DE1265861B - Circuit arrangement for voltage converters, especially capacitive voltage converters, in which a load resistor is temporarily switched on to protect against relaxation oscillations - Google Patents

Description

Circuit arrangement for voltage converters, especially capacitive ones Voltage converter with a load resistor to protect against relaxation oscillations is temporarily switched on Addition to the patent: 1055120 The main patent has one Circuit arrangement for voltage converters, in particular capacitive voltage converters, in which a load resistor is temporarily switched on to protect against tilting vibrations is, to the object, which is characterized in that a load resistance is used, the resistance value of which changes as a result of its temperature dependence from the time it is switched on until the time it is switched off again at least in a ratio of 1: 5, preferably 1:10.

For the temporary activation of this resistor with temperature response serves according to an embodiment of the main patent, a relay, which by the increased magnetizing current of the converter that occurs in the event of breakover oscillations is excited.

According to the additional invention, this relay is dependent on influenced by the increased primary current occurring in the case of breakover oscillations by its Pickup winding directly due to the increased voltage that occurs with breakover oscillations Primary current or by one drawn from a part of the primary circuit when it occurs increased voltage is excited by relaxation oscillations.

Thus, the additional invention deviates from a known protective circuit, with either a low-pass filter, conventional resistors or chokes as an additional burden or capacitors made effective for a certain time using a timing relay not only to the extent that it involves a temperature-dependent resistance increasing resistance value is used, but is different from this known protection circuit also by the way of influencing the load resistance Switching on relay, which in the known protective circuit via a low-pass filter he follows.

The relay can be provided with response and hold winding, whereby the pick-up winding activates the load resistor when stall oscillations occur and the holding winding caused, which is after sinking of the flowing through it Current switches off as a result of an increase in the load resistance and thus a switch-off again of the load resistance. But it can also be a relay without a holding winding Find use, in which case the relay works with a drop-out delay, the so is dimensioned that the relay the load resistance only after such a period of time switches off again, in which the tilting vibrations have subsided.

In the drawing is an embodiment according to the additional invention shown. The capacitive voltage divider consists of the partial capacitances 1 and 2. The medium-voltage circuit contains the resonance choke 3 on the primary side Adjustment of the entire converter to the operating frequency, the primary winding4 of the inductive intermediate voltage converter 5 with non-linear voltage characteristics and the response winding 6 of the relay 7. The secondary winding 8 of the intermediate voltage converter 5 is loaded with the load 9, to which the load resistance when the relay 7 is excited 10 is connected in parallel. The relay 7 responds when its response winding 6 is excited by the increased primary current occurring in the case of breakover oscillations. It settles with its holding winding 11 after switching on the load resistor 10 in a holding circuit in which the excitation of the relay 7 until the breakdown oscillations is maintained. The load resistor 10 is in series with the burden 9 the holding winding 11 of the relay 7 connected in parallel, so that the breakover vibrations go out. To prevent the relay from being de-energized before the load resistor 10 reaches a sufficiently high value, the relay 7 is via the holding winding 11 held by the damping current until the load resistance 10 due to its characteristics has reduced the current so much that the holding winding 11 can no longer keep the relay energized and thus the Load resistor 10 switches off again.

If you want to do without the Haltewicklungll of the relay 7, so can you equip the relay 7 with such a dropout delay that it is for switching on the load resistor 10 serving only after a contact Releases time span which is dimensioned so that the load resistance 10 as a result its characteristic has reduced the current to the desired extent.

Instead of the response winding 6 of the relay 7 directly in the primary circuit can also be switched on according to the dashed line on a part of the primary circuit, namely at the resistor 12, a voltage can be taken, which when the occurrence of Tilting vibrations is so increased that the relay 7 is energized.

In the circuit arrangement according to the invention, a higher Tax benefit can be withdrawn. In addition, in the event of an external secondary short circuit, the Load resistor already switched on, so that when you open the secondary side Short circuit damping is present before breakdown oscillations want to occur.

Claims (3)

Claims: 1. Circuit arrangement for voltage converters, in particular capacitive voltage converter with a load resistor to protect against relaxation oscillations is switched on temporarily using a load resistor whose Resistance value changes due to its temperature temperature dependence on the time of its Activation until the time it is switched off again, at least proportionally from 1: 5, preferably 1:10, increased, according to patent 1055120, characterized in, that a relay for switching on the load resistor depending on the increased primary current occurring in the case of breakover oscillations is influenced by its Pickup winding directly due to the increased voltage that occurs with breakover oscillations Primary current or by one drawn from a part of the primary circuit when it occurs increased voltage is excited by relaxation oscillations. 2. Circuit arrangement according to claim 1, characterized in that a relay provided with a response and hold winding is used, its response winding when tilting oscillations occur, the load resistor is switched on and causes the holding winding, which is flowing through after sinking of it Current switches off as a result of an increase in the load resistance and thus switches off again of the load resistance. 3. Circuit arrangement according to claim 1, characterized in that the relay works with a drop-out delay which is dimensioned in such a way that it counteracts the load resistance only switches off again after such a period of time in which the breakdown oscillations have subsided. Documents considered: German Auslegeschrift No. 1 042 100.