JP2544354B2 - Digital signal regenerator - Google Patents

Description

The present invention relates to an apparatus for reproducing a digital signal with a large number of magnetic heads, and in particular, observing a code error occurrence state of an identification circuit associated with each magnetic head. The present invention relates to a digital signal reproducing device having a circuit for performing.

[Conventional technology]

A conventional digital signal recording / reproducing apparatus using a plurality of heads, as described in Japanese Patent Application Laid-Open No. 57-120215, distributes a digitalized television signal to three channels and records / reproduces with four magnetic heads. It has a structure suitable for recording and reproducing a large amount of digital signals. However, no consideration has been given to observing the bit error state of the signal reproduced by each magnetic head and facilitating the adjustment of the discrimination circuit corresponding to each magnetic head.

[Problems to be solved by the invention]

In the above-mentioned prior art, in particular, when the number of magnetic heads to be recorded and the number of channels of the circuit do not match, it is necessary to observe or observe how much code error the reproduced signal in each magnetic head has. Is not taken into consideration.

Usually, a code error detection circuit is provided for each channel, and the state of code error can be easily observed and observed for each channel. However, one channel signal is composed of signals from two or more magnetic heads. The main causes of code error are changes in the frequency characteristics of the tape / head system due to head wear, changes in head contact, and tracking deviations, etc., which depend on each magnetic head. It is necessary to take measures such as observing and observing the error state corresponding to the above, and adjusting the equalization circuit (the circuit that compensates the frequency characteristics of the tape head system) corresponding to each magnetic head.

An object of the present invention is to take out an error for each magnetic head by using the error detection information obtained by each channel, and to observe and observe the error state for each magnetic head.

[Means for solving problems]

The above-mentioned purpose is to provide a switcher for redistributing the determination result of error detection performed in each channel for each magnetic head, and by collecting the determination result for each magnetic head,
The error state for each magnetic head can be observed or observed.

[Action]

The magnetic head for recording the digital information is fixedly arranged on the cylinder, and the recording / reproducing time of each magnetic head can be set by the cylinder cycle.

Furthermore, since the number of magnetic heads does not match the number of channels, the magnetic heads can be recorded by switching the channels sequentially.
(Reproduce. The period at which a given magnetic head records (reproduces) the same channel is given by the number of magnetic heads and the least common multiple of the number of channels. In this cycle, the channel recorded (reproduced) with the magnetic head can be designated. On the contrary, it is of course possible to specify at which magnetic head the signal of each channel was recorded and reproduced.

In each channel, a period in which each magnetic head can be recorded (reproduced) in one cylinder cycle is composed of a plurality of blocks, and each block serves as one unit for error correction / detection.

Therefore, the result of error correction / detection for each block obtained by each channel can be distributed to each magnetic head concerned via the switch. Error correction for each magnetic head
When the detection results are collected and displayed, it is possible to determine which magnetic head has many errors by this display. Replacing the magnetic head or 1: 1 with the magnetic head
It is possible to quickly deal with the adjustment of the equalization circuit corresponding to.

〔Example〕

An embodiment of the present invention will be described below with reference to FIG. 1
Shows a signal circuit of a digital VTR that has been conventionally proposed. Reference numeral 2 is a circuit for detecting and displaying a code error in each magnetic head according to the present invention.

1, the TV signal is A / A through the input terminal 1-1.
It is converted into a digital signal by the D converter 1-2. About 100Mb
Since the data rate is as high as qs, it is difficult to record / reproduce with one channel, and the distribution circuit 1-3 distributes to three channels. In each channel, an error correction detection code is inserted by a 1-4 ECC addition circuit so that a code error occurring in the magnetic tape head system can be detected and corrected.

The four magnetic heads are arranged on the cylinder 1-7 at 90 ° intervals, and the magnetic tape 1-6 is wound around the cylinder by 270 °. The signal of each channel is recorded by four magnetic heads A, B, C and D in sequence.

FIG. 2 shows the allocation status of recording magnetic heads in each channel. Since it is wound around 270 °, the magnetic head changes every 3/4 period T _B of the cylinder rotation period T _C.

The recording pattern of the magnetic tape 1-7 is reproduced by each magnetic head and the preamplifier 1 corresponding to the magnetic heads A, B, C and D 1: 1.
The signal is amplified by -8, and is further decoded into a digital signal through an equalizing circuit 1-9 that compensates the frequency characteristic of the magnetic tape head system.

As shown in FIG. 2, the signal of each channel has a time delay corresponding to the arrangement of the magnetic heads. Further, the signal from the magnetic tape is accompanied by fluctuations on the time axis. These are corrected with the time base collector (TBC) 1-10. TBC1-10
In addition, it also has the function of a switch that collects the signals from each magnetic head and rearranges them into the signals of each channel. FIG. 3 shows from which magnetic head each channel is composed of signals.

An error correction circuit (ECC) 1-11 detects a code error in the signal of each channel, and corrects an error that can be corrected. The corrected signals are combined by the integrated circuit 1-12 and returned to the original television signal by the D / A converter 1-13.

The error correction / detection code is calculated and inserted into a predetermined block-unit digital signal. The length of the block is set to an integer fraction of one recording period T _B of the magnetic head, so that blocks of error correction and detection is not span a plurality of magnetic heads.

In the error detection circuit of each channel, the presence / absence of an error can be determined by the presence or absence of an error pulse for each word in which an error has occurred or for each subblock in which a plurality of words are collected.

As shown in FIG. 4, error pulses of a predetermined channel are collected through a switch 2-1 for each magnetic head, and counters 2-2-1 to 2-2-4 count false repulses.
The error status is displayed on the display units 2-3-1 to 2-3-4.
The display shows the number of errors within a predetermined time with a numerical value,
Depending on the number of digits, the lamp may be turned on, such as green when the number is small and red when the number is large.

〔The invention's effect〕

According to the present invention, since an error state can be observed for each magnetic head, it is possible to quickly deal with a situation where the magnetic head is worn out and needs to be replaced, and a digital VTR or the like that is easy to use. A signal reproducing device can be provided.

[Brief description of drawings]

FIG. 1 is a signal system diagram of a digital VTR according to an embodiment of the present invention, FIG. 2 is a time chart showing signal distribution to magnetic heads in each channel, and FIG. 3 is a signal state in each channel after a time base collector. FIG. 4 is a time chart showing the situation of signal distribution in each magnetic head. 1-2 ... A / D converter, 1-4 ... ECC addition circuit, 1-9
…… Equalization circuit, 1-11 …… ECC circuit, 2-1 …… Switcher, 2-2-1 …… Counter, 2-3-1 …… Display unit, 1-13 …… D / A converter .

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Hidehiko Sawamura 1-280 Higashi Koigakubo, Kokubunji City Central Research Laboratory, Hitachi, Ltd. (72) Inventor Hitoshi Katayama 292 Yoshida-cho, Totsuka-ku, Yokohama Hitachi New Media Systems Co., Ltd. In the factory department (56) References JP 62-232712 (JP, A)

Claims (2)

(57) [Claims] 1. Distributing means (1-2, 1-) for digitizing an input video signal and distributing it to m channels (m is a positive integer).
3), an error correction code adding means (1-4) for dividing the digital signal into blocks of a predetermined size for each channel, and adding an error correction code for each block, and forming a block including the error correction code. Means (1-5) for allocating the selected m-channel digital signals to n (n ≠ m, n is a positive integer) recording heads on a rotating cylinder rotating in contact with the magnetic tape surface in a predetermined order. And means (1-8, 1-9) for decoding the n-series reproduction signals read from the magnetic tape by the n reproduction heads on the rotary cylinder into digital signals, respectively.
And means (1-10) for rearranging each of the decoded n-series digital signals into an m-channel digital signal.
For each of the reorganized m-channel digital signals, an error correction process based on an error correction code detected in a predetermined block period in each digital signal is performed, and a code error occurs in the block period for each channel. An error correcting means (1-11) for generating a presence / absence signal and a means (1-12, 1-) for integrating the digital signal of the m channel processed by the error correcting means and converting it into an original video signal. 13) and a counting means (2) for counting the number of code error occurrences for each reproducing head based on the code error presence / absence signal for each channel output from the error correction means in a block cycle. Characteristic digital signal reproducing device. 2. The error correction code adding means (1-4),
The recording head has a size capable of recording one block or a plurality of blocks of digital signals within a recording cycle (T _R ) determined by the contact time between each recording head and the magnetic tape due to the rotation of the rotary cylinder. The digital signal is divided into blocks, and the digital signal is divided into blocks.
The digital signal reproducing device according to.