SU838878A1 - Device for overvoltage protection of thyristorized converter - Google Patents

Description

(54) DEVICE FOR PROTECTION OF THYRISTOR CONVERTER AGAINST OVERVOLTAGES

Claims (2)

The invention relates to electrical engineering. It is known a surge converter overvoltage protection device containing a protective capacitor, shunted by a discharge resistor and connected on the AC side through limiting resistors and an auxiliary bridge diode rectifier 1. The drawbacks of the device are complexity and increased power consumption. The closest to the invention in technical essence and the achieved effect is a device for protecting a thyristor gD converter from overvoltages, containing a protective capacitor connected via a bridge rectifier to the mains, a choke and an inverter connected to the mains 2 supply. A disadvantage of the known device is complexity. The purpose of the invention is simplification. The goal is achieved by the fact that the device is equipped with two thyristors and a capacitor, the protective capacitor being shunted with a sequential chain consisting of the first thyristor, droplets, the capacitor and the second thyristor. the cathode of the first thyristor is connected to the negative pole, and the anode of the second thyristor with the positive pole of the protective capacitor, the inputs of the inverter are connected to the common point of the anode of the first thyristor and throttles and to the common point of the cathode of the second thyristor and capacitor. The drawing shows how to protect a thyristor converter from overvoltages. The device contains a bridge rectifier with diodes 1-6, a charging resistor 7, a protective capacitor 8, two thyristors 9 and 10, a choke 11, a capacitor 12 and an inverter on thyristors 13 and 14. The protective capacitor 8 is connected via a charging resistor 7 and Diode 1 - 6 to the mains. The capacitor 8 through thyristors 9 and 10 is triggered by connected in series charging choke 11 and capacitor 12. Parallel to the choke And and to the capacitor 12, an inverter is connected to thyristors 13 and 14, connected from the variable side directly to the same mains. The protective capacitor 8 is charged through the charging resistor 7 and the rectifier diodes 1-6 from the supply voltage. During the simultaneous unlocking of the thyristors 9 and 10, a portion of the energy stored in the protective capacitor 8 is transferred to the capacitor 12, the capacitance of which is significantly less than that of the protective capacitor 8. The voltage on the protective capacitor 8 decreases. After the thyristors 9 and 10 are locked, capacitor 12 is potentially unrelated to the diode rectifier. Therefore, it becomes possible to discharge the capacitor 12 through an inverter on the thyristors 13 and 14 with the energy output directly to the supply network. After locking the thyristors 9 and 10, the thyristors 13 and 14 are simultaneously unlocked. The control angle of the inverter is chosen so that the capacitor 12 is discharged to a voltage whose value is significantly less than the maximum value of the linear voltage. After the storage capacitor is discharged and the thyristors 13 and 14 of the inverter are locked, the duty cycle of the discharge device is quenched. The repetition frequency of the bits of the device is equal to the frequency of the mains supply. The application of the invention simplifies the protection of converters against overvoltages. Claims An overvoltage protection device for a thyristor converter comprising a protective capacitor connected via a bridge rectifier to a power supply network, a choke and an inverter connected to an output power supply network, characterized in that, for the purpose of simplification, it is equipped with two thyristors and a capacitor, the protective capacitor is shunted by a series of the first thyristor, the drosellers, the capacitor and the second thyristor, the cathode of the first thyristor is connected to the negative pole, and the anode of the second thyristor with the positive pole of the protective capacitor; the inputs of the inverter are connected to the common point of the anode of the first thyristor and the throttles and to the common point of the cathode of the second thyristor and capacitor. Sources of information taken into account in the examination 1. USSR author's certificate number 466584, cl. H 02 H 7/10, 1974. 2. USSR author's certificate number 324684, cl. H 02 H 7/10, 1970.