KR200177594Y1 - Apparatus for preventing the divergence of an adaptive equalizer in a digital vcr - Google Patents

Abstract

The present invention relates to a digital VCR, wherein an adaptive equalizer that outputs digital data reproduced from a digital VCR as an equalized signal having partial response channel characteristics according to adaptive filter coefficient values is generated by equalizing a signal reproduced from a damaged magnetic tape. In order to prevent the divergence phenomenon, when the synchronous signal is not detected from the synchronous signal detector for a predetermined period, an initial filter coefficient is provided to the adaptive equalizer through the filter coefficient updating unit. Therefore, since the adaptive equalizer maintains the initial convergence state by performing the equalization operation using the initial filter coefficient, it is possible to prevent divergence occurring in the adaptive equalizer due to the degraded signal provided from the damaged tape.

Description

Diffusion prevention device of adaptive equalizer of digital magnetic recording / reproduction system {APPARATUS FOR PREVENTING THE DIVERGENCE OF AN ADAPTIVE EQUALIZER IN A DIGITAL VCR}

The present invention relates to a digital magnetic recording / reproducing system (hereinafter referred to as " digital VCR "), and more particularly to an apparatus for preventing divergence of an adaptive equalizer in a digital VCR of a partial response channel type.

Digital VCR cannot transmit DC component which is a basic characteristic of magnetic channel by using magnetic media as transmission channel, and it is caused by high frequency attenuation characteristics and inter symbol interference (ISI) with adjacent data by high density recording. The transmission of the reproduced signal is restricted. Accordingly, the digital VCR includes an adaptive equalizer that processes the transmission channel to have characteristics similar to the medium in consideration of the characteristics of the magnetic medium. The adaptive equalizer performs a function of restoring a digitally recorded signal by amplifying the magnetic flux change of the magnetic tape so that the magnetic channel response is approximated to the ideal partial response IV channel so as to reduce the error data upon restoration of the recording data. The signal equalized by the adaptive equalizer is decoded by the MPEG decoder and output as a video signal, and the adaptive equalizer repeatedly performs adaptive equalization with reference to the decoded signal.

However, if a temporary signal deterioration occurs due to damage to the tape, which is a magnetic medium during playback in a digital VCR, the adaptive equalizer repeats the process of adaptively adjusting the filter coefficients to adapt to the deteriorated signal. As a result, the adaptive equalizer causes divergence to correct the deteriorated signal more repeatedly, resulting in a phenomenon in which image quality is deteriorated and decoding is impossible or a completely different image is displayed.

Therefore, an object of the present invention is to provide a digital VCR capable of preventing divergence of the adaptive equalizer of the digital VCR.

According to an aspect of the present invention, there is provided a digital VCR, including: an adaptive equalizer for outputting digital data reproduced from the digital VCR as an equalization signal having partial response channel characteristics according to adaptive filter coefficient values; A filter coefficient updater for providing the updated filter coefficients with the adaptive equalizer; A digital data detector for detecting code string data closest to the code string of the digital signal recorded on the magnetic tape from the output of the adaptive equalizer; An error correction unit for performing demodulation and data error correction on the data detected by the digital data detector to generate a demodulated and error corrected bit stream; An MPEG decoder which decodes the demodulated and error corrected bit stream and outputs a decoded video signal; A sync signal detector for detecting a sync signal from the video signal output from the MPEG decoder; And a control unit for providing an initial filter coefficient necessary for the adaptive equalizer to the filter coefficient update unit when a synchronization signal is not detected from the synchronization signal detector for a preset period.

1 is a schematic block diagram of a digital VCR according to a preferred embodiment of the present invention,

FIG. 2 is a detailed block diagram of the adaptive equalizer shown in FIG. 1. FIG.

<Description of the code | symbol about the principal part of drawing>

20: preamplifier 30: adaptive equalizer

40: digital data detector 35: filter coefficient updating unit

70: sync signal detector 80: control unit

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

1, a block diagram of an apparatus for preventing divergence of an adaptive equalizer in a digital VCR according to the present invention is shown. As shown, the digital VCR of the present invention includes a deck unit 10, a preamplifier 20, an adaptive equalizer 30, a digital data detector 40, and a demodulation / error correction unit 50. And an MPEG decoder 60, a synchronization signal detector 70, and a controller 80.

The signal recorded on the magnetic tape in the digital VCR is reproduced by a pair of video heads (not shown) switched alternately on the head drum of the deck portion 10, and amplified by the preamplifier 20. The signal amplified by the preamplifier 20 is provided to an adaptive equalizer 30.

The coefficient updater 35 repeatedly updates the coefficients by using the signal decoded from the MPEG decoder 60 in order to minimize the inter-signal interference in the adaptive equalizer 30 and then applies the updated coefficients to the adaptive equalizer 30. To provide.

The adaptive equalizer 30 compares the received signal with the same signal transmitted from the transmission channel to the received signal, estimates the characteristics of the channel, and multiplies the inverse function of the channel by the received signal from the received signal. Compensates for the distortion caused by the channel and restores the transmitted signal.

2, a detailed configuration of the adaptive equalizer 30 is shown.

The adaptive equalizer 30 is in the form of a transversal, which is a kind of finite impulse response (FIR) structure, and is repeatedly updated by the coefficient updater 35 to minimize the interference between codes. A tapped delay line 210 sequentially delaying a line 25 provided with the coefficients and " Xn " (= n-th signal) representing a signal output from the preamplifier 20 in a vector form. And the output of each multiplier in the multiplier block 220 and the multiplier block 220 multiplying the signal delayed in each delay line by " Cn " representing the adaptive filter coefficient provided from the coefficient updater 35 in a vector form. It consists of an adder 225 to add. The output of the adder 225 is provided to the digital data detector 40 (see FIG. 1).

The digital data detector 40 uses a Viterbi algorithm that estimates the code sequence closest to any received code sequence. The data detected by the digital data detector 40 is provided to the demodulation / error correction unit 50.

The demodulation / error correction unit 50 performs demodulation and data error correction on the data detected by the digital data detector 40 and provides the demodulated and error corrected bit stream to the MPEG decoder unit 60.

The MPEG decoder 60 decodes the bit stream output from the demodulation / error correction unit 50 and outputs the decoded video signal. The video signal decoded by the MPEG decoder unit 60 will normally contain a sync signal, and if the sync signal is disturbed or not included, it can be considered to have caused divergence in the adaptive equalizer 30.

Accordingly, the sync signal detector 70 detects a sync signal from the signal decoded by the MPEG decoder 60 and provides a detection signal corresponding to the detection of the detected sync signal to the controller 80. However, if a synchronous signal is not detected from the decoded reproduction signal of the MPEG decoder 60 due to damage to the tape, it is output from the synchronous signal detection unit 70 to the control unit 80 as a signal indicating that no synchronous signal is detected.

The controller 80, which may be implemented as a microprocessor, performs a function of providing initial filter coefficients to the adaptive equalizer 30 through the coefficient updater 35 in order to quickly converge the equalizer 30 in an initial operation. do. In addition, the controller 80 continuously checks the synchronization signal detection signal provided from the synchronization signal detection unit 70. If the synchronous signal detection signal is not provided from the synchronous signal detection unit 70, the adaptive equalizer 30 continuously performs an operation of correcting the deteriorated signal due to the damage of the magnetic tape, thereby making it impossible to decode the reproduction signal. Will cause divergence. Therefore, the controller 80 counts the period in which the synchronization signal is not detected, and if the period exceeds the preset period, the controller 80 initializes the coefficient updater 35 and the adaptive equalizer 30 from the coefficient updater 35. ) Gives the initial filter coefficients. Therefore, the adaptive equalizer 30 adaptively receives the initial filter coefficients and maintains the initial convergence state again, and performs the function.

As described above, according to the present invention, an adaptive equalization operation of detecting presence or absence of a synchronization signal from a bit stream and correcting deteriorated image quality by providing an initial filter coefficient with an adaptive equalizer when a synchronization signal is not detected for a predetermined period of time. Divergence of the adaptive equalizer can be prevented.

Claims (1)

In a digital VCR which reproduces a digital signal recorded on a magnetic tape, An adaptive equalizer for outputting digital data reproduced from the digital VCR as an equalization signal having partial response channel characteristics according to adaptive filter coefficient values; A filter coefficient updater for providing the updated filter coefficients with the adaptive equalizer; A digital data detector for detecting code string data closest to the code string of the digital signal recorded on the magnetic tape from the output of the adaptive equalizer; An error correction unit for performing demodulation and data error correction on the data detected by the digital data detector to generate a demodulated and error corrected bit stream; An MPEG decoder which decodes the demodulated and error corrected bit stream and outputs a decoded video signal; A sync signal detector for detecting a sync signal from the video signal output from the MPEG decoder; And a control unit for providing an initial filter coefficient necessary for the adaptive equalizer to the filter coefficient updating unit when a synchronization signal is not detected from the synchronization signal detector for a preset period of the adaptive equalizer of the digital VCR. Divergence prevention device.