RU2043664C1 - Device for optical companding when recording and playing data back from magnet carrier - Google Patents

Abstract

FIELD: magnetic recording engineering. SUBSTANCE: recording channel of the device has input bus, bandpass filters according to number of bands, compression unit according to number of subbands, units for forming compression signals according to subbands number, adder, two record amplifiers, two recording heads, coding unit, and modulator. Playback channel has two playback heads, two playback amplifiers, bandpass filters-amplifiers according to subbands number, expanders according to subbands number, adder, output bus, demodulator, decoder-distributor. EFFECT: improved quality. 2 dwg

Description

 The invention relates to techniques for magnetic recording, in particular to optimal signal processing in magnetic recording equipment by companding.

 A magnetization recording-reproducing companding device is known which comprises bandpass filters, level compressors, an adder and a recording amplifier in a recording channel, a reproducing amplifier-reproducer, bandpass filters, level expanders and an adder in a playback channel.

 However, the known device does not provide optimal control of the companding processes in the channels, since it does not provide recording-reproduction of the control signal for the compressors of the recording channel and expanders of the playback channel, which does not make it possible to achieve high quality companding.

 The present invention is directed to the partial elimination of the noted disadvantages.

 To this end, the known device includes compression signal conditioners associated with respective bandpass filters, compression signal encoding unit connected to compression signal generators, a modulator, an additional recording amplifier and additional recording head, as well as an additional reproducing head connected in series, additional amplifier-driver of reproduction, demodulator and decoder-distributor, outputs connected data with appropriate expanders.

 1 and 2 show a block diagram of the recording and playback channels, respectively.

 The device in the recording channel (Fig. 1) contains an input bus 1 connected through the corresponding bandpass filters 2, 3 and compressors 4, 5 (for example, two subchannels are shown, the number of which depends on the set requirements for recording quality) with an adder 6 connected through amplifier-driver 7 records to the recording magnetic head 8. In this channel there is an additional subchannel in the form of coding unit 9 connected in series, inputs connected to the outputs of the respective drivers 10, 11 compression signals, modulo and 12, an additional amplifier-driver 13 and the additional recording magnetic head 14, the control inputs of the formers 10, 11 are connected to additional outputs of bandpass filters 2, 3, and other outputs to the control inputs of the respective compressors 4, 5.

 The playback channel of the device (figure 2) contains a playback head 15 connected through an amplifier-driver 16 playback with inputs of bandpass filters 17, 18, the frequency characteristics of which are similar to the characteristics of the corresponding filters 2, 3 channels, which are connected by outputs through the corresponding expanders 19, 20 and an adder 21 with an output bus 22. An additional reproducing magnetic head 23 is connected through an additional amplifier-former 24 and a demodulator 25 to the input of the decoder-distributor 26, the outputs of which CSOs are connected to the control inputs of the respective expanders 19, 20.

 The device operates as follows.

 Each subband compresses the sub-signal during recording and, accordingly, expands during playback. Companding processes are controlled by special signals recorded in a separate subchannel located outside the frequency band of the information signal.

 The coding unit 9 may also temporarily or frequency compress the compression signals. During the modulation process in the modulator 12, the signal spectrum is transferred to the desired part of the frequency range.

 The signals from the outputs of the decoder-distributor 26 in the playback channel are fed to the inputs of the corresponding expanders 19, 20, due to the action of which the corresponding dynamic range will be restored in each subband.

Claims (1)

 THE OPTIMUM COMPANDING DEVICE WHEN RECORDING AND PLAYING INFORMATION FROM A MAGNETIC MEDIA, containing bandpass filters in the recording channel, the inputs of which are the input of the recording channel and connected to the input bus, level compressors whose inputs are connected to the outputs of the corresponding bandpass filters, and the outputs through the adders and amplifier are a recording driver with a recording magnetic head mated to a corresponding track of the magnetic medium in a playback channel reproducing a magnetic head mated with the corresponding track of the magnetic medium and connected through the amplifier-driver of reproduction with the inputs of the bandpass filters, the outputs of which are connected through the corresponding expanders of the level and the adder to the output bus, characterized in that the shapers of compression signals by the number of band-pass filters of this channel connected between additional outputs of the corresponding bandpass filters and control inputs of the respective level compressors, connected in series to the coding block a modulator, an additional recording recording amplifier and an additional recording magnetic head coupled to the corresponding magnetic carrier track, while the second outputs of the compression signal generator are connected to the corresponding inputs of the coding unit, and an additional reproducing magnetic head coupled to the playback channel is connected in series a magnetic carrier track for an additional recording magnetic head, an additional amplifier-driver reproducing demodulator and decoder-way valve, the outputs of which are connected to control inputs of respective expanders level.

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