SU1603477A1 - Rectifier symmetry-producing device - Google Patents

Abstract

The invention relates to electrical engineering and can be used for balancing single-phase loads connected to line and phase voltages of three-wire and four-wire networks. The purpose of the invention is to increase the efficiency, reducing the number of power equipment. The device contains a three-phase thyristor converter 2, a choke 3, a single-phase thyristor converter 4, a transformer 5, a capacitor 6. A current sensor 8 is installed in the DC circuit, the output of which is connected to the current regulator 9 of a three-phase thyristor converter 2. A single-phase thyristor converter control system 10 4 can be made the simplest and provide a constant steering angle. The regulator 9 provides stabilization of the current of the converter 2. The value of the current of the converter 2 is selected from the condition of symmetrization, for example, equal to the current of the single-phase load brought to the DC side. 3 hp ff, 4 ill.

Description

; 31

The invention relates to electrical engineering and can be used to balance power supply of single-phase loads connected to line and phase voltages of three-wire and four-wire networks.

The aim of the invention is to improve efficiency, reducing the amount of power equipment.

Fig. 1 is a schematic diagram of a valve balun; Fig. 2 is a diagram of connecting the valve balancing devices to a three-wire and four-wire three-phase networks; figure 3 - principle. scheme valve balun device with a common diode group; in fig. A is a vector diagram illustrating the operation of the device.

The gate symmetrical device 1 contains a three-phase thyristor converter 2 connected to a three-phase network, a choke 3, a single-phase thyristor converter 4 connected through transformer 5 to an electric network, parallel to the secondary winding of the transformer 5 is connected a capacitor 6. the network is connected to a single-phase load 7. A single-phase thyristor converter 4 is connected to a three-phase thyristor converter -2 through a direct current circuit through a choke 3. A current sensor 8 is installed in the direct current circuit, the output of which is connected to the current regulator 9 of the three-phase thyristor converter 2. The valve balancing device 1 contains the system 10 for controlling the single-phase thyristor converter 4.

The structural diagram of the valve balancing device in the balancing mode of an arbitrarily asymmetric three-wire network is shown, in Fig. 2a, in the balancing mode of an arbitrarily asymmetric four-wire network - in Lig.26. The designations of the circuit elements do not differ from those described above.

A valve balancing device with a common diode group (FIG. 3) consists of a diode group, connected from the AC side to a three-phase network, and from the constant side to single-phase thyristor converters 45 a second terminal to

They are connected via throttles 3 to three-phase thyristor groups 12. The operation of the device is illustrated by the example of the device in FIG. The asymmetry of the network voltage appears due to unequal (inductive) voltage drop across (approximately) equal (inductive) resistances of the network X at unequal currents ij

in the network wires. The vector diagram explaining the operation of the device is shown in FIG. The vectors E, Eg, and EC represent a symmetrical system of EMF on the generator yutemma.

The vectors front, Ug, Uc represent the voltage system at the terminals of the consumer, where this system should be balanced (by the first harmonic component). Vectors e e g e denote inductive voltage drops u 1d etc. For the sake of impliedness, we assume that the load is active. Vectors

25 IA s 1 (

depict the current in accordance

the corresponding phases, vectors 1e, If, represent the first harmonic component of the output current 1 and 2 of the single-phase converters, respectively. The vectors 1d and 1c are shifted from the vectors id and and to the minimum possible angles by choosing the corresponding angles RDI and the advance, respectively, of single-phase inverters. If the magnitude of the active component of the output current I, cos p is equal to the difference of asymmetrical

0

five

ig-ic), then drops to

0

five

(Igcos / Sv

The inductive impedances of the network are aligned (e eV BC) and a symmetrical system of vectors U and Ug aUc is formed at the customer terminals. I

The magnitude of a given value of direct current in smoothing it is drosse-. It sets the effective value of the first harmonic component at the output of a single-phase inverter operating at a fixed control angle, for example, and 3 control pulses. Therefore, the single-phase inverter control system is a trivially simple angle adjuster. The current-setting thyristor group operates in a current stabilizer mode. The described control devices always ensure automatic selection of the operating point of the rectifier.

I

control angle (single phase) inverter.

Claims (4)

1. A valve balancing device containing three input terminals for connection to the electrical network, a three-phase thyristor converter connected to three input terminals for connection to the electric network, from single-phase thyristor converters connected through single-phase transformers to the output terminals for connection to an electric network, and a smoothing choke, characterized in that, in order to increase efficiency, it further comprises t-1 three-phase thyristor converter, which are connected to three input terminals for connection to the mains, t-1 smoothing throttle, Each single-phase The thyristor converter is connected to the corresponding three-phase converter through a DC circuit through a corresponding choke. 2, The device according to claim 1, about tl and - often because the weekend 03477 clips for connecting to the electrical network are designed to be connected to the phase wires electrically. What a network. 3. The device according to Clause 1, which is designed so that the output terminals for connecting to the electrical network are designed to be connected to the phase and neutral wires of the electrical network. 4. Device on PP. 1 - 3, about the fact that, with J5 to reduce the number of power equipment, m three-phase thyristor converters consists of ha anode (cathode) thyristor three-phase groups and one cathode (anode 20) diode three-phase group connected to three input terminals for connection to the electrical network, and the cathode (anode) three-phase diode the group is connected to the anode25 (cathode) thyristors of all single-phase thyristor converters, and the cathode (anode) thyristors of single-phase thyristor converters are connected to the anode ones through the chokes 30 (cathode) thyristor three-phase groups. / ( AT with about FIG. 2 A B C BUT Fig.Z