DE681011C - Arrangement of the starting resistors in a direct current power transmission system without a neutral conductor - Google Patents

Description

Arrangement of the starting resistors in a direct current power transmission system Without a neutral conductor It is known that starting up a direct current power transmission system consists of from two multi-phase converter systems in full-wave or 2 m-phase star connection, which are connected via a double direct current line without using a neutral conductor are causing difficulties. Is the ignition pulse (for mercury vapor vessels) or the auxiliary arc burning time (with the Marx converter) is very short and is none Internal capacities or creepage distances are present in the converter systems, so a do not start up such a transmission system at all. This is on the basis of Fig. R, as an example of such a DC power transmission system without a neutral conductor is to be understood, shown.

The two valve groups of every converter system are used in almost all of them Cases operated with ignition delayed by 2600 to take advantage of the 2 m-phase DC voltage ripple to earth, e.g. B. because of the electrical stress the cable insulation by the superimposed alternating voltage component that z. B. at Three-phase ripple is 18% and with six-phase ripple is only 4.2%. For the same reason, the DC neutral conductor is also omitted Use only the m-phase DC voltage ripple to earth would be obtained. Furthermore, in almost all cases, the firing sequences are on the rectifier and on the inverter shifted in time against each other.

The DC circuit is obviously only closed when four valves lying in series are ignited. This means that it can only be switched on if due to sufficient ignition pulse or auxiliary arc burning time or as a result Larger system capacities or high creepage distance conductance values the first ignited The valves remain on until the last of the four required valves is ignited. From this moment on, the power transmission system begins to work properly. If you add one after the one described Scheme built direct current power transmission system added a direct current neutral conductor (Fig.2), the start-up difficulties described are eliminated in a known manner, because one of the existence of internal capacities or creepage paths in the converter systems becomes independent. With the addition of the neutral conductor, the always existing earth capacities of the direct current line (shown in Fig. 2 with a dashed line) Starting circuits created for each individual valve, so that the entire System can start up without further ado. The disadvantage of this circuit is, as already in other words, the only m-phase DC voltage ripple to earth.

It is known in DC power transmission systems; which made at least two multi-phase converter systems in full-wave or 2 m-phase star connection exist, which are via double direct current lines without the use of a neutral conductor are connected; Switch on starting resistors. In this known arrangement the starting resistances are between the full DC voltage. This circuit but has the disadvantage of a relatively large power loss. These losses are reduced according to the invention by adding two starting resistors such favorable start-up conditions in the direct current power transmission system without a neutral conductor be created, as it has the circuit of Fig. 2, without affecting the 2 m-phase DC voltage ripple to earth must be dispensed with. The starting resistors are to be switched on in such a way that they are compatible with the earth capacitances of the direct current lines together enable the start-up of the converter system.

According to the invention, the starting resistors are therefore one pole with full-wave switching at the valve-side transformer star point (s) or with the 2 m-phase star connection to the connection of the two m-phase Halves of the 2 m-phase star connection are connected and lie with their other Pole to earth.

The installation of such start-up resistors according to the invention is for example shown in Figures 3 and 4. Fig.3 shows a direct current power transmission system with 3-phase converters in full-wave circuit. Ri and R2 are the starting resistances.

Fig: q. shows a system with converters in 2 X 3-phase star connection. The starting resistances are again labeled R1 and R.

By comparison with Fig.2 it can be seen that the systems over these resistors R 1 and R 2 are the ground capacitances of the direct current lines without can approach further. R1 and R2 are to be selected with such high resistance that when starting up only the minimum current required for start-up flows. The six-phase DC voltage ripple with this dimensioning, the additional resistances R, and R2 become practical to earth not affected: The effect of the earth capacitance of the direct current lines can still be supported or replaced by a resistor of a suitable size, which is connected between the two direct current lines and its center is grounded is.

Claims (2)

PATENT CLAIMS: i. Arrangement of the starting resistors in, a direct current power transmission system, consisting of - at least two multi-phase power converter systems in full-wave or 2 m-phase star connection via one or more direct current double lines are connected without using a neutral conductor, characterized in that the Starting resistors with their one pole in the full travel switching to the or: the transformer star points on the valve side or with the z m-phase star connection to the connection of the: two m-phase halves of the 2 m-phase star connection are connected and have their other pole connected to earth. 2. Arrangement according to claim i, characterized in that the effect of the earth capacitances of each direct current double line by a resistor connected between the two DC voltage lines and whose center is grounded, supported or replaced.