CS254536B1 - Circuit connection of one til n phase bridge of the alternator - Google Patents

Abstract

The solution concerns the one-to-n-phase connection · bridge of the static frequency converter with forced individual commutation, where between a bridge composed of commutation thyristors and its power buses are from each side only one horsetail is attached, so for limiting voltage changes on thyristors at the bridge's commutation function is for the entire bridge only two corsets are needed.

Description

The invention relates to the connection of one to n phase inverter bridges, where between the bridge composed of commutating thyristors and its supply buses there is only one common overlap on each side, which serves to limit the steepness of voltage changes on the commutating thyristors of the inverter bridge.

In the design of thyristor static frequency converters, the inverter bridge connection with forced individual commutation, such as McMurray, or modification thereof, is often used. This connection is simple and reliable, its disadvantage is the high steepness of the blocking voltage du / dt on the commutating thyristors when switching the opposite commutating thyristors of the same phase. This high steepness can cause damage to the thyristors or undesired switching. The problem is solved in that one or both commutating thyristors are provided with their own overlap in each phase, thyristors with suitable du / dt parameters are used at increased costs, or the commutating thyristors are equipped with protective circuits against unwanted switching.

The above drawbacks are overcome by connecting the one to n phase bridge circuit of the inverter according to the invention, characterized in that between the connected anodes of the first commutating thyristors and the positive supply bus is connected a first common rear derailleur and between the connected cathodes of the second commutating thyristors and the negative supply bus. attached second common dung.

By connecting a circuit of one to n phase bridge of the inverter, the steep increase of blocking voltage du / dt on the commutating thyristors is reduced when switching the opposite commutating thyristors of the same phase, with only two rearrangements required for the entire one to n phase bridge of the inverter.

The attached drawing shows an example of the connection of one to n phase bridge of the inverter according to the invention.

The connection of the one to n phase bridge of the inverter comprises a DC power supply 2, to which the positive supply bus 11 terminated by the positive input 42 of the inverter block 2 has its first common terminal L1 connected to its second terminal L1. the first commutating thyristors 2 to whose cathodes are individually connected one to n anodes of their respective second commutating thyristors 2, one to n of the connected cathodes is connected to the first terminal L21 of the second common shunt L2, whose second terminal L22 is connected to the negative power bus 12; which is connected to the negative input 43 of the inverter block 2 itself. From the connection of one to n cathodes of the first commutating thyristors 2 and one to n anodes of their respective second commutating thyristors 2, one to n terminals are led to the first alternating input 411 to n the alternating input 41n of the inverter block itself. A protective circuit is formed to the anode and cathode of each first commutation thyristor 2 and each second commutation thyristor 2 formed by the series connection of resistor R and capacitor C.

the connection operation of the one to n phase bridge of the inverter according to the invention is as follows.

After turning on the first commutation thyristor 2 in a first to n-th switching branch consisting of a first commutation thyristor 2 ^{and a} second commutation thyristor 2 ^'in ^ ^no voltage at the first commutation thyristors 2 decreases rapidly and the current it flowing through is limited by the action of inductance of saturable reactors 131st After the time required for the first common toggle L1 to become saturated, the voltage drop therein is reduced to a negligible magnitude, and a full current is passed through the first commutation thyristor 2 and fed from the cathode of the first commutation thyristor 2 to its respective first AC input 411 to n-. AC input 41n of the inverter block 2 itself. At the time at which the inductance of the first common superset L1 is applied, the steepness of the voltage rise du / dt on the second commutating thyristor 2 of the same phase is limited by the inductance of the first common superset L1 and the protective circuit formed by resistor R and capacitor C connected to the second commutator. thyristors 2 of the same phase. Due to the auxiliary commutation circuits of the inverter block 4 itself, the first commutation thyristor 2 closes after some time. To generate a signal of the same phase versus 3 of light polarity, the second commutation thyristor 2 closes ^{and the} whole action takes place analogously to the above described. If the inverter bridge is provided with more than one commutation branch, the above described sequence occurs sequentially for all first commutation thyristors 2 and second commutation thyristors 3 according to a precisely defined sequence such that at the time of switching any of the first commutation thyristors 2 or second commutation thyristors. 2, all other first commutation thyristors 2 ^and second commutation thyristors 3 are switched off.

Claims (1)

The circuit of a one to n phase bridge of the inverter, consisting of one to n parallel connected pairs into a series of connected thyristors, wherein the pair of series connected thyristors is formed by the first and second commutating thyristors and the parallel connection of these pairs connecting to the positive power bus and connecting one to n cathodes of the other commutating thyristors to be connected to the negative power bus, wherein each of the first commutating thyristors and the second commutating thyristors is connected in parallel to a protective circuit consisting of a series resistor and capacitor connection; n cathodes of the first commutating thyristors with one to n anodes of their respective second commutating thyristors one to n terminals are made to the respective first to n-th alternating input of the actual inverter block, fed positively and a negative power bus, characterized in that a first common anchor (L1) is connected between the connected anodes of the first commutating thyristors (2) and the positive power bus (11) and between the connected cathodes of the second commutating thyristors (3) and the negative power bus (12). ), a second common anchor (L2) is attached.