JP2004253098A - Magnetic recording and reproducing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a magnetic recording and reproducing device switching the recording mode in accordance with the kind of a tape and performing recording and reproducing of an input digital signal. <P>SOLUTION: This device is provided with a first recording mode for discriminating a tape at the time of recording a digital signal and driving a magnetic tape being excellent in a standard electric property with a reference first running speed, and a second recording mode for driving a magnetic tape being inferior in electric property with a second running speed being (n) times of the first running speed and performing digital recording using rotary heads of the number of pieces of (n) times of the first recording mode with a recording rate of 1/n of the first recording mode. At the time of reproducing, a signal recorded in the magnetic tape is reproduced based on a tape discrimination result and an information signal reproduced from the magnetic tape. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a magnetic recording / reproducing apparatus, and more particularly to a magnetic recording / reproducing apparatus for recording / reproducing an input digital signal using a rotary head, and a magnetic recording for recording / reproducing an input digital signal or an input analog signal using a rotary head. It relates to a playback device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as a method for performing digital recording on a recording medium such as a magnetic tape using a rotary head, a method as described in Patent Document 1 is known.
[0003]
At present, recording and reproduction of input analog signals such as the VHS system is mainly used in home VTRs. However, digital broadcasting and the like have been started, and a VTR capable of recording and reproducing input digital signals is required. Therefore, an analog signal processing circuit and a digital signal processing circuit are provided in order to record and reproduce an input analog signal and an input digital signal with one VTR. Further, in order to simplify mechanical parts and improve convenience, an input digital signal is provided. A magnetic recording / reproducing apparatus (D-VHS) has been proposed in which a cassette tape for recording signals and a cassette tape for recording input analog signals have substantially the same shape.
[0004]
[Patent Document 1]
JP-A-8-111002
[0005]
[Problems to be solved by the invention]
However, in the magnetic recording / reproducing apparatus for recording / reproducing the input digital signal, the recording / reproducing of the digital signal is guaranteed unless a standard magnetic tape whose electrical characteristics such as high-frequency characteristics are guaranteed, for example, a D-VHS tape, is used. However, there has been a problem that recording and reproduction of digital signals cannot be performed with a magnetic tape having ordinary electric characteristics, for example, a VHS tape.
[0006]
Further, in a magnetic recording / reproducing apparatus for recording / reproducing an input analog signal and an input digital signal, a magnetic tape having a normal electric characteristic on which an analog signal is recorded, and a magnetic tape having a normal electric characteristic on which a digital signal is recorded. Cannot be determined.
[0007]
The present invention has been made in view of the above problems, and in a magnetic recording / reproducing apparatus for recording / reproducing an input digital signal, it is possible to record / reproduce the input digital signal even on a magnetic tape having normal electric characteristics. It is an object of the present invention to provide a magnetic recording / reproducing apparatus.
[0008]
The present invention also relates to a magnetic recording / reproducing apparatus for recording / reproducing an input analog signal and an input digital signal, wherein a magnetic tape having a normal electric characteristic on which an analog signal is recorded and a normal electric characteristic on which a digital signal is recorded are provided. It is an object of the present invention to provide a magnetic recording / reproducing apparatus capable of distinguishing a magnetic tape from a magnetic tape.
[0009]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, a magnetic recording / reproducing apparatus according to the present invention performs tape discrimination at the time of recording a digital signal, and drives a standard magnetic tape T, whose electrical characteristics are guaranteed, at a first traveling speed as a reference. In the first recording mode, the magnetic tape T having normal electric characteristics is driven at a second traveling speed n times the first traveling speed, and at a recording rate of 1 / n of the first recording mode. A second recording mode that enables digital recording using n times as many rotary heads as the first recording mode, and based on a tape discrimination result and an information signal reproduced from a magnetic tape during reproduction. Thus, the signal recorded on the magnetic tape is reproduced. Thus, in the magnetic recording / reproducing apparatus for recording / reproducing the input analog signal and the input digital signal, it is possible to record / reproduce the input digital signal even with a magnetic tape having normal electric characteristics.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
A magnetic recording / reproducing apparatus according to a first aspect of the present invention is configured such that an input digital signal is magnetically converted by a head having a first azimuth angle and a head having a second azimuth angle, which are mounted on a rotating drum that rotates constantly. In a magnetic recording / reproducing apparatus that records and reproduces data on and from a recording medium, the magnetic recording medium is driven at a first traveling speed that is a predetermined reference, and the recording medium is n times the first traveling speed. And a tape discriminating means for discriminating the type of the recording medium. At the time of recording, the magnetic recording medium is moved in the first traveling mode based on the tape discrimination result. A first recording mode for driving the vehicle at a speed and recording an information signal corresponding to the first traveling speed and an input digital signal having a data rate corresponding to the first traveling speed; The magnetic recording medium is driven at the second running speed based on the result of the tape discrimination, and at a recording rate of 1 / n of the first recording mode, n times the number of the first recording mode. A second recording mode for recording an information signal corresponding to the second traveling speed and an input digital signal having a data rate corresponding to the first traveling speed by using a rotary head; Reproducing a signal recorded on the magnetic recording medium on the basis of the result of the tape determination and the information signal reproduced from the magnetic recording medium. It has the effect that recording and reproduction of an input digital signal can be performed even on a magnetic tape having characteristics.
[0011]
A magnetic recording / reproducing apparatus according to a second aspect of the present invention is configured such that an input digital signal or an input signal is provided by a head having a first azimuth angle and a head having a second azimuth angle, which are mounted on a rotating drum that rotates constantly. In a magnetic recording / reproducing apparatus for recording and reproducing an analog video signal on / from a magnetic recording medium, the magnetic recording medium is driven at a first reference traveling speed which is a predetermined reference, and the recording medium is driven at a first traveling speed. And a tape discriminating means for discriminating the type of the recording medium. At the time of recording a digital signal, the magnetic recording medium is driven based on the tape discrimination result. A recording medium is driven to travel at the first traveling speed, and an information signal corresponding to the first traveling speed and an input data having a data rate corresponding to the first traveling speed are output. A magnetic recording medium is driven at the second running speed on the basis of the result of the tape discrimination, at a recording rate of 1 / n of the first recording mode. Using n times as many rotating heads as the first recording mode, an information signal corresponding to the second traveling speed and an input digital signal having a data rate corresponding to the first traveling speed are formed. And a second recording mode for recording. At the time of digital signal reproduction, a signal recorded on the magnetic recording medium is reproduced based on the tape discrimination result and the information signal reproduced from the magnetic recording medium. If the result of the tape discrimination is a tape corresponding to the second recording mode and there is no information signal reproduced from the magnetic recording medium, the mode is switched to an analog signal reproduction mode. With this, at the time of digital signal reproduction, based on the tape discrimination result and the information signal reproduced from the magnetic recording medium, reproduce the signal recorded on the magnetic recording medium, When the tape discrimination result is a tape corresponding to the second recording mode and there is no information signal reproduced from the magnetic recording medium, the mode can be switched to an analog signal reproduction mode. Having.
[0012]
According to a third aspect of the present invention, there is provided a magnetic recording / reproducing apparatus comprising: a head having a first azimuth angle and a head having a second azimuth angle mounted on a rotating drum that rotates constantly; In a magnetic recording / reproducing apparatus for recording and reproducing an analog video signal on a magnetic recording medium, the magnetic recording medium is driven at a first traveling speed that is a predetermined reference, and the recording medium is driven at a first traveling speed. Traveling means for driving at a second traveling speed which is n times as large as the above, a tape discriminating means for discriminating the type of the recording medium, and an error rate measuring means for measuring an error rate at the time of digital signal reproduction, At the time of digital signal recording, the magnetic recording medium is driven to run at the first running speed based on the tape determination result, and information corresponding to the first running speed is recorded. And a first recording mode for recording an input digital signal having a data rate corresponding to the first traveling speed, and, based on the result of the tape determination, moving the magnetic recording medium at the second traveling speed. Driving, at a recording rate of 1 / n of the first recording mode, n times the number of rotating heads of the first recording mode, using an information signal corresponding to the second traveling speed; A second recording mode for recording an input digital signal having a data rate corresponding to a first traveling speed, wherein at the time of digital signal reproduction, the tape discrimination result and the information signal reproduced from the magnetic recording medium are Reproducing the signal recorded on the magnetic recording medium based on the measurement result of the error rate at the time of reproducing the digital signal, wherein the tape discrimination result is a tape corresponding to the second recording mode. If the error rate measurement result at the time of reproducing the digital signal is worse than a certain reference, the mode is switched to an analog signal reproducing mode. The result, the information signal reproduced from the magnetic recording medium, based on the measurement result of the error rate during digital signal reproduction, reproduce the signal recorded on the magnetic recording medium, the tape determination result, If the tape is a tape corresponding to the second recording mode and the error rate measurement result at the time of reproducing the digital signal is worse than a certain reference, it has an effect of enabling switching to the analog signal reproducing mode. .
[0013]
(Embodiment 1)
An embodiment of the invention described in claim 1 of the present invention will be described below with reference to FIGS.
[0014]
FIG. 1 is a block diagram showing a magnetic recording / reproducing apparatus according to a first embodiment of the present invention. FIG. 2 is a diagram showing an arrangement of a rotary head in the magnetic recording and reproducing apparatus according to the first embodiment. FIGS. 3 and 5 are timing charts showing operations of the magnetic recording and reproducing apparatus according to the first embodiment. FIG. 6 is a diagram showing a track pattern of the magnetic tape according to the first embodiment.
[0015]
As shown in FIG. 1, the magnetic recording and reproducing apparatus according to the first embodiment records an input digital signal supplied from a transmission path (not shown) while forming a track pattern on a magnetic recording medium T which is a magnetic tape. It comprises a signal recording system and a signal reproducing system for reproducing a signal recorded by the signal recording system.
[0016]
The above signal recording system
(1) A plurality of digital signals output from the input interface means 1 for converting the input digital signal into a data rate for processing by the magnetic recording / reproducing apparatus are written and read for each track cycle described later. A memory unit 2 including a memory,
(2) an outer code generation circuit 3 that generates a predetermined error correction code for the digital signal written in the memory unit 2 and supplies the digital signal to the memory unit 2;
(3) an inner code generation circuit 4 for generating a predetermined error correction code for the digital signal read from the memory unit 2 according to still another sequence, and adding this to the digital signal of a predetermined block;
(4) In order to record the digital signals in a predetermined arrangement on the magnetic tape T with respect to the digital signals output from the inner code generation circuit 5, a synchronization signal and an identification signal ID are added for each predetermined block. A formatter 5 for performing recording modulation for recording on a magnetic tape T,
(5) a recording amplifier 6 for amplifying the modulated digital signal output from the formatter 5 to a predetermined gain;
(6) rotating heads 7a to 7d for recording the amplified modulated digital signal output from the recording amplifier 6 on the magnetic tape T;
Consists of
[0017]
Here, for example, when the user inputs an instruction of the traveling speed of the magnetic tape T or the digital signal recording rate from the input means 20, this instruction is supplied to the control means 15 and further inserted into the tape traveling system by the tape discriminating means 16. The information that has determined the type of the magnetic tape is supplied to the control unit 15, and the control unit 15 sends an information signal indicating the traveling speed of the magnetic tape T to the formatter 5 based on the traveling speed instruction and the tape discrimination information. Supply. The formatter 5 adds this information signal to the digital signal of each block as a part of the information of the ID.
[0018]
Further, the control means 15 supplies a control signal to the tape driving means 17 for controlling the drive of the traveling system of the magnetic tape T based on the information signal. The tape driving means 17 controls driving of a running system of the magnetic tape T (not shown) based on the control signal.
[0019]
Further, at this time, the control signal recording / reproducing means 18 generates a control signal based on a synchronizing signal generated by a synchronizing signal generator (not shown) or separated from the input digital signal. Record on magnetic tape T.
[0020]
The signal reproduction system described above
(1) a reproduction amplifier 8 for amplifying a reproduction signal obtained by scanning the magnetic tape T by the rotary heads 7a to 7d to a predetermined gain;
(2) A waveform equalizing circuit 9 for performing waveform shaping on a reproduced signal amplified by the reproducing amplifier 8, a timing signal is extracted from the waveform-shaped signal, and a PLL circuit (not shown) for restoring a 1, 0 signal sequence ,
(3) a synchronization detection circuit (not shown) that performs synchronization detection from the decoded signal sequence, and a demodulation circuit (not shown) that performs demodulation of recording modulation.
(4) Among the demodulated digital signals, a deformatter 10 for detecting the above-mentioned ID and arranging the signal arrangement,
(5) An inner code error correction circuit 11, which performs error correction on the digital signal output from the deformatter 10,
(6) a memory unit 12 for storing a digital signal error-corrected by the inner code error correction circuit 11 in accordance with the ID described above;
(7) an outer code error correction circuit 13 that performs predetermined error correction on the digital signal stored in the memory unit 12 along with the added outer code and supplies the corrected information to the memory unit 12;
(8) output interface means 14 for converting a digital signal read from memory unit 12 into a desired external data rate;
Consists of
[0021]
Here, the above-mentioned deformatter 10 supplies an information signal indicating the running speed of the magnetic tape T among the detected IDs to the above-mentioned control means 15, and the control means 15 makes this speed information and the tape discrimination. The control signal is supplied to the tape driving means 17 based on the information which has determined the type of the magnetic tape inserted into the tape running system by the means 16, and the tape driving means 17 executes the running system of the magnetic tape T based on the control signal. Is performed.
[0022]
Next, the operation of the magnetic recording / reproducing apparatus will be described. The heads 7a and 7c having the first azimuth angle and the heads 7b and 7c having the second azimuth angle are arranged with respect to the rotating drum 21 at a distance corresponding to a recording track pitch formed on the magnetic tape T. A magnetic recording / reproducing apparatus which records and reproduces an input digital signal on a magnetic tape T by a rotating head and has a control means 15, a tape discriminating means 16, and a tape driving means 17, wherein the magnetic tape T 1 tape running speed and a second tape running speed that is twice as high as the first tape running speed, and a tape running means 25 for running the tape. In addition to recording a desired input digital signal and a speed information signal corresponding to the tape running speed and the result of the tape discrimination, at the time of reproduction, the input digital signal and There reproducing the signal recorded on the magnetic tape T, and configured to, characterized in that.
[0023]
As shown in FIG. 2, a first azimuth angle 7 a and a head 7 b having a second azimuth angle are mounted as a first combination head on the rotating drum 21. , A second azimuth angle head 7d are mounted as a second combination head. However, the above-described combination heads 7a to 7d are mounted at positions as close as practically possible due to restrictions on mechanical mounting positions, and the recording start time of the recording signal is varied for each head as necessary. The tracks are formed at the same height in the horizontal direction. Further, at this time, the combination heads 7a to 7d are mounted at different heights by the track pitch, which is the width of the track pattern, formed in the present magnetic recording and reproducing apparatus.
[0024]
Now, when a standard magnetic recording tape, for example, a D-VHS tape is inserted into the magnetic recording / reproducing apparatus and a digital signal of, for example, a data rate A [Mbps] is supplied, this is converted to a standard data rate which is a basic data rate. A case where recording is performed at a magnetic tape traveling speed will be described. At this time, it is assumed that the rotation speed of the rotating drum 21 is kept constant.
[0025]
At this time, the user inputs an instruction to record a digital signal at the first tape traveling speed, which is the standard magnetic tape traveling speed, or the digital signal recording rate by using the input means 20 described above. The input digital signal supplied to the above-described signal recording system is supplied to a head switch (not shown) as an amplified modulated digital signal through the above-described signal processing.
[0026]
At the same time, the control means 15 controls the tape driving means 17 based on the instruction input to cause the magnetic tape T to run at the first tape running speed. Here, the magnetic tape T is wound around the rotary drum 21 for approximately 180 degrees, and the standard magnetic tape speed is, for example, when the first combination head rotates the magnetic tape T when the rotary drum 21 makes one rotation. The distance traveled while forming one track pattern of the rotary heads 7a and 7b above. That is, the first tape running speed is such that the track pattern of the next rotary head 7a, 7b is formed at a position adjacent to the track pattern of the rotary head 7a, 7b when the rotary drum 21 makes one rotation. The amount of movement of the magnetic tape T required to perform this operation.
[0027]
The operation of the signal recording system at this time will be described with reference to the timing chart of FIG.
In FIG. 3, the track period (a), input data (b), memory write (c), external code generation memory read / write (d), internal code generation to recording modulation (e), and recording signal (f) are shown. Show.
[0028]
As shown in FIG. 3C, the input digital signals a to d supplied through the input interface 1 are supplied to the plurality of digital signals in the memory unit 2 for each track cycle synchronized with the rotation of the rotary drum 21. Writing is performed to a portion of the first memory, a, which is one of the memories.
[0029]
Next, as shown in FIG. 3D, an outer code for the digital signal stored in the next half-track cycle after writing to the first memory is generated by the outer code generation circuit 3, and this outer code is generated. 1 memory. On the other hand, as shown in FIG. 3C, writing is performed on another second memory b in the memory unit 2 described above.
[0030]
An outer code for the digital signal stored in the second memory is generated by the outer code generation circuit 3 in the next half-track cycle, and is supplied to the second memory. On the other hand, as shown in FIG. 3C, writing is performed on another third memory c in the memory unit 2 described above.
[0031]
Further, an outer code for the digital signal stored in the third memory is generated by the outer code generation circuit 3 in the next half track cycle, and supplied to the third memory. On the other hand, as shown in FIG. 3C, writing is performed on another fourth memory d in the memory unit 2 described above.
[0032]
Further, at this time, when the digital signal to which the outer code is added is read from the first and second memories, respectively, the digital signal is simultaneously supplied to the inner code generation circuit 4 respectively, and FIG. As shown in (1), after an inner code is added separately for each of the first and second systems, it is supplied to the head changeover switch (not shown) as an amplified modulated digital signal via the formatter 5 and the recording amplifier 6 described above. .
[0033]
The head changeover switch, for example, applies the first and second systems of the amplified and modulated digital signals a and b to the rotary head 7a at the first azimuth angle and the rotary head 7b at the second azimuth angle in a half track cycle, for example. At the same time, in the next half-track period, the first and second systems of the amplified and modulated digital signals, which are no signals, are supplied to the rotating head 7c having the first azimuth angle and the rotating head 7d having the second azimuth angle, respectively. Supply at the same time. Then, the first and second combination heads record the amplified modulated digital signal on the magnetic tape T while forming a track pattern as shown in FIG. Hereinafter, as shown in FIG. 3F, signal recording is performed according to this timing.
[0034]
Next, when a tape, for example, a VHS tape, whose electrical characteristics are inferior to the standard magnetic recording tape, is inserted into the magnetic recording / reproducing apparatus, and a digital signal having a data rate A [Mbps] is supplied, for example, The case where recording is performed at a tape traveling speed twice as high as the magnetic tape traveling speed will be described. At this time, it is assumed that the rotation speed of the rotating drum 21 is kept constant.
[0035]
At this time, the user inputs an instruction to record a digital signal at the first tape running speed, which is a standard magnetic tape running speed, using the input unit 20 described above. The control means 15 controls the digital signal to be recorded at a second tape running speed, for example, twice the first tape speed, based on the result of the judgment by the judging means for detecting the detection hole.
[0036]
The input digital signal supplied to the signal recording system described above is output from the signal recording system at a recording rate of て through the signal processing described above, and supplied as an amplified modulated digital signal to a head switch (not shown). At the same time, the control means 15 controls the tape driving means 17 based on the instruction input and the tape discrimination result to cause the magnetic tape T to run at the second tape running speed.
[0037]
The operation of the signal recording system at this time will be described with reference to the timing chart of FIG.
In FIG. 5, the track cycle (a), input data (b), memory write (c), external code generation memory read / write (d), internal code generation to recording modulation (e), and recording signal (f) are shown. Show.
[0038]
As shown in FIG. 5C, the input digital signals a to d supplied through the input interface 1 described above are stored in the memory unit 2 in each of the track periods synchronized with the rotation of the rotary drum 21. Writing is performed to a portion of the first memory, a, which is one of the memories.
[0039]
Next, as shown in FIG. 5D, an outer code for the digital signal stored in the next half track cycle after the writing to the first memory is generated by the outer code generation circuit 3, and the first code is generated. Of memory. On the other hand, as shown in FIG. 5C, writing is performed on another second memory b in the memory unit 2 described above.
[0040]
An outer code for the digital signal stored in the second memory is generated by the outer code generation circuit 3 in the next half track cycle, and is supplied to the second memory. On the other hand, as shown in FIG. 5C, writing is performed to another third memory, c, in the memory unit 2 described above.
[0041]
Further, an outer code for the digital signal stored in the third memory is generated by the outer code generation circuit 3 in the next half track cycle, and supplied to the third memory. On the other hand, as shown in FIG. 5C, writing is performed on another fourth memory d in the memory unit 2 described above.
[0042]
Further, at this time, when the digital signal to which the outer code is added is read from the first and second memories, respectively, the digital signal is simultaneously supplied to the inner code generation circuit 4 respectively, and FIG. As shown in (1), after the inner code is added to each of the first and second systems, the recording modulated digital signal is read from the formatter 5 by a read clock at a rate 1/2 that of the first recording mode. The signal is output via a recording amplifier 6 to a head switch (not shown) as an amplified modulated digital signal.
[0043]
The head changeover switch simultaneously supplies, for example, the first and second systems of the amplified and modulated digital signals a1 and b1 to the rotating head 7a having the first azimuth angle and the rotating head 7b having the second azimuth angle, respectively. , The first and second systems of amplified and modulated digital signals a2 and b2 are simultaneously supplied to the rotary head 7c having the first azimuth angle and the rotary head 7d having the second azimuth angle, respectively. Then, the first and second combination heads record an amplified modulated digital signal on the magnetic tape T while forming a track pattern as shown in FIG. Hereinafter, as shown in FIG. 5F, signal recording is performed according to this timing.
[0044]
At this time, since the magnetic tape T is traveling at the second tape traveling speed which is twice the first tape traveling speed, the first and second azimuth heads are rotated, for example, at the first half rotation of the rotating drum 21. 7a and 7b form a track pattern on the magnetic tape T, and the first and second azimuth heads 7c and 7d form the next track pattern on the magnetic tape T in the next half rotation. Thus, at the second tape running speed, the first and second azimuth heads 7a to 7d record signals while sequentially forming track patterns on the magnetic tape.
[0045]
The signals recorded on the magnetic tape T as described above are reproduced by the above-described rotary heads 7a to 7d during reproduction, and supplied to the above-described signal reproduction system. In the signal reproducing system, for example, the above-described ID is detected from the recording signal demodulated by the deformatter 10, and the tape traveling speed at the time of recording is identified from the information signal contained therein. The magnetic tape T is supplied to the control unit 15 and the result of the tape determination by the tape determination unit 16 is supplied to the control unit 15 so that the traveling of the magnetic tape T is controlled at the same traveling speed as during recording. The reproduced signal demodulated by the deformatter 10 is output from the output interface to a transmission path (not shown) as an output digital signal through the above-described inner code correction and outer code correction.
[0046]
Here, the above-described outer code correction and inner code correction processing is not limited to the above-described method. For example, when the rotating head is accurately scanning the track pattern, The signal in which the outer code correction and the inner code correction have been completed may be written to the memory in each track cycle period. For example, regardless of whether or not the rotary head is scanning the track pattern accurately, It goes without saying that the signal after the inner code correction is written to the memory and the outer code correction may be performed when the data amount of the signal corresponding to one track period is written to the memory.
[0047]
In this way, in the present magnetic recording / reproducing apparatus, the input digital signal supplied at the basic data rate A [Mbps] to the different types of magnetic tapes T is transferred to the rotating drum 21 configured as described above. By using this, the running speed of the magnetic tape T can be varied while keeping the rotation speed of the rotating drum constant, thereby enabling recording on the magnetic tape.
[0048]
Further, in the present magnetic recording / reproducing apparatus, the digital signal recorded on the magnetic tape T as described above is reproduced and demodulated by the above-described signal reproducing system, thereby obtaining a reproduced digital signal substantially similar to the input digital signal. Will be played.
[0049]
It should be noted that the configuration of the rotary head is not limited to the configuration described above, and various cases can be considered. At this time, the signal processing for each track cycle described above is performed in accordance with the configuration of the rotary head. By doing so, the input digital signal supplied at the basic data rate may of course be recorded and reproduced, respectively.
[0050]
In the magnetic recording / reproducing apparatus according to the first embodiment, at the time of recording, the magnetic recording medium is driven to travel at the first traveling speed based on the result of the tape determination, and the information signal corresponding to the first traveling speed is recorded. And a first recording mode for recording an input digital signal having a data rate corresponding to the first traveling speed, and driving the magnetic recording medium at a second traveling speed based on a tape determination result. The information signal corresponding to the second traveling speed and the data signal corresponding to the first traveling speed are obtained at a recording rate of 1 / n of the recording mode and n times the number of rotating heads of the first recording mode. And a second recording mode for recording an input digital signal having a rate. At the time of reproduction, a signal recorded on a magnetic recording medium is reproduced based on a tape discrimination result and an information signal reproduced from the magnetic recording medium. Reproduce Therefore, when a high-quality tape such as D-VHS is inserted, digital recording and reproduction can be performed at a normal tape running speed, and when a normal VHS tape is inserted, Digital recording and reproduction can be performed in the second recording mode in which the rotation speed is doubled, so that recording and reproduction of digital signals can be performed even if the inserted tape is a normal VHS tape. The effect that can be obtained is obtained.
[0051]
(Embodiment 2)
Hereinafter, a second embodiment of the present invention described in claim 2 of the present invention will be described with reference to FIG.
[0052]
FIG. 7 shows a block diagram of a magnetic recording / reproducing apparatus according to Embodiment 2 of the present invention. As shown in FIG. 7, the magnetic recording / reproducing apparatus according to the second embodiment records an input digital signal supplied from a transmission path (not shown) while forming a track pattern on a magnetic recording medium T which is a magnetic tape. A digital signal recording system, a digital signal reproducing system for reproducing a signal recorded by the signal recording system, and an input analog signal supplied from a transmission path (not shown) are recorded on a magnetic recording medium T which is a magnetic tape by a track pattern. And an analog signal reproducing system for reproducing a signal recorded by the signal recording system. The same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0053]
The analog signal recording system performs recording modulation for recording the input analog signal on the magnetic tape T and amplifies the analog signal to a predetermined gain. The analog signal recording system circuit 22 includes a recording amplifier (not shown). It comprises rotary heads 7e to 7h for recording on the magnetic tape T the amplified modulated digital signal output from the recording system circuit 22.
[0054]
Here, for example, when the user inputs an instruction for the analog recording mode from the input unit 20, the instruction is supplied to the control unit 15, and the control unit 15 operates the analog signal recording system circuit based on the information signal, and Perform analog recording on top.
[0055]
Further, the control means 15 supplies a control signal to a tape drive means 17 for controlling the drive of the traveling system of the magnetic tape T based on the information signal. The tape driving means 17 controls the drive of the running system of the magnetic tape T (not shown) based on the control signal.
[0056]
Further, at this time, the control signal recording / reproducing means 18 generates a control signal based on a synchronization signal generated by a synchronization signal generator (not shown) or separated from an input analog signal. Record on tape T.
[0057]
The analog signal reproduction system described above amplifies a reproduction signal obtained by scanning the magnetic tape T with the rotary heads 7e to 7h to a predetermined gain, performs a reproduction amplifier (not shown), and demodulates recording modulation. It is composed of an analog signal reproduction system circuit 23 composed of a demodulation circuit.
[0058]
Here, at the time of digital signal reproduction, the above-mentioned deformatter 10 supplies an information signal indicating the running speed of the magnetic tape T among the detected IDs to the above-mentioned control means 15. A control signal is supplied to the tape drive means 17 based on the information obtained by determining the type of the magnetic tape inserted into the tape traveling system by the tape determination means 16, and the tape drive means 17 controls the magnetic tape based on the control signal. The drive control of the traveling system of T is performed.
[0059]
The result of the tape discrimination by the tape discriminating means 16 is a tape having inferior electrical characteristics corresponding to the second recording mode, for example, a VHS tape, and a magnetic tape T among IDs detected from the magnetic tape. If there is no information signal indicating the traveling speed, the control means 15 operates the analog signal reproduction system circuit 23 to switch to the analog signal reproduction mode, and indicates the traveling speed of the magnetic tape T of the CTL signal recording / reproduction means 18. A signal is supplied to the control means 15 described above, and the control means 15 supplies a control signal to the tape driving means 17 based on the speed information, and the tape driving means 17 controls the running system of the magnetic tape T based on the control signal. Is performed.
[0060]
In such a magnetic recording / reproducing apparatus according to the second embodiment, at the time of digital signal recording, the magnetic recording medium is driven to run at the first running speed based on the result of the tape discrimination, so as to correspond to the first running speed. A first recording mode for recording an information signal and an input digital signal having a data rate corresponding to the first traveling speed; and a magnetic recording medium driven at a second traveling speed based on a tape determination result. The information signal corresponding to the second traveling speed and the information signal corresponding to the first traveling speed are used at a recording rate of 1 / n of the first recording mode and n times the number of rotating heads of the first recording mode. And a second recording mode for recording an input digital signal having a data rate obtained in the above manner. When a digital signal is reproduced, the digital signal is recorded on a magnetic recording medium based on a tape discrimination result and an information signal reproduced from the magnetic recording medium. When the recorded signal is reproduced, and the tape discrimination result is a tape corresponding to the second recording mode and there is no information signal reproduced from the magnetic recording medium, the mode is switched to the analog signal reproduction mode. Therefore, similarly to the first embodiment, even with a normal VHS tape, recording and reproduction of a digital signal can be performed, and when a digital signal is not recorded on the VHS tape, an analog signal is output. By performing reproduction in the reproduction mode, if an analog signal is recorded on the VHS tape, it can be reproduced automatically.
[0061]
(Embodiment 3)
Hereinafter, a third embodiment of the present invention described in claim 3 of the present invention will be described with reference to FIG.
[0062]
FIG. 8 shows a block diagram of a magnetic recording / reproducing apparatus according to Embodiment 3 of the present invention. As shown in FIG. 8, the magnetic recording / reproducing apparatus according to the third embodiment records an input digital signal supplied from a transmission path (not shown) while forming a track pattern on a magnetic recording medium T which is a magnetic tape. A digital signal recording system, a digital signal reproducing system for reproducing a signal recorded by the signal recording system, and an input analog signal supplied from a transmission path (not shown) are recorded on a magnetic recording medium T which is a magnetic tape by a track pattern. And an analog signal reproducing system for reproducing a signal recorded by the signal recording system. The same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0063]
The error rate measuring means 24 for measuring the error rate of the digital signal reproduction system measures an error rate according to the number of error corrections of the inner code error correction circuit 11 and the outer code error correction circuit 13 during digital signal reproduction, The result is supplied to the control means 15.
[0064]
The above-described analog signal recording system performs recording modulation for recording the above-described input analog signal on the magnetic tape T and amplifies the signal to a predetermined gain. It comprises rotating heads 7e to 7h for recording on the magnetic tape T the amplified modulated digital signal output from the system circuit 22.
[0065]
Here, for example, when the user inputs an analog recording mode instruction from the input unit 20, the instruction is supplied to the control unit 15, and the control unit 15 operates the analog signal recording system circuit based on the information signal, and Analog recording is performed on the tape T.
[0066]
Further, the control means 15 supplies a control signal to a tape drive means 17 for controlling the drive of the traveling system of the magnetic tape T based on the information signal. The tape driving means 17 controls driving of a running system of the magnetic tape T (not shown) based on the control signal.
[0067]
Further, at this time, the control signal recording / reproducing means 18 generates a control signal based on a synchronization signal generated by a synchronization signal generator (not shown) or separated from an input analog signal. Record on tape T.
[0068]
The analog signal reproducing system includes a reproducing amplifier (not shown) for amplifying a reproduction signal obtained by scanning the magnetic tape T by the rotary heads 7e to 7h to a predetermined gain, and a demodulation circuit (not shown) for demodulating recording modulation. And an analog signal reproduction system circuit 23 composed of
[0069]
Here, at the time of reproducing the digital signal, the deformatter 10 supplies an information signal indicating the traveling speed of the magnetic tape T to the control means 15 among the detected IDs. The tape discriminating means 16 supplies a control signal to the tape driving means 17 based on the information discriminating the type of the magnetic tape inserted into the tape traveling system, and the tape driving means 17 detects the type of the magnetic tape T based on the control signal. Drive control of the traveling system is performed.
[0070]
The result of the tape discrimination by the tape discriminating means 16 is a tape having inferior electric characteristics corresponding to the second recording mode, for example, a VHS tape, and the tape discrimination result is obtained from the magnetic tape measured by the error rate measuring means 24. If the error rate of the reproduced signal is lower than a certain reference, the control means 15 operates the analog signal reproduction system circuit 23 to switch to the analog signal reproduction mode, and the magnetic tape T of the CTL signal recording / reproduction means 18. Is supplied to the control means 15 described above, and the control means 15 supplies a control signal to the tape drive means 17 based on the speed information, and the tape drive means 17 uses the magnetic tape based on the control signal. The drive control of the traveling system of T is performed.
[0071]
In such a magnetic recording / reproducing apparatus according to the third embodiment, at the time of digital signal recording, the magnetic recording medium is driven to run at the first running speed based on the result of the tape discrimination, and is adapted to the first running speed. A first recording mode for recording an information signal and an input digital signal having a data rate corresponding to the first traveling speed; and a magnetic recording medium driven at a second traveling speed based on a tape determination result. The information signal corresponding to the second traveling speed and the information signal corresponding to the first traveling speed are used at a recording rate of 1 / n of the first recording mode and n times the number of rotating heads of the first recording mode. A second recording mode for recording an input digital signal having a set data rate. When a digital signal is reproduced, a tape discrimination result, an information signal reproduced from a magnetic recording medium, and an error when reproducing the digital signal are provided. The signal recorded on the magnetic recording medium is reproduced based on the measurement result of the rate and the tape discrimination result is a tape corresponding to the second recording mode, and the error rate measurement result at the time of reproducing the digital signal If the value is worse than a certain reference, the mode is switched to the analog signal reproduction mode. Therefore, similarly to the first embodiment, recording and reproduction of digital signals can be performed even with a normal VHS tape. At the same time, when the digital signal cannot be reproduced from the VHS tape satisfactorily, by performing the reproduction in the analog signal reproduction mode, the effect of being able to reproduce the analog signal recorded on the VHS tape is obtained.
[0072]
【The invention's effect】
As described above, according to the magnetic recording / reproducing device of the present invention, the data rate of a predetermined input digital signal is used as the basic data rate, and the running speed of the magnetic tape is varied according to the type of the magnetic tape. By performing the recording while changing the recording rate of the signal and the number of the rotating heads, the advantageous effect that the signal can be efficiently recorded on different types of magnetic tapes can be obtained.
[0073]
In a magnetic recording / reproducing apparatus for recording / reproducing an input analog signal and an input digital signal, it is possible to determine whether an analog signal or a digital signal is recorded on a magnetic tape having normal electric characteristics. is there.
[Brief description of the drawings]
FIG. 1 is a block diagram of a magnetic recording / reproducing apparatus according to a first embodiment of the present invention.
FIG. 2 is a diagram showing an arrangement of a rotary head according to the first embodiment of the present invention.
FIG. 3 is a timing chart showing the operation of the magnetic recording / reproducing device according to the first embodiment of the present invention.
FIG. 4 is a diagram of a track pattern of a magnetic tape according to the first embodiment of the present invention.
FIG. 5 is a timing chart illustrating an operation of the magnetic recording and reproducing apparatus according to the first embodiment of the present invention.
FIG. 6 is a diagram of a track pattern of a magnetic tape according to the first embodiment of the present invention.
FIG. 7 is a block diagram of a magnetic recording / reproducing apparatus according to a second embodiment of the present invention.
FIG. 8 is a block diagram of a magnetic recording / reproducing apparatus according to a third embodiment of the present invention.
[Explanation of symbols]
1 Input I / F means
2 memory
3 Outer code generation circuit
4. Inner code generation circuit
5 Formatter
6 Recording amplifier
7a ~ 7d Rotating head
7e-7h Rotating head
8 playback amplifier
9 Waveform equalization circuit
10 Deformatter
11 Inner code error correction circuit
13 Outer code error correction circuit
14 Output I / F circuit
15 control means
16 Tape discrimination means
17 Tape drive means
18 CTL signal recording / reproducing means
19 CTL head
20 Input means
21 rotating drum
22 Analog signal recording system circuit
23 Analog signal reproduction system circuit
24 Error rate measuring means
25 Tape running means

Claims (3)

A magnetic recording / reproducing apparatus that records and reproduces an input digital signal on a magnetic recording medium by using a head having a first azimuth angle and a head having a second azimuth angle mounted on a rotating drum that rotates constantly.
Traveling means for driving the magnetic recording medium at a first traveling speed that is a predetermined reference, and driving the recording medium at a second traveling speed that is n times the first traveling speed;
Tape determining means for determining the type of the recording medium,
At the time of recording, the magnetic recording medium is driven to run at the first running speed based on the tape determination result, and an information signal corresponding to the first running speed and data corresponding to the first running speed are recorded. A first recording mode for recording an input digital signal having a rate;
The magnetic recording medium is driven at the second running speed based on the result of the tape discrimination, and at a recording rate of 1 / n of the first recording mode, n times the number of the first recording mode. A second recording mode for recording an information signal corresponding to the second traveling speed and an input digital signal having a data rate corresponding to the first traveling speed using a rotary head;
At the time of reproduction, a signal recorded on the magnetic recording medium is reproduced based on the tape determination result and the information signal reproduced from the magnetic recording medium.
A magnetic recording / reproducing apparatus characterized in that: An input digital signal or an input analog video signal is recorded on a magnetic recording medium and reproduced by a head having a first azimuth angle and a head having a second azimuth angle mounted on a rotating drum that rotates constantly. In a magnetic recording / reproducing device,
Traveling means for driving the magnetic recording medium at a first traveling speed that is a predetermined reference, and driving the recording medium at a second traveling speed that is n times the first traveling speed;
Tape determining means for determining the type of the recording medium,
At the time of digital signal recording, the magnetic recording medium is driven to travel at the first traveling speed based on the tape determination result, and an information signal corresponding to the first traveling speed and a signal corresponding to the first traveling speed are recorded. A first recording mode for recording an input digital signal having a set data rate;
The magnetic recording medium is driven at the second running speed based on the result of the tape discrimination, and at a recording rate of 1 / n of the first recording mode, n times the number of the first recording mode. A second recording mode for recording an information signal corresponding to the second traveling speed and an input digital signal having a data rate corresponding to the first traveling speed by using a rotary head;
At the time of digital signal reproduction, a signal recorded on the magnetic recording medium is reproduced based on the tape discrimination result and the information signal reproduced from the magnetic recording medium, and the tape discrimination result is the second A tape corresponding to a recording mode, and if there is no information signal reproduced from the magnetic recording medium, switch to an analog signal reproduction mode;
A magnetic recording / reproducing apparatus characterized in that: A magnetic head for recording and reproducing an input digital signal or an input analog video signal on a magnetic recording medium by using a head having a first azimuth angle and a head having a second azimuth angle mounted on a rotating drum that rotates constantly. In the recording / reproducing device,
Traveling means for driving the magnetic recording medium at a first traveling speed that is a predetermined reference and driving the recording medium at a second traveling speed that is n times the first traveling speed;
Tape determining means for determining the type of the recording medium,
Error rate measuring means for measuring an error rate during digital signal reproduction,
At the time of digital signal recording, the magnetic recording medium is driven to travel at the first traveling speed based on the tape determination result, and an information signal corresponding to the first traveling speed and a signal corresponding to the first traveling speed are recorded. A first recording mode for recording an input digital signal having a set data rate;
The magnetic recording medium is driven at the second running speed based on the result of the tape discrimination, and at a recording rate of 1 / n of the first recording mode, n times the number of the first recording mode. A second recording mode for recording an information signal corresponding to the second traveling speed and an input digital signal having a data rate corresponding to the first traveling speed by using a rotary head;
At the time of digital signal reproduction, the signal recorded on the magnetic recording medium is reproduced based on the tape discrimination result, the information signal reproduced from the magnetic recording medium, and the measurement result of the error rate during digital signal reproduction. If the result of the tape discrimination is a tape corresponding to the second recording mode, and the measurement result of the error rate during reproduction of the digital signal is worse than a certain reference, the mode is switched to an analog signal reproduction mode.
A magnetic recording / reproducing apparatus characterized in that:

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