DE1236006B - Circuit arrangement for synchronizing two or more oscillators of a multi-track magneto device to the same oscillation frequency - Google Patents

Description

Circuit arrangement for synchronizing two or more oscillators of a multi-track magneto device to the same oscillation frequency In magnetic tape recorders for multi-track recording, each with a recording amplifier for each track, differential tones are generated when several tracks are recorded at the same time if each recording amplifier is assigned its own oscillator to generate the high-frequency erasing and biasing current and the The oscillation frequencies of the oscillators do not exactly match. The difference tones corresponding to the deviation then appear disruptive during playback.

In order to avoid the occurrence of such difference tones, it is known to forcibly synchronize the oscillators, e.g. B. by DC-free coupling of the cathodes of the oscillator tubes. It has been found, however, that this coupling does not allow stable synchronization, i. In other words, if there is a significant deviation in the individual oscillation frequencies of the oscillators in operation, there is no longer any mutual entrainment. Measurements have shown that with two oscillators with a nominal oscillation frequency of about 80 kHz, deviations of 300 Hz are sufficient to bring the synchronization out of step. If more than two oscillators are interconnected, the situation becomes even more unfavorable. However, deviations of the order of magnitude mentioned as a result of unfavorable operating conditions cannot be ruled out, even if the oscillators have been precisely coordinated beforehand.

To avoid difference tones, it is also known to provide a single oscillator that feeds the erase and speaking heads together. This solution is unfavorable in terms of performance and also has the disadvantage of being load-dependent, i. That is, the bias currents in the heads vary in size depending on the number of activated channels, so that the level and frequency change with the number of activated channels.

The load dependency is avoided by using the oscillator externally excited assigned as a control generator for the individual recording amplifiers Oscillators or to control matched HF stages in the recording amplifiers used, but must be an increased effort and space for the additional Generator to be accepted.

After all, it is known to synchronize two oscillators by that the grid leads of the two tubes are interchanged. This arrangement is much more stable than the aforementioned synchronization by means of cathode coupling.

c thereof> Starting the invention relates to a circuit arrangement for synchronizing a plurality of, at approximately the same oscillation * frequency-coordinated counter clock oscillators, in which the coupled inductively or capacitively in each case with the frequency-determining circuit, the feedback voltage leading electrode leads of the oscillators are exchanged with each other, for Multi-track magneto devices in which each of the recording preamplifiers provided for a track is assigned a separate oscillator for generating the bias and erase current.

According to the invention, the connections are only one system each push-pull stage interchanged with a system of another push-pull stage, while the circuitry of the other systems remains unchanged, and there are the oscillators the reversal canceling switch is assigned so that each oscillator for operated alone or alternatively with one or more of the others synchronously can be.

The invention, while avoiding a large circuitry Optional synchronization of several push-pull oscillators is possible, their use in magnetic recording devices is favorable because the even-numbered Harmonics, of which the second in particular is a remanent magnetization of the Causes the recording medium and increases the distortion factor, fall out. Since only each If one line is swapped for each oscillator, these lines are switched over only one two-pole switch for each oscillator, if two oscillators are available only a single two-pole switch is required. In the drawing Embodiments of the invention are shown schematically.

F i g. 1 shows two synchronized push-pull oscillators, and F i g. 2 and 3 show two or four push-pull oscillators with switching means for either single or compound operation.

In the case of the in FIG. 1 is a conventional circuit in which the frequency-determining circuit is located in the anode leads of the tube and the feedback voltage is tapped by capacitive voltage division. The feedback voltage lead- ing grid terminals in each case one of the two push-pull tubes, however, are interchanged, i. This means that line A is connected to Rö4 instead of Rö, and line B to Rö., instead of Rö4. The tubes Rö ", and Rö4, are controlled in the usual way. Instead of the capacitive extraction of the feedback voltage, the extraction can also take place inductively.

F i g. 3 shows the circuit of FIG. 2 as a practical embodiment for use in two-track magnetic tape recorders, with which either stereo or single-track operation is to be carried out. The grid connections carrying the feedback voltage and interchanged (lines AA ' and BB') for the tubes Rö "and Rö4 are not directly connected through, as in FIG. 2, but via switches S and S , which are mechanically coupled to one another. are connected to the switches S, and S, coupled still further the switches S #, and S4 to the Anodenstronizuführungen of the two push-pull oscillator. In the illustrated center position b of the switch corresponds to the circuit to that of F i g. 2, d. h., the Oscillators are synchronized and prepared for recording a stereo performance. If the switches S, to S4 are set to the upper position a, the lines AA ' and BY are separated and A' with B and A ' with B' are connected switched as normal push-pull oscillators, but the left oscillator in the drawing is separated from the operating voltage, UA by the switch S4, and only the right oscillator is in function put the switch in position c , the right oscillator is stopped by the switch S, while the left one remains in function. In positions a and c, one of the two recording channels is optionally ready for operation.

F i g. 4 finally shows the extension of the in FIG. 3 embodiment shown on four oscillators. In this case, it is no longer possible to use a switch group that can be operated by just one operating handle, but each oscillator has its own switch group S, to S, assigned. By operating the switch groups, which each consist of three coupled single-pole changeover switches, any number of the four oscillators can be force-synchronized in the manner according to the invention. However, each oscillator can also be operated separately by switching off three of the oscillators. In Fig. 4 the oscillators I and II are in operation and the oscillators II and IV are switched off. The disconnection takes place as in FIG. 3 by disconnecting the anode voltage supply.

Claims (2)

Claims: 1. Circuit arrangement for the synchronization of several push-pull oscillators tuned to approximately the same oscillation frequency, in which the inductive or capacitive electrode leads of the oscillators, which are coupled inductively or capacitively to the frequency-determining circuit and which carry the feedback voltage, are interchanged, for multi-track magnetic amplifiers, in which each track is provided a separate oscillator is assigned to generate the bias and erase current, d a d u rch g e - denotes that only one system, each push-pull stage in each case the connections are reversed with a system of another push-pull stage, while the circuit of the other systems remains unchanged, and that the oscillators are assigned switches which cancel the interchangeability in such a way that each oscillator can be operated individually or alternatively with one or more of the others in synchronism. 2. Circuit arrangement according to claim 1, characterized in that the interchanging of the grid supply line is canceled by the switch in individual operation at least for the oscillator in operation and the unused oscillators with the associated recording amplifiers are switched off from their operating voltage. Considered publications: German Auslegeschriften No. 1026 984, 1029 586; French Patent No. 534 574; "Radio-Praktiker-Bücherei", Vol. 31/32, pp. 68 and 69, Franzis-Verlag, Munich, 1951.