JP3594186B2 - Video tape recorder - Google Patents

Description

[0001]
【table of contents】
The present invention will be described in the following order.
Means for solving the problems to be solved by the conventional technical invention (FIG. 1)
Action (Figure 1)
Example (1) Recording system (FIGS. 1 to 5)
(2) Reproduction system (Fig. 1)
(3) Recording by connecting video (FIGS. 1, 6 to 10)
(4) Effects of Embodiment (5) Effects of Other Embodiments
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a video tape recorder, and in particular, is suitably applied to a video tape recorder that converts a video signal into a digital signal and records and reproduces it.
[0003]
[Prior art]
2. Description of the Related Art Conventionally, some video tape recorders convert a video signal into a digital signal (hereinafter, referred to as a digital video signal) and perform recording and reproduction.
[0004]
In other words, in digital video signals, even if signal processing is repeated, image quality degradation can be prevented beforehand. Even if dubbing is repeated many times using a combination of error correction processing, etc., image quality degradation of reproduced images is prevented beforehand. can do.
[0005]
On the other hand, when recording a digital video signal, the amount of information is larger than when recording a video signal in the form of an analog signal. Therefore, in this type of video tape recorder, a digital video signal is recorded by applying a segment recording technique.
[0006]
Here, segment recording is a recording method in which a digital video signal for one field is allocated to a plurality of recording tracks and recorded, and is applied to prevent an increase in the amount of information per recording track. For this segment recording, in this type of video tape recorder, a rotating drum is configured such that a plurality of magnetic heads scan a recording track almost simultaneously, whereby a digital video signal for one field is rotated half a turn. Alternatively, recording is performed in a cycle of one rotation.
[0007]
If a digital video signal for one field is recorded in a cycle of half rotation or one rotation of the rotating drum, the operation mode is switched from the reproduction mode to the recording mode in synchronization with the rotation of the rotating drum even in the case of segment recording. This allows for smooth splicing and recording.
[0008]
[Problems to be solved by the invention]
However, this method has a disadvantage that the number of magnetic heads mounted on the rotating drum increases, and the structure of the rotating drum becomes correspondingly complicated.
[0009]
One way to solve this problem is to increase the rotation speed of the rotating drum, thereby forming a recording track repeatedly using the same magnetic head during one field period.
[0010]
However, in this method, if the operation mode is switched in synchronization with the rotation of the rotating drum as in the conventional method, the operation mode may be switched in the middle of a segment, and in this case, it is difficult to smoothly connect and record. become.
[0011]
Further, in the case of segment recording in this manner, if the standard television system video signal and the high-definition television system video signal can be recorded, the number of recording tracks to be segment-recorded can be reduced by the standard television system video signal. And a high-definition television system video signal. In this case as well, switching the operation mode in synchronization with the rotation of the rotating drum makes it difficult to smoothly connect and record between the standard television system video signal and the high-definition television system video signal. Become.
[0012]
The present invention has been made in view of the above points, and it is an object of the present invention to propose a video tape recorder that can smoothly connect and record in segment recording.
[0013]
[Means for Solving the Problems]
In order to solve this problem, in the first invention, a recording signal S _REC is formed by performing digital signal processing on a video signal SV in a predetermined signal processing unit to generate a recording signal S _REC. When the video signal SV is recorded in the video tape recorder 1 that records segments of the video signal SV in TA, TB,..., The video signal SV is recorded with the first identification data ID that is switched in units of signal processing. Then, the tape running speed and the signal processing unit are switched according to the long-time recording mode and the standard recording mode, and the second identification data ID for identifying the recording mode is added together with the first identification data ID to generate the video signal SV. Recording is performed in the recording tracks TA, TB,....
[0014]
Further, in the second invention, the video signal SV is a video signal of a standard television system or a high-definition television system, and the third identification data for identifying the video signals of the standard television system and the high-definition television system. The video signal SV is recorded in the recording tracks TA, TB,... Together with the ID together with the first identification data ID.
[0015]
Further, in the third invention, the tape traveling speed is switched according to the recording mode and the television system.
[0016]
[Action]
If the mode is switched from the reproduction mode to the recording mode based on the identification data ID which is switched in the unit of signal processing, the recording can be reliably started at the break of the unit of signal processing, so that the seamless recording can be performed. . At this time, if the second identification data ID for identifying the recording mode is also used as a reference, it is possible to smoothly connect and record even if the recording mode is different.
[0017]
Furthermore, if the standard identification video signal SV and the third identification data ID for identifying the high-definition television system video signal SV are used as a reference, the standard television system video signal SV and the high-definition television system can be used. Video signals SV can be smoothly connected and recorded.
[0018]
【Example】
An embodiment of the present invention will be described below in detail with reference to the drawings.
[0019]
(1) Recording system In FIG. 1, reference numeral 1 denotes a video tape recorder as a whole, which records and reproduces a digital video signal by applying a segment recording technique.
[0020]
Therefore, in the video tape recorder 1, after the video signal SV is converted into the recording signal S _REC by the recording signal generation circuit 2, the recording signal S _REC is transmitted to the magnetic heads 7A to 7D via the amplification circuit 4 and the selection circuit 6. Output. At this time, the recording signal generation circuit 2 switches the unit of signal processing (hereinafter, referred to as a signal processing unit) according to the type of the video signal SV and the recording mode, so that the digital video signal can be efficiently recorded as necessary. It has been done.
[0021]
That is, when recording a standard television system video signal in the standard recording mode, the recording signal generation circuit 2 sets the signal processing unit to the field unit of the video signal SV. As a result, the recording signal generation circuit 2 converts the standard television video signal SV into a digital signal, and then performs data compression processing and shuffling processing in units of fields.
[0022]
Further, the recording signal generation circuit 2 divides the shuffled digital signal for one field into five blocks (hereinafter, referred to as sync blocks), and divides each sync block into each of the recording tracks TA, TB,... As shown in FIG. (FIGS. 2 (A) and 2 (B)). At this time, an error correction code P is added to each sync block and output (FIG. 2 (C)). Further, the recording signal generation circuit 2 adds a sync pattern to the head of each sync block, and then adds a predetermined identification data ID and outputs the data.
[0023]
Here, in the video tape recorder 1, two sets of magnetic heads 7A to 7D having positive and negative azimuth angles are arranged on the rotating drum D at an angular interval of 180 degrees, and a video signal of a standard television system is recorded in a standard recording mode. When recording is performed by using the magnetic heads 7A and 7B, a recording track is formed by selectively using a set of the magnetic heads 7A and 7B arranged at an angular interval of 180 degrees. That is, in the video tape recorder 1, the recording signal S _REC is output to the magnetic heads 7A and 7B at the timing when the pair of magnetic heads 7A and 7B scan the magnetic tape T, respectively.
[0024]
As a result, as shown in FIG. 3, in the video tape recorder 1, when recording the video signal of the standard television system in the standard recording mode, the video signal of one field is allocated to 5 tracks for each sync block and the segment is recorded. (In this case, one frame of the video signal is allocated to 10 tracks) (FIGS. 3A and 3B).
[0025]
On the other hand, when recording a video signal of the standard television system in the long-time recording mode, the recording signal generation circuit 2 switches the signal processing unit to the frame unit. That is, in the data compression processing, data compression can be performed more efficiently as a whole when processing is performed in units of frames than when processing is performed in units of fields.
[0026]
For this reason, the recording signal generation circuit 2 performs a data compression process and a shuffling process on a frame basis, and subsequently forms a sync block.
[0027]
At this time, the recording signal generating circuit 2 divides the digital signal for one frame into five sync blocks and adds a sync pattern, identification data ID, and parity code P. In contrast, the video tape recorder 1 uses a standard television. The running speed of the magnetic tape is reduced to half of that in the case where the video signal of the Jyon system is recorded in the standard recording mode.
[0028]
Further, in the video tape recorder 1, a recording track is formed by selectively using one set of magnetic heads 7A and 7B arranged at an angular interval of 180 degrees among the two sets of magnetic heads 7A to 7D. As a result, as shown in FIG. 4, in the video tape recorder 1, when recording a video signal of the standard television system in the long-time recording mode, the video signal of one frame is allocated to five tracks for each sync block. Record.
[0029]
On the other hand, when a high-definition television system video signal is recorded in the standard recording mode, the recording signal generation circuit 2 switches the signal processing unit to the field unit of the video signal SV and compresses and shuffles the data in units of one field. I do. Further, the recording signal generation circuit 2 divides the data in units of one field into ten sync blocks, and adds a sync pattern, identification data ID, and parity code P.
[0030]
In addition, the video tape recorder 1 controls the running speed of the magnetic tape by two times when recording a high-definition television system video signal in the standard recording mode, as compared with recording a standard television system video signal in the standard mode. At the same time, the recording signal S _REC is supplied to the two sets of magnetic heads 7A to 7D to form a recording track.
[0031]
As a result, as shown in FIG. 5, in the video tape recorder 1, when a high-definition television system video signal is recorded in the standard recording mode, a digital video signal for one frame is segment-recorded in 20 tracks in sync block units. I do.
[0032]
On the other hand, when a high-definition television system video signal is recorded in the long-time recording mode, the recording signal generation circuit 2 generates the recording signal S _REC by setting the signal processing unit to the frame unit. The video tape recorder 1 controls a magnetic tape running system and the like in the same manner as when a standard television video signal is recorded in the standard recording mode, thereby converting a digital video signal for one frame into a predetermined sync block unit. To record the segment.
[0033]
Further, when the digital video signal is segment-recorded on a sync block basis in this manner, the recording signal generation circuit 2 switches and records a frame ID, a track ID, and a video ID as the identification data ID, thereby recording the identification data ID. Upon detection, the operation mode of the reproduction signal processing circuit 12 is switched as needed, and smooth connection and recording can be performed.
[0034]
Here, the frame ID changes sequentially and cyclically within a predetermined value range, and this value is updated for each signal processing unit, whereas the track ID is sequentially changed for each sync block in the signal processing unit. The value is updated so that the video ID can identify the type and recording mode of the digital video signal.
[0035]
(2) In the reproducing system reproducing system contrast, video tape recorder 1, by switching the contacts of the selection circuit 6, after amplifying the reproduced signal S _PB output from the magnetic head 7A~7D by the amplifier circuit 8 The frequency characteristics and the like are corrected by the pre-processing circuit 10. The reproduction signal processing circuit 12 receives the reproduction signal _SPB processed by the preprocessing circuit 10, detects the video ID, processes the reproduction signal according to the video ID, and thereby demodulates the digital video signal SV. Output.
[0036]
Thus, the video tape recorder 1 can record and reproduce various video signals in the form of digital signals.
[0037]
(3) Splicing recording In splicing recording on the magnetic tape T segment-recorded in this manner, if the operation mode is switched from the playback mode to the recording mode simply in synchronization with the rotation of the rotating drum, FIG. As shown, when the video signal of the standard television system is recorded in the standard recording mode, the recording mode may be switched from the middle P of the X + 1 field which is one recording unit to the recording mode. In this case, the remaining three tracks of the X + 1 field are used. Minute data is overwritten. For this reason, in the X + 1 field, the digital video signal cannot be correctly reproduced, and the splicing and recording cannot be performed smoothly.
[0038]
On the other hand, as shown in FIG. 7, even when a high-definition television system video signal is recorded in the standard recording mode, the recording mode may be switched from the middle P of the X + 1 field to the recording mode in the same manner. The remaining data in the X + 1 field is overwritten, making it impossible to smoothly connect and record.
[0039]
For this reason, in the present embodiment, the operation mode is switched based on the video ID, the field ID, and the track ID, so that the seamless recording can be performed.
[0040]
That is, in the video tape recorder 1, the processing procedure shown in FIG. 8 is executed in the splicing recording, whereby the splicing recording is smoothly performed. Here, in the video tape recorder 1, the process proceeds from step SP1 to step SP2, and when the user turns on a recording start operation, a recording start command is fetched into a system control circuit (not shown), and then a step SP3 is executed. Move on.
[0041]
Further, the system control circuit switches the whole operation to the rewind operation mode and rewinds the magnetic tape by a few tracks, and then proceeds to step SP4 to switch the whole operation to the reproduction mode. Accordingly, in the video tape recorder 1, when performing the splicing recording, the magnetic tape is rewound, the phase servo of the magnetic tape traveling system is started, and then the recording mode is switched.
[0042]
In the video tape recorder 1 this time, followed by proceeds to step SP5, gives a reproduction signal _{S PB} output from the pre-processing circuit 10 field ID detecting circuit 20, a track ID detecting circuit 22 and a video ID detecting circuit 24, wherein Detects a field ID, a track ID, and a video ID, respectively.
[0043]
As shown in FIG. 9, when a video signal of the standard television system is spliced and recorded on a magnetic tape recorded in the standard recording mode, in the video tape recorder 1, the signal level is synchronized with the rotation of the rotating drum D. The reproduced signal S _RF (FIG. 9B) is obtained from the magnetic heads 7A and 7B in synchronization with the switching pulse signal SWP (FIG. 9A) at which the video ID and the track ID are switched. Is detected (FIGS. 9C and 9D).
[0044]
Here, the symbol SD indicates that a video signal of the standard television system has been recorded in the standard recording mode, and consecutive numbers indicate the track ID.
[0045]
When the video ID detection circuit 24 detects the video ID, it outputs the detection result to the track ID detection circuit 22. The track ID detection circuit 22 sequentially detects the track ID based on the detection result, thereby performing standard recording. When a standard television system video signal recorded in the mode is reproduced, a frame pulse FP1 (FIG. 9 (E)) whose signal level switches in synchronization with the signal processing unit of the video signal is generated in five track cycles. On the other hand, the field ID detection circuit 20 detects the field ID and generates a frame pulse FP2 whose signal level switches in units of signal processing.
[0046]
The OR circuit 25 receives the first and second field pulses FP1 and FP2 output from the field ID detection circuit 20 and the track ID detection circuit 22, thereby outputting a switching signal whose signal level rises at a break between signal processing units. I do.
[0047]
When the signal level of this switching signal rises after the recording mode switching signal SW rises after the recording mode switching signal SW rises, the flip-flop circuit 26 switches the signal level in synchronization with the rise of this switching signal (FIG. 9 (F)). To switch the contact of the selection circuit 6 from the reproducing side to the recording side. Thus, in the video tape recorder 1, a field pulse is generated in step SP6 based on the field ID, track ID and video ID detected in step SP5, and the whole operation is switched from the reproduction mode to the recording mode at the break of the signal processing unit. Switch to. Thus, the video tape recorder 1 converts the sequentially input video signal SV into a digital signal and records it, and then proceeds to step SP7 to end this processing procedure.
[0048]
Thus, at the time of segment recording, the entire operation mode is switched to the reproduction mode, the field ID, the track ID, and the video ID are detected. Based on the detection result, the mode is switched to the recording mode at the break of the signal processing unit, thereby performing the signal processing. A recording track can be surely formed for each unit, so that a video signal of a standard television system recorded in a standard recording mode can be smoothly connected and recorded (FIG. 9 (G)).
[0049]
When the recording mode is switched, the video tape recorder 1 switches the running speed of the magnetic tape in accordance with the recording mode based on a control signal output from the system control circuit. A desired video signal is recorded in a desired recording format on a magnetic tape on which a video signal of a system is recorded.
[0050]
On the other hand, when connecting and recording a magnetic tape on which a video signal of the standard television system has been recorded in the long-time recording mode, the track ID detecting circuit 22 uses the video ID detected by the video ID detecting circuit 24 to record. Similarly, a field pulse FP1 that is switched in units of signal processing is generated, and a field pulse FP2 is detected by the field ID detection circuit 20, so that a seamless connection and recording can be similarly performed.
[0051]
On the other hand, when connecting and recording a magnetic tape on which a high-definition television system video signal is recorded in the standard recording mode, as shown in FIG. 10, a switching pulse signal SWP and a reproduction signal S _RF (FIG. 10A ) And (B)), a video ID (FIG. 10C) representing the high-definition television system and the standard recording mode is detected. In this case, the track ID (FIG. 10D )) Is detected.
[0052]
As a result, the video tape recorder 1 raises the signal level of the switching signal SEL (FIG. 10 (E)) at the break of the track ID corresponding to the break of the signal processing unit, thereby converting the video signal of the high-definition television system. Even a magnetic tape recorded in the standard recording mode can be smoothly connected and recorded.
[0053]
Further, when connecting and recording a magnetic tape on which a high-definition television system video signal is recorded in a long-time recording mode, the video tape recorder 1 similarly performs a signal processing unit according to a video ID, a track ID, and a frame ID. The operation mode can be switched at the break, so that the seamless recording can be performed.
[0054]
When the operation mode is switched, the video tape recorder 1 supplies the frame pulse FP2 generated from the frame ID and the frame pulse FP1 generated from the video ID and the track ID to the OR circuit 25, and outputs the output signal of the OR circuit 25. By switching the operation mode based on the operation mode, even if any of the identification signals cannot be detected, the operation mode can be surely switched, whereby the break of the signal processing unit can be reliably detected and the seamless shooting can be performed. Can be recorded.
[0055]
(4) Effects of the Embodiment According to the above-described configuration, when video signals of the standard television system and the high-definition television system are segment-recorded in different recording formats, identification data is added to each recording track and recorded. At the time of reproduction, after the magnetic tape is rewound and switched to the reproduction mode, a break of the signal processing unit is detected based on the identification data, and the mode is switched to the recording mode at the break, so that the break of the signal processing unit can be surely performed. The operation mode can be switched, so that the seamless recording can be performed.
[0056]
(5) Other Embodiments In the above-described embodiments, a case has been described in which a frame pulse is generated based on a track ID and a video ID in addition to a field ID. However, the present invention is not limited to this, and may be modified as necessary. The operation mode may be switched using one of the frame pulses.
[0057]
Further, in the above-described embodiment, the case where video signals of the standard television system and the high-definition television system are recorded and reproduced has been described. However, the present invention is not limited to this, and is widely applicable to the case of recording and reproducing various video signals. Can be applied.
[0058]
Further, in the above-described embodiment, the case where the signal processing unit is switched between the long-time recording mode and the standard recording mode has been described. However, the present invention is not limited to this, and the recording track forming speed can be changed without switching the signal processing unit. Can be widely applied to the case where the recording time is switched by switching the.
[0059]
【The invention's effect】
As described above, according to the present invention, the first identification data for identifying the signal processing unit, the second identification data ID for identifying the recording mode, and the third identification data for identifying the video signal system are used for the video. At the start of recording, the magnetic tape is rewound to switch to the playback mode, and after switching to the playback mode, the switching from the playback mode to the recording mode is performed at the break of the signal processing unit based on the identification data. In addition, it is possible to obtain a video tape recorder that can switch the operation mode at the break of the signal processing unit and can smoothly connect and record even when the recording mode and the video signal system are different.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a video tape recorder according to one embodiment of the present invention.
FIG. 2 is a schematic diagram showing the sink block.
FIG. 3 is a schematic diagram for explaining an operation when a video signal of a standard television system is recorded in a standard recording mode.
FIG. 4 is a schematic diagram for explaining an operation when a video signal of a standard television system is recorded in a long-time recording mode.
FIG. 5 is a schematic diagram for explaining an operation when recording a video signal of a high-definition television system in a standard recording mode.
FIG. 6 is a schematic diagram for explaining a splicing recording when a video signal of a standard television system is recorded in a standard recording mode.
FIG. 7 is a schematic diagram for explaining a splicing recording when a high-definition television system video signal is recorded in a standard recording mode.
FIG. 8 is a flowchart for explaining the operation of the splicing recording.
FIG. 9 is a schematic diagram for explaining an operation when a video signal of a standard television system is connected to a magnetic tape recorded in a standard recording mode for recording.
FIG. 10 is a schematic diagram for explaining an operation in a case where a video signal of a high-definition television system is connected to a magnetic tape recorded in a standard recording mode, and recording is performed.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Video tape recorder, 2 ... Recording signal generation circuit, 6 ... Selection circuit, 12 ... Reproduction signal processing circuit, 20 ... Field ID detection circuit, 22 ... Track ID detection circuit, 24 ... Video ID Detection circuit.

Claims (3)

A video signal is subjected to digital signal processing in a predetermined signal processing unit to generate a recording signal, the recording signal for the signal processing unit is divided into a plurality of blocks, and the recording signal of each of the divided blocks is divided into a plurality of recording tracks. By sequentially recording at different timings while allocating, in a video tape recorder for segment-recording the video signal on a recording track formed diagonally on a magnetic tape,
When the video signal is recorded, the video signal is recorded on the recording track with the first identification data switched in the signal processing unit ,
Switching the tape running speed and the signal processing unit according to the long recording mode and the standard recording mode,
A video tape recorder, wherein the video signal is recorded on the recording track by attaching second identification data for identifying the recording mode together with the first identification data . The video signal is a video signal of a standard television system or a high-definition television system, and the third identification data for identifying the video signal of the standard television system and the high-definition television system is the first video signal. 2. The video tape recorder according to claim 1, wherein said video signal is recorded on said recording track together with said identification data. The video tape recorder according to claim 2 , wherein the tape running speed is switched according to the recording mode and the television system .

Images