KR100215432B1 - Dvcr - Google Patents

Abstract

The present invention relates to a method and apparatus for allocating channels of audio data recorded in two audio channel sectors of a tape in a digital VCR. According to the present invention, since the channel assignment is made so that the left channel and the light channel of the audio signals for different sound sources can be recorded, the hardware configuration is simplified, and all the recorded sound sources are recorded even if the contents of one audio channel sector are deleted during editing. Provides the effect of reproducing the signal.

Description

Audio channel allocation method and device therefor in digital VCR

1 is a conceptual diagram illustrating an audio channel allocation method of a conventional digital VCR.

2 is a block diagram showing an audio channel assignment apparatus of a digital VCR according to a preferred embodiment of the present invention.

3 is a conceptual diagram illustrating an audio channel allocation method of a digital VCR according to the present invention.

Explanation of symbols for main parts of the drawings

11, 21: microphone 12, 22: A / D converter

13, 23: bit converting section 30: audio channel assignment means

31: Signal generator 32, 33: Left, right channel selector

34, 35: left, light channel allocation unit

The present invention relates to audio channel assignment for recording audio data in a digital VCR. More particularly, the present invention relates to a digital VCR for allocating an audio channel so as to reproduce all sound sources recorded before editing even if only some channels are selected and edited. An audio channel allocation method and apparatus therefor.

In general, when recording multiple sound sources such as piano, drums, and voice on a recording medium, tape, the left (L) channel and the right (R) channel for the sound source in the audio channel sector allocated to the tape. Audio data is recorded as shown in FIG.

1 is a conceptual diagram illustrating an audio channel allocation method of a conventional digital VCR. As shown, in the case of the 250/60 system according to the NTSC system having 10 tracks as one frame, an audio channel sector which is a recording channel of audio data synchronized with the video of the frame is provided as a pair of CH1 and CH2. The audio channel sector has a structure in which 5 tracks from track 0 to track 4 are CH1, and 5 tracks from track 5 to track 9 are CH2. Here, two audio channels (left channel, light channel) for each sound source are recorded in each of the audio channel sectors of CH1 and CH2. That is, when recording 4-channel audio data in the audio channel sector at a sampling frequency of 32 kHz, the left and right channel sample data represented by 16 bits (L ₁ , R ₁ , L ₂ , and R ₂ ) are converted into 12 bits, respectively. do. The left and right channel sample data (L ₁ , L ₁ , L ₂ , and R ₂ ) converted into 12 bits are recorded in the audio channel sector according to the channel allocation standard. Here, in the audio channel sector corresponding to CH1, the upper 8 bits of the left channel and the right channel sample data (L ₁ ) of the left and right channel sample data (L ₁ and R ₁ ) of 12 bits of one sound source, respectively. , R ₁ ) and the sample data (L ₁ + R ₁ ) of the 8-bit left channel and the write channel, which are combined with the remaining 4 bits, are recorded. Audio channel sector for the CH2, the sample data of 12-bit left channel and a right channel for the other source (L _2, R ₂₎ sample data of each of the upper 8 bits of the left channel and the right channel (L _2, R ₂ ) And 8-bit left channel and write channel sample data (L ₁ + R ₁ ), which are combined with the remaining 4 bits, are recorded.

However, there is a problem in that the amount of hardware is increased in order to make a structure in which the audio data of the left channel and the right channel which are continuously generated are combined together. In addition, conventionally, audio data for one sound source is recorded in one audio channel sector CH1. When audio data of another sound source is recorded and edited in the audio channel sector CH1, the audio data is recorded in advance in the audio channel sector CH1. There was a problem that the sound source was deleted and can not play the sound source.

Accordingly, an object of the present invention is to record audio data of the same channel for two sound sources in each audio channel sector while reducing the amount of hardware, so that audio data of another sound source can be recorded in one audio channel sector. The present invention provides an audio channel assignment method for audio data that can be reproduced for both sound sources by audio data recorded in a sector.

Another object of the present invention is to provide an apparatus for implementing the audio channel allocation method of the digital VCR presented above.

The audio channel assignment method of the digital VCR according to the present invention for achieving the above object is to the audio channel assignment method for recording audio data in a digital VCR having audio channel sectors of CH1 and CH2 in a track forming one frame. The method may include bit-converting and outputting audio data of left and right channels respectively generated from a plurality of sound sources; And assigning audio data of the bit-converted left channel to one of the audio channel sectors of the CH1 and CH2 according to a channel allocation standard, and assigning audio data of the bit-converted light channel to the rest of the audio channel sectors of the CH1 and CH2. Characterized in that the step consisting of assigning to one.

An audio channel assignment apparatus for a digital VCR according to the present invention for achieving another object of the present invention is to assign an audio channel for recording audio data in a digital VCR having audio channel sectors of CH1 and CH2 in a track forming one frame. An apparatus comprising: a first bit converter for compressing and bit-converting audio data of left and right channels generated from a first sound source; A second bit converter for compressing and bit-converting audio data of left and right channels generated from the second sound source; And assigning audio data of a left channel bit-converted by the first and second bit converters to one of the audio channel sectors of CH1 and CH2 according to a channel allocation standard, respectively, And audio channel assignment means for allocating the audio data of the light channel bit-converted by the two-bit converter to the other one of the audio channel sectors of the CH1 and the CH2.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing an audio channel assignment apparatus of a digital VCR according to the present invention. As shown, the apparatus of the present invention is a first A for analog digital conversion of the left and right channel audio signals L ₁ , R ₁ input from one sound source through a first microphone (MIC1) 11. Second A / D converter for analog-digital converting the audio signals L ₂ and R ₂ of the left and right channels input from other sound sources through the / D converter 12 and the second microphone MIC2 21. (22) is provided. The first A / D converter 12 and the second A / D converter 22 each include a first bit converter 13 and a second bit converter 23 for converting the number of bits of digitally converted audio data. Correspondingly connected. The first bit converting unit 13 and the second bit converting unit 23 may include a first sound source and a second sound source represented by bits converted from the first bit converting unit 13 and the second bit converting unit 23. Audio channel assignment means (30) for receiving audio data of each left and right channel and allocating audio channels according to channel assignment standards by control means (not shown) so that audio data for the same channel is recorded in each audio channel sector. Is connected. The audio channel assignment means 30 is provided by a signal generator 31 for generating signals of high and low levels in a very short period and by the high and low level signals of the signal generator 31. The left channel selector 32 for selecting audio data of the left channel from the audio data of the first bit converter 13 and the second bit converter 23 and the write channel selector 33 for selecting audio data of the right channel. And the left channel assignment unit 34 and the right channel selection unit 33 receiving the left channel audio data from the left channel selection unit 32 and assigning them to the audio channel sector of CH1 according to the channel allocation standard. And a write channel allocator 35 for receiving CH2 audio data and assigning the audio data to the audio channel sector according to the channel allocation standard.

Operation of the audio channel device of the digital VCR according to the present invention configured as described above will be described in more detail with reference to FIG.

3 is a conceptual diagram illustrating an audio channel allocation method of a digital VCR according to the present invention.

A microphone (MIC), which is a device for converting a sound, ie, a change in air pressure, into an electrical signal, can generally receive two channel audio data of left (L) and light (R) at the same time. Thus, by using two microphones, audio data of four channels can be collected and properly allocated to two audio channel sectors of a tape and recorded.

To this end, firstly, the first A / D converter 12 of FIG. 2 has the left and right channels generated from the first sound source through the first microphone MIC1 11 to simultaneously output audio data L ₁ and R ₁ . Receive input. The second A / D converter 22 simultaneously receives the left and right channel audio data L ₂ and R ₂ generated from the second sound source through the second microphone MIC2 21. The first A / D converter 12 converts the audio data L ₁ and R ₁ of the left and right channels to be converted into 16-bit sample data by analog digital conversion. The second A / D converter 22 converts the audio data L ₂ and R ₂ of the left and right channels to be analog-digital converted into 16-bit sample data. The left and right channel audio data L ₁ and R ₁ converted into 16-bit sample data are input to the first bit converting unit 13 and the left and right channel audio data are converted into 16-bit sample data. (L ₂ , R ₂ ) is input to the first bit converter 23. The first bit converting unit 13 converts the left and right channel audio data L ₁ and R ₁ of the 16-bit sample into 12 bits and performs bit conversion, and the second bit converting unit 23 inputs 16 The left bit of the bit sample and the audio data L ₂ and R ₂ of the right channel are compressed into 12 bits to be bit-converted. The audio channel assignment means 30 receives the bit-converted audio data L1, R1, L2, and R2 from the first and second bit converters 13 and 23, and provides audio data for the same channel in each audio channel sector. The audio channel is allocated by the control means, not shown, to be recorded and output to CH1 and CH2.

In other words, the left channel selector 32 and the write channel selector 33 of the audio channel assignment means 30 are audio data L1, R1, L2 which are bit-converted from the first and second bit converters 13, 23. , R2) is input, and the signal generator 31 generates high and low level signals of a very short period and outputs them to the left channel selector 32 and the write channel selector 33. Thus, the left channel selector 32 selects the left channel audio data L1 and L2 from the audio data input when the high level signal is applied from the signal generator 31 and the left channel assignor 34 The light channel selector 33 selects the audio data R1 and R2 of the light channel from the audio data input when the low level signal is applied from the signal generator 31, and selects the light channel assigning unit ( 35). Glucose (34) to a left channel audio data (L1, L2) of the received left channel to the third degree in a form of audio data (L _1), the 12 bits to be written to the audio channel sector of CH1 to as shown in The upper 8 bits, the upper 8 bits of the 12 bits of audio data (L ₂ ), and the 8 bits of sample data of the remaining 4 bits of the two audio data (L ₁ , L ₁ ) are sequentially added to the audio channel sector of CH1. Assign. The write channel assignment unit 35 also operates in the same way as the left channel assignment unit 34. That is, the write channel assignment unit 35 uses the 12-bit audio data R ₁ so that the audio data R1 and R2 of the write channel are recorded in the audio channel sector of CH2 in the form as shown in FIG. The upper 8 bits, the upper 8 bits of the 12 bits of audio data (R ₂ ), and the 8 bits of sample data of the remaining 4 bits of the two audio data (L ₁ , R ₂ ) are sequentially added to the audio channel sector of CH2. Assign.

In this way, audio data sectors L1 and L2 of left channels for two sound sources are allocated and recorded in the audio channel sectors of CH1, and audio data R1 and R2 of light channels for two sound sources are allocated to the audio channel sectors of CH2. Are recorded. In general, audio data of left and right channels of a sound source is almost the same (L1 ≒ R1, L2 ≒ R2), so that audio data of both sound sources are recorded in the audio channel sectors of CH1 and CH2. Therefore, even if the audio data of the third sound source is recorded in the audio channel sector of CH1, the two sound sources can be reproduced using the audio data recorded in the audio channel sector of CH2, and at the same time, the third sound source recorded in the audio channel sector of CH1. Audio data for can also be played. As a result, audio data for three sound sources can be reproduced.

As described above, the present invention relates to an audio channel assignment method and apparatus for a digital VCR, and the same channel is directly assigned to the audio channel assignment so that audio data of left or right channels of different sound sources is recorded in one audio channel sector. It is possible to create a structure that combines the audio data of simplifies the hardware configuration, and since audio data of all sound sources are recorded in one audio channel sector, it is possible to play all the sound sources even by selecting and editing only one audio channel sector. Has an effect.

Claims (8)

An audio channel assignment method for recording audio data in a digital VCR having audio channel sectors of CH1 and CH2 in a track forming one frame, wherein the audio data of left and right channels respectively generated from a plurality of sound sources is beated. Converting and outputting; And assigning audio data of the bit-converted left channel to one of the audio channel sectors of the CH1 and CH2 according to a channel allocation standard, and assigning audio data of the bit-converted light channel to the rest of the audio channel sectors of the CH1 and CH2. An audio channel allocation method of a digital VCR having a second step of allocating to one. According to claim 1, The channel assignment standard is a predetermined bit of the left channel audio data generated from a different sound source from a predetermined bit left channel audio data generated from one of the plurality of sound sources And a predetermined bit of audio data obtained by combining the remaining lower bits of the two left channel audio data is allocated to one audio channel sector. According to claim 1, The channel assignment standard is a predetermined bit of the left channel audio data generated from a different sound source from a predetermined bit left channel audio data generated from one of the plurality of sound sources And a predetermined bit of audio data obtained by combining the remaining lower bits of the two left channel audio data is allocated to one audio channel sector. An audio channel assignment apparatus for recording audio data in a digital VCR having audio channel sectors of CH1 and CH2 in a track forming one frame, comprising: compressing audio data of left and right channels generated from a first sound source A first bit converter for converting; A second bit converter for compressing and bit-converting audio data of left and right channels generated from the second sound source; And assigning audio data of the left channel bit-converted by the first bit converting unit and the second bit converting unit to one of the audio channel sectors of CH1 and CH2 according to a channel allocation standard. And audio channel assignment means for allocating audio data of the light channel bit-converted by the two-bit converter to the other one of the audio channel sectors of CH1 and CH2. The method of claim 1, wherein the second step comprises: generating and outputting a high and low level signal of a very short period; When one of the two signals is selected, audio data of one channel among the audio data of the bit-converted left channel and the audio data of the right channel are selected and output, and the audio of another channel not selected is the other signal. Selecting and outputting data; And allocating the audio days of the two channels selected and output to each of the audio channel sectors of the CH1 and the CH2 according to a channel allocation standard. 5. The apparatus of claim 4, wherein the audio channel assignment means comprises: a signal generator for generating and outputting a high and low level signal of a very short period; When the output signal of the signal generator receives one of the two signals, the audio data of one channel of the audio data of the bit-converted left channel and the light channel is selected and output, and the other signal is output. A channel selector which selects, outputs and outputs audio data of another channel not selected; And a channel allocator for allocating audio days of two channels selected and output by the channel selector to each of the audio channel sectors of CH1 and CH2 according to a channel allocation standard. The channel assignment specification of claim 4 or 6, wherein the channel allocation standard includes a predetermined bit of left channel audio data generated from one sound source among a plurality of sound sources. And a predetermined bit of audio data obtained by combining the upper predetermined bit of the first bit and the remaining lower bits of the two left channel audio data is allocated to one audio channel sector. The method of claim 4 or 6, wherein the channel allocation standard is a constant bit of light channel audio data generated from one sound source among a plurality of sound sources. The audio channel assignment apparatus of the digital VCR, characterized in that audio data of a predetermined bit obtained by adding the upper predetermined bit of the first bit and the remaining lower bits of the two right channel audio data are allocated to different audio channel sectors.