DE401954C - Arrangement for the constant change of a step-wise subdivided conductor - Google Patents

Description

Arrangement for the continuous change of a step-wise subdivided conductor. Arrangements have already been proposed in which a change in resistance for example by changing the number of turns of a coil by a coarse and a fine adjustment is brought about. However, with particularly precise measurements Another consideration of the reduction in resistance due to the switching on the current branch resulting from the fine control may be desirable.

Fig. I shows an example of the circuit arrangement. The terminals of a current source i and 2 are connected to the ends io und.2o of a coil which is divided into six coarse steps by the separation points io, II, 12, 13, 14, 15, 20. The fine control is applied with its ends I 7, 1 8 at the points 12, 13 of the coil. One pole of the connection points 3, q., The voltage of which is to be regulated, is connected to the end point io of the coil, while the other pole is applied to the sliding contact --i, which can be moved via the fine control. In the drawing, the sliding contact 21 is at the end 18 of the fine control. The current entering, for example, from pole i to point io of the coil, branches in 12, so that the resistance between points 12 and 13 is reduced by the parallel connection of the fine control according to the known law. Therefore, the voltage between io and 13 at, the indicated position of the fine control is lower than it would be without the use of a fine control. If one wants to be fine control switch and applies it to the points 13, i4., Drawn as lines in the figure, while the slider 21 maintains its current position, the voltage between io and 1 3 rises abruptly at the moment of switching the amount that it would assume without fine control, since no more windings are now connected in parallel, and changes again by the same amount and in the same sense when the fine control is applied to the next coarse level. The voltage thus changes discontinuously at the moment the fine control is switched over.

This disadvantage becomes - it may be resistance or induction control act - according to the invention avoided that the @ # @ Tindungszahl the parallel switched fine control resistor over one or both connection points is expanded.

First of all, ohmic resistances are assumed. In the example shown in Fig. 2 embodiment according to the invention is provided with the fine control approaches, namely it is extended beyond the end point 17 to 1 9, and also through the end point 1 8 addition to 25. The position shown corresponds to that in Fig. I. As already mentioned, the voltage at terminals 3, q. not the same as einregelungsspule between points io 1 and 3 at shutdown of the F would prevail but a geringere.- Now it switches by letting pass the connection with the point 13, and only 17 of 12 i a. While 17 is switched off, first move the contact --i from 18 to 25 and then only apply 17 to 14. The voltage between points io and 13 is now higher than when the fine control is switched off, and it is all the more higher than before the switch. The excess over the desired value of the voltage before switching is consumed by the resistor 18 to 25, if this is dimensioned accordingly. It is then the voltage at terminals 3, q. after switching exactly the same as before. Switch. The further regulation after the changeover er-i follows by moving the contact from 25. via 17 to i9, whereupon the next changeover takes place. Then 18 is put on 15.

With this circuit it can be achieved that after the switchover the value of the voltage at 3, 4 is the same as before the switchover, so that all Voltage values can be produced in the existing voltage range. However is it. a deficiency of said switching mode: that during the switching of the Fine control coil initially only jumps when switching off one pole Voltage value arises which is only balanced out again when this pole is switched on again will. This inconvenience is avoided if, instead of an ohmic ZViderstandes uses an inductive one, which is provided with additional turns at both ends; this resistor then works as an autotransformer.

Before moving the pole 17 from 12 to 14, move the sliding contact 21 via 18 further to 25 and thereby increase the voltage between 3 and 4 so much that it is as great as the voltage between Fine tuning would be. If the pole 17 is switched to 14, as shown in Fig. 2a, the voltage between io and 13 is greater than when the fine control is switched off. In the additional turns 18, 25, however, a counter-voltage of such magnitude arises that the voltage at 3, 4 is again as great as the voltage io, 13 when the fine control is switched off. Overall, with this control mode, the voltage at 3, 4 remains the same before, during and after the switchover. A complete, constant change in voltage takes place not only without interruption, but also without the jerky adjustments of the contact at the switching points, which cannot be avoided in the resistance circuit, which are associated with a declining change in voltage. So one obtains an ideal course of the voltage change with progressive regulation without any disturbance at the switching points. In addition, as a result of the fact that the additional turns on both sides of the fine control coil come into operation with each changeover of the coarse levels, the number of additional turns on each side is only half as large as would correspond to a control in a resistance circuit.

A special embodiment of the one just described, an autotransformer An induction coil similar to that with additional windings for fine control is shown in Fig. 3. Since the consumption current to be regulated is reduced by a sliding contact it is desirable to have a correspondingly large contact area for larger currents to obtain. The contact area can be doubled without excessive expansion in the direction of the coil axis by using two coils in parallel instead of one takes. A simplification of the construction is achieved in that both Coils 7 are arranged on the same closed iron core 6. The sense of winding of the two coils is then chosen to be opposite and so achieved that the in both induced voltages are connected in parallel. The coils own the common supply and discharge lines 9 and 9 ', by means of which they are connected to the stage control be connected. A sliding contact 8 bridging the two coils is on one metal rod serving as a guide and at the same time as a discharge to the consumer circuit 5 arranged displaceably. 7 'are the additional turns at both ends of the coils. The directions of the induced voltages are indicated by arrows.

This arrangement of two coils in parallel on the same closed Iron core for the purpose of saving material as well as the completely constant change a voltage using a coil similar to an autotransformer by no means limited to this invention.

Claims (3)

PATENT CLAIMS: i. Arrangement for the continuous change of a step by step subdivided ladder with fine control within each step, characterized that the fine control resistor through one or both connection points additional resistors included in the control area is extended. 2. Arrangement according to claim i, characterized in that an induction coil is used as the fine control resistor serves. 3. Arrangement according to claim 2, characterized in that the Feinregelungswicklu.ng consists of two coils connected in parallel on the same closed iron core are arranged such that a slidable sliding contact controls both at the same time.