SU1185551A1 - Inverter control device - Google Patents

Abstract

A device for controlling an inverter with a frequency-pulse modulation curve of an output voltage consisting of two pulses, on a half-period, containing a generator of linearly varying voltage, connected to the first input of the comparator, to the second input of which is connected an adder, and to the output - a distributor And the clock outputs of which are connected to control circuits h of keys connected to the inputs of the adder, the DC voltage sources, one of which is directly connected to the input of the adder, and the control source Voltage protection, characterized in that, in order to reduce the distortion of the inverter output voltage and simplify the device, the control voltage source and (n - 1) constant voltage sources are connected to the appropriate switches.

Description

The invention relates to a converter technique. The purpose of the invention is to reduce the distortion of the inverter output voltage curve in the process of regulating the output voltage and simplifying the device. FIG. 1 shows the functional scheme of the device; 2, timing diagrams explaining the principle of the system operation (for definiteness, it is assumed that there are 6 pulses per half-cycle in the output voltage curve of the inverter). The device contains a generator of linearly varying voltage, connected to comparator 2, which, in turn, is connected to the distributor 3 of control pulses. The control voltage source 4 and the constant voltage sources 5 and 6 are connected via keys 7-9 to the adder 10. The constant voltage source 11 is connected to the adder 10 directly. . The output of the adder 10 is connected to the second input of the comparator 2. The control circuits of the keys 7-9 are connected to the distributor 3. The operation of the device is based on the vertical principle of control. Frequency of the output signal U | generator 1, having a triangular shape, is twice the frequency of the inverter output voltage (Fig. 2a). At the beginning and at the end of each half-period (timing O of the distributor, Fig. 2 g), keys 7-9, the intervals of which are on, are shown respectively in Figs. 2 g - e, the signals U and} c of the source 11 are passed to the comparator 2. At the moment of equality of these two signals (time t in Fig. 2S), the comparator 2 is triggered and the leading edge of the first output pulse is formed at the half-cycle of the output pulse valve 3 transition to the next state (cycle 1 in Fig. 2). The output signals of the comparator 2 are depicted in FIG. 2b. The waveform of the voltage being formed is shown in FIG. 2B. In cycle 1, the valve 3 outputs a signal for closing the switch 7, after which the control voltage source 4 is connected to the adder 10. The magnitude of the voltage of source 4 determines the duration of the output pulses and, accordingly, the magnitude of the output voltage of the inverter. The falling edge of the first half-period output pulse, as shown in FIG. 2a, & is formed when the sum of the voltages is equal to the voltage U / (. After the comparator 2 is triggered again, the status of the distributor 3 changes again (step 2 in Fig. 2) at the command of the distributor 3 the switch 8 closes and the switch 7 opens, the adder 10 enters voltage and "and and (voltage source 5), at time t (equalities with and the leading front of the second from the beginning of the half-cycle pulse of the output voltage curve is formed. Similarly, the leading edge of the third output impulse In the second half of the half-period, starting from its middle, a gradual decrease in the voltage levels associated with each clock interval with the voltage U of the generator 1 of the linearly varying voltage is carried out. Thanks to the switch sequence of keys 7-9 (Fig. 22). e) set by the distributor 3, the full symmetry of the formed curve is observed, the temporal half-edges of the back edges of the pulses of the second half of the half period (tg - t in FIG. 2 S) are symmetric to the moments. The temporal position of the marked front and rear edges of the pulses is fixed and depends only on the magnitude of the voltages of the sources 5,6 and 11. The distributor 3 of the device, being the main logical link of the system, is constructed according to the reversible counter circuit, the order of which given by time diagrams, (Fig. 2 1 -e). The number of counter states, as well as the prototype devices, is generally equal to (2n -1). The described algorithm of operation of the proposed device allows to significantly improve the harmonic composition of the output voltage of the inverter.

It is designed with a significantly simplified control system structure. Besides.

type no linear link and summing amplifiers.

Fi. Z.

(J,

Claims (1)

DEVICE FOR CONTROLLING AN INVERTER with a pulse-frequency modulation of the output voltage curve, consisting of two pulses, at a half-period, containing a ramp generator, connected to the first input of the comparator, to the second input of which the adder is connected, and to the output - a distributor, And clock the outputs of which are connected to control circuits And keys connected to the inputs of the adder, N DC voltage sources, one of which is directly connected to the input of the adder, and the source is voltage, characterized in that, in order to reduce distortion of the inverter output voltage and simplify the device, the control voltage source and (n - 1) DC voltage sources are connected to the corresponding switches. Si sl FIG. 1