RU1764496C - Method of selecting thyristors, connected in parallel, for converter shoulder - Google Patents

Abstract

FIELD: thyristor converters production. SUBSTANCE: volt-ampere characteristics of the thyristors, connected in parallel, are mated for one more parameter: for difference of currents of standard and selected thyristors 3 and 4 correspondingly, when selected thyristor 4 is turned on. Practically all the thyristors may be selected for parallel operation by using this parameter for selection of the thyristors in addition to measured value of current at specified value of standard thyristor. Loops in volt-ampere characteristics of the thyristors, which have been rejected may also be used in this method. Spread in currents of thyristors is reduced either. EFFECT: reduced number of rejected thyristors; improved quality of selection; simplified technology. 2 dwg

Description

 The invention relates to electrical engineering, in particular to a conversion technique, and can be used in the manufacture of thyristor converters containing a parallel connection of thyristors in a power circuit.

 The aim of the invention is to reduce the number of rejected thyristors.

 In FIG. 1 shows a diagram of a stand for the selection of thyristors; in FIG. 2 - current-voltage characteristics of thyristors, with and without a loop on the static current-voltage characteristic.

 A device for implementing a method for selecting thyristors in parallel connection (Fig. 1) contains a three-phase transformer 1, a three-phase zero valve group 2, in the arm of which a reference thyristor 3 is connected and a test thyristor 4 is parallel to it. Measuring shunts are installed in the circuit of each of the thyristors 3 and 4 5 and 6, the outputs of which are connected to the measuring devices 7 and 8. The thyristors are controlled using the pulse-phase control system 9.

 The device operates as follows.

 By changing the phase of the unlocking pulses of the rectifier thyristors using the control system 9, the current of the reference thyristor 3 is gradually increased from zero and follow the start of the movement of the arrows of both devices 7 and 8. If the arrows of both devices started moving simultaneously, then the current of the reference thyristor is set equal to the working rated current of the selected thyristors in the rectifier circuit and fix the current of the selected thyristor. In this case, thyristors with close fixed currents are selected for parallel operation at the operating current of the reference thyristor. If the beginning of the movement of the arrow of the device 8 is behind or ahead of the beginning of the movement of the arrow of the device 7, then the current difference is recorded, after which the operating current of the reference thyristor is set and the current of the selected thyristor is fixed. At the same time, thyristors are selected for parallel operation according to two indicators: by the value of the current of the selected thyristor, fixed at the operating current of the reference thyristor, and by the difference in current, recorded when the arrow of the device 8 lags or is ahead of the movement of the arrow of the device 7.

 If a thyristor is installed as a reference device that does not contain a loop on the static current-voltage characteristic, then the beginning of the increase in the current of the selected thyristor will either coincide, or lag behind the beginning of the increase in the current of the reference thyristor, or the selected thyristor will not turn on at all if their I – V characteristics do not coincide and do not intersect . If, however, a thyristor containing a loop is installed as a reference thyristor, then the beginning of the rise in the current of the selected thyristor can either lag behind or exceed the beginning of the rise in the current of the reference thyristor. As indicated above, the selected thyristor may not turn on at all.

 In FIG. 2 shows the statically current-voltage characteristics of 10 - 12 three thyristors. A thyristor with characteristic 10 does not have a loop, and thyristors with characteristics 12 and 11 have loops, and the loop of a thyristor with characteristic 11 is larger than the thyristor loop with characteristic 12. The current-voltage characteristic of thyristor 10 does not intersect with the current-voltage characteristic 12 and 11, so when connecting thyristors with characteristics 12 and 11 to the reference thyristor with characteristic 10, both of them will not turn on. If, however, we take a thyristor with characteristic 11 as the reference thyristor, then the thyristor with characteristic 12 will turn on earlier and the beginning of the current rise in the device 7 will lag behind the beginning of the current rise in the device 8.

 Thus, for parallel operation, thyristors switched on with each other are selected from the batch taking into account the delay (lead) value of the switching current. At the same time, choosing a standard thyristor in a certain way, one can divide practically all available thyristors into batches, due to which the goal is achieved to reduce the number of rejected thyristors.

 The goal is to improve the quality of selection of thyristors, due to the fact that the proposed method takes into account another additional parameter - the amount of lead (delay) of the thyristor switching current, which leads to the fact that the thyristors are selected in the batch almost identical, which improves current distribution. Simplification of the selection of thyristors is achieved due to the fact that the calculation operation is excluded and replaced by a simpler operation of measuring the current value. (56) Upter E.M. et al. Powerful thyristor rectifiers for direct current electric drives, Moscow: Energia, 1975, p. 149-156.

 USSR copyright certificate N 1131433, cl. H 02 M 7/17, 1984.

Claims (1)

 METHOD OF SELECTING THYRISTERS FOR THE SHOULDER OF THE CONVERTER WITH THEIR PARALLEL CONNECTION, which consists in matching the current-voltage characteristics by selecting from the batch of thyristors, in which one thyristor from the batch is selected as a reference and rectifiers are installed in the shoulder with a pulse-phase control system, made in rectifier switching circuit parameters providing the operating rate of current rise of the selected thyristors when each of them is connected in parallel with the reference thyristor y, each thyristor from the batch is connected in turn to the reference thyristor in turn, and using the pulse-phase control system, the currents of the reference and selected thyristors are determined, the current deviation of the selected thyristors is determined, and the batch of thyristors is divided into groups by the value of this deviation, characterized in that, in order to reduce the number of rejected thyristors, the currents of the reference and selected thyristors set smoothly and record the difference in the currents of the reference and selected thyristors at the moment of switching on the last and They then set the predetermined reference current value of the thyristor current and measure the picked up thyristors and the thyristors in the group are selected according to the value of the current difference and the measured value of current therethrough.

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