DE1069758B - CIRCUIT ARRANGEMENT FOR INDUCTIVITY CIRCUITS - Google Patents

Claims (2)

GERMAN The invention relates to a circuit for direct current flowing through, by switching elements od. The like. Disconnected inductive circuits, in particular with chokes. It is known that high overvoltages occur when switching off a choke through which direct currents flow. A sudden disconnection from the network is not only possible due to the switching devices themselves, but can also be caused by undefined transition contacts. such as B. od with pantographs, contact brushes. Like., Caused. To limit the overvoltage that occurs, quenching elements have hitherto been used, which consist of a series connection of a capacitor and a resistor. The invention represents an improvement of such a measure when switching off chokes or any inductive circuits and is based on the fact that, at least in the switched-off state, the circuit is closed by a series connection of a rectifier with a resistance of such a dimension that the occurrence of harmful overvoltages can largely be avoided is. The polarity of the rectifier is such that it is loaded in the reverse direction for the duration of the current-carrying state of the circuit. The resistance can optionally be wholly or partly a non-linear resistance. According to the invention, in such an arrangement, the resistance has a characteristic curve which causes a sharp increase in the current when a certain voltage is exceeded. Such a resistor with a threshold characteristic is formed, for example, by a diode, in particular a Zener diode. Due to its low time constant, this arrangement results in a minimum switch-off time for a given switch-off voltage. The time constant of a circuit with ohnic and inductive resistance is calculated as follows: T = LR L -1, where / means the current due to the impedance and Us the maximum permissible cut-off voltage. This is the time during which the current is at the value, i.e. has decreased to about a third. If you now * use a non-linear resistor with the properties as contained in the invention, T1 is the time in which the current circuit arrangement for circuits subject to inductance Applicants: Siemens-Schuckertwerke Aktiengesellschaft, Berlin and Erlangen, Erlangen, Werner-von- Siemens-Str. 50 Dipl.-Ing. Dr.-Ing. Georg Sichling, Erlangen, has been named as the inventor and has practically already decreased to zero, given by the following value: Us The invention is to be explained in more detail using the drawing. The figure shows an embodiment in its essential parts for the invention in a simplified schematic representation. In the illustration, 1 denotes a direct current source, Avelche feeds a circuit via a switching element 2 in which the choke 3 or another inductive resistor is located. As already mentioned, the switch 2 can also be a flying contact or some other device which can cause the power source to be switched off suddenly. According to the invention, a series circuit which contains the rectifier 4 and the resistor 5 is provided to extinguish any overvoltages that occur. In addition to the resistor 5 or instead of it, a non-linear resistor 6 is switched on, which has a threshold characteristic. When a certain voltage is exceeded, the current increases very strongly. whereby the voltage remains practically constant. The does not begin until the current value is very low. Tension suddenly decrease. In the illustrated embodiment, the non-linear resistor 6 is formed by vine Zener diode. PATENT CLAIMS: 1. Circuit arrangement for direct current flowing through, by switching elements or the like. tend inductance-afflicted circuits, in particular with chokes, in which at least in the switched-off state the circuit by a series connection of a during the period of the C; current-carrying state of the circuit in "- ^: - reverse bias rectifier with a fully or partially non - '"'""'linear resistance of;.,>; such assessment is closed. that the occurrence of excessive voltages is largely avoided, characterized in that the resistor has a characteristic curve which causes a sharp increase in the current when a certain voltage is exceeded. 2. Circuit arrangement according to claim 1, characterized in that as a non-linear Resistance a diode, especially a zener diode, is used. For this 1 sheet of drawings