DE1449872C - Arrangement for the separation of information and interference signals with read signals obtained from magnetic layer memories - Google Patents

Description

1 2

The invention relates to an arrangement for criminals together via a coincidence gate

Separation of information and interfering signals are taken from.

Read signals obtained from magnetic layer memories. An explanation of the invention is based on the

which the read signal to its amplitude and also F i g. 3 and 4.

independently of this examined for its shape 5 The F i g. 3 shows the circuit for evaluating the

will. Reading signals. It essentially consists of two

The information stored in a magnetic layer memory (magnetic tape voltage discriminators 1 and 2, the memory coupled to the Segerät, drum memory, disk memory or foil secondary side of a read signal transmitter L ) is read via read. Also removed with the secondary side of the read signal heads. The magnetic field of a differentiating circuit 3, a reading heads moving past magnetized layer of bistable flip-flop 4 and a differentiating circuit 5 induces voltages in the reading heads, their time-connected. The two voltage discriminators 1 licher course contains the stored information. and 2 and the two outputs of the differentiating read amplifier then amplifies the read circuit 5 via two coincidence gates 6 and 7 signals to a level suitable for evaluation. 15 combined to form two outputs. The two off-on changes in the direction of magnetization of the magnetic gears of the coincidence gates 6 and 7 can then have a layer at the output of the sense amplifier, e.g. B. a combined by a mixer 8 to form an output signal of the in F i g. 1 result in the form shown, being. The time course of the voltages at the various points of the circuit, depending on the direction of the change in magnetization, is shown in FIG. 4 signal U1 positive (cell Zl) or negative (cell Z3) 20 shown. Line «shows the amplified read signal is. In the ideal case the signals are of equal amplitude at points α and a ' of F i g. 3. If and are exceeded, you are in the middle of the cell specified by a predetermined response threshold + Ad or - Ad cycle grid. Mainly as a result of one of the discriminators 1 or 2 at output b mechanical inaccuracies in the position of or b 'from a signal. At the same time, however, read signals 25 may occur in the different read and write heads, the derivation of the read signal according to the one that was formed before or before the clock grid. The course of this voltage can be seen lagging and its amplitudes from a mean value can be seen in line c. This corresponds to a positive strongly deviate. Two such read signals are a maximum of the read signal a zero crossing of the Ab-F i g. 2 shown in cells Zl and Z4. Should the line with a negative slope and vice versa. From the signal in cell Z4 by amplitude evaluation, the outputs c, c of the differentiating circuit 3 are still recognized, so with the same response a bistable flip-flop 4 would be controlled, which after a threshold of the evaluator the significantly larger signal from zero crossing with a negative slope in the one and cell Zl are also erroneously registered in cell Z2. after a zero crossing with a positive slope in the other stable position is switched because of the large time shift of the signals. The span compared to the clock grid also bring amplitude gradients at points d and d ', which in the masking process do not improve. Lines d and d ' of FIG. 4 shown. From the positives

In order to avoid the flanks of the voltages occurring during the amplitude evaluation at the outputs of the bi-errors, it is known to evaluate the form of the read signals in a differentiating amplitude instead of the stable flip-flop 4. circuit 5 needle pulses obtained, the course of which the signals are differentiated according to time, 40 being shown in lines e and e ' . At the time when the zero crossing of the derivation time corresponds to the maximum maximum of a positive read signal, mum of the signal now reaches. A good one pulse can thus be achieved at the inputs of the coincidence gate 7, assignment of a read signal to a specific or, in the case of a negative read signal, to the input e time interval in the clock pattern. With this reading of the coincidence gate 6.If the reading signal fulfills the procedure, it has a very disadvantageous effect that the interference 45 amplitude condition is due to the second single signals having a relatively small amplitude, but larger gears b and b 'of the coincidence gates 6 and 7 respectively Edge steepness read signals simulate, since the size of the signal of the voltage discriminators 1 and 2, which is only reproduced in the first time derivative of the steepness of the line b and b '. Is dependent on the Ausder flank. The task of the present .gangen / and ./ 'der. The invention of coincidence gates 7 and 6 is to provide an arrangement which allows a 50 signal only if the criteria for differentiating the read signals according to information form, amplitude and polarity of the read signal and interference signals. According to the invention is filled. If one now considers in FIG. 4 the cell Z2, this is achieved by the fact that for the amplitude selection for so one finds that although a signal occurs here, this each polarity of the information is a voltage discriminatory. However, the signal remains below the response threshold + Ad of the nator and an amplitude discriminator is used to evaluate the shape of the curve. This signal has a chain circuit made up of a first differentiating circuit, but has a steep edge steepness, so that the difference of a bistable multivibrator and a second differentiated signal is provided approximately the same level as a normal decorative circuit that the first differential read signal reaches. However, since the interference signal does not meet the amplitude condition, the decorative circuit of two parallel differentiators does not exist, one of which with the input of one, 60 gang / or / 'of the coincidence gates 6 and 7, no the other with the input of the other discriminatory signal on (row / and / ', cell Z2). On the other hand, the output of the differential would be connected to a circuit that operates solely after the differentiating element with one input of the bistable multivibrator each, the interference voltage are connected as a real read stage so that both outputs evaluate the toggle signal. On the other hand, a stage each with an input of the second differentiating circuit, which consists of two differentiating circuits that evaluate read signals solely according to their amplitude, fails with a signal as shown in FIG. 4, are connected and that the outputs of this differential cell ZS, line a, is shown, since this signal also zicrglieder with the outputs of the corresponding dis- in cell Z4 is still above the response threshold Au

of the amplitude discriminators. This means that by leading this read signal opposite the amplitude advisor already responds to the clock pattern in cell Z4 and thus provides information from this cell reads out that was not originally included in it. With the proposed circuit arrangement according to the invention, however, this signal is correctly recognized and assigned to cell Z5, there it only reaches its maximum there.

Claims (2)

Claims: IO 1. Arrangement for the separation of information and interference signals in read signals obtained from magnetic layer memories, in which the read signal is examined for its amplitude and also independently of it for its shape, characterized in that a voltage discriminator (1,2 ) and to evaluate the waveform a chain circuit consisting of a first differentiating circuit (3), a bistable multivibrator (4) and a second differentiating circuit (5) is provided that the first differentiating circuit (3) consists of two parallel differentiating elements, one of which with the input of one, the other is connected to the input of the other discriminator, that the outputs of the differentiating elements are each connected to an input of the bistable flip-flop (4), that both outputs of the flip-flop are each connected to an input of the second differentiating circuit consisting of two differentiating elements (5) are connected and that the The outputs of these differentiators are combined with the outputs of the corresponding discriminators via a coincidence gate (6, T) . 2. Arrangement according to claim 1, characterized in that the outputs of the coincidence gates are combined by means of a mixing gate. 1 sheet of drawings