DE648552C - Arrangement for the control of the grid circles of discharge paths, in particular vapor or gas discharge paths, in self-controlling inverters - Google Patents

Description

In the 604 077 patent relating to assemblies for converting direct current into alternating current by means of grid-controlled discharge paths relates, measures are placed under protection that the possibility exclude a short circuit when starting the inverter. Further explained The main patent measures that when inverters are connected in series, an interruption of operation when the primary DC voltage falls below a predetermined Value goes down.

In the main patent, the grid circles of part of the discharge path are used for this purpose additionally controlled by the primary DC voltage, specifically by means of one of the primary DC voltage source powered auxiliary circuit. This auxiliary circuit has according to the main patent such a time constant that the negative reverse voltage of the additionally controlled Discharge paths only after a predetermined time has elapsed after switching on the "primary DC voltage, or that the additionally controlled Discharge paths only with. a predetermined phase shift after Onset of the discharge in the first discharge path can be conductive.

In the main patent there is also a rubbing-in describes in more detail which fulfills the designated tasks.

The present invention provides a particularly simple solution to the inventive idea on which the main patent 604 077 is based. According to the. According to the invention, the auxiliary circuit connected to the supplying DC voltage source consists of a series connection of resistors, a choke coil and a voltage coil ^ ₀ for generating the constant negative grid bias.

In Fig. Ι the drawing, an embodiment of the invention is shown on an inverter in series. This arrangement contains the discharge paths 12 and 13, the inductance 14 and the capacitors 15 and 16. Between the latter and a center tap of the inductance la. is the load circuit 11, in the embodiment via the transformer 17 ,. connected. The hot cathodes of the

*) The patent seeker stated as the inventor:

Dr.-Ing. Friedrich Bars in Berlin-Lankwitz.

Discharge paths are. from. the dining DC voltage io heated via the series resistor 28. For feeding the grids of the discharge paths 12 and 13 with de » required control voltages serves «iliv Transformer 22, the primary side to de ^, Transformer 17 is connected and 'its secondary windings 20 and 21 with connected to the control grids. The grid ίο circles still contain the current limiting resistors iS and 19. The grid of the discharge path 13 is also across the current limiting resistor 23 and the one negative bias voltage supplying battery 24 with the associated cathode and via the Choke coil 29 and resistor 25 connected to the positive DC line. The forming device shown differs from that in the main patent 604 077 described embodiment only in that the auxiliary circuit, the the grid of the discharge vessel 13 temporarily charges negatively, instead of a parallel connection A coil 29 comprises a capacitor and a glow lamp. The way of working of the inverter is already described in the main patent 604077.

The inverter is started as follows: The grid of the Discharge vessel 13 is given a negative bias voltage by the direct voltage 24. When the DC voltage 10 is applied, the current in the circuit that the coil 29 contains, because of the inductance of the coil 29 does not immediately rise to the final value. the One becomes the time constant of this circuit, similar to the ignition delay the glow lamp in main patent 604 077, so that after the first half wave the negative bias of the grid of the tube 13 due to the battery 24 through the voltage drop across resistor 23 is essentially balanced.

Should the dimensioning of the individual parts of the circuit cause difficulties, so you can modify the circuit in the manner shown in Fig. 2 by the Resistor 25 is designed as a voltage divider. This allows simpler relationships between the inductance and the ohmic resistance of the auxiliary circuit.

The property mentioned in the main patent,

that the work of the inverter in series connection is interrupted as soon as the primary DC voltage 10 falls below a predetermined value, also applies to the Arrangement according to the present invention. As a result of the drop in DC voltage decreases with a certain delay. also the current in the series connection of the Resistors 23, 25 mil. Of choke 29 and battery 24. The one with respect to the control grid the discharge path 13 is positive voltage drop across the resistor 23 according to the decreasing DC voltage smaller, so that with regard to the constant permanent negative voltage of the battery 24 the control grid receives an increasing negative bias voltage, which when reached a certain limit is sufficient for blocking despite the additional control AC voltage of the transformer 22.

Claims (4)

Patent claims: I. Arrangement for the control of the grid circles of discharge paths, in particular Steam or gas discharge paths, with self-controlling inverters according to patent 604077, characterized in that the one connected to the feeding direct voltage source (10) Auxiliary circuit consisting of a series connection of resistors (23, 25), an inductance (.-28) and a DC voltage source (24) to generate the constant negative grid bias. 2. Arrangement according to claim 1, characterized in that the one resistor (25) is designed as a voltage divider. 3. Arrangement according to claim 1, characterized in that the time constant of the Circuit is chosen such that the generated at the end of the first half-wave AC voltage from the auxiliary. Negative bias voltage taken from the circuit has essentially become zero. 4. Arrangement for switching off self-controlled inverters in Series connection in the event of an impermissible drop in the feeding direct voltage by means of an arrangement according to claim 1 or following, characterized in that the negative supplied by the auxiliary circuit The bias voltage is chosen so that when the DC supply voltage (10) drops below a predetermined value the grid ι ίο ter at least one discharge path (13) a blocking potential is supplied. 1 sheet of drawings