SU1275684A1 - Method of generating control pulses for thyristors of m-phase self-excited inverter with pulse-width control - Google Patents

Abstract

The invention relates to converter equipment and can be used to control autonomous inverters. The aim of the invention is to increase the accuracy and the expansion of the adjustment range. The duration of the control pulses is equal to an integer number of control steps, each step being equal to a strictly defined part of the period of the output voltage of the inverter, regardless of frequency. The number of adjustment steps in a work period is generated to be 2 tons, where m is the number of phases. Mening the value of K, it is possible to ensure any given control accuracy. The control method provides with it the ability to regulate the whole (L range of output voltage variation, rigid temporal communication of control pulses. 1 or 9) 00 4 ;.

Description

The invention relates to a conversion technique and can be used in the construction of control systems for autonomous inverters with pulse-width regulation of the output voltage, for example, in electric drives with frequency-controlled electric motors,

The aim of the invention is to increase accuracy and expand the range of regulation.

The drawing shows a diagram of a device that implements the proposed method. ''

The drawing shows a frequency control signal 1 controlled by: a 2 pulse generator, a frequency divider (on the counter) 3 frequencies, a multiplexer 4, a duty cycle signal 5, an element And $ 6 a distributor of 7 pulses of power valves, made on the basis of combinational logic elements - multiplexers 8 and 9 vstleleniya pulses commuting, valves.

The duration of the pulses: control is always equal to an integer number of control stages, and each stage is equal to a strictly defined part of the inverter output voltage period, regardless of frequency.

The number of control stages during the operation period is generated equal to 2 ^{K +} 't, where t is the number of phases. By changing the value of K, you can provide any given accuracy control. The digital method of generating control signals provides the ability to control the entire range of changes in the output voltage and, in addition, a rigid temporary connection of control pulses of power and switching thyristors, which increases the reliability of operation.

The breakdown of the inverter operation period into 2 ^KI m intervals is carried out by a divider 3 ₉ to the input of which the generator pulses arrive. 2. Signal 1 controls the frequency of generator 2 and, therefore, the frequency f of the inverter output voltage. The output signals a ₀ - a _to . ₅ counters 3 are used to form pulse-width-controlled pulses with a frequency of 2mf, i.e. the frequency of the intervals of repeatability, These signals are fed to the address inputs of the multiplexer 4, the duty cycle control signal 5 is fed to its information inputs. The duration of the output signal of the multiplexer 4 is equal to the integer number of periods of the generator 2 and is determined by 5 by the number of units at the information inputs of the multiplexer. The highest bits of counter 3 are used to distribute the signals of the multiplexer 4 to the inverter power thyristors. Ras * ® the distribution of power thyristor control signals is provided by the distributor 7. The switching pulses of the switching thyristors are formed by element 6, the duration of these 15 pulses is equal to the generator period

2, and the period - the interval of repeatability. The formation time of these pulses is rigidly tied to the moments of the end of the signals of the multiplexer 4. ²⁰ The distribution of the output pulses of element 6 among the switching thyristors is provided by multiplexers 8 and 9, the address inputs of which are connected to the outputs of the counter 3.

²⁵ Using only the output signals of the counter for generating control signals, as well as for pulse-width voltage regulation, it allows to increase control reliability, accuracy and simplify its implementation by expanding the control range, while automatically ensuring synchronization of all phases,

Claims (1)

The invention relates to a converter technique and can be used in the construction of control systems for autonomous inverters with a pulse-width control of the output voltage, for example, in electric drives with frequency-regulating pyeMbiNffl electric motors. The aim of the invention is to improve the accuracy and the expansion of the range of adjustment. The drawing shows a diagram of the device that implements the proposed method. The drawing shows the signal 1 of the frequency control J controlled: the generator of 2 pulses, the divisor (on the counter) 3 frequencies, the multiplexer 4 the signal 5 of the regulation of the duty cycle, the element And 6 f. The distributor of 7 impulses of power valves, implemented on the basis of a combiIJ of the basic elements of logic - multiplexers 8 and 9 of the switching pulses, gates. The duration of the control pulses is always equal to an integer number of control steps, and the speed step is equal to a strictly defined part of the inverter output voltage period, regardless of the frequency. The number of steps regulated-1 sh during the work period is equal to m, where m is the number of phases. Mening the value of K, it is possible to provide any given accuracy of regulation, the LFR method of forming control signals provides the ability to control the whole range of variations of the voltage, the voltage and, except for the hard-wired connection of the control pulses of the SSr and the switching thyristors, that increases reliability of work. The division of the period of operation of the inverter into m intervals is carried out with a divider 3, at the input of which the generator pulses arrive. 2 "Signal 1 controls the frequency of the oscillator 2 and, therefore, the frequency f of the inverter output voltage. The output signals a, - a. counters 3 and are used to form adjustable pulses with a frequency of 2mf, i.e. frequency of repeatability intervals. These signals arrive at the address inputs of the multiplexer 4, 42 the duty cycle control signal 5 is applied to the data inputs, the multiplicity of the output signal of the multiplexer 4 is equal to an integer number of periods of generator 2 and is determined by the number of units at the information inputs of the multiplexer. The higher bits of counter 3 are used to distribute the signals of 1 multiplexer 4 across the inverter power thyristors. The distribution of control signals for power thyristors is provided by distributor 7. The control pulses of switching thyristors are formed by element 6, the duration of these pulses is equal to the period of generator 2, and the period is the repeat interval. The time of formation of these pulses is rigidly related to the end of the multiplexer 4 signals. The distribution of the output pulses of element 6 over the commutation thyristors is provided by multiplexers 8 and 9, the address inputs of which are connected to the outputs of the counter 3. The use of the control signal generation and impulse voltage control of only the output signals of the counter, allows to increase the control reliability, accuracy and simplify its implementation, expanding the range of regulation, with automatic ensuring the synchronization of all phases. The invention The method of adjusting the thyristor control pulses of a t-phase stand-alone inverter with a pulse-width control, is that the period of the inverter output voltage is divided into 2 tons of repetition intervals, in each repetition interval a pulse of control of the inverter power thyristor is generated, equal to the conductivity interval of the power thyristor, at the time of the end of the control pulse of the power thyristor form a control pulse of the switching thyristor, the regulation impl they are triggered by varying the duration of the force control pulses; sources, characterized in that, in order to increase accuracy and increase the range of adjustment, each repetition interval is divided into 2 steps control, fix the moment of the end of each interval of the repetition and at the fixed moment the production, the indicated formation of control pulses of the switching thyristors, the duration of the control pulses 275684, 4 and commuting thyristors are set to an integer number of stages of regulation, and the indicated change in the duration of impulses to control the power thyristors is carried out by changing the number of cadies of regulation stages. J Manage sypovimi. thyristors Scabing 1 min. thyristors