DE597309C - Device for regulating reactive power by means of reactive resistors connected in parallel to the AC line - Google Patents

Description

GERMAN EMPIRE

ISSUED ON May 22, 1934

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21 d 2 GROUP 42

General Electricity Society in Berlin *)

Patented in the German Empire on August 11, 1928

In many cases, controllable reactive power is required, e.g. B. to regulate the voltage in AC networks. Known regulating devices consist in setting up reactive current machines, switching inductors or capacitors on and off or making any combination of parallel or series connections of these devices.
It has also already been proposed to stimulate the reactive power in such a way that reactive resistors connected to the network are operated with alternating current of variable frequency via frequency converters. Such a device is shown in Fig. 1.

ι means the alternating current network whose reactive power is to be regulated, 2 is the Reactance. It is connected to the network via the frequency converter 3. The frequency converter 3 supplies a voltage of variable frequency. For frequency control all known facilities can be used, e.g. B. Electron tubes, their frequency controlled by grids, AC converting machines excited by direct or alternating current with adjustable speed and internal or external drive.

If you want one with a certain frequency range of the frequency converter, if possible Obtain a large control range, according to the invention, the reactance is made up of inductor coils and capacitors connected in parallel are formed via the same frequency converter be fed. Because with such a parallel connection the characteristic of the current depends on the frequency runs much steeper than with a pure choke coil circuit, even a small one is sufficient Frequency change to get a large change in reactive power. Such a one Circuit according to the invention is shown in Fig. 2, where with 4 the to the choke coils 2 capacitors connected in parallel are designated. Such a circuit is particularly suitable in those cases where capacitive reactive power is to be used occasionally. The sizes of the two reactive resistances are to be dimensioned according to the invention so that with one there is a resonance frequency within the control range of the frequency converter, so that no reactive power with respect to the network is taken up or released. In this Trap, the device behaves as if it were switched off. But if you increase the Frequency above the resonance frequency, the controller outputs reactive power; conversely consumed he reactive power at frequency lower

*) The patent seeker stated as the inventor:

Richard. Tröger in Berlin-Zehlendorf.

597 S09

supply. The device therefore works double-acting.

The effect of such a double-acting control device according to Fig. 2 is based on one Numerical example explained. A capacitor which z. B. at 50 Hertz and nominal voltage 100 BkW generates, at 100 Hertz delivers 200 BkW, at 25 Hertz 50 BkW. The choke coil is consumed at resonance frequency just the reactive power of the capacitor, so z. B. at 50 periods just 100 BkW. At 100 Hertz the choke coil would be 50 BkW, at 25 Hertz 200 BkW consume. The double-acting regulator (Fig. 2) would work at 50 Hertz if this were the Resonance frequency is, neither generate nor consume reactive power; therefore for the network be ineffective. At 100 Hertz it would give a reactive power of 100 BkW (200 to 50), at 25 Hertz, on the other hand, use 150 BkW (50 to 200). The double acting regulator Fig. 2 allows not only an acceleration of the control process, but also the zero crossing and the reversal of the reactive energy flow without any switching process, just through Regulation of the frequency.

Claims (1)

Claim: Device for regulating the reactive power by means of the alternating current line Reactors connected in parallel, especially for voltage regulation of AC networks, by interposing a frequency converter of any kind with an adjustable secondary frequency between the Reactors and network, characterized in that the reactances are connected by inductors and connected in parallel with them Capacitors are formed and the sizes of the two reactances are dimensioned so that when one is within the Control range of the frequency converter lying frequency resonance, so that no Reactive power in relation to the network is consumed or released. 1 sheet of drawings