DE629090C - Arrangement for remote control, in particular wireless remote control of the passage of current through grid-controlled vapor or gas-filled discharge vessels - Google Patents

Description

Arrangement for remote control, in particular wireless remote control the passage of current through grid-controlled vapor or gas-filled discharge vessels The invention relates to electrical energy transmissions, in particular rectifier systems, and aims to provide an improved voltage for such converting devices or currents of a certain frequency responding arrangement for regulating the passage of energy to accomplish. In such systems, it is often necessary to use different electrical Control devices from a remote location independently of one another. This case occurs, for example, in remote-controlled power plants with several independent ones Units that are to be switched on or off as required. These switching operations could be carried out with the help of the well-known remote-controlled switches, whereby it is irrelevant for the remote control whether the appropriate means of high-frequency Waves given control impulses are given wirelessly or along lines.

The invention now aims at energy transfers by means of grid-controlled Avoid any switches when using vapor or gas-filled discharge vessels. Of these Discharge vessels are known to allow the passage of energy through them by means of the grid can be controlled. The control can be done in different ways form; z. B. you can supply a control voltage to the grid circles, whose Frequency higher than the frequency of the alternating voltage of the main circuits of the discharge vessels is. According to the invention, the remote control takes place in such a way that the control voltage Via a coordinated receiving device directly or with the interposition from amplifiers and transformers to the grid circles. This can done by adding an unmodulated high frequency voltage itself to the control voltage supplies or one by demodulating a modulated high-frequency oscillation The modulation oscillation obtained is fed to the lattice circles of the discharge vessels will. This controls the passage of current in the discharge vessel and thus causes a control of the energy transfer.

The drawing shows in Fig. I an embodiment of the subject matter of the invention and in Fig. Z an associated diagram serving to illustrate the mode of operation. The alternating current network i and direct current network z are coupled to one another by a discharge vessel 3 and a transformer with a primary circuit 5 and a secondary circuit 6. The Erulaüungsgefäß 3 has a pair of anode 7, a cathode 8, excitation electrodes 9, a, Züudelektrode 1 9 and the control electrode i2. The main anodes 7 are connected to the external terminals of the secondary winding 6, one of the two direct current lines is at the center of this winding, the other at the cathode. The excitation electrodes 9 are connected to the secondary terminals of its voltage converter i i, which is connected in parallel to the mains and whose Mitbelklennne is connected to the cathode 8, with inductor coils zo connected. The ignition electrode i9 is also connected to one of these external terminals via a series resistor 18. The control electrodes i2 are connected via resistors 1q. and one of the known apparatuses, such as those used for wireless wave reception, connected to a vibration source, in the illustrated embodiment to an antenna 13 . This receiving apparatus comprises in a known manner a detector element 15 and two amplifier elements 16 and 17 and is tuned to modulated high-frequency currents, the frequency of which depends on the tuning of the detector element.

Fig. 2 shows a possible relationship between the voltage of the Circuit i, which is shown therein by the sight line i ', and to the Control electrodes i2 applied voltage, represented by the sight line i2 ' will. If the voltage of the control electrodes 12 is negative or zero, can through the discharge vessel 3 does not generate any new current between the circuits i and 2, an existing current is extinguished at the next zero crossing. Will now be attached to the control electrodes 12 the voltage shown by the visual line i2 'is applied, then the discharge vessel 3 is current-permeable at time t, and it becomes between the circuits i and 2 Energy transferred up to the time t ', in which the voltage of the circuit i, becomes zero for an instant and no voltage is supplied to the control electrodes 12 will. There are therefore amounts of energy up to the full capacity of the discharge vessel 3 controlled by the small current that goes to a wireless receiver set on any desired frequency is tuned.

Claims (1)

PATENT CLAIM: Arrangement for remote control, in particular wireless remote control of the passage of current through grid-controlled vapor or gas-filled discharge vessels, the grid circles of which receive a control voltage with a frequency that is higher than the frequency of the voltage of the main circuits, characterized in that the control voltage is directly or interposed via a coordinated receiving device from amplifiers and transformers to the grid circles.