CH622906A5 - Inductive voltage converter having ferro-resonance protection - Google Patents

Description

622906 2

Claims (3)

PATENT CLAIMS bridging of beginning and end of this circuit by a 1. Inductive voltage converter with ferroresonance protection, appropriately dimensioned impedance. This protection is characterized by the fact that the iron core has a magnetic dig, since it is mandatory to have three voltage transformers, each with an additional shunt with an auxiliary winding, which are required via the low-voltage winding. sine impedance is short-circuited, the magnetic 5 The inductive voltage converter according to the invention has a shunt only in the case of resonance from a strong flux on ferroresonance protection without the disadvantages of the hitherto prevailed. gen facilities and is characterized in that the 2. Inductive voltage converter according to claim 1, characterized iron core a magnetic shunt with an auxiliary marked that the magnetic shunt has a winding that is short-circuited via an impedance, is part of the main core. io where the magnetic shunt is permeated by a strong flux only in the case of resonance. Preferably, the magnetic shunt is part of the main core. In normal operation, most of the flow passes through the main circuit. The shunt is only penetrated by a small amount of flux, because the flux passing through is counteracted by the ampere-turns occurring in the auxiliary winding. If endangered by a ferroresonance phenomenon and the neutral point capacitance. Since the inductance saturates the main core, the magnetic of the converter is determined by the characteristics of the magnetization flux from the main cross-section of the core into the secondary curve of the iron core, one speaks of this pre- 20 circuit is displaced into the auxiliary winding then a passage of ferroresonance. Such processes are published in correspondingly large current, which causes a power via the load impe-tions and textbooks of electrical engineering such as e.g elimination of ent-ben. Ferro-resonance is a very stable oscillation for inductive voltage converters. The load impedance is preferably dangerous and can be selected as an ohmic resistance due to sudden strong internal heating. In the single figure, thermally destroying the converter and thereby causing considerable of the drawing, the subject of the invention is an off-mains disturbance. leadership example shown. In this figure, 1 to suppress such resonance processes, the following are known: the magnetic shunt, 2 the auxiliary winding, 3 the supporting measures: resistance and 4 the magnetic main circuit. kick 1. Loading the converter through the connection of an appropriately dimensioned impedance, as already mentioned above, to the secondary winding due to a ferroresonance event, causes saturation in the main core 4, is the original. As a result, the converter is constantly under load and causes shunt 1 to be permeated by a strong flow. Gently unnecessary energy consumption. the auxiliary winding 2 then creates a correspondingly large 2. Parallel connection of a suitable capacitance to the wall current, which generates a power 1er via the load impedance 3. Such capacitors are expensive, especially for high-35 evokes. This results in a detuning of the resonance voltage network. nance circle and elimination of the resulting oscillations 3. Series connection of the secondary windings of the voltage supply. An ohm converter of the three phases of a three-phase network and the over-shear resistance are preferably selected as the load impedance 3 . G 1 sheet of drawings