DE612377C - Arrangement for operating more than one discharge tube with high-voltage direct current generated from high-voltage alternating current using valves and capacitors - Google Patents

Description

Arrangement for the operation of more than one discharge tube with high-voltage direct current generated from high-voltage alternating current using valves and capacitors Using valves and capacitors in a wide variety of known circuits is generated from high-voltage alternating current, so far, when several discharge tubes were operated simultaneously, these were connected to the high-energy generator either next to one another or one behind the other, with the current flowing through these discharge tubes being measured by separate measuring instruments; However, these instruments always had to be attached in isolation with the circuits that have become known up to now. Circuits are also already known in which the measuring instrument, when using a discharge tube, can be arranged in a grounded point of the switching system. If several discharge tubes are used in such circuits, however, this measuring instrument can then only display the sum of the consumption of the discharge tubes; To check each individual discharge tube, a special measuring instrument was required, which had to be in the high-voltage circuit, and the individual discharge tubes could not be separated from the high-voltage circuit independently of one another. In order to enable the measurement of the current of each tube with the simultaneous operation of several tubes from a rectifier arrangement with capacitors and valves with low-voltage instruments, according to the invention, a single-sided grounded circuit is provided for each discharge tube using valves and capacitors, and a low-voltage ammeter is attached in each partial circuit. The instruments can then be attached to the low-voltage switchboard, which is very easy for the operator of the entire system.

Two embodiments of this new circuit arrangement are given in Figures i and i. Fig. I shows in its basic circuit the so-called Villard circuit for generating high-voltage direct current from high-voltage alternating current. The high-voltage alternating current is taken from the secondary voltage S of an alternating current transformer grounded in the middle of the Vicklun, g and through the capacitors C1, C, and the valves V1, V is transformed into high-tension pulsating direct current, which at the delivery points A and K to the power consumers, z. B. a discharge tube can be supplied. The measuring instrument J, which is located in the earthed part of the switching arrangement, then measures the current consumption. So far. the switching arrangement previously known. For the simultaneous operation of a second discharge tube, a new sub-circuit is now added to this circuit, which supplies the negative clamping voltage for the second discharge tube with the capacitor Cl and the valve V1 of the cathode K1, while the anode of this discharge tube is connected at A1. The measuring instrument J is, like the instrument J for the first tube, in the earthed part of the arrangement and measures the current consumption of the second discharge tube.

A third discharge tube can now be used in a further sub-circuit are operated at anodeA2 and cathode (2, with cathode K2 having the negative clamping voltage is supplied via capacitor C2 and valve V2 and the current for the third discharge tube is measured by the measuring instrument J2. The sum of the electricity consumption of each Partial circuits can be read on measuring instrument J0, which is also in the earthed Part of the switching arrangement is.

Picture z represents the use of the new switching arrangement m of another Circuit for generating high-voltage direct current, namely the so-called Liebenow- or Grein, acherschaltung. The secondary winding S .eines, which is earthed on one side AC transformer supplies the high-voltage alternating current flowing through the Capacitors C1, C and the valves V1, V at the pickup terminals for the anode and Cathode A and I (converted into high voltage direct current. This circuit is known, but what is new is that this circuit can be used for the operation of discharge tubes between the two valves V and Vi and the measuring instrument in this earthed part J inserts. A partial circuit is now required to operate a second discharge tube branched off, the negative via the capacitor C1 and the valve V1 of the cathode Ki Terminal voltage supplies while the anode is connected at A1. The power consumption of this second discharge tube is displayed by the measuring instrument J1.

A third discharge tube is operated in the same way between K2 and A2, the cathode K2 through capacitor C2 and valve V2 the negative terminal voltage receives and the meter J2 shows the current consumption in this circuit.

Additional discharge tubes can be added to the circuits by adding additional Partial circuits are operated; even if it is desired, it is without further ado possible, the subdivision of the switching arrangement into partial circuits not on the cathode side, but to be carried out on the anode side; also can if necessary should, the subdivision on both the anode side and the cathode side carried out at the same time. Anything in electrical engineering can be used as valves useful valve devices for high voltage can be used.

Claims (1)

PATENT CLAIM: Arrangement for the operation of more than one discharge tube with high voltage alternating current using valves and. Capacitors generate high-voltage direct current, characterized in that for each discharge tube Using valves and capacitors, a partial circuit that is earthed at one end is provided and that a low-voltage ammeter is attached in this sub-circuit will.