SU873300A1 - Device for checking switching element states - Google Patents

Description

(54) DEVICE FOR CONTROLLING THE CONDITION OF A SWITCHING ELEMENT The invention relates to electrical engineering and can be applied to powerful valve converters where there are several parallel valve branches, in series with each of which a fuse is connected, to control these fuses. A fuse condition monitoring device is known, which contains an actuation indicator, installed on a monitored fuse, and auxiliary contacts mechanically connected with the indicator. The operation of this device is based on burnout following the insertion of a monitored insert indicator fuse, which leads to the operation of auxiliary contacts. The disadvantage of this device is that in the case of parallel connection of several power semiconductor devices protected by fuses, the reliability of such a device decreases because when the fuse blows on the whole semiconductor device, the fuse fuse insert does not always burn out, which is due to redistribution current consumption due to the significant resistance of the fuse-index as compared to the resistance of the inserts of whole fuses. The closest technical solution to the invention is a contact state control device comprising a transformer, a source of control voltage and a display unit in which the primary winding is connected to a source of control voltage through a display unit, as well. secondary - parallel to the contact 23 The disadvantage of this device is the influence of a single gang on a blown fuse on the elements of the device, resulting in: large dimensions and power of the replaceable transformer, since 3. The secondary winding of the transformer must be designed for the voltage arising (it is on it when the fuse blows; unreliable control of the state of the fuse due to the transformation of the voltage on the fuse of the fuse into the primary winding. The purpose of the invention is to reduce the transformer’s rated power and increase reliability by reducing the effect of the voltage of the switching element circuit on the elements of the device. The goal is achieved by the fact that the device for monitoring the state of the switching element. containing a transformer, the primary winding of which is connected to a series-connected display unit and a source of control voltage, and one output of the secondary winding - to a switching element, additionally contains a two-pole circuit with active resistance and a fuse connected in series and connected between the other terminal of the secondary winding and the second output of the switching element. In addition, the two-port can be made in the form of series-connected resistors and control Thyristor transfer. FIG. 1 shows a diagram of the device; in fig. 2 - the same, option. The device contains a switching element (fuse) 1, a transformer 2, the primary winding of which is connected to the serially connected display unit 3 and the source of control voltage 4. The secondary winding of the transformer 3 is connected to fuse 1 via a two-port 5 and an additional fuse 6. The two-pole 5 may consist From the resistor 7 and the thyristor 8 control transition (Fig. 2), the device operates as follows. With a good fuse 1, the secondary winding of the transformer 2 is loaded on a circuit consisting of predog-50

Claims (2)

ranger 1, double-pole 5 and additional fuse 6. When the monitored fuse blows 1, the current flowing through it starts to flow through two-pole 5, additional fuse 6 and the secondary winding of the transducer 2. Under the action of this current, the indicator unit and test voltage source are additionally connected , and one view of the secondary winding - to the commutating element, characterized in that, in order to reduce the installed transformer capacity and increase reliability by reducing the effect the circuit voltage 0 telny fuse blows and the secondary winding of the transformer 2 is de-energized. As the transformer switches from the loaded mode to the idle mode, the current flowing through the display unit 3 decreases and the latter gives a signal about the blown fuse. The active resistance value of the two-pole 5 is chosen from the condition of providing the breaking capacity of the additional fuse 6. In the case when the controlled fuse is connected to the cathode of the power thyristor, a series-connected thyristor control junction 8 and a resistor 7 can be used as a two-pole with active resistance. Fig. 2). The source of the control voltage is the thyristor control pulse driver. The device allows to reduce the installed power of the transformer used in the device, since the secondary winding of the transformer is not calculated for the continuously flowing current caused by the power circuit voltage that occurs in the secondary winding when the monitored fuse blows, but only for a short current pulse flowing through the secondary winding of the transformer during the time the additional fuse blows. As a consequence, the dimensions and power of the transformer in the device are mainly determined by the voltage and frequency of the test voltage source. The reliability of the device is also improved due to the elimination of the reverse transformation with the main and additional fuses blown out. Claim 1. A device for monitoring the state of a switching element containing a transformer, the primary winding of which is connected to a successive switching element on the elements of the device, it additionally contains a two-pole having active resistance and a fuse connected in series and connected between the other terminal of the secondary winding and the second terminal. commute a primary element, 2. The device according to claim 1, which is based on the fact that the two-terminal is made in the form of 06 connected in series and a thyristor control transition. Sources of information taken into account in the examination 1. Namitokov K. K, Khmelnitsky, RS S., Anikeeva, KN. Fuses, Mo, Energie, 1979, p. 142144, 2. US patent 36262A8, cl. H 02 H 3/04, 1971 (prototype).