SU1264275A1 - Controlled a.c.voltage-to-a.c.voltage converter - Google Patents

Abstract

The invention relates to the field of converter technology and mono. It is used to stabilize and regulate the AC voltage. The purpose of the invention is to increase the accuracy of setting the output voltage in the stabilization mode and simplify. Ra converter

Description

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Claims (2)

Ufuf .J. The invention relates to electrical engineering, in particular to a conversion technique. The aim of the invention is to improve the accuracy of setting the output voltage in the stabilization mode and simplify it by simplifying the switching of the transformer. Figure 1 shows the functional diagram of the device; Fig. 2 is a block diagram of the control unit; Fig. 3 shows a key state table. The device comprises a transformer 1 with a booster winding consisting of sections 2-4 and a booster winding from sections 5-8, switched on in a consistent manner using the corresponding bidirectional keys 9-1 11-12, 13 -14, the main switching unit and the bidirectional keys 15-1 17-18, 19-20, bridge 21, whose shoulders are formed on bidirectional keys 22-25, and the control unit 26. The control unit 26 consists of a measuring unit (IU) 27 (for stabilization mode) or a source data input unit (HC) 28 (for the adjustment mode), a control code calculation unit 29 (SCID), a power supply synchronization unit 30 USS and matching unit 31 (CS). The principle of output voltage regulation is based on a change in the transformer conversion ratio, the choice of the required value of which is carried out by switching on a certain number of booster sections and the base using the corresponding bidirectional keys. Winding .The accuracy of the output voltage regulation is determined by the smallest voltage of the section of the main and booster transformer windings. The voltage of the other sections is selected according to the bits of the binary series Uj / Uj / U U4 / UT / Ub 1/2 / 4, the voltage of sections 2 and 6 of the smallest step of regulation, the voltage of sections respectively 3,7,4,8 of the remaining 52 steps of adjustment.The number of steps of regulation is determined by the range of variation of the input (output) voltage. As bi-directional keys, triacs, anti-parallel thyristors, etc. can be used. The device allows the output voltage to be maintained at a predetermined level when the voltage of the power supply network changes (stabilization mode), as well as to regulate the output voltage at a constant value of the supply voltage (control mode). In each case, the transformer windings are connected in series, ensuring the flow of a constant magnetic flux in the magnetic core and maintaining a constant EMF value of one turn. The device works as follows. Output voltage stabilization mode. When and ",., (And, - input voltage, U ,, - nominal output voltage), the keys 22 and 25 of the bridge 21 are closed, turning on the transformer 1 in the voltage boosting mode. In accordance with the input voltage, sections 6-8 of the main winding and section 2-4 of the booster winding are connected, and with the connection of any section of the main winding, the corresponding section of the booster winding is eliminated and vice versa. When and,..., G, the bidirectional switches 23 and 24 of the bridge 21 are closed, including the transformer 1 in the undervoltage mode. The output voltage is removed from the permanently connected sections 5-8, and stabilization is achieved by appropriately connecting the sections 2-4. Due to the fact that the input voltage is applied to the corresponding number of sections of the windings of the transformer 1, the value of the EMF of one turn remains constant. And since the output voltage is removed from the constantly switched winding sections, it remains constant throughout the entire range of input voltage changes At U, the bidirectional switches 22 and 24 of the bridge 21 are closed, and the transformer 1 is excluded from operation. To operate the device in the specified mode, section 5 of the main winding of the transformer 1 must be calculated at the minimum value of the supply voltage. The order of turning on the device keys is shown in FIG. Output voltage control mode. If it is necessary to obtain an output voltage lower than the input voltage, the bidirectional switches 23 and 24 of the bridge 21 are closed, turning on the transformer 1 in the undervoltage mode. In this case, sections 2-4 are connected in combination, corresponding to the difference in voltage U "t Ujb ,,. Moreover, with the connection of any section of the booster winding, the corresponding section of the main winding is eliminated, and vice versa. The input voltage is applied to a constant number of turns of the transformer 1 windings, as a result of which the EMF of one turn does not change over the entire control range. If it is necessary to obtain an output voltage higher than the input voltage, the bi-directional switches 22 and 25 of the bridge 21 turn on, including the transformer 1 to boost mode. The input voltage is applied to the permanently connected sections 5-8. Voltage regulation is achieved by appropriately connecting sections 2-4 of a booster winding. To disconnect the device from the power network, the bidirectional keys 24 and 25 of the bridge are set to the disabled state. Claims: Adjustable AC-to-AC converter containing a transformer with main and sectioned booster windings, a main switching unit associated with sections of a volt-auxiliary winding, and a bridge on controllable switches, one of the terminals of the main winding being connected to the first input and output pins, the add-on winding is connected to the pins of the first diagonal of the bridge on the controlled keys, the first and second pins of the second diagonal of which are connected to But the second input and second output pins, characterized in that, in order to improve the accuracy of setting the output voltage in the stabilization mode and simplify by simplifying the switching law of the transformer windings, the main winding is made sectionalized, the sections of which are interconnected through an introduced additional switching unit The controlled bridge keys are bidirectional, the main and additional switching blocks contain two bidirectional keys for each section, one of which forms a sequence A separate circuit is connected with the corresponding section, the other is connected in parallel to the mentioned series circuit, while the other output of the main winding is connected to one of the outputs of the booster so that the sections of the main and booster windings are connected in series. Lrinami: 1. Whether the regulation is (stabilization). 2. For keys, the HI IX 5 is not placed as a scoop, with a 1 ctKJmSemcmSyem dkpyuchennoe state, the condition of the O-open state, a. ank klyuch.pomeschennyk 8 brackets, naooarot. ChRig.Z