DE1938607B2 - Broad band signal processor for magnetic tape reproduction - has high resonant frequency pickup and cosine correction stages - Google Patents

Abstract

The processing of broad band signals from a magnetic pick-up is achieved by selecting the pick-up inductance of the windings such that the resonant frequency lies above the upper limit of the frequency band. This enables prior amt. pick-up resonance compensation stages to be eliminated and the signal to noise ratio to be improved. The pick-up signal (1) is processed over a transformer (7) to increase the induced voltage. The signal is processed over two cosine correction stages (3,4) and a final compensating network (6) to provide a linear frequency characteristic.

Description

The invention relates to an arrangement for reproducing a broadband signal from a magnetic tape, on which the signal is recorded at carrier frequency, in particular with frequency modulation, by means of inductive Magnetic heads.

Such a broadband signal can be a color television signal, for example. Such a broadband As is well known, the signal is recorded at the carrier frequency in order to determine the ratio between the highest and to reduce the lowest frequency to be recorded so far that the carrier-frequency frequency band on einom Magnetic tape can be accommodated. Frequency modulation is therefore preferred in order to avoid the Magnetic tape recorded signal by applying an amplitude limitation of spurious amplitude fluctuations to free.

When the signal is picked up from the magnetic tape by means of an inductive magnetic head, the voltage initially increases proportionally with the frequency and then drops again because the increase is overcompensated by other influences. The inductance of the &> head winding and the parallel capacitances form a resonance circuit with a strong increase in the signal level in the range of the resonance frequency. To compensate for the non-uniform frequency response by these influences and to achieve a desired frequency response ⁶ S curve during playback equalizers are required.

From the book "High Frequency Technology II" by J.

Kaminerloher. Leipzig 1941, p. 218 to 241, it is known to preamplifier for the transmission of a certain To adapt the frequency band. It has been the opinion of experts that the resonance frequency of a head circle advantageously in the vicinity of the upper limit of the frequency band to be transmitted should be placed in order to achieve a more favorable signal due to the increased resonance in this area To maintain the noise ratio. So in the magazine "Der Fernmelde-Ingenieur", 9th year, June 1955, issue 6, p. 11 stated that, under the specified conditions, the peak value of the induced voltage increases linearly with frequency

Likewise, from the book "Die magnetic Schallaufnahme" by F. Krones, 1953, pp. 146 to 147 can be seen to put the natural resonance of the head circle outside of the LF transmission range, because this would otherwise have to be taken into account in the frequency response of the playback amplifier. It did, however recognized that the required equalization networks can be made much easier if the Resonance frequency of the playback head assembly in the vicinity of the lower frequency band limit of the carrier-frequency signal including the exploited Due to the saving of equalization networks, the transmission quality is increased of the reproduced signal significantly improved. The arrangement of this equalizer in a known The arrangement is shown in FIG. 1 shown. The signal emitted by the magnetic head, its frequency response is schematic has the shape drawn above the magnetic head, passes through a device 2 for compensation the head resonance with a frequency characteristic that is inverse to the resonance curve. A network 5 with The decreasing frequency characteristic serves to attenuate the upper sideband of the carrier-frequency signal. This improves the signal-to-noise ratio since the upper sideband has a significantly poorer signal-to-noise ratio has as the lower sideband. This measure is permissible because the sum of the sideband amplitudes in remains essentially the same To equalize the frequency response of the magnetic head, it is also common to further equalizers, e.g. B. two cosine equalizers 3 and 4 to be used.

The invention is based on the object of compensating for the frequency response using simpler means achieve and at the same time to achieve an improvement in the signal-to-noise ratio in the reproduced signal. The solution is given in an arrangement for reproducing a broadband signal according to the preamble this task with the measures of claim 1. For more precise adjustment of the frequency response If necessary, a network can be added to the desired course, but it can have fewer links than in the known arrangement, can be switched into the signal path.

Instead of forming the magnetic head 1 with a higher number of turns, it can be advantageous to use a magnetic head to use with the usual number of turns and by a transformer 7 in F i g. 2 the signal voltage and increase the resonance frequency of the resulting from the winding of the magnetic head and the transformer the existing system.

A preferred field of application of the arrangement according to the invention are television magnetic tape systems. The position of the carrier frequency and the frequency deviation are standardized for these. The so-called »high band «norm, the resonance frequency of the head

Order with about 2.6 MHz and with the "low band" standard with about 1 MHz. at Magnetic tape systems, which can be switched to both nuns, is preferably also the resonance frequency of the Head arrangement changed together with the standard switchover

F i g. 2 shows an embodiment of the arrangement according to the invention. For the required resonance frequency the magnetic head 1 with a significantly larger number of turns than in the known arrangement can be used F i g. 1 must be executed. The output voltage of a magnetic head increases accordingly the known design according to FIG. 1, at which the resonance frequency is above the upper frequency band limit This means a more favorable ratio of the useful voltage to the interference voltage (noise). There the drop in the voltage output by the magnetic head with decreasing frequency due to the im the upper branch of the resonance curve running in the opposite direction is largely compensated for the device 5 in the known arrangement Fig. 1 to obtain the desired triangular frequency response. Furthermore, device 2 is also omitted to compensate for the head resonance, so that, as in FIG. 1 only equalizers 3 and 4 are required. In the case of strict requirements for a linear frequency response, a network 6 is at most Correction of the remaining irregularities in the frequency response required. This correction can can also be made directly in the head resonance circuit. If necessary, the Group delay required.

1 sheet of drawings

Claims (5)

Claims *. 1. Arrangement for reproducing a broadband signal from a magnetic tape on which the Signal is recorded at carrier frequency, in particular with frequency modulation, by means of inductive Magnetic heads, characterized in that the total inductance of the playback head arrangement is chosen so that its resonance frequency is within the transmission range of the carrier-frequency signal in the vicinity of the lower frequency band limit including the used one Seeing ligaments lies 2. Arrangement according to claim 1, characterized-> S shows that the playback head arrangement has a network (6) for precise adjustment of the frequency response is connected downstream to the desired, preferably triangular course 3. Arrangement according to claim 1 or 2, characterized in that the playback head assembly through a magnetic head (1) and its matching transformer (7), which is in the head winding induced signal voltage increases and the resonance frequency decreases, is formed. * 5 4. Arrangement according to one of the preceding claims, characterized in that in the Playback of video signals the resonance frequency is chosen so that it is at the »Low band "norm is about 1 MH :: and the" high band "norm is about 2.5 MHz 5. Arrangement according to claim 4, characterized in that the playback head assembly is changeable Switching means for switching the specified resonance frequency according to the standard the signals to be reproduced.