DE1149810B - Circuit arrangement for inductivities for rapid demagnetization - Google Patents

Description

Circuit arrangement for inductivities for rapid demagnetization The invention described below relates to a circuit arrangement for inductors for fast demagnetization with simultaneous suppression of voltage peaks via a rectifier element connected in parallel to the inductance.

The current flow through an inductance suddenly becomes smaller If values are changed or interrupted, high voltage peaks are known to occur on. These can be reduced by adding a rectifier to the inductance connected in parallel, through which the demagnetizing current can flow. For the die The rectifier is therefore in the reverse direction, which magnetizes the inductance of the current polarized. In these known arrangements, current and voltage obey exponential laws. The consequence of this is that the demagnetization process is progressively slower.

It is also a device for the rapid de-energization of electrical Machines became known to destroy the when switching off in the field winding The energy released is a solid that is switched into the circuit of the field winding Resistance with a momentarily increasing as the voltage applied to it drops Resistance characteristic is used. If necessary, a combination of voltage-dependent and constant resistances are used. Such a combination is not enough to fulfill the tasks set.

To now start the demagnetization process at a steady pace to run, it would be necessary that the current change during demagnetization remains constant. This can be done with a circuit arrangement for inductances for quick demagnetization with simultaneous suppression of voltage peaks via a rectifier element according to the invention connected in parallel to the inductance achieve, which is characterized in that to achieve an at least approximately constant voltage during demagnetization in series with the rectifier element a zener diode, which is stressed in the reverse direction during demagnetization, or further rectifier elements are connected.

Two corresponding exemplary embodiments are shown in the drawings. Both examples are based on the task of quickly demagnetizing the To achieve inductance 1 while avoiding the occurrence of voltage peaks. The arrow next to the inductance 1 indicates the direction of the current. According to the invention is now parallel to the inductance in the example of FIG. 1, a rectifier element 2 and the Zener diode 3 connected in series with the opposite forward direction. It is known that a Zener diode has up to one load in the reverse direction certain tension of the Zener tension is very large, practically infinitely large Resistance. With the Zener voltage, the resistance becomes negligibly small. This The break point of the Zener diode stressed in the reverse direction has the consequence that the voltage during the demagnetization of the inductance practically to the value of the Zener voltage is limited. The constant voltage value has an equally constant change in current coupled. Both have the consequence that the inductance is quickly demagnetized and no voltage peaks occur. A similar effect can be achieved if one as shown in FIG. 2, further rectifier elements in series with rectifier element 2 4 switches. Since the voltage stress on the rectifier plates is very low, do not need to use high quality rectifier elements for this purpose will. The non-linear characteristics of the rectifier elements lead to a high Lock voltage and thus a large change in current.

Claims (5)

PATENT CLAIM: Circuit arrangement for inductors for fast Demagnetize with simultaneous suppression of voltage peaks via a parallel Rectifier element connected to the inductance, characterized in that to the Achieving an at least approximately constant voltage a zener diode in series with the rectifier element during demagnetization, which is stressed in the reverse direction during demagnetization, or more Rectifier elements are connected. Publications considered: German Patent No. 601099; List TSv 1 of the company S & H A-G. SH 3490 b 4565, TSv 14 from April 1956, 5th edition, p. 16; Helios (1933), p.403; Electronic review (1957), p. 376.