DE908759C - Switching arrangement for temporarily reducing the performance of a consumer - Google Patents

Description

Switching arrangement for temporarily reducing the performance of a consumer The invention relates to an improved switching arrangement for temporary reduction the power of a consumer without changing the generator adaptation. This task arises, for example, with the energy supply of sound transducers that are used for changing ranges should be operational. It is important here that the adaptation of the consumer circuit to the generator output through the switchover the respective output power remains as unaffected as possible, otherwise the resonance position the arrangement and thus the operating frequency is affected. Man has up to now such manually operated switchovers of the supplied to the consumer Performance realized by the fact that the consumer to reduce the useful power A series resistor is temporarily connected upstream and a parallel resistor at the same time was connected in parallel to the series connection of consumer and series resistor. By interposing the parallel resistor, it can be achieved in a known manner that despite the interposition of a series resistor, which the consumer The useful power supplied decreases, the adaptation resistance of the entire consumer circuit remains unchanged at the generator terminals.

The switchover described can be carried out without hesitation, as long as the on-switch or short-circuit switch required for series and parallel resistance can be operated directly by hand and can be executed with corresponding force. As soon however, the task is set for such a reduction in performance Difficulties arise in providing remote switching. With remote control would have to the switching on of series and parallel resistors is carried out by relay contacts. At least the short-circuit contact bridging the series resistor in the normal state would have to be subject to relatively rapid wear when designed as a relay, because it has to switch off comparatively high operating currents.

The invention shows an improved circuit arrangement which is the same Task solves without any switching contact and therefore especially for remote switching suitable is. According to the invention, instead of one by a short-circuit contact Bridgeable series resistor to reduce the consumer power a choke provided with bias winding, which is on a core made of material with high initial permeability or with a sharply bent magnetization curve is. For example, the core can consist of mu-metal. This choke is in Row to the consumer. The DC bias current can be switched remotely. As long as the choke is not premagnetized, it has a relatively large one inductive resistance, but when the direct current is switched on, a comparative one low resistance. In normal operation, i.e. H. at full power, is the DC circuit the pre-magnetizing reactor is switched on and is interrupted as soon as the consumer power is consumed should be reduced. The additional parallel resistance can in itself in the known version work together with a series-connected on-switch, which may be designed as a remotely switched relay contact and then closed in each case when the consumer power is to be reduced. However, it is more expedient an improved design of the switching arrangement, in which this parallel resistor is replaced by a choke with a bias winding. Becomes beneficial this choke is excited by the same direct bias current as the former Throttle. For this purpose, it must be applied to a core, its material has a relatively low initial permeability, so that the inductive The resistance of this choke without premagnetization is small, with the premagnetization switched on on the other hand is great. The bias windings of both chokes can then be in Be connected in series or in parallel. Changes in the bias current in the same direction in both throttles each cause an opposite change in the series throttle of the resistance as with the parallel throttle, so that the desired effect with the arrangement described is achieved.

In Fig. 1 a switching arrangement is shown, which the known designs is equivalent to. The generator output is indicated by the transformer r, the consumer, for example a sound transducer, by 2. To reduce consumer power a series resistor 3 has been switched on by opening the short-circuit switch 4. At the same time, a corresponding one was used to maintain the adjustment resistance dimensioned parallel resistor 5 switched on via switch 6.

A device improved according to the invention is shown in Fig. A. Instead of the series resistor 3 with the short circuit switch; old q. a choke 30 wound on Mu-iNIetall with a bias winding 31 is connected in series with consumer 2. The parallel resistor 5 with the switch 6 is initially retained. The switch 6 is designed, for example, as a relay, the trigger winding of which can be connected in series with the premagnetization winding 31 of the choke 30. In the normal operating state, the direct current circuit is switched on, ie the switch 6 is opened and the choke 30 is premagnetized, ie brought to its lowest resistance value. If the consumer power is to be reduced, the premagnetization circuit is interrupted; the resistance of the choke 30 increases, and the parallel resistor 5 is switched on via the switch 6.

A further improved arrangement is shown in Fig. 3. It differs differs from the arrangement according to Fig. 2 in that the parallel resistor 5 through a choke is replaced, which is permanently connected to the output of the generator i remains and is provided with a bias winding 51. This will be in series or excited parallel to the bias winding 31 of the choke 30. The core the throttle 5o consists of a material with a low initial permeability and initially a sharp increase in the same with the premagnetization, for example from Megaperm or a similar material.

In the normal operating state, the direct current bias is switched on. As a result, the choke 3o is brought to its lowest resistance value, while the bias winding of the choke 50 is designed so that the resistance value of the choke 5o is greatest when the bias current is switched on. The bias current is switched off to reduce the consumer power. This increases the resistance of the throttle 30, while the parallel resistance of the throttle 50 decreases.

In principle, the arrangement can also be made in such a way that the bias circuit is de-energized in the normal operating state. In this case, the material of the two throttles 30 and 5o has to be exchanged for the arrangement described with reference to FIG. 3.

Claims (3)

PATENT CLAIMS: e.g. Switching arrangement for temporary reduction the power of a consumer without changing the generator adaptation through connection of series and parallel resistors, especially for remote switching, characterized in that instead of one by one Short-circuit contact can be bridged Series resistor a choke with a bias winding on a core made of material with high initial permeability, e.g. B. Mu-metal, connected in series to the consumer is, whereby the bias current is used to increase the consumer power can be switched on remotely. 2. Switching arrangement according to claim r, characterized in that that the shunt resistor that can be connected in parallel to the generator output is replaced by a Choke with bias winding is replaced, which has a core made of material with a relatively low initial permeability. 3. Switching arrangement according to Claim 2, characterized in that the bias windings of both Chokes are connected in series or in parallel, so that the premagnetization of both Throttles is changed in the same direction.