SU1647762A1 - Reactive power supply - Google Patents

Abstract

The invention relates to converter equipment and is intended to compensate for the reactive power of loads in power supply systems. The goal is to reduce active power losses in the elements of the reactive power source. The voltage level at the output of the rectifier 1 is higher than the voltage level at the storage capacitor 2, which is determined by the use of the booster autotransformer 5 in the input circuits of the rectifier 1 5. Charges of charging current are limited by the charging choke 6. The switching capacitor 10 is recharged across the diode circuit 12 - charge choke 6 - switching thyristor 9. The shut-off diode prevents the charging of the switching capacitor 10 from the storage capacitor 2, which provides the possibility of oscillating overcharging and switching its capacitor 10. 1 IL SL S

Description

The invention relates to converter equipment and is intended to compensate for the reactive power of loads in power supply systems.

The aim of the invention is to reduce active power losses in reactive power source elements.

The drawing shows a diagram of the source of reactive power.

The reactive power source consists of rectifier 1, whose DC output is connected to storage capacitor 2 and controlled voltage converter 3, which is a thyristor voltage inverter, in the alternating current circuit of which damping reactors 4 are included, booster autotransformer 5 the low voltage terminals of which are connected to the network, and the rectifier that is higher with the phase outputs, charge throttle 6 in series with the steam thyristor 7 and cut off m diode 8, which is included in the dissection of the positive rectified voltage bus connecting the rectifier and the storage capacitor, the switching thyristor 9, the anode of which is connected to the anode of the through thyristor, the switching capacitor 10, which the other is connected to the cathode of the switching thyristor, the charging resistor 11, one output of which is connected to the cathode of the switching thyristor, and the other to the negative bus of the rectified voltage, the reverse diode 12, orogo is connected to the cathode passage thyristor and the cathode - the positive bus rectifier.

The source works as follows.

The controlled voltage converter 3 is connected to the mains phases by means of damping reactors 4, and the converter control is arranged so that the first harmonic voltage of converter 3 is in-phase with the mains voltage. In the case of a fixed phase angle of the voltage converter, zero pulses on the through-thyristor 7, the effective value of the current of the reactive power puller is zero. The voltage level at the output of the rectifier 1 is higher than the voltage level at the storage capacitor 2, which is determined by the use of a booster autotransformer 5 in the input circuits of the rectifier 1. The charge of the storage capacitor 2 is switched on by switching on the thyristor 7. current in series with the thyristor through passage 7 include a charging choke 6.

The adjustment of the charging voltage of the storage capacitor 2 is made by changing the duration of the charging current pulses by changing the switching on time of the switching thyristor 9, and

0, the transistor thyristor is switched off by the action of the voltage of the switching capacitor 10, which is recharged in a circuit consisting of a reverse diode 12, charge throttle 6 and the switching thyristor

5 9. At the end of the recharge, the thyristor 9 remains in the open state under the influence of the current flowing through the charging resistor 11 until the switching-on thyristor 7 is turned on. In this case, the blocking voltage of the switching capacitor 10 and the switching thyristor 9 are applied to the switching thyristor 9 restores its locking properties, and the switching capacitor 10

5 is recharged by the current limited by the charging resistor 11.

The cut-off diode prevents the charge of the switching capacitor 10 from the storage capacitor 2, which provides the possibility of oscillating overcharging the switching capacitor 10. The power of the elements of the charge circuit of the storage capacitor 2, consisting of an autotransformer 5, rectifier

5 1.digital throttle 6 and throughput thyristor 7 should be sufficient to ensure the flow of current losses of the circuit of the source of reactive power. Thus, adjusting the magnitude of the voltage

0, the storage capacitor 2, and, accordingly, at the output of the voltage converter 3, arrange adjustment of the value of the current of the reactive power source.

Claims (1)

5 The proposed reactive power source has the following advantages: reduced active power losses due to the absence of phase displacement of the voltage of the controlled converter and higher speed due to a change in the method of power control. Claims of Invention A reactive power source containing a rectifier, a storage capacitor, and a controlled voltage converter, in the alternating current circuits of which damping reactors are included, characterized in that, in order to reduce active power losses in the components of the reactive power source, It additionally introduced a voltage transformer, the undervoltage of which is connected to the network, and the increased one to phase rectifier leads, charge choke connected in series with the thyristor and cut-off diode connected between the rectifier and the storage capacitor, the switching thyristor whose anode is connected to the anode 0 a through thyristor, a switching capacitor, one plate of which is connected to the cathode of a through thyristor, and the other to a cathode of the switching thyristor, a charging resistor connected between the cathode of the switching thyristor and the rectified voltage of the rectifying voltage, the anode of which is connected to the cathode of the through thyristor and the cathode with the rectified voltage plus.