DE892155C - Device for converting a damped AC voltage into a DC voltage - Google Patents

Description

The conversion of an alternating voltage into high direct voltage is carried out in the generally made so that first the AC voltage through a transformer reclamped and then through Räh.rengleichrichter or, as far as the reshaping is concerned Attenuated alternating voltages act through mechanical, rotating rectifiers is rectified. This is an extraordinarily costly procedure and only applicable for very specific purposes. With a much simpler set up for converting a damped AC voltage into a DC voltage using. of a capacitor, which is charged via a spark gap, is according to Invention to the terminals of the alternating current source a resistor connected in parallel, by which the alternating voltage is dampened practically aperiodically. It is appropriate if in such a device also in front of and behind the spark gap even. a resistor is still switched on.

The figure shows a circuit diagram of an exemplary embodiment of the subject matter of the invention: In this case, an inductor with a primary winding c and a secondary winding d connected to an accumulator battery a via a buzzer interrupter b is used as the alternating current source. A resistor e of 4,000,000 ohms is connected in parallel to the secondary winding d of the inductor. When idling, i.e. without a resistor e connected in parallel, the secondary winding of the inductor supplies a damped alternating voltage. As a result of the load from the resistor e, the damped alternating voltage surges are converted into aperiodically running direct voltage surges, which over a spark gap f with ballast resistors g from iooo to io. ooo ohms are fed to a capacitor h of, for example, iooo pF. Half of the impulse voltage is consumed by the spark gap, the capacitor h is therefore charged to a maximum of half the impulse voltage with an optimal setting of the electrode distance, which is dependent on the electrode shape and the secondary voltage of the inductor, for example4 at the spark gap f. If no loads i are connected on the high-voltage side, then the charging of the capacitor stops. If the electrical distance at the spark gap, f, is greater or smaller than the optimal value mentioned, then the capacitor h is charged to a voltage lower than half the surge voltage, because with a larger electrode distance, the spark gap consumes more than half the surge voltage, while with a smaller electrode spacing, the capacitor h is. again and again over .the spark gap f and the resistor e or .die, secondary winding d of the inductor discharges. The time it takes for the capacitor h to be charged depends on its capacity and the number of voltage surges per second. The charging is accelerated by the resistors g, which cause an aperiodic discharge of the charge on the secondary winding d of the inductor into the capacitor h: In addition, the resistors g reduce the electrode consumption at the spark gap f and the emission of interference waves up to prevented to a certain extent. The device described can. Use wherever relatively low performance is required, such as B. in the operation of electrical filters.

Claims (1)

PATENT CLAIMS: i. Device for converting a damped alternating voltage into a DC voltage using a capacitor that runs through a spark gap is charged., characterized in that to the terminals of the alternating current source a resistor is connected in parallel, through which the alternating voltage is practically is attenuated aperiodically. z. Device according to claim i, characterized in that that in front of and behind the spark gap a resistor is also switched on.