DE756438C - Operating circuit for gas or steam-filled high voltage rectifier - Google Patents

Description

It is known, gas or vapor-filled high-voltage rectifiers with a special intermediate electrode! equip, which serve to bring about a certain voltage distribution, in particular a uniform voltage distribution between anode and cathode. Such intermediate electrodes can be used both in rectifiers with a hot cathode and in rectifiers with an auxiliary discharge. It has been shown that rectifiers of this type have a particularly strong tendency to generate vibrations at a relatively high frequency, e.g. 100 Hz and above, which is probably due in part to sudden discharges of the unavoidable capacities of the supply lines to the anode via the discharge path.

In order to avoid these vibrations or at least render them harmless, measures are taken of the invention with gas or vapor-filled high voltage rectifiers one or more intermediate electrodes located between anode and cathode which discharge from an electron-emitting cathode to the anode Change in voltage is initiated on a special grid, into the anode

An iron-free inductance is switched on immediately in front of the anode. The size this inductance is dimensioned so that the charge of the inevitable capacitances (Capacity of the supply cable) is slowed down so that no harmful current peaks develop. It is advisable to replace the ironless inductance with a To attenuate resistance that is parallel to the entire winding or parallel to parts of the winding the inductance. Instead of a parallel resistor, you can also use an inductive one use coupled resistor, for example a short-circuit ring, made of a suitable material.

Embodiments of the invention are shown in the figures. The matching Parts of the figures have the same reference numbers. With 1 is the discharge vessel 2 is an electron source such as a hot cathode; 3 is a control grid, 4, 5, 6 and 7 are Electrodes that are in a known manner between the anode and cathode and which are connected to a capacitive voltage divider 8 are connected, which consists of a number of individual capacitances consists. To suppress high-frequency vibrations is in the anode leads the ironless inductor 9 switched on. In parallel with the inductive resistor 9 there is a damping resistance. As stated above, such a resistor also be coupled inductively. The voltage divider 8 is in the arrangement connected to the anode-side end of the inductance 9 according to Fig. 1. Instead of this you can also, as Fig. 2 shows, at the end of the inductance facing away from the anode connect. As a result, an immediate transmission at the anode may occur more Voltage changes with a frequency above the operating frequency on the capacitive voltage divider and thus avoided on the intermediate electrodes. The natural also works in this direction Capacitance between leads 10 and 11, which bridges the voltage divider represents. If necessary, this capacity can also be increased by using special capacitors.

Claims (5)

Patent claims: 1. Operating circuit for gas or steam-filled high-voltage rectifiers with one or more between anode and cathode to bring about a specific, in particular uniform Voltage distribution serving intermediate electrodes, in which the discharge from an electron-emitting Cathode is introduced after the anode by changing the voltage on a special grid, characterized in that that in the anode lead immediately before the anode an iron-free inductance is switched. 2. Operating circuit according to claim 1, characterized in that the inductance is wholly or partially bridged with an ohmic resistance. 3. Operating circuit according to claim 2, characterized in that a resistor is inductively coupled to the inductance lying in the anode circuit. 4. Operating circuit according to claim 1 or one of the following, characterized in that the intermediate electrodes possibly via a capacitive voltage divider to the one facing away from the anode End of the inductance are connected. To differentiate the subject matter of the invention from the state of the art, the granting procedure the following publications have been considered: German Patent No. 415,910; French Patent No. 743,345; Swiss patents No. 158 652, 163 384; »Tidschrift van het Nederlandsch Radiogenootschap«, July 5, 1931, pp. 85 to 97. 1 sheet of drawings O 5640 12.53