JP3704943B2 - Recording / reproducing apparatus and tape cassette - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a helical scan type recording / reproducing apparatus and a tape cassette for recording digital data as an oblique track on a magnetic tape, for example, by a rotating head, and more particularly to the reliability at the time of reproducing file management data that requires the most reliability. The purpose is to increase.
[0002]
[Prior art]
Conventional tape streamers for tape data backup, software distribution, data transport, etc., using 1/4 inch width tape, using 8 mm VCR, using R-DAT Has been standardized and commercialized.
[0003]
FIGS. 12 and 13 show an example of a conventional tape streamer, and are plan views of the recording / reproducing apparatus in a loading completed state. In FIG. 12, 1 is a cassette, 2 is a supply reel, 3 is a take-up reel, 4 is a magnetic tape, and the magnetic tape 4 is wound between a supply reel 2 and a take-up reel 3 contained in the cassette 1. ing. Reference numeral 5 denotes a cylinder, and reference numerals 6 and 7 denote drawer guides which regulate upper and lower ends. Reference numerals 8 and 9 denote rotating posts with flanges that regulate the upper and lower ends of the tape, and reference numerals 10, 11 and 12 denote inclined posts.
[0004]
The drawer guide 6 is placed on a tension arm (not shown) and has tension applying means for applying a predetermined tension to the magnetic tape 4. 14 is a capstan, 15 is a capstan motor that rotationally drives the capstan 14, and 16 is a pinch roller.
[0005]
6 in FIG. ₁ , 7 ₁ , 8 ₁ , 9 ₁ , 16 ₁ Indicates the arrangement positions of the drawer posts 6 and 7, the rotation posts 8 and 9, and the pinch roller 16 in the opening of the cassette 1 before tape loading.
[0006]
First, the drawer posts 6 and 7 are pulled out from the opening of the cassette 1 to a predetermined position by a tape loading means (not shown), and then the rotary posts 8 and 9 are pulled out from the opening of the cassette 1 to a predetermined position. Thus, the magnetic tape 4 is spirally wound around the cylinder 5, and finally the pinch roller 16 is moved to a predetermined position. When unloading, the reverse operation is performed.
[0007]
Next, when the magnetic tape 4 travels in the direction F in FIG. 12 from the loading completion state, the capstan motor 15 rotates counterclockwise in FIG. 12 at a constant speed, so that the capstan 14 and the pinch roller 16 The magnetic tape 4 held between the two travels at a constant speed. At this time, the magnetic tape 4 is given a predetermined tension by the tension applying means at the position of the guide 6 from the supply reel 2. After that, it passes through the inclined posts 10 and 11, the rotating post 8, the cylinder 5, the rotating post 9, and the inclined post 12 and reaches between the capstan 14 and the pinch roller 16. The magnetic tape 4 that has passed between the capstan 14 and the pinch roller 16 is wound around the take-up reel 3 via the drawer post 7.
[0008]
FIG. 13 shows the cylinder 5 in FIG. 12 in detail. In FIG. 13, the cylinder 5 is composed of a rotating cylinder 17 and a fixed cylinder 18. A magnetic head 19 is disposed on the rotating cylinder 17. The fixed cylinder 18 is provided with a lead 20 for guiding the magnetic tape 4.
[0009]
Since the rotation speed of the rotary cylinder 17 is as high as 1800 to 9000 rpm, the magnetic tape 4 floats almost entirely from the rotary cylinder 17 on the peripheral surface of the rotary cylinder 17. When the rotating operation of the rotating cylinder 17 is stopped, the magnetic tape 4 does not float from the rotating cylinder 17, so that the magnetic tape 4 and the rotating cylinder 17 are in contact with each other.
[0010]
On the other hand, the fixed cylinder 18 is a guide body for causing the magnetic tape 4 to travel along the leads 20, and slides while contacting the magnetic tape 4 and the fixed cylinder 18. In FIG. 12, the posts sliding on the recording surface side of the magnetic tape 4 are the inclined posts 10, 11, 12, the fixed cylinder 18, and the capstan 14.
[0011]
In a conventional streamer, file management data for facilitating reading and searching of digital data is added to the digital data and recorded on the same tape. The file management data includes a file name, a file attribute, an address indicating a file position on the tape, and the like. A file is a set unit of digital data.
[0012]
As a method for searching digital data on the magnetic tape 4 at high speed, for example, a method described in Japanese Patent Laid-Open No. 7-1111037 has been known. FIG. 14 is a diagram showing file management data used in a conventional recording / reproducing apparatus. In FIG. 14, the entire file management data area 112 is positioned at the head of the magnetic tape 111, and the files 101-1, 101-2,. ₁ Are recorded in the area 113 after the all file management data area 112, and all the file management data 301 is recorded in the all file management data area 112. Similarly, at the time of the m-th recording, the files 10m-1, 10m-2,..., 10m-nm are recorded in the area 115 after the file recorded at the (m-1) th time, and all file management data 303 is recorded. Are recorded in the entire file management data area 112. In this method, since the latest file management data is recorded together, digital data can be searched at high speed.
[0013]
As described above, the file management data is frequently read when the device is operated.
[0014]
Also, with a conventional streamer, with regard to a write error during recording, a data portion immediately after recording is reproduced while recording, and whether or not the data is recorded correctly is read after write, that is, a function of performing reading immediately after writing. Thus, if there is an error in the recorded data, the process of rewriting the data is performed again so that the reliability of the recorded data can be guaranteed.
[0015]
On the other hand, when a data read error occurs during reproduction, the tape running direction is reversed and the tape runs in the opposite direction to that during reproduction. Then, the tape running direction is reversed at a position beyond the place where the error occurred, and the data reading operation, that is, the retrying operation is performed again. At this time, if the reproducing head is clogged or a dropout occurs on the tape, this retrying operation is repeated, and inversion at the same location on the tape is frequently performed.
[0016]
[Problems to be solved by the invention]
However, the above-described conventional configuration has the following problems.
[0017]
That is, when reading the information of the file management data, or after the reading, the position for reversing the tape running direction and the position for reversing the tape running direction at the time of retrying are performed at substantially the same location on the tape.
[0018]
Then, as shown in FIG. 15, the lubricant 152 on the surface of the magnetic layer of the tape 151 slides with the tape guide member 153 in the T direction in FIG. This is because the adhesion between the lubricant 152 on the magnetic layer surface of the tape 151 and the magnetic layer surface 151a is not perfect, and the lubricant is caused by sliding between the tape magnetic layer surface 151a and the tape guide member 153. This is because 152 has moved on the surface of the tape magnetic layer.
[0019]
Next, as shown in FIG. ₁ When reversed in the direction, the lubricant accumulated in the portion 152a in FIG. 15 moves together with the tape magnetic layer surface 151a. As long as the lubricant pooling portion 152a is reversed once, the amount of pooling is small, but if it is repeatedly reversed several times at the same location in the longitudinal direction of the tape, It gets quite big. The tape guide member 153 described with reference to FIGS. 15 and 16 is an inclined post 10, 11, 12, a fixed cylinder 18, and a capstan 14, which are posts sliding on the recording surface side of the magnetic tape 4 in FIG. 12. become.
[0020]
As shown in FIG. 16, when the lubricant 152 accumulates at the same location on the tape surface, wear powder and dust generated by sliding friction between the tape and the tape guide member 153 also accumulate in that portion. When the magnetic head 19 passes through that portion, head clogging occurs, and when the inclined posts 10, 11, 12 and the fixed posts 18 and the capstan 14 that are tape guide members pass through that portion, the attached abrasion powder. As a result, the magnetic tape 4 may be damaged.
[0021]
Also, if the lubricant 152 accumulates at the same location on the tape surface, even if there is no abrasion powder or the like, when the magnetic head 19 tries to regenerate the portion, the magnetic head 19 accumulates the lubricant on the magnetic tape 4. The lubricant 152 enters between the magnetic head 19 and the magnetic tape 4 when passing through the portion 152a. This results in spacing, which reduces the reproduction output of the head and causes a data error.
[0022]
Further, when the lubricant accumulates at the same location on the surface of the magnetic layer of the tape and stops in a state where the portion of the lubricant accumulated on the surface of the tape and the cylinder 5 is in contact, the cylinder 5 is attracted to the magnetic tape 4. The magnetic tape 4 has a problem that it sticks to the cylinder 5. When the magnetic tape 4 sticks to the cylinder 5, the cylinder 5 does not rotate, or when the cylinder rotates against the attractive force between the magnetic tape 4 and the cylinder 5, an abnormal tension is generated on the tape. There was a problem that the tape was damaged, and as a result, the recorded data could not be read.
[0023]
In view of the above problems, an object of the present invention is to provide a recording / reproducing apparatus capable of improving reliability during reproduction.
[0024]
[Means for Solving the Problems]
In order to solve this problem, according to the first aspect of the present invention, a plurality of tape guides that are provided in a reproducing apparatus that is mounted with a tape cassette and reproduces digital data are stretched and are in sliding contact with the recording surface side of the tape. When the length of the tape stretch between the two tape guide members farthest on the tape stretch trajectory is X,
Between the digital data recording portion and the file management data recording portion in the tape longitudinal direction, a margin area longer than X and having dummy data recorded or not recorded is provided.
[0025]
This makes it possible to reverse the tape running in the margin area between the data, and even if a portion of the lubricant pool due to the tape running inversion occurs on the tape, it will affect the reading of important data. It is possible to provide a highly reliable tape cassette.
[0026]
The second invention also provides:
The tape stretch length between the guide member A and the head with the shortest tape stretch length with the supply reel base is L, and the tape stretch length with the take-up reel base is the shortest tape stretch length between the guide member B and the head. When the tape stretch length is M,
When recording file management data having at least recording position information of digital data on the tape,
M or more in the tape running direction during normal playback from the position at which the file management data is recorded from a position separated by L or more in the direction opposite to the tape running direction during normal playback from the recording management start point Record the index signal up to a distance,
When reversing the tape running direction after reading the index signal,
When the index signal is detected by the head and the index signal is detected, the tape is transferred by the transfer means,
A tape running control means is provided for controlling the tape running direction to be reversed when the detection of the index signal is completed.
[0027]
As a result, in addition to the effect of the first aspect of the invention, the index signal serves as both the detection at the time of search and the information of the reversal portion of the tape running, so that the index signal can be used effectively and at high speed. It is possible to reliably detect even a search at.
[0028]
The third invention also provides
Of the guide members, the guide member A having the shortest tape stretch length with the supply reel stand and the tape stretch length between the head and the take-up reel stand is L and the guide member B having the shortest tape stretch length with the take-up reel stand. When the tape stretch length between the head and the head is M,
When recording file management data with at least recording position information of digital data on a tape,
A margin area longer than L + M is provided between the digital data recording portion and the file management data recording portion in the longitudinal direction of the tape.
When the margin area is at the back position in the tape longitudinal direction following the file management data recording section,
Record the detection signal at a position that is M or more away from the recording end point of the file management data in the tape running direction during normal playback.
When the file management data is in the back position following the margin area,
The detection signal is recorded at a position away from the recording start point of the file management data by L or more in the direction opposite to the tape running direction during normal reproduction,
When reversing the tape running direction after reading the file management data,
Until the detection signal is detected by the head, the tape is transported by the transporting means, and at the time of detection, the tape travel control means for controlling to reverse the traveling direction of the tape is provided.
[0029]
As a result, in addition to the effect of the first invention, since the reversal position of the tape running becomes accurate, it is not necessary to provide a margin area more than necessary, so that the data area can be used effectively.
[0030]
According to the fourth aspect of the present invention, a tape cassette is mounted and provided in a playback device for playing back digital data. The tape is stretched, and a plurality of tape guide members that are in sliding contact with the recording surface side of the tape. When the tape stretch length between the guide member B having the shortest tape stretch length with the take-up reel base for winding the tape and the head for reproducing the tape is M,
A margin area longer than M is provided at a position behind the file management data recording portion in the longitudinal direction of the tape.
[0031]
As a result, the tape running position can be reversed in the margin area after the final data, so even if there is a lubricant pool on the tape during the tape running reversal, important data can be reproduced. It is possible to provide a highly reliable tape cassette that does not affect the process. Further, since the file management data is arranged at the end of the data, the position of the file management data is changed every time the file management data is updated by increasing the data. As a result, the position of reversal when the file management data is read is changed, so that accumulation of lubricant at the reversal portion can be reduced.
[0037]
As a result, the accumulated portion of the lubricant can be smoothed quickly, so that the time until the data is correctly read by retry is shortened. That is, it is possible to provide a recording / reproducing apparatus that can quickly remedy a data reading error.
[0038]
DETAILED DESCRIPTION OF THE INVENTION
The cassette according to claim 1 of the present invention and the recording / reproducing apparatus according to claim 4 of the present invention are:
When recording or reproducing digital data on a tape, a transfer means for transferring the tape, a supply reel base for sending out the tape, a head for recording or reproducing the tape, and a tape for winding the tape A take-up reel base and a guide member on which the tape is stretched and in sliding contact with the recording surface side of the tape,
Of the guide members, the tape stretch length between the guide member A and the head having the shortest tape stretch length with the supply reel stand is L, and the tape stretch length with the take-up reel stand is the longest. When the length of the tape stretch between the short guide member B and the head is M,
When recording the file management data having identification information for distinguishing from the digital data together with the recording position information of the digital data on the tape,
A margin area longer than L + M is provided between the digital data recording section and the file management data recording section in the longitudinal direction of the tape.
When reversing the running direction of the tape after reading the identification information,
The identification information is detected by the head, and based on the detected information,
Within the margin area, the distance S in the tape longitudinal direction from the start point of the margin area is larger than M, and the distance in the tape longitudinal direction from the end point of the margin area is larger than L. It is characterized by comprising tape running control means for controlling the tape to be transferred by the transferring means until the head arrives, and to reverse the running direction of the tape at that position,
By setting the position of the head when the tape traveling direction is reversed to the range S, the guide member A and the guide member B have an effect that they are located in the margin area when the tape traveling direction is reversed, Therefore, important data recorded on the tape can be protected.
[0039]
The invention described in claim 6
When recording or reproducing digital data on a tape, a transfer means for transferring the tape, a supply reel base for sending out the tape, a head for recording or reproducing the tape, and a tape for winding the tape A take-up reel base and a guide member on which the tape is stretched and in sliding contact with the recording surface side of the tape,
Of the guide members, the tape stretch length between the guide member A and the head having the shortest tape stretch length with the supply reel stand is L, and the tape stretch length with the take-up reel stand is the longest. When the length of the tape stretch between the short guide member B and the head is M,
When recording file management data including at least the recording position information of the digital data on the tape,
From a position separated from the recording start point of the file management data by L or more in the tape running direction during reverse reproduction to a position separated by M or more in the tape running direction during normal reproduction from the recording end point of the file management data, Record the index signal,
After reversing the running direction of the tape after detecting the index signal by the head,
While the index signal is detected, the tape is transferred by the transfer means,
At the time when the index signal disappears, it is characterized by comprising a tape running control means for controlling to reverse the running direction of the tape,
The file management information is detected by the index signal, and the tape running direction is reversed at the portion where the index signal disappears, so that the guide member A and the guide member B are positioned outside the file management data recording unit when the tape running is reversed. Has the effect of causing
[0040]
The invention described in claim 7
When recording or reproducing digital data on a tape, a transfer means for transferring the tape, a supply reel base for sending out the tape, a head for recording or reproducing the tape, and a tape for winding the tape A take-up reel base and a guide member on which the tape is stretched and in sliding contact with the recording surface side of the tape,
Of the guide members, the tape stretch length between the guide member A and the head having the shortest tape stretch length with the supply reel stand is L, and the tape stretch length with the take-up reel stand is the longest. When the length of the tape stretch between the short guide member B and the head is M,
When recording file management data including at least the recording position information of the digital data on the tape,
A margin area longer than L + M is provided between the digital data recording section and the file management data recording section in the longitudinal direction of the tape.
When the margin area is located at the back of the tape longitudinal direction following the file management data recording section,
The detection signal is recorded at a position that is M or more away from the recording end point of the file management data in the tape running direction during normal reproduction,
When the file management data is in the back position following the margin area,
A detection signal is recorded at a position separated from the recording start point of the file management data by L or more in a direction opposite to the tape running direction during normal reproduction,
When reversing the running direction of the tape after reading the file management data,
Until the detection signal is detected by the head, the tape is transported by the transporting means, and at the time of detection, the tape travel control means is provided to control to reverse the traveling direction of the tape. Is,
When the head detects the detection signal and simultaneously reverses the tape running direction, it has the effect of reversing the tape running direction.
[0041]
The invention according to claim 8 provides:
Digital data is recorded in a recording / reproducing area in the tape, file management data is recorded at the final position following the digital data recording section, and the position following the end point of the file management data recording section is With a long margin area
When reversing the running direction of the tape after reading the identification information,
The identification information is detected by the head, and based on the information,
The tape running is controlled so that the tape is transported by the transporting means until the head reaches a position longer than M in the longitudinal direction of the tape from the start point of the margin area, and the running direction of the tape is reversed at that position. It is characterized by having a control means,
By performing the head position when the tape traveling direction is reversed at a position longer than L from the start point of the margin area, the guide member A is located within the margin area when the tape traveling direction is reversed. Has an effect.
[0042]
The invention according to claim 11
A rotating head for recording or reproducing data on tape;
A fixed cylinder for guiding the travel by winding the tape diagonally at a predetermined angle;
Transport means for transporting the tape;
A supply reel stand for feeding out the tape;
A take-up reel stand for winding the tape;
The tape is stretched, and includes a guide member that travels in a state where the recording surface side of the tape is in contact,
Among the guide members, when the guide member A having the shortest tape stretch length with the supply reel base and the tape stretch length between the fixed cylinders is N,
When the recording or playback operation is finished,
The presence or absence of the data is detected by the head, and based on the detected information, until the fixed cylinder reaches a position longer than N in the tape running direction during normal playback from the end point of the data recording unit, The tape is controlled so that the tape is transported by the transporting means, and the transport of the tape is stopped at the position, or the tape that has been stretched after the transport of the tape is stopped at the position is unloaded. It is characterized by having travel control means,
When the recording or reproducing operation is completed, the guide member A is placed outside the data recording unit by disposing the cylinder at a position longer than N in the tape running direction during normal reproduction from the end point of the data recording unit. It has the effect of being positioned.
[0043]
The invention according to claim 12
A helical scan type recording / reproducing apparatus for recording and reproducing digital data on a helical track on a tape by a rotating head,
Error detecting means for detecting an uncorrectable error in the digital data to be reproduced;
When an error is detected by the error detection means during reproduction, after the tape has traveled to a predetermined distance P, the tape is moved beyond a position where the error is detected in a direction opposite to normal reproduction. Retry travel control means that reversely travels to the distance Q and performs regeneration again;
Re-reading means for re-reading the data of the portion where the uncorrectable error is detected by the retry running control means,
A set distance variable means for changing the predetermined distance P and the predetermined distance Q when re-reading at the same location on the tape is provided,
By varying the distance P and the distance Q by the set distance varying means, there is an effect that the position where the tape running during the retry is reversed is surely avoided from being the same location on the tape.
[0044]
The invention according to claim 13
A helical scan type recording / reproducing apparatus for recording and reproducing digital data on a helical track on a tape by a rotating head,
Error detecting means for detecting an uncorrectable error in the digital data to be reproduced;
Retry travel control means for replaying after the tape has traveled a predetermined distance beyond the position where the error was detected in a direction opposite to that during normal reproduction by detecting an error by the error detection means. ,
Re-reading means for re-reading the digital data of the part in which an uncorrectable error is detected by the retry running control means;
Comprising high-speed repeating means for repeatedly running the tape at a speed faster than the normal playback speed,
When a data error is detected by the error detecting means when the digital data is read again, the retry running control means and the position where the error is detected by the high speed running repeating means are repeatedly run a plurality of times. Re-reading the digital data by re-reading means,
By repeatedly running the tape at a speed faster than the speed during normal reproduction by the high-speed repeating means, it has the effect of quickly adapting and smoothing the portion where the lubricant has accumulated.
[0045]
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(Embodiment 1)
[0046]
FIG. 1 is a block diagram of a recording system of a digital data recording / reproducing apparatus according to Embodiment 1 of the present invention, and FIG. 2 is a diagram showing a pattern of digital data recorded by the recording / reproducing apparatus according to Embodiment 1 of the present invention. It is. The configuration of the recording / reproducing apparatus of the present invention is exactly the same as that shown in FIGS.
[0047]
First, a description will be given of recording digital data on the magnetic tape 4. In FIG. 1, when recording normal digital data, first, an input digital signal is converted into a predetermined format by a signal encoding processor 31. The recording signal converter 32 performs predetermined error correction encoding and modulation, and then passes through the input timing controller 33 and is recorded on the magnetic tape 4 by the recording head 19R. When the recording of the digital data is completed, file management data (44 in FIG. 2) for facilitating reading and searching of the digital data is input following the end point of the digital data recording. At this time, as shown in FIG. 2, by the input timing controller 33, the time corresponding to the distance of P + Q (mm) in the tape longitudinal direction after the end of the recording of the normal digital data, that is, the tape speed at the time of recording. Is v (mm / s), the file management data (44 in FIG. 2) is input after the (P + Q) / v (s) tape is run.
[0048]
Here, P is set larger than the tape stretch length L between the magnetic head 4 and the capstan 14, and Q is set larger than the tape stretch length M between the magnetic head 4 and the inclined post 10.
[0049]
Next, the definition of the tape stretch length will be described with reference to FIG. FIG. 3 is a development view of the magnetic tape 4 showing a portion in contact with the magnetic surface side of the magnetic tape 4 when the magnetic tape 4 is loaded into the recording / reproducing apparatus of the present invention (see FIG. 1). L is the tape stretch length between the magnetic head 19 and the inclined post 10, M is the tape stretch length between the magnetic head 19 and the capstan 14, and N is the tape stretch length between the cylinder 5 and the inclined post 10. Show. That is, the tape stretch length is the length in the tape running direction necessary for the range in contact with each other's magnetic tape to pass.
[0050]
Since L is the tape stretch length of the magnetic head 19 and the inclined post 10, in order for the magnetic head 19 to pass the portion where the inclined post 10 and the magnetic tape 4 are in contact with each other, reference numeral 19a in FIG. It is only necessary to move the magnetic head to the position in the tape running direction (actually, the tape is transferred). This moving distance is L.
[0051]
Since M is the tape stretch length of the magnetic head 19 and the capstan 14, in order for the magnetic head 19 to pass the portion where the capstan 14 and the magnetic tape 4 are in contact with each other, 19b in FIG. What is necessary is just to move a magnetic head to a tape running direction to a position. This moving distance is M.
[0052]
Since N is the tape stretch length between the cylinder 5 and the inclined post 10, the portion where the inclined post 10 and the magnetic tape 4 are in contact with each other passes the portion where the cylinder 5 and the magnetic tape 4 are in contact with each other. For this purpose, the cylinder may be moved in the tape running direction to the position 5a in FIG. This moving distance is N.
[0053]
In this way, in the post that contacts P + Q, that is, the magnetic surface side of the magnetic tape shown in FIG. 1, between the normal digital data recording unit 41 and the file management data recording unit 44, This is larger than the tape stretch length (L + M) between the inclined post 10 and the capstan 14, which is the farthest post, and takes a margin area of an unrecorded portion.
[0054]
Thereafter, file management data (44 in FIG. 2) is recorded. At this time, the data end track 44E is recorded at the recording end portion of the file management data recording unit 44. The data end track 44E serves as detection information of the file management data recording unit 44 at the time of search.
[0055]
Next, explanation will be given with reference to FIGS. 2 and 4 when the digital data recorded on the magnetic tape 4 is reproduced, in particular, with respect to the reversing operation of the tape running when the file management data recording unit 44 is reproduced. . FIG. 4 is a block diagram of a reproducing system of a digital data recording / reproducing apparatus. A signal reproduced from the magnetic tape 4 by the reproducing head 19W is demodulated and error-corrected by a reproducing signal converter 51, and the signal decoding processor 52 also performs decoding. Reverse conversion to the format and output. The detection circuit 53 is a circuit for detecting various signals. In this embodiment, the detection circuit 53 is a detection circuit for detecting the data end track 44E of the file management data recording unit 44 by the reproducing head 19W.
[0056]
First, the operation of reading the file management data recording unit 44 and then reversing the tape running when the position of the magnetic head 19 is located at the beginning of winding of the tape relative to the file management data recording unit 44 will be described.
[0057]
At this time, the capstan motor 15 is rotated counterclockwise in FIG. As a result, the magnetic tape 4 is transferred in the F direction. Thereafter, when the data end track is detected by the detection circuit 53, the tape running control means 54 calculates R / R when the time corresponding to R in FIG. 2, ie, the tape running speed is v (mm / s). After running v (S), a command is sent to the motor control circuit 55 to reverse the rotation direction of the capstan motor 15.
[0058]
Here, R is set to be longer than the tape stretch length M between the magnetic head 4 and the inclined post 10.
[0059]
The tape running direction reversing operation after reading the file management data recording unit 44 is performed by the above method. At this time, the inverted portion of the magnetic head 19 is at a position 19x in FIG.
[0060]
At this time, among the posts in contact with the magnetic surface side of the magnetic tape, the positions of the inclined post 10 and the capstan 14 which are the farthest posts on the tape stretching locus are 10a and 14a in FIG. 2, respectively. . As shown in FIGS. 15 and 16, when the tape travel is reversed, the lubricant accumulated in the inclined post 10 and the capstan 14 adheres to the tape. Will stick to the position.
[0061]
Therefore, since R> M, the accumulated lubricant does not adhere to the file management data recording unit 44 as shown in FIG. Therefore, data errors are less likely to occur when reading file management data.
[0062]
Next, the operation of reversing the tape running direction in order to read the file management data recording unit 44 when the magnetic head 19 is positioned at the end of winding of the tape rather than the file management data recording unit 44 will be described.
[0063]
First, the capstan motor 15 is rotated clockwise in FIG. As a result, the magnetic tape 4 is transferred in the R direction. Thereafter, when the data end track 44E is detected by the detection circuit 53, the tape running control means 54 sets the time corresponding to V + Q (mm) in FIG. 2, that is, the tape running speed as v (mm / s). At this time, after running (V + Q) / v (S), a command is sent to the motor control circuit 55 to reverse the rotation direction of the capstan motor 15. At this time, the inverted portion of the magnetic head 19 is at a position 19y in FIG.
[0064]
By the above method, the tape running direction reversing operation for reading the file management data recording unit 44 is performed.
[0065]
At this time, among the posts in contact with the magnetic surface side of the magnetic tape, the positions of the inclined post 10 and the capstan 14 which are the farthest posts on the tape stretching locus are 10b and 14b in FIG. 2, respectively. . As shown in FIGS. 15 and 16, since the lubricant accumulated in the inclined post 10 and the capstan 14 adheres to the tape when the tape travel is reversed, the accumulated lubricant is located at positions 10b and 14b on the tape. Will adhere.
[0066]
As a result, since the margin areas are recorded so that P> M and Q> L, the lubricant accumulated in the file management data recording unit 44 and the normal data recording unit 41 adheres. There is nothing. Therefore, a data error is unlikely to occur when file management data is read.
[0067]
Next, a description will be given of the stop position after reading the file management data or when the recording / reproducing operation is completed with reference to FIGS.
[0068]
At the end of the operation, the file management data recording unit 44 is read in order to perform an operation of updating the file management data or recording it in another memory (for example, a memory in cassette) after reading. At this time, when the data end track E of the file management data recording unit 44 is detected by the detection circuit 53, the tape running control means 54 sets the time corresponding to R + S (mm) in FIG. When v (mm / s) is set, after running (R + S) / v (S),
A command is sent to the motor control circuit 55 so as to stop the rotation of the motor 15. At this time, the stop position of the magnetic head 19 is 19z in FIG. Thereafter, in some cases, unloading may be performed by a known means using a loading motor.
[0069]
Thus, as shown in FIGS. 15 and 16, even if the lubricant 152a accumulated on the post sliding with the recording surface side of the magnetic tape adheres to the magnetic tape side due to the reversal of the tape running, FIG. Since the stop position is set so as to satisfy S> N, it is possible to reliably prevent the pool portion 10a and the cylinder from contacting each other in a stopped state.
[0070]
As described above, in this embodiment, a margin area that is longer than the maximum tape stretch length (L + M) of the post that slides on the recording surface side of the magnetic tape is provided between the normal data and the file management data. It was set as the structure reversed by the part. Therefore, even if the lubricant collected on the post sliding with the recording surface side of the magnetic tape adheres to the magnetic tape side when the tape travel is reversed, the lubricant is not applied to the file management data part or the normal data part. The accumulated part does not adhere. Accordingly, data such as file management data is frequently read, and important data can be reliably protected.
[0071]
Further, since the cylinder is stopped at a position separated from the tape running reversal part after the reversal part of the file management data by more than the tape stretch length N between the cylinder and the head, it slides on the recording surface side of the magnetic tape. Even if the lubricant accumulated on the post adheres to the magnetic tape side when reversing the tape travel, it is possible to reliably prevent the cylinder and the tape lubricant reservoir from coming into contact with each other when the tape stops. Sticking will not occur. Therefore, it is possible to provide a highly reliable recording / reproducing apparatus capable of reliably preventing tape damage.
[0072]
In the above description, the configuration in which the file management data recording unit 44 is disposed immediately after the final end of the data recording unit 41 has been described. However, the present invention is not limited to this location, and is located before the data recording unit. Even in the middle, the same effect can be obtained.
[0073]
Further, the file management data 44 may be recorded in the area 44 for a plurality of times.
[0074]
In the present embodiment, the data end track 44E at the end of the file management data recording unit has been described as the identification information. However, the present invention is not limited to this. This information may be used as identification information.
[0075]
(Embodiment 2)
FIG. 5 is a diagram showing a pattern of digital data recorded by the recording / reproducing apparatus according to Embodiment 2 of the present invention. The configuration of the recording / reproducing apparatus of the present invention is exactly the same as that shown in FIGS. Also, the block diagram of the recording system and the block diagram of the reproduction system are exactly the same as those in FIGS.
[0076]
First, a description will be given of recording digital data on the magnetic tape 4. In FIG. 1, when recording normal digital data, first, an input digital signal is converted into a predetermined format by a signal encoding processor 31. The recording signal converter 32 performs predetermined error correction encoding and modulation, and then passes through the input timing controller 33 and is recorded on the magnetic tape 4 by the recording head 19R. When the recording of the digital data is completed, the input timing controller 33 sets the time corresponding to the distance of P (mm), that is, the tape speed at the time of recording is v (mm / s). After running, the index signal 45 starts to be recorded. As shown in FIG. 5, the index signal 45 is recorded in the vicinity of the upper end of the magnetic tape 4 in the width direction. Thereafter, after elapse of time corresponding to the distance of Q (mm), that is, Q / v (s), recording of file management data for facilitating reading and searching of digital data is started. Thereafter, after the time corresponding to V (mm), that is, V / v (s) has elapsed, the recording of the file management data is terminated. Further, after the time corresponding to R (mm), that is, R / v (s) has elapsed, the recording of the index signal 45 is terminated.
[0077]
Next, explanation will be given with reference to FIGS. 4 and 5 when the digital data recorded on the magnetic tape 4 is reproduced, and in particular, with respect to the reversing operation of the tape running when reproducing the file management data. FIG. 4 is a block diagram of a reproducing system of a digital data recording / reproducing apparatus. A signal reproduced from the magnetic tape 4 by the reproducing head 19W is demodulated and error-corrected by a reproducing signal converter 51, and the signal decoding processor 52 also performs decoding. Reverse conversion to the format and output. The detection circuit 53 is a detection circuit for detecting the index signal 45 by the reproducing head 19W.
[0078]
The operation of reading the file management data recording unit 44 and then reversing the tape running will be described by taking as an example the case where the magnetic head 19 is positioned at the beginning of winding of the tape rather than the file management data recording unit 44.
[0079]
At this time, the capstan motor 15 is rotated counterclockwise in FIG. As a result, the magnetic tape 4 is transferred in the F direction. Thereafter, the index signal 45 is detected by the detection circuit 53. Thereafter, at the same time as the detection of the index signal 45 is completed, the tape running control means 54 sends a command to the motor control circuit 55 so as to reverse the rotation direction of the capstan motor 15.
[0080]
By the above method, the tape running direction reversing operation after reading the file management data recording unit 44 is performed. At this time, the inverted portion of the magnetic head 19 is at a position 19x in FIG.
[0081]
The same applies to the case where the position of the magnetic head 19 is at the end of winding of the tape relative to the file management data recording unit 44, and the reverse portion is at the position 19y in FIG.
[0082]
As a result, even if the post sliding with the recording surface side of the magnetic tape adheres to the magnetic tape side with the lubricant accumulated on the post along the head scanning trajectories 19x and 19y at the time of tape running reversal, R> M, Q Since the index signal 45 is recorded so as to be> L, it is possible to reliably prevent the portion where the lubricant is accumulated from adhering to the file management data recording portion 44. Further, as shown in FIG. 5, since the recording area of the index signal 45 exists over a wide range in the longitudinal direction of the tape, the index signal 45 can be reliably detected even when searching at a high speed, for example.
[0083]
As described above, in this embodiment, since the index signal 45 is recorded so that R> M and Q> L, the portion where the lubricant is accumulated adheres to the file management data recording portion 44. A highly reliable recording / reproducing apparatus that can be surely prevented can be provided. Further, since the recording area of the index signal 45 exists in a wide range in the longitudinal direction of the tape, a recording / reproducing apparatus excellent in operability that can reliably detect the index signal 45 even when searching at a high speed, for example. Can be provided.
[0084]
In the above description, the configuration in which the file management data recording unit 44 is disposed immediately after the final end of the data recording unit 41 has been described. However, the present invention is not limited to this location, and is located before the data recording unit. Even in the middle, the same effect can be obtained.
[0085]
Further, the file management data recording unit 44 may record a plurality of times in the 44 area.
[0086]
In this embodiment, the blank area is provided before and after the file management data recording unit 44 in the longitudinal direction of the tape. However, when normal data is not so important, a normal area is provided in the blank area. You may enter data.
[0087]
(Embodiment 3)
FIG. 6 is a diagram showing a pattern of digital data recorded by the recording / reproducing apparatus according to Embodiment 3 of the present invention. The configuration of the recording / reproducing apparatus of the present invention is exactly the same as that shown in FIGS. Also, the block diagram of the recording system and the block diagram of the reproduction system are exactly the same as those in FIGS.
[0088]
First, a description will be given of recording digital data on the magnetic tape 4. In FIG. 1, when recording normal digital data, first, an input digital signal is converted into a predetermined format by a signal encoding processor 31. The recording signal converter 32 performs predetermined error correction encoding and modulation, and then passes through the input timing controller 33 and is recorded on the magnetic tape 4 by the recording head 19R. When the recording of the digital data is completed, the input timing controller 33 sets the time corresponding to the distance of P (mm), that is, the tape speed at the time of recording is v (mm / s). After running, the detection signal 46 is recorded. Thereafter, after elapse of time corresponding to the distance of Q (mm), that is, Q / v (s), recording of file management data for facilitating reading and searching of digital data is started. Thereafter, after the time corresponding to V (mm), that is, V / v (s) has elapsed, the recording of the file management data is terminated. Further, after a time corresponding to R (mm), that is, R / v (s) has elapsed, the detection signal 47 is recorded.
[0089]
Next, explanation will be given with reference to FIG. 4 and FIG. 5 when the digital data recorded on the magnetic tape 4 is reproduced, in particular, with respect to the reversing operation of the tape running when the file management data recording unit 44 is reproduced. . FIG. 4 is a block diagram of a reproducing system of a digital data recording / reproducing apparatus. A signal reproduced from the magnetic tape 4 by the reproducing head 19W is demodulated and error-corrected by a reproducing signal converter 51, and the signal decoding processor 52 also performs decoding. Reverse conversion to the format and output. The detection circuit 53 is a detection circuit for detecting the detection signals 46 and 47 by the reproducing head 19W.
[0090]
The operation of reading the file management data recording unit 44 and then reversing the tape running will be described by taking as an example the case where the magnetic head 19 is positioned at the beginning of winding of the tape rather than the file management data recording unit 44.
[0091]
At this time, the capstan motor 15 is rotated counterclockwise in FIG. As a result, the magnetic tape 4 is transferred in the F direction. Thereafter, simultaneously with detection of the detection signal 47 by the detection circuit 53, the tape running control means 54 sends a command to the motor control circuit 55 so as to reverse the rotation direction of the capstan motor 15.
[0092]
By the above method, the tape running direction reversing operation after reading the file management data recording unit 44 is performed.
[0093]
The same applies to the case where the position of the magnetic head 19 is at the end of winding of the tape relative to the file management data recording unit 44, and the inverted portion is at the position 46 in FIG.
[0094]
As a result, even if the post sliding with the recording surface side of the magnetic tape adheres the lubricant accumulated on the post at the reversing portions 46 and 47 to the magnetic tape side, R> M and Q> L. Since the index signal 45 is recorded, it is possible to reliably prevent the portion where the lubricant is accumulated from adhering to the file management data recording portion 44. In addition, since the detection signal is directly recorded in the portion that reverses the tape running direction, the reversing position in the tape running direction can be accurately set without deviation. Therefore, it is possible to prevent the accumulation of the lubricant from adhering to the file management data recording unit 44 or the normal data recording unit 41 without providing the margin areas (P + Q) and R more than necessary. The data recording area can be used effectively. That is, the values of (P−M), (Q−L), and (R−M) in FIG. 5 can be minimized.
[0095]
As described above, in this embodiment, since the detection signals 46 and 47 are recorded in the portion where the tape running direction is reversed, it is ensured that the portion where the lubricant is accumulated adheres to the file management data recording portion 44. Therefore, it is possible to provide a highly reliable recording / reproducing apparatus that can be prevented. In addition, since the position of the inverted portion is accurate, it is possible to provide a recording / reproducing apparatus that can effectively use the data recording area.
[0096]
In the above description, the configuration in which the file management data recording unit 44 is disposed immediately after the final end of the data recording unit 41 has been described. However, the present invention is not limited to this location, and is located before the data recording unit. Even in the middle, the same effect can be obtained.
[0097]
Further, the file management data may be recorded a plurality of times in the 44 area.
[0098]
(Embodiment 4)
FIG. 7 is a diagram showing the reproducing operation of the recording / reproducing apparatus according to Embodiment 4 of the present invention. In FIG. 7, when the signal reproduced from the magnetic tape 4 by the reproducing head 19W is demodulated and error correction decoded by the reproducing signal converter 51, and no error is detected by the error detecting unit 61, the signal decoding processor 52 also Reverse conversion to the format and output.
[0099]
When an error is detected by the error detector 61, the counter 62 increments the error, and the retry control means 63 instructs the motor drive circuit 64 on the drive method. 8 and 9 show the operation by the retry control means. As shown in FIGS. 8 and 9, at the first retry, the position 19 where the data error has occurred. ₁ After the reproducing head 19W moves P relative to the tape in the tape running direction, the capstan is reversed and moved Q in the opposite direction. By setting the value of Q to be larger than P, the portion where the data error has occurred is exceeded. Thereafter, the signal is run again in the forward direction, and the signal reproduced from the magnetic tape 4 by the reproducing head 19W is processed in the same manner as the first time. At this time, if a data error is detected again by the error detection unit 61, the value of the counter 62 increases by 1 from 1 to indicate 2. Then, after the head 19W moves P + α relative to the tape from the position where the data error occurs by the retry control means, the capstan is reversed and moved Q + 2α. Here, α is a set distance variable means set in order to prevent inversion at the same location on the tape.
[0100]
Similarly, as shown in FIGS. 8 and 9, the inversion place on the tape is varied by the set distance varying means α every time an error is detected.
[0101]
By repeating the above operation, the inverted portion can be prevented from being the same location on the tape as shown in FIG.
[0102]
As described above, according to the present embodiment, since the reversal portion at the time of retry is varied by the set distance varying means α in the retry control means, it is possible to reliably prevent reversing a plurality of times at the same location. . Accordingly, since the lubricant and wear powder do not collect at the same location, it is possible to provide a highly reliable recording / reproducing apparatus that can reliably prevent the lubricant from collecting at the reversal portion.
[0103]
In the above description, the set distance is changed every time. However, the present invention is not limited to this, and it is not limited to this. The effect is obtained.
[0104]
(Embodiment 5)
FIG. 10 is a diagram showing the reproducing operation of the recording / reproducing apparatus according to the fifth embodiment of the present invention. In FIG. 10, the signal reproduced from the magnetic tape 4 by the reproducing head 19W is demodulated and error correction decoded by the reproducing converter 51, and if no error is detected by the error detecting unit, the signal decoding processor 52 Convert to format and output.
[0105]
When an error is detected by the error detector 61, the repeat control means 71 causes the capstan motor 15 to move at a speed 10 times faster than the tape speed in the normal playback mode, that is, in the CUE and REV modes. The motor drive circuit 64 is instructed to repeatedly travel 10 times.
[0106]
FIG. 11 shows the relationship between the bit error rate at the portion where the data error has occurred and the number of runnings repeated at a speed of 10 times the normal running. As shown in FIG. 11, it can be seen that the bit error rate of the data error portion has been recovered by repeatedly running 10 times. This is because the data error portion generated in the portion where the lubricant is accumulated at the same location on the tape surface causes the lubricant to be smoothed by repeatedly running, so that the magnetic head 19 and the magnetic tape 4 This is because there is less spacing. When the retry is repeated 10 times, the data can be recovered quickly by repeatedly traveling the data 10 times in the CUE and REV modes as in this embodiment.
[0107]
As described above, after 10 repetitions are performed by the repetition control means 71, retry is performed again, that is, the signal reproduced from the magnetic tape 4 by the reproducing head 19W is demodulated by the reproduction converter 51, error correction decoding is performed, and signal decoding is performed. The conversion processor 52 converts it back to its original format and outputs it.
[0108]
As described above, according to the present embodiment, the data error portion generated in the portion where the lubricant is accumulated is quickly recovered by the high-speed repetitive traveling means, and thus the operability is good. A recording / reproducing apparatus can be provided.
[0109]
In the above description, a description has been given of a configuration in which retrying is performed 10 times at 10 times speed and then retrying. However, the present invention is not limited to this, and an effect is obtained as long as the tape speed is higher than normal playback. In addition, regarding the number of repetitions, it is sufficient to repeatedly run as many times as possible to smooth the portion where the lubricant has accumulated.
[0110]
【The invention's effect】
As described above, according to the present invention, the position where the tape running is reversed can be performed in the margin area between the data, and even if the lubricant pool remains on the tape at the reversed portion of the tape running, the important data is obtained. It is possible to provide a highly reliable tape cassette that does not affect anything.
[0111]
Further, according to the present invention, since the index signal serves as both the detection at the time of searching and the information of the reversal portion of the tape running, the index signal can be used effectively, and the search can be performed at a high speed. Can also be reliably detected.
[0112]
Further, according to the present invention, since the reverse position of the tape running becomes accurate, it is not necessary to provide a margin area more than necessary, so that the data area can be used effectively.
[0113]
Further, according to the present invention, since the position where the tape running is reversed can be performed in the margin area after the final data, it is important even if a portion of the lubricant pool is generated in the tape running reversed portion. It is possible to provide a highly reliable tape cassette that does not affect the data. Further, since the file management data is arranged at the end of the data, the position of the file management data is changed every time the file management data is updated by increasing the data. As a result, the number of inversions when the file management data is read is reduced, so that accumulation of lubricant in the inversion portion can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram of a recording system according to a first embodiment of the present invention.
FIG. 2 is a diagram showing a recording pattern on the tape
FIG. 3 is an explanatory diagram of the tape stretch length
FIG. 4 is a block diagram of the reproduction system.
FIG. 5 is a diagram showing a recording pattern on a tape according to a second embodiment of the present invention.
FIG. 6 is a diagram showing a recording pattern on a tape according to a third embodiment of the present invention.
FIG. 7 is a block diagram of a reproduction system according to Embodiment 4 of the present invention.
FIG. 8 is an explanatory diagram of the retry control means.
FIG. 9 is a diagram showing a pattern on the tape
FIG. 10 is a block diagram of a reproduction system according to a fifth embodiment of the present invention.
FIG. 11 is a diagram showing the relationship between the number of high-speed repeated passes and the bit error rate
FIG. 12 is a plan view of a conventional recording / reproducing apparatus.
FIG. 13 is a schematic view of the cylinder.
FIG. 14 shows a pattern on the tape
FIG. 15 is an explanatory diagram regarding the accumulation of the lubricant.
FIG. 16 is an explanatory diagram regarding the accumulation of the lubricant
[Explanation of symbols]
5 ... Cylinder
10 ... Inclined post
14 ・ ・ ・ Capstan
19 ... Magnetic head
44 ・ ・ ・ File management data
44E: Data end track
L: Tape stretch length between the magnetic head 4 and the inclined post 10
M: Length of the tape stretch between the magnetic head 4 and the capstan 14
N: Tape stretch length between the cylinder 5 and the inclined post 10

Claims (10)

A tape cassette in which digital data and file management data including at least recording position information of the digital data are recorded,
Among the plurality of tape guide members that are provided in a reproducing apparatus that is mounted with the tape cassette and reproduces the digital data, in which the tape is stretched and in sliding contact with the recording surface side of the tape,
When the tape tension length between two tape guide members furthest away on the tape tension trajectory of the tape is X,
A tape cassette having a margin area in which dummy data is recorded or not recorded, which is longer than X, between the digital data recording section and the file management data recording section. A tape cassette in which digital data is recorded in a recording / reproducing area in the tape, and file management data is recorded in a final position following the digital data,
Among the plurality of tape guide members mounted on the tape cassette and provided in the reproducing apparatus for reproducing the digital data, the tape is stretched and slidably contacted with the recording surface side of the tape,
When the length of the tape span between the guide member B having the shortest tape stretch length with the take-up reel base for winding the tape and the head for reproducing the tape is M, the file management 2. The tape cassette according to claim 1, wherein a margin area longer than M is provided at a position behind the data recording portion in the longitudinal direction of the tape.   3. The tape cassette according to claim 1, wherein dummy data is recorded in the margin area or file management data is repeatedly recorded a plurality of times. When recording or reproducing digital data on a tape, a transfer means for transferring the tape, a supply reel base for sending out the tape, a head for recording or reproducing the tape, and a tape for winding the tape A take-up reel base and a guide member on which the tape is stretched and in sliding contact with the recording surface side of the tape,
Of the guide members, the tape stretch length between the guide member A and the head having the shortest tape stretch length with the supply reel stand is L, and the tape stretch length with the take-up reel stand is the longest. When the length of the tape stretch between the short guide member B and the head is M,
When recording the file management data having identification information for distinguishing from the digital data together with the recording position information of the digital data on the tape,
A margin area longer than L + M is provided between the digital data recording section and the file management data recording section in the longitudinal direction of the tape.
When reversing the running direction of the tape after reading the identification information,
The identification information is detected by the head, and based on the detected information,
Within the margin area, the distance S in the tape longitudinal direction from the start point of the margin area is greater than M, and the distance S in the tape longitudinal direction from the end point of the margin area is greater than L. And a tape travel control means for controlling the tape to be transported by the transport means until the head reaches the head and to reverse the travel direction of the tape at that position.   5. The recording / reproducing apparatus according to claim 4, wherein dummy data is recorded in the margin area or file management data is repeatedly recorded a plurality of times. When recording or reproducing digital data on a tape, a transfer means for transferring the tape, a supply reel base for sending out the tape, a head for recording or reproducing the tape, and a tape for winding the tape A take-up reel base and a guide member on which the tape is stretched and in sliding contact with the recording surface side of the tape,
Of the guide members, the tape stretch length between the guide member A and the head having the shortest tape stretch length with the supply reel stand is L, and the tape stretch length with the take-up reel stand is the longest. When the length of the tape stretch between the short guide member B and the head is M,
When recording file management data including at least the recording position information of the digital data on the tape,
From a position separated from the recording start point of the file management data by L or more in the tape running direction during reverse reproduction to a position separated by M or more in the tape running direction during normal reproduction from the recording end point of the file management data, Record the index signal,
After reversing the running direction of the tape after detecting the index signal by the head,
While the index signal is detected, the tape is transferred by the transfer means,
A recording / reproducing apparatus comprising tape running control means for controlling to reverse the running direction of the tape when the index signal disappears. When recording or reproducing digital data on a tape, a transfer means for transferring the tape, a supply reel base for sending out the tape, a head for recording or reproducing the tape, and a tape for winding the tape A take-up reel base and a guide member on which the tape is stretched and in sliding contact with the recording surface side of the tape,
Of the guide members, the tape stretch length between the guide member A and the head having the shortest tape stretch length with the supply reel stand is L, and the tape stretch length with the take-up reel stand is the longest. When the length of the tape stretch between the short guide member B and the head is M,
When recording file management data including at least the recording position information of the digital data on the tape,
A margin area longer than L + M is provided between the digital data recording section and the file management data recording section in the longitudinal direction of the tape.
When the margin area is located at the back of the tape longitudinal direction following the file management data recording section,
The detection signal is recorded at a position that is M or more away from the recording end point of the file management data in the tape running direction during normal reproduction,
When the file management data is at a position following the margin area, the detection signal is positioned at a distance L or more from the recording start point of the file management data in a direction opposite to the tape running direction during normal playback. Recorded in
When reversing the running direction of the tape after reading the file management data,
Until the detection signal is detected by the head, the tape is transported by the transporting means, and at the time of detection, the tape travel control means is provided so as to reverse the traveling direction of the tape. Recording / playback device. Digital data is recorded in a recording / reproducing area in the tape, file management data is recorded at the final position following the digital data recording section, and the position following the end point of the file management data recording section is With a long margin area
When reversing the running direction of the tape after reading the identification information,
The identification information is detected by the head, and based on the information,
The tape running is controlled so that the tape is transported by the transport means until the head reaches a position longer than M in the longitudinal direction of the tape from the start point of the margin area, and the running direction of the tape is reversed at that position. 5. The recording / reproducing apparatus according to claim 4, further comprising a control unit. Digital data is recorded in a recording / reproducing area in the tape, file management data is recorded at the final position following the digital data recording section, and the position following the end point of the file management data recording section is With a long margin area
The detection signal is recorded at a position that is M or more away from the recording end point of the file management data in the tape running direction during normal reproduction,
When reversing the running direction of the tape after reading the detection signal,
A tape travel control means is provided for controlling the tape to be transported by a transport means until the detection signal is detected by the head and to reverse the travel direction of the tape when detected. Item 8. The recording / reproducing apparatus according to Item 7.   10. The recording / reproducing apparatus according to claim 8, wherein dummy data is recorded in the margin area or file management data is repeatedly recorded a plurality of times.

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