SU1078532A1 - Proces for automatic longitudinal-transversal control of mains voltage - Google Patents

Abstract

A METHOD FOR AUTOMATIC LONG-TRANSVERSE REGULATION OF NETWORK VOLTAGE using an additional voltage transformer, inverter and rectifier, in which oscillations in the oscillator circuit are excited, change the initial phase of these oscillations and sum them up with a voltage through a display, and the display will turn out to be the display unit, the display will turn out to be the display unit, the display will change the initial phase of these oscillations and will add them to the network voltage by a periodic connection. and the driver, which is characterized by the fact that, in order to expand the control range, the specified inverter is switched to the rectifier mode, and rer in inverter mode. (L with

Description

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The invention relates to electrical engineering, in particular, to the technique of voltage regulation in electric networks, and can be used to regulate voltage and power flows in high-voltage electric networks.

A known method of controlling a voltage boost transformer (VDT) is to change the circuit for switching on the windings of the VDT in the process of voltage regulation in a high-voltage electrical network. With the help of VDT, an additional emf can be obtained, which is phase-shifted relative to the mains voltage. To obtain an additional emf of arbitrary direction, now combined longitudinal-transverse VDT with two primary windings and their independent power supply C are used.

The disadvantages of this method of controlling the VDT are the complexity of switching the windings in the control process and relatively low reliability, since any contact device has a limited number of operations,

. The inverter booster transformer is much more reliable, where the regulation process takes place due to the periodic connection of the transformer excitation winding to the network through a rectifier and an inverter. In this case, the voltage on the winding drive of the VDT can be formed as a sinusoid. Sinusoidal oscillations excite the oscillator circuit of the inverter, change the initial phase of these oscillations, and add them to the mains voltage by periodically connecting the excitation winding of the booster transformer through which the inverter and rectifier 12 are powered.

However, if the rectifier, through which the inverter connected to the field winding is powered, receives power from the same network, the VDT can only operate on. voltage drop. This is related to ms streams in VDT. When the VDT is operating on increasing the voltage, the power is electromagnetically supplied from the booster winding (WDO) to the field winding and then must be electrically returned through the inverter and rectifier to the network. The presence of direct current (rectifier) power in the flow does not allow the power to return electrically to the network, and the operation of the inverter VDT in the voltage reduction mode is impossible.

The purpose of the invention is to expand the range of voltage regulation at the output of the VDT.

The goal is achieved according to the method of automatic longitudinal-transverse control of the mains voltage using a booster transformer, inverter and rectifier, which excites oscillations in the oscillator circuit of the inverter and adds them to the mains voltage by periodically connecting the exciter winding of the booster transformer through the inverter and the rectifier, said inverter, is switched to rectifier mode, and the rectifier is switched to inverter mode.

The drawing shows a block diagram for implementations of the proposed control method.

Winding 1 is included in the dissection of the electrical network. Bundling winding 2 is connected to the mains via inverter 3 and rectifier 4. Control unit 5 of inverter 3 and rectifier 4 is connected to the mains, excitation winding 2, inverter 3 and rectifier 4.

When VDT operates to increase the voltage, the power is electrically supplied from the network to the rectifier 4, and then to the inverter 3 and the winding 2 excitation, from which the power is electromagnetically supplied to the WDO 1. The functional connections in this case are shown as solid lines. The rectified voltage is inverted, and in the form of a sinusoidal voltage is applied to the excitation winding 2. When the VDT operates to reduce the voltage, the power from SAD 1 through the inverter and rectifier must be returned to the network. This can be done when the inverter 3 is switched to rectifier mode and rectifier 4 is in inverter mode. Functional links are shown by dotted lines.

The control unit 5 continuously receives information about the electrical state of the network, winding 2, inverter 3 and rectifier 4. If necessary, the control unit 5 generates signals for the inverter to switch to rectifying mode,

The rectifier is in the inverter. In this case, the principle of reversibility of converting devices is used.

The use of the proposed control method allows one to get rid of one of the excitation windings to ensure smooth and inertia-free adjustment (provided by a smooth change in the moments

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1) Regulation, since there are no power levels in the circuits of the high voltage contact switches, as well as electric networks. Change

to ensure reliable reversal. In this case, the voltage is additionally operated by the device. 5. NITSEL effect. .

Claims (1)

METHOD FOR AUTOMATIC LONGITUDINAL-TRANSVERSE CONTROL OF THE VOLTAGE OF THE NETWORK using a booster transformer, an inverter and a rectifier, in which the oscillations in the oscillatory circuit are excited, they change the initial phase of these oscillations and summarize them with the mains voltage by periodically connecting the excitation winding to the inverter through an additional voltage characterized by the fact that, in order to expand the regulation range, the specified inverter is transferred to the rectifier mode, and the rectifier b to inverter mode. • h 00 SL 00 yo