DE701290C - Arrangement for setting the phase position of the grid or gas discharge paths working converter arrangements - Google Patents

Description

Arrangement for setting the phase position of the grid control voltages in the case of power converter arrangements working with grid-controlled steam or gas discharge paths For setting the mutual phase position of the anode and grid voltages, grid-controlled An oscilloscope has hitherto been commonly used for discharge gaps. Since this but it is a sensitive and not easy to use device a need for an easy-to-use and not very sensitive device for them To have work available.

A device has already been proposed for very specific grid voltage forms but this has the disadvantage that it is only for lattice voltages of these curve shapes to be usable.

The invention now relates to an arrangement for adjusting the phase position the grid control voltages for grid-controlled vapor or gas discharge paths working converter assemblies and is characterized in that to the. Discharge path to be examined via resistors and, if applicable, in each case a current indicator a auxiliary discharge path is connected in parallel, whose Control state recognize the control state of the discharge path to be examined leaves.

So the basic idea behind the new device is; to simulate the discharge path to be examined by an auxiliary discharge path connected in parallel to it. Accordingly, in the circuit diagram (Fig. I) the discharge path i of the converter vessel S through the vessel TA is shown again by connecting the anode A of the converter vessel with the anode a of the vessel Tlt, the grid Gr of the converter vessel with the grid g of the vessel Th and the cathode I (of the converter are connected to the cathode h of the vessel Th. As a result, the vessel Th completely represents the discharge path i of the converter in relation to the phase position of the anode and grid voltage, and you can control the state of the converter despite the unignited discharge in the converter vessel S. of the additional vessel recognize the control state of the discharge path i of the converter S. The control state of the additional vessel Th can, however, be recognized by its current flow Ug the phase position shown in Fig. 2. The grid voltage Ug becomes positive v, shortly before the anode voltage Ua becomes negative, and a small current that can be measured by an ammeter flows through the additional vessel. The curve shape of the grid voltage Ug is not important here. The phase position is clearly determined in each case.

For convenient observation of the current in the tube Th, the ammeter M can be provided in the anode circuit. A protective resistor W is located in front of the grid g, and the current in the tube is limited by a resistor R connected, for example, upstream of the cathode k, which resistor can be changed appropriately for different phase voltages. This resistance R is z. B. firmly connected to the cathode of the converter to be examined. The grid and anode of the additional vessel Th, on the other hand, are placed on a grid or anode of the converter to be examined by means of probe tips in order to be able to test the individual discharge paths in quick succession. The resistor, R can of course also be placed in front of the anode in series with the ammeter! 1T.

Can the DC circuit of the converter vessel to be examined do not readily close, so is the anode circuit for the investigation of the additional vessel through its cathode k with the star point T of the main transformer connecting auxiliary line (to be closed by dashed lines in Fig. i 1.

The individual circuits of the phase adjuster are corresponding to the To measure and secure the phase voltage of the converter system to be examined. The auxiliary discharge path can be heated either from an existing network or from a battery. In the latter case in particular, this can be Device very small, portable and independent of external voltage sources.

Checking a converter for correct connection of the grid control is to be carried out with the aid of the device just described as follows: The phase adjustment device is connected to the converter in the manner described above with reference to Fig. i.

The anode (main transformer) and grid voltages are switched on, while z. B. the vessel remains unignited. Now you put on the anode and the grid the corresponding buttons for any of the discharge paths to be examined and adjusts the phase position of the grid control voltage with the ones provided for it Means, e.g. B. the rotary control St, until the ammeter M just got one showing small current. Then the grid voltage has this discharge path to Anode voltage the position shown in Fig.

If you check the other discharge paths of the converter in the same Way, so you can easily determine from the deflection of the ammeter whether the voltages of all associated grids and anodes each have the same phase relation to one another to have. If this is the case, the ammeter deflections are on all discharge paths same. If, on the other hand, the ammeter readings are not the same from the start, then it can you can correct the grid connections with the help of this device in a short time assign.

The arrangement according to the invention can also be used for other purposes be e.g. B. to connect two networks in parallel (especially with low voltage) or to determine whether two networks have the same frequency, etc.

Claims (2)

PATLNT CLAIM: i. Arrangement for setting the phase position of the grid control voltages in the case of power converter arrangements working with grid-controlled steam or gas discharge paths, characterized in that over to the respective discharge path to be examined Resistors and, if necessary, a current indicator, an auxiliary discharge path in parallel is switched, the control state of which is the control state of the discharge path to be examined reveals. 2. Arrangement according to claim i, characterized in that the im Anode circuit of the auxiliary discharge path provided for adaptation to different resistance Anode voltages of the converter arrangement to be examined can be changed.