the codec unit 30.
[0031]
Here, the codec unit 30 is constituted by an LSI, and among the plurality of microcodes stored in the memory 31, the necessary microcodes are read as appropriate as will be described later, whereby the MPEG encoder unit 13 shown in FIG. It can serve as an MPEG decoder unit 26 and a DV decoder unit 23.
[0032]
That is, when recording an analog video / audio signal, a microcode for performing MPEG system compression encoding processing is downloaded from the memory 31 and an MPEG bit stream coming from the digital interface terminal Dio is recorded, or As will be described later, when an MPEG bit stream from the recording medium 22 is output in the form of an analog video / audio signal, microcode for performing an MPEG-type decompression process is downloaded and also comes from the digital interface terminal Dio. When a DV bit stream to be recorded is recorded, microcode for performing DV format decompression processing and MPEG format compression encoding processing is downloaded.
[0033]
The codec unit 30 also plays the role of the stream processing unit 17 shown in FIG. 5. The MPEG video signal obtained by subjecting the digital video signal from the video processing unit 11 to compression encoding processing of the MPEG system, and the audio An MPEG bit stream is generated from the MPEG audio signal from the processing unit 16 and output to the interface ASIC 18.
[0034]
Further, Dio is a digital interface terminal based on the IEEE 1394 standard, and 19 is a digital interface based on the IEEE 1394 standard. An MPEG bit stream coming from the outside is output to the interface ASIC 18 via the digital interface terminal Dio and the digital interface 19.
[0035]
The interface ASIC 18 outputs the MPEG bit stream output from the codec unit 30 to the D-VHS signal processing unit 20 and the digital interface 19, while the MPEG bit stream output from the digital interface 19 includes the D-VHS signal processing unit 20 and The data is output to the codec unit 30.
[0036]
Then, when the interface ASIC 18 outputs the MPEG bit stream to the D-VHS signal processing unit 20, the D-VHS signal processing unit 20 adds a header and an error correction code according to the D-VHS specification, and thus obtained. The digital recording signal is output to the recording amplifier 21. The digital recording signal via the recording amplifier 21 is recorded on the recording medium 22. As described above, the recording / reproducing apparatus shown in FIG. 1 records the MPEG bit stream and the analog video / audio signal coming from the outside on the recording medium 22.
[0037]
When recording an incoming DV bit stream from the outside, the digital interface 19 identifies the DV bit stream input from the digital interface terminal Dio, and this DV bit stream is output only to the codec unit 30 via the interface ASIC 18. Is done.
[0038]
Here, microcode for performing DV format decompression processing and MPEG format compression encoding processing is downloaded from the memory 31 to the codec unit 30. First, DV format decompression is performed on the DV bitstream. Processing is performed. Here, the compression / decompression method of the DV method will be described. In the DV method, the video signal is compressed and encoded, but the audio signal is not compressed and encoded. The DV video signal obtained from the DV bit stream is subjected to DV decompression processing inside to obtain a digital video signal, while the digital audio signal obtained without decompression processing is output to the audio processing unit 16. To do.
[0039]
Then, the codec unit 30 outputs the digital video signal obtained therein to the video processing unit 11 and performs an MPEG compression coding process on the digital video signal. The audio processing unit 16 outputs a digital audio signal from the codec unit 30 to a D / A converter 28 (to be described later) and performs an MPEG1 audio layer 2 compression encoding process on the digital audio signal. This is returned to the codec unit 30, and an MPEG bit stream is generated in the codec unit 30.
[0040]
It should be noted that there is a difference in sampling frequency, quantization bit number, etc. between the digital audio signal output from the codec unit 30 to the audio processing unit 16 and the digital audio signal when the MPEG system compression encoding process is performed. Needless to say, the audio processing unit 16 performs the conversion process.
[0041]
The MPEG bit stream generated in this way is output to the D-VHS signal processing unit 20 via the interface ASIC 18 and recorded on the recording medium 22 in the form of an MPEG bit stream. As described above, an incoming DV bit stream is recorded on the recording medium 22 in the form of an MPEG bit stream.
[0042]
When recording an analog video / audio signal coming from outside, it can be output in the form of an MPEG bit stream via the digital interface terminal Dio, and when recording an MPEG bit stream coming from outside. Can output this in the form of an analog video / audio signal through an analog video / audio signal output path, which will be described later. When recording a DV bitstream coming from outside, the codec unit 30 performs decompression processing. The obtained digital video signal and the digital audio signal output from the codec unit 30 to the audio processing unit 16 can be output in the form of an analog video audio signal.
[0043]
Next, an operation for reproducing a digital signal recorded on the recording medium 22 will be described. The digital reproduction signal from the recording medium 22 is output to the reproduction processing unit 25 via the reproduction preamplifier 24, and the reproduction processing unit 25 performs reproduction signal detection processing such as waveform equalization and Viterbi decoding.
[0044]
The digital reproduction signal that has been processed by the reproduction processing unit 25 is subjected to error correction processing by the D-VHS signal processing unit 20, and an MPEG bit stream is extracted. The MPEG bit stream obtained in this way is output to the outside in the form of an MPEG bit stream via the interface ASIC 18, the digital interface 19, and the digital interface terminal Dio, and is also output to the codec unit 30.
[0045]
Here, the codec unit 30 has downloaded the microcode for performing the MPEG system decompression processing from the memory 31, and the codec unit 30 receives the MPEG video signal and the MPEG audio signal from the MPEG bit stream output from the interface ASIC 18. The MPEG video signal is decompressed to obtain a digital video signal, and the MPEG audio signal is output to the audio processing unit 16.
[0046]
The digital video signal from the codec unit 30 is further subjected to processing such as color signal modulation by the video processing unit 11, and the digital video signal output from the video processing unit 11 is converted to an analog video by the D / A converter 27. A signal converted into a signal is output from the video signal output terminal Vout. The D / A converter 27 is connected to a blue back output unit 32, and an analog video signal output from the video signal output terminal Vout is output from the video processing unit 11 or the blue back output unit 32 as described later. Either one is used.
[0047]
The MPEG audio signal output from the codec unit 16 is decompressed by the audio processing unit 16, converted to an analog audio signal by the D / A converter 28, and output from the audio signal output terminal Aout. In this way, a digital reproduction signal reproduced from the recording medium 22 can be output in the form of an MPEG bit stream or an analog video / audio signal.
[0048]
Each configuration described above is connected to the microcomputer 29 via a bus (not shown), and the microcomputer 29 controls each configuration. Similarly to the codec unit 30, the internal microcode of the audio processing unit 16 can be rewritten, and the function is switched by appropriately downloading the microcode from the memory 31.
[0049]
So far, the recording state in which the input signal is recorded on the recording medium 22 and the reproducing state in which the digital signal recorded on the recording medium 22 is reproduced have been described. In the digital signal recording / reproducing apparatus shown in FIG. There is a state in which the power is turned on and the recording / reproducing operation to the recording medium 22 is not performed although the input from the video / audio signal input terminal and the digital interface terminal Dio is accepted. Such a state is here a stop state, and the output of the recording amplifier 21 is turned off although each component operates in the same manner as the recording operation. That is, an incoming analog video / audio signal can be output in the form of an MPEG bit stream, or an incoming MPEG bit stream or DV bit stream can be output in the form of an analog video / audio signal.
[0050]
As described above, the digital signal reproduction apparatus according to the present invention operates differently depending on the operation state of the apparatus. The operation state of the device can be switched by the user transmitting a control signal through a remote control or the like. In the device that has received this control signal, an execution command corresponding to the control signal is issued, and the microcomputer 29 executes this execution. By detecting the command, each component is controlled.
[0051]
Also, as an example of when the microcode needs to be rewritten due to changes in the operating state of the device, when the input is switched from an analog video / audio signal to an MPEG bitstream, the MPEG bitstream is switched to an analog video / audio signal. A case where the DV bit stream is switched to the MPEG bit stream will be described below.
[0052]
FIG. 2 is a diagram showing the operation transition state of the main components when the input is switched from the analog video / audio signal to the MPEG bit stream. In FIG. 3 and FIG. Show. Here, it will be described how main components in the digital signal recording / reproducing apparatus are in a state with time.
[0053]
First, the digital interface 19 performs the switching operation and stops the output of the MPEG bit stream that has been output to the digital interface terminal Dio until then, and releases the band in the IEEE 1394 transmission line reserved for that purpose. Then, a band is secured to receive an MPEG bit stream transmitted from the outside, and a connection is established. In this way, when the incoming MPEG bit stream is ready to be received, the received MPEG bit stream is output to the interface ASIC 18.
[0054]
In addition, the interface ASIC 18 has prohibited input from the digital interface 19 until then, but permits the input at the timing of releasing the band in the IEEE 1394 transmission line and outputs the output to the digital interface 19 which has been turned off until then. Mute is turned on at the timing of releasing the band in the IEEE 1394 transmission line. Then, it waits for an MPEG bit stream from the digital interface 19.
[0055]
Further, the codec unit 30 stops the MPEG compression / encoding process so far, and starts downloading microcode for performing the MPEG decompression process from the memory 31. When the MPEG bit stream data is loaded into the codec unit 30 at the same time when the MPEG bit stream enters the interface ASIC 18, and then sufficient data is loaded to perform the decompression process, the MPEG decompression process is finished. The digital video signal is output.
[0056]
Further, the video processing unit 11 starts processing such as modulation of color signals and the like as the codec unit 30 starts outputting digital video signals, and starts outputting digital video signals after the signal processing. The video signal output terminal Vout prevents a noise from being output by outputting a blue-back video or a message such as “please wait for a while” immediately before the video signal processing unit 11 outputs a digital video signal. Then, the output of the analog video signal is started slightly after the output of the digital video signal of the video signal processing unit 11. In other words, during the period when the operation state of the apparatus is being changed, the D / A conversion unit 27 selects the input from the blue back output unit 32 to prevent the output of noise.
[0057]
The audio processing unit 16 stops the MPEG compression / encoding process so far and starts downloading microcode from the memory 31 for performing the MPEG decompression process. After that, the extension process of the MPEG system is started. Also, the audio signal output terminal Aout outputs an analog audio signal so that the mute is turned on at the same time as the switching operation is performed, and noise is not output when the mute is released when the MPEG bit stream comes in thereafter.
[0058]
Note that when switching the input from the analog video / audio signal to the DV bit stream, the operation is almost the same as in FIG. 2, but the microcode downloaded from the memory 31 to the codec unit 30 is the DV type decompression process and the MPEG type. This is different from the point that the codec unit 30 loads data from the interface ASIC 18 and simultaneously performs the DV type decompression process and the MPEG type compression encoding process.
[0059]
When the input is switched to the DV bit stream, the codec unit 30 outputs the MPEG bit stream that has been subjected to the MPEG compression encoding process to the interface ASIC 18 and outputs the digital video signal obtained by the DV expansion process. The codec unit 30 outputs the digital audio signal extracted from the DV bit stream to the audio processing unit 16.
[0060]
Next, the case where the input is switched from the MPEG bit stream to the analog video / audio signal will be described with reference to FIG. First, the digital interface 19 performs the switching operation, and at the same time, stops the input of the MPEG bit stream that has been input from the digital interface terminal Dio and releases the band in the IEEE 1394 transmission line reserved for that purpose. Then, a bandwidth is secured to transmit the MPEG bit stream to the outside, and a connection is established. In this way, when the MPEG bit stream is ready to be transmitted, the MPEG bit stream from the interface ASIC 18 is waited for and output to the outside.
[0061]
The interface ASIC 18 prohibits input from the digital interface 19 simultaneously with the switching operation. Until then, the mute of the output to the digital interface 19 has been turned on, but the mute is turned off at the timing of connection establishment in the IEEE 1394 transmission path.
[0062]
Further, the codec unit 30 stops the MPEG system decompression process so far, and starts downloading the microcode for performing the MPEG system compression encoding process from the memory 31. Then, since the output of the MPEG bit stream is started, when the connection is established at the digital interface 19, the MPEG bit stream is output to the outside.
[0063]
Also, the audio processing unit 16 stops the MPEG system decompression process so far, and starts downloading microcode for performing the MPEG system compression encoding process from the memory 31. Thereafter, MPEG compression encoding processing is started.
[0064]
Although not shown here, during the switching period of the operation state, a message such as a blue back or “please wait” may be output as an analog video signal. In this case, the switching operation is also performed. Since the input signal after switching can be immediately output later, the analog video signal from the video signal input terminal Vin may be output as it is from the video signal output terminal Vout through a path (not shown).
[0065]
When switching the input from the DV bit stream to the analog video / audio signal, the operation is almost the same as in FIG. 3 except that the codec unit 30 performs the DV system decompression processing and the MPEG system compression encoding. The process is shifted to a state where the microcode is downloaded after the process is stopped, and the operations of the codec unit 30 and the audio processing unit 16 at that time are also different.
[0066]
Next, the case where the input is switched from the DV bit stream to the MPEG bit stream will be described with reference to FIG. Here, a plurality of external devices are connected to the IEEE 1394 transmission path, and for example, a bit stream is output between the external device 1 that outputs a DV bit stream and the external device 2 that outputs an MPEG bit stream. Assume that the equipment has been switched.
[0067]
First, the digital interface 19 performs the switching operation and simultaneously stops the input of the DV bit stream coming from the digital interface terminal Dio, and releases the band in the IEEE 1394 transmission line reserved for that purpose. Then, a band is secured to receive the MPEG bit stream from the outside, and a connection is established. In this way, when the preparation for receiving the MPEG bit stream is completed, the MPEG bit stream from the outside is waited and output to the interface ASIC 18.
[0068]
The interface ASIC 18 prohibits input from the digital interface 19 at the same time as the switching operation, and permits input at the same time as the digital interface 19 outputs the MPEG bit stream. Until then, the mute of the output to the digital interface 19 has been turned on, but this state is maintained.
[0069]
Also, the codec unit 30 stops the DV system expansion process and the MPEG system compression encoding process so far, and starts downloading microcode from the memory 31 for performing the MPEG system expansion process. After that, the MPEG bit stream data is loaded from the interface ASIC 18, and when the data sufficient to perform the decompression process is loaded, the digital video signal after the completion of the MPEG decompression process is output.
[0070]
Further, the video processing unit 11 starts processing such as modulation of color signals and the like as the codec unit 30 starts outputting digital video signals, and starts outputting digital video signals after the signal processing. The video signal output terminal Vout prevents a noise from being output by outputting a blue-back video or a message such as “please wait for a while” immediately before the video signal processing unit 11 outputs a digital video signal. Then, the output of the analog video signal is started slightly after the output of the digital video signal of the video signal processing unit 11.
[0071]
Also, the audio processing unit 16 stops outputting the digital audio signal simultaneously with the switching operation, and starts downloading microcode for performing the MPEG system expansion processing from the memory 31. Then, the MPEG system expansion process is started. Also, the audio signal output terminal Aout performs the switching operation, and at the same time, the mute is turned on. After that, when the MPEG bit stream comes in, the output of the analog audio signal is started so as not to output noise at the time of mute release.
[0072]
Note that when switching the input from the MPEG bit stream to the DV bit stream, the operation is almost the same as in FIG. 4, but after the codec unit 30 stops the decompression process of the MPEG system, the decompression of the DV system from the memory 31 is performed. The difference is that the microcode for performing the processing and the compression encoding processing of the MPEG system is downloaded, and thereafter the decompression processing of the DV system and the compression encoding processing of the MPEG system are performed. Further, the codec unit 30 and the audio processing unit at that time 16 operations are also different.
[0073]
【The invention's effect】
According to the digital signal recording / reproducing apparatus of the present invention, by appropriately downloading the microcode from the microcode storage unit to the codec unit, compression coding processing, decompression processing, and bitstreams using different compression coding methods can be performed. The conversion can be performed without increasing the circuit scale of the device.
[0074]
In addition, video information from the codec is not output in the form of an analog signal during the microcode download period, so noise is output as an analog video signal when switching the operating state of the device that involves microcode rewriting. Can be prevented.
[Brief description of the drawings]
FIG. 1 is a diagram for explaining a digital signal recording / reproducing apparatus according to the present invention.
FIG. 2 is a diagram showing an operation transition state of main components when an input is switched from an analog video / audio signal to an MPEG bit stream.
FIG. 3 is a diagram showing an operation transition state of main components when an input is switched from an MPEG bit stream to an analog video / audio signal.
FIG. 4 is a diagram illustrating an operation transition state of main components when an input is switched from a DV bit stream to an MPEG bit stream.
FIG. 5 is a diagram for explaining a conventional digital signal recording / reproducing apparatus.
[Explanation of symbols]
10, 14 ... A / D converter
11 ... Video processing section
12, 15 ... switcher
13. MPEG encoder section
16 ... Audio processing section
17 ... Stream processing unit
18 ... Interface ASIC
19 ... Digital interface
20 ... D-VHS signal processing section
21 ... Recording amplifier
22. Recording medium
23 ... DV decoder
24. Playback preamplifier
25. Reproduction processing unit
26. MPEG decoder section
27, 28 ... D / A converter
29 ... Microcomputer
30 ... Codec section
31 ... Memory
32 ... Blue back output section
Dio ... Digital interface terminal
Vin ... Video signal input terminal
Vout: Video signal output terminal
Ain: Audio signal input terminal
Aout ... Audio signal output terminal

Claims (2)

An incoming bit stream in accordance with the first compression encoding scheme; an incoming bit stream in which the second compression encoding scheme is converted into a bit stream in accordance with the first compression encoding scheme; The analog signal to be recorded is recorded on a recording medium as a bit stream obtained by compressing and encoding the analog signal using the first compression encoding method, and a reproduction signal reproduced from the recording medium is recorded on the first compression encoding In a digital signal recording / reproducing apparatus capable of outputting in the form of a bit stream according to the system and the form of the analog signal,
A first conversion for converting a bit stream based on the second compression encoding method into a bit stream based on the first compression encoding method, and a digital signal obtained by subjecting the analog signal to A / D conversion processing. A codec capable of performing a second conversion for converting into a bit stream according to the first compression encoding method and a third conversion for converting the bit stream according to the first compression encoding method into the digital signal. And a microcode storage unit storing a plurality of microcodes corresponding to the first to third conversions,
A plurality of microcodes stored in the microcode storage unit are appropriately downloaded to the codec unit, and the codec unit and the microcode storage are performed so that the codec unit performs the first, second, or third conversion. A digital signal recording / reproducing apparatus comprising: a microcomputer for controlling the unit. Each of the bitstreams includes at least video information, and the video information from the codec unit is not output in the form of an analog signal during a period in which the microcode is downloaded from the microcode storage unit to the codec unit. 2. A digital signal recording / reproducing apparatus according to claim 1, wherein:

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