DE696758C - - Google Patents

Description

Long-Distance DC Transmission Equipment The invention relates to relate to a y direct current remote transmission device with potentiometer, in which, each winding of the receiver the current through tapping on the potentiometer and is fed from the mains to the other two windings without voltage division, where the voltage division is only in two opposite areas of every 6o ° takes place, while in the intermediate areas of i2o ° there is no voltage division he follows.

With the known with. In remote transmission equipment operated by direct current, the voltage is generally divided in such a way that the direct current forms two points offset from one another by 180 °. Potentiometer winding is supplied, on which three contacts, offset from one another by iao °, slide which are each connected to the stator windings of the receiver by a line. The voltage is therefore always fed to these windings via resistors - namely the ' resistor windings of the potentiometer. The consequence of this is a voltage drop, which "is particularly noticeable when using several receivers and causes false displays, since the voltage drop is different at low load than at high load. Another disadvantage is that the size of the potentiometer is always the maxi = paint power requirements of all receivers must be adapted.

According to the invention, therefore, is at the beginning and end of the ranges from i2o ° an additional area of 30 ° is provided, in: which additional resistances are arranged, the size of which is such that -at intermediate positions between Beginning and end of the subdivided voltage ranges of 60 ° each on the one hand and the In the middle of these areas, on the other hand, an equalization of the resulting in these positions Voltage drop in the voltage divider caused error angle is reached. -In the drawing, the invention is illustrated by way of example, namely shows: FIG. I shows the potentiometer circuit customary up to now, FIG. Z shows an exemplary embodiment the circuit according to the invention and Fig. 3 'to 5 three different basic positions of the encoder of FIG. 'The resistance winding i of the potentiometer a of the encoder is at two opposite points 3 and 4 to the direct current network 5, 6 connected. On the contacts 7 belonging to the potentiometer windings i grind three contacts 8, 9, io, which through lines i i, 12, 13 with the in -star-, ü switched windings I, II, III of the Stäe_J tor 14 of the receiver are connected.

The transmitter according to FIG. 2 according to the Erflri = -dung also consists of a resistance system which is connected to the direct current network 17 at 15 and 16. This resistance system has two opposing resistance-free parts i9 and 2o, each extending over an angle of i2o °, between which there are contact areas z.1 and 22 connected with series resistors. The contacts 2q., 25, 26 connected to the lines 31, 32, 33 leading to the windings I, II, III of the receiver statar 23 can slide on the resistance-free parts i9, 2o as well as on the contacts 21, 22 . Additional resistors 2, 7, 28, 29 are provided on the resistance-free parts 19, 2o, the purpose of which is given below in the description of FIG.

3 to 5 show three basic positions of the contacts 2q., 25, 26. In the position according to FIG. 3, the contacts 24 and 25 lie on the resistance-free one Part 20. Thus, all three windings I, II, III are via lines 31, 32, 33 is connected to the direct current network 17, 18 without the use of resistors.

In the position according to Fig. Q. are the contacts 2q. and 25 each the resistance-free parts i9, 2o and the contact 25 on the middle of the series resistor i. So the full current flows without two windings I, III of the receiver stator Upstream connection of resistors while the third winding II receives no current, because the potential of the star point in the receiver is equal to the potential at contact 25 is.

Fig. 5 shows the position of the contacts 2q., 25, 26 for an interconnection: The contact 26 is on the resistance-free part 2o. The contact 25, the - on your contact 22Q is present, the resistor i, of the voltage divider is connected upstream. The contact 2 ¢ lies on the resistance-free part ig, but it is now on small resistor 27 connected upstream. If the additional series resistor 27 would not exist and there would be several recipients at the same time from the donor control, the flow withdrawn at contact 25 via line 32 would depend on the number of connected recipients in its strength '- = cwanlcen and thereby cause various voltage drops in the resistance i " the windings II of the individual receiver systems when several systems are connected no longer receive the prescribed electricity, but less, what with the individual Recipients result in a false report. This can eliminate this phenomenon be that at the same time a certain resistor is connected upstream of contact 24, due to the weakening of the current when several receiver systems are switched on the winding II is caused. Since the current in coil I is a rotation of the Receiver causes against the rotary action of the current in the winding II, can thus by weakening the current in winding 1 or by weakening the current error angle caused in coil II can be completely eliminated.

To compensate for the error angle in the further interconnections the additional resistors 28, 29, 30 are used.

Claims (1)

PATENT CLAIM: Direct current - remote transmission direction with potentiometer, in each case of one winding of the receiver, the current is tapped on the potentiometer and is fed to the other two windings from the mains without voltage division, where the voltage division is only in two opposite areas of every 60 ° takes place, while in the intermediate areas of i2o ° there is no voltage division takes place, characterized in that at the beginning and end of the areas (i9, 2o) of an area of 30 ° is provided for each i2o °, in which additional resistances (27, 28, 29, 3o) are arranged, the size of which is dimensioned so that in intermediate positions between the beginning and the end of the subdivided voltage ranges (21, 22) of 60 ° each on the one hand and the middle of these areas on the other hand a balance of these Positions due to voltage drop in the voltage divider caused error angle is achieved.