SU1624568A1 - M-rectifier inverter control unit - Google Patents

Abstract

The invention relates to electrical engineering and is used in uninterruptible power supply installations. The purpose of the invention is to increase reliability and stability. From the AC source 1, through the switch 2, the load 3 is supplied. In parallel with the source, a voltage inverter 4 is operated, which is powered by the DC source 5. During such normal operation, the block-contact 12 of the switch 2 is closed, the circuit And 8 are closed, and And 9 open. From the slave control unit 11, the circuits AND 9, OR 7 and the driver, the inverter 4 receives control pulses. When the switch 2 is disconnected from the power supply unit 15 through the resistor 14, the circuit AND 8 is opened. And the circuits 9 are closed through the circuits, NOT 3. The control pulses to the inverter 4 come from the independent generator 10 through the pulse distributor. This guarantees a continuous transition to the mode where the load voltage frequency 3 is still stabilized. 1 Il. fe

Description

The invention relates to electrical engineering and can be used in AC power circuits.

The aim of the invention is to increase reliability and stability.

The drawing shows a diagram of the device.

An alternating current source 1 (e.g., an industrial network) is connected via a switch 2 to a load 3 and an inverter 4, for example, a type of voltage inverter. The 4-pole inverter is connected to a DC source 5 (for example, a rectifier or an acumulator). The control inputs of the inverter 4 are connected to a shaper of 6 pulses, the input of which is connected to the output of the element OR 7, and the inputs of the latter are connected to the outputs of elements AND 8 and 9. If there are m gates in the inverter 4, then

the device contains m formers 6 and the elements OR 7 are twice the number of elements AND, i.e. m elements And 8 and m elements And 9.

In addition, the device includes a master oscillator 10, a control unit 11, a state sensor 12, a HE element 13, a resistor 14, a power supply unit 15 and a distributor 16.

The drawing shows a diagram of only one channel.

The first inputs of the And 8 elements are connected to the distributor 16, the input connected to the autonomous master oscillator 10, and the inputs of the And 9 elements to the control unit 11 synchronized with the network. The second outputs of the circuits AND 8 are connected to the sensor 12 of the state of the AC source 1, made, for example, in the form of a blocking contact. The same inputs of the And 8 elements are connected to the input of the HE 13 elements and a resistor 14, which is connected to the power supply unit 15 with a second terminal.

The device works as follows.

Load 3 consumes AC power. When the source 1 is connected, the switch 2 and its contact 12 are closed. A zero signal arrives at the input of the element And 8, it closes. To the input element And 9 comes from the output element NOT 13 a single signal. From the control unit 11, synchronized with the network, control pulses pass through the element 9, which through the element 7 and the driver 6 (with electroforming) are fed to the valves of the voltage inverter 4. These pulses cause the known cyclic switching of the inverter 4 gates, which converts the energy of the direct current source 5 to the alternating current. The phase of the control pulses of the unit 11 is synchronized with the source 1 so that the necessary distribution of the load power between the source 1 and the inverter 4 is carried out.

When source 1 is disconnected by switch 2, contact 12 opens, element And 9 closes, and element 8 opens and control pulses arrive from the ring distributor 16 triggered by master oscillator 10. Generator 10 provides a stable frequency. The load 3 is powered only from the inverter.

Thus, the proposed device provides a quick transition from one power mode to another.

Claims (1)

Invention Formula A device for controlling a t-valve inverter, phases connected to the load through a switch with an alternating current source, containing a PL of pulse formers, the outputs of which are intended to be connected to the control inputs of the inverter, which are synchronized with the network inverter output, distinguished by the fact that, in order to increase stability and reliability, it is equipped with m elements OR, element NOT, 2t elements AND, a resistor, a pulse generator, will distribute Lemma and the contact sensor state variable current source connected between the common conductor and the common point of resistors, the input of the NOR and the first inputs of first m And elements, and the second output of the resistor is connected to the power supply, the output of the element is NOT connected to the first input of the second m elements AND, the second inputs of which are connected to the outputs synchronized with the network the control unit, the second inputs of the first elements And are connected to the output of the distributor connected to the pulse generator, and the outputs of the first and second m elements AND are connected in pairs to the inputs of the OR elements, the outputs of which are connected to the control pulse generator. 15