DE1031353B - Magnetic tilting amplifier - Google Patents

Description

Magnetic amplifiers in a feedback circuit, in which the working current is via additional windings supports the effect of the control windings are known. It is also known to reduce the feedback so to set strong that a so-called trigger amplifier with two stable states of the working current obtained will. When the control current increases, the working current initially only increases slowly, and only when the control current reaches a certain critical value does the working current increase by leaps and bounds. The tilting back of the amplifier to the initial state then takes place with a much smaller one Control current, d. i.e., with an increase in the control current up to a sudden increase in the working current and a subsequent decrease up to a hysteresis loop is run through to abruptly decrease the working current. This hysteresis loop becomes wider, the more firmly the feedback is chosen.

It has now been shown that the increase or decrease in the working current during the tilting process can be influenced by the fact that, according to the invention, the amplifier output additionally by means of exclusively Current or voltage changes of transmitting impedances in the sense of a positive or negative feedback on the input. The amplifier output, for example, can be used for this purpose Via a capacitor with an ohmic resistor connected in series with the control windings of the Be connected to the amplifier input.

In the case of the current or power amplification Serving magnetic amplifiers, it is known per se to use feedback via capacitor circuits to accelerate and thus to favorably influence the time behavior of the magnetic amplifier. However, since in the case of the trigger amplifier the rise in the working current as a result of the much stronger, supercritical Feedback starts all of a sudden when the control current exceeds a certain value, it cannot be seen that the tilting process can be influenced by additional capacitor circuits. It has been shown, however, that the curve of the working current as a function of time also for the tilting process can be substantially taxed or flattened if according to the invention a Additional feedback by means of exclusively current or Changes in voltage of transmitting impedances is carried out.

It is also known to provide a magnetic amplifier with a feedback winding that extends over a capacitor is connected to the output circuit. The feedback winding is only talking here when the output DC current changes. Even if this makes the feedback so strong Magnetic tilt amplifier

Applicant:
Siemens & Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Wittelsbacherplatz 2

Dipl.-Ing. Karl Schlick, Karlsruhe,
has been named as the inventor

will cause the amplifier to tilt. Here, the situation is different, since the feedback is via the Capacitor is the only feedback and not the voltage curve as an additional feedback can affect the tilting process.

Fig. 1 of the drawing shows a circuit example for a magnetic trigger amplifier equipped with a temporarily effective additional feedback. The trigger amplifier with the control windings 1 and 2, the working windings 3, 4 and the feedback windings 5, 6 is connected in a known manner. The consumer resistor 9 is inserted between the rectifiers 7, 8 of the trigger amplifier and the center tap of the supply transformer 10. In order to obtain an additional feedback which accelerates the tilting process, a resistor-capacitor circuit, ie a resistor R in series with a capacitor C, is connected to the connection point 11 of the consumer and connected to one end of the control windings. Another line 12 connects the other connection point of the consumer resistor 9 to the other end of the control winding. If the current in the load resistance changes relatively quickly during the breakdown process, a high voltage surge is applied to the input windings via the capacitor. 1, 2 is fed back and the feedback is temporarily increased so that the working current rises more steeply. In order to be able to adjust the effect of the additional feedback, the resistor R or the capacitor C can be changed.

The same foundation can also serve to to flatten the increase in the working current during the tilting process. In this case the over The current impulse transmitted to the capacitor is passed in the opposite direction to the control winding will. Fig. 2 shows an oscillograph

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the course of the working current as a function of time. The control current is increased periodically and reduced, thereby causing the working current to rise and fall. While the auxiliary feedback was switched off during the first rise and fall of the operating current it was fully effective the next time the working current rose and fell. You can see that in the left Part of the curve of the rise and fall of the working current is much flatter than in the right-hand part.

The change in current in the consumer circuit can also be achieved by means of other switching elements that only supply current or Transferred voltage changes to the control windings to be led back. For example, a transformer can be switched on in the consumer circuit whose secondary winding acts back on the control windings.

Claims (3)

Patent CLAIMS - 1. Magnetic multivibrator amplifier with continuously effective feedback windings, which Cause tilting behavior, characterized in that to influence the voltage curve in the case of the tilting process, the output of the amplifier is additionally activated exclusively by means of current or Changes in voltage of transmitting impedances in terms of positive or negative feedback acts on the entrance. 2. Magnetic multivibrator amplifier according to claim 1, characterized in that the amplifier output Via a capacitor with an ohmic resistor connected in series with the Control windings of the amplifier input is connected. 3. Magnetic trigger amplifier according to claim 1, characterized in that the change in current in the consumer circuit by means of a transformer connected to this circuit Amplifier input reacts. Considered publications:
British Patent No. 713,433. 1 sheet of drawings © 809 529/335 5.58