SU468348A1 - Direct Voltage Adjuster Voltage Regulation Method - Google Patents

Description

I

: The invention relates to the regulation

the voltage of the direct frequency converter with artificial switching and can be used in zero converter circuits, the phases of the consumer, which are connected to a star, the total point of which is not connected to zero of the power source. There is a method of controlling the voltage of the direct frequency converter by forming an output

voltage from the envelope of the input voltage,

The main distinguishing features of the proposed method is that the source of input voltage in

This conversion can include all instantaneous input values; voltage, each of which is used depending on the desired degree of pei-verification of the voltage of the converter, in contrast to the known method of conversion, where the input voltage source is only the maximum values of the input voltage, i.e. their envelope.

Applying all the input voltage values to connect them to consumer elements allows for greater in-depth adjustment of the output voltage of the converter,

For this purpose, the value of the variable input voltage is divided into quantized ranges, which are used to smoothly control the output voltage, by gradually changing the boundary values of each of them.

The adjustment method can be used in a deep-regulated electric drive, where a large range of frequency and voltage control is required.

Figure 1 shows the curves explaining the proposed voltage control method; where 1,2 and 3 are the phase voltages of the converter power supply system; 4 — linear voltages of the transformer supply system; and; 5 and 6 - voltages on the consumer elements created by connecting the linear voltage input voltage to the load elements; 5 - voltage on the consumer element, which is connected in series with two parallel-connected elements} T-time interval, in which smooth control of the magnitude of the exhaust voltage above the output voltage shown by curves 7 and 8 is shown; T is the time interval in which the smooth regulation of the output voltage is shown below the values depicted by curves 7 and 8; Figure 2 shows the known power circuit with which the voltage can be controlled on the consumer elements 9,10 and 11 by the proposed adjustment method. The method is carried out as follows. At the maximum output frequency (see Fig. 1, a), the output voltage of the converter is maximum and the values from 1 to 0.87 are connected to the serial connection of one consumer element with two parallel connected consumer elements with changing connection permutations. input linear voltage transducer. When the frequency is reduced, the voltage is guided by connecting to the parallel connection of the elements of the battery of the bitel only from 0.87 to 0.5 values of the input line voltage. At even lower frequencies, only 0.5 to 0 are used as the connected voltage to the consumer elements. of the maximum input linear voltage (see Fig. 1, c). Thus, the whole range of variation of the input voltages connected to the consumer is divided into three quantized sub11 bands, respectively, from 1 to O, 87, from 0.87 to 0.5 and from O, 5 to about the value of the maximum linear voltage of the converter, of which It is possible to form the output voltage of the converter EGsln. It is necessary to change the value of the output voltage above and below the values shown in Fig. 1, b. ; smooth regulation with Γ is performed by gradually changing the boundary values of each of the specified ranges. For example, in the time interval T (see FIG. I), the converter in each floor: the input voltage period works part of the time in the subrange of the input I voltages above their value of 0.87, and part of the time in the subrange from 0.87 to O, 5 values of the input linear voltage of the converter. By varying the proportions of the intervals of operation of the above subranges, it is possible to smoothly change the value of the output voltage of the transformer: In FIG. 1b | in the interval T; shows the regulation of the voltage downward compared to the curve shown (I in the left part of the drawing. Accordingly, the voltage subranges alternate here from O, 87 to 0.5 and below O, 5 input values (Linear potential, I) smooth regulation of the output voltage, and in the I other subranges of the input voltage i (shown in FIG. 1, c) in the time intervals T and T. When adjusting the magnitude of the voltages according to the proposed method, it is necessary to perform some of the artificial commutation subject of the invention The method of regulating the voltage of the direct frequency converter by forming an output of 1U1-xs voltage from an envelope. The input voltages are about the fact that in order to extend the range of regulation of the output voltage they use quantized bands values of the variable input line voltage, and the smoothing of the value of the output voltage is carried out by gradually changing the boundary values of each of the ranges.

468348

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