RU2686057C1 - Diode rectifier - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to electrical engineering and can be used for conversion of AC into DC.EFFECT: novel in the proposal is to use a switch which changes the configuration of the input filter at the precharge stage such that the high-pass filter resistor is used as a current-limiting filter.1 cl, 1 dwg

Description

The proposal relates to the field of electrical engineering and is used to convert AC to DC.

The widely known [1] diode rectifier contains in the primary circuit of the transformer current limiters and a switch that shunts them at the end of the starting period, and a diode bridge is connected to the secondary winding of the transformer, and a capacitor is connected to its poles. Limiting the inrush current of the capacitor is provided by introducing into the circuit a bulky switch, shunting the current limiter, which is a drawback. The closest in technical essence and achievable results is [2] a diode rectifier containing a diode bridge, to the poles of which a storage capacitor is connected, and a switch and a filter containing a series-connected reactor and filter capacitor are connected to the inputs (phases) connected resistor. The disadvantage of this device is the relative complexity and low reliability. The technical result of this proposal is a simplification. The problem is solved due to the fact that the rectifier is equipped with a switch, the central output of which is connected to the second output of the resistor, opening - to the second output of the switch, and closing - to the common entry point of the bridge and the first outputs of the switch and reactor.

The drawing shows a single-line diagram of a diode rectifier. It contains a power switch 1, a diode bridge 2, to the poles of which a storage capacitor 3 is connected. The reactor 4 and the filter capacitor 5 are connected in series. There is a resistor 6 and the switch 7. The rectifier works as follows. At the beginning of the start, switch 1 is placed in a conducting state, in which the current from the network flows through resistor 6 to bridge 2, where it is rectified and supplied to capacitor 3. Capacitor 3 is charged with current, the value of which is limited by resistor 6. After the charge ends in which the resistor 6 shunts the reactor 4. After that, the mains switch 1 is turned on. Its inclusion is not accompanied by a surge current, as the capacitor 3 is charged. The circuit is in working condition and a load can be connected to the capacitor 3. In this case, the capacitor 5, the reactor 4, the resistor 6 form a resonant filter tuned to one of the higher current harmonics arising from the nonlinearity of the bridge 2 or the load. Thus, the resistor 6 performs two functions: 1-is used as a current limiter at the start stage, 2-is used as an element of the current harmonics filter. This simplifies installation. Sources of information: 1. A. Kolpakov. Circuit design of high-power high-voltage voltage converters. Power Electronics Magazine, 2007, No. 2, Fig. 6. 2. Journal "Cement and its application." 2009, №6 p. 99, fig. one.

Claims (1)

A diode rectifier containing a diode bridge, to the poles of which a capacitor is connected, and a switch and a filter containing a series-connected reactor and a capacitor are connected to the inputs (phases), and a resistor is connected to their common point, which has a switch connected to the second output of the resistor, disconnecting to the second output of the switch, and the closing one to the common entry point of the bridge and the first outputs of the switch and the reactor.

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