RU2800772C2 - Device for converting a smoothing filter into a three-phase resonant filter - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention can be used in circuits of generalized converters that alternately perform the functions of a rectifier and an inverter. The technical result of the claimed invention is to expand the functionality of the device. The device contains: DC relay with NO and NC contacts; three-phase alternating current relay with NO contacts and one NC; DC input and output terminals; input and output terminals of three-phase alternating current; a throttle containing the first, second and third equal parts; a capacitor containing the first, second and third capacitors of equal capacity. In this case, the DC relay is activated in the rectification mode, with the help of its closing contacts, a smoothing filter circuit is formed, in which all parts of the inductor are closed in series, and all three capacitors are connected in parallel, and the AC relay is turned off by the opening contacts of the DC relay.

EFFECT: when a three-phase current appears, an AC relay is activated and a resonant filter circuit is formed, while the coils of the first, second and third parts of the inductor are switched on by closing.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering and can be used in circuits of generalized converters that alternately perform the functions of a rectifier and an inverter.

A device is known that contains a smoothing filter of the LC type, containing input terminals with positive and negative clamps, a choke containing a coil wound on a core, a capacitor and output terminals with similar clamps to the input terminals, and the choke coil is connected between the positive clamps of the input and output terminals, a capacitor connected in parallel with the output terminals, while the input terminals are connected to the rectifier output, and a DC consumer is connected to the output terminals [1]. This device has found wide application in radio engineering, electrical engineering and automation to reduce the variable component of the input voltage by eliminating unwanted harmonics and ensuring the specified value of the ripple factor, since its circuit is simple and reliable. However, it has the disadvantage that it is applicable only in DC circuits, although the inductance of the inductor and the capacitance of the capacitor are applicable not only in rectifiers, but also in inverters.

The technical result of the invention is to expand the functionality of the device.

The required technical result is achieved by the fact that in the device for converting a smoothing filter into a three-phase resonant filter, containing a smoothing filter containing input and output terminals with positive and negative clamps, respectively, a choke containing a coil wound on a core, a capacitor and output terminals, moreover, the choke coil connected between the positive terminals of the input and output terminals, and the capacitor is connected in parallel with the output terminals, while the input terminals are connected to the rectifier, and a DC consumer is connected to the output terminals, a DC relay with make and break contacts and a three-phase alternating current relay with make contacts are introduced and one break contact, the coil and the inductor core of the specified filter are divided into the first, second and third equal parts, connected in series with the smoothing filter circuit and in sections of the corresponding phases with the three-phase resonant filter circuit: the coil of the first part of the throttle between points a and b, the coil of the second the throttle parts between points c and d and the coil of the third throttle part between points m and n; the capacitor of the named filter is composed of three capacitors of equal capacity: the first, second and third, which are connected in parallel in the smoothing filter circuit and separately in the three-phase resonant filter circuit: the first capacitor is connected to the first and second phases, the second capacitor is connected to the second and third phases, the third capacitor - to the third and first phases, respectively.

The drawing shows a schematic diagram of a device for converting a smoothing filter into a three-phase resonant filter.

The device contains: DC input terminals 1; DC relay 2 with make contacts 2-1, 2-2, 2-3, 2-4, 2-5, 2-6 and break contacts: 2-7, 2-8 and 2-9; first 3-1, second 3-2, and third 3-3 choke portions of the smoothing filter; first 4-1, second 4-2 and third 4-3 anti-aliasing filter capacitors; three-phase AC relay

current 5 with NO contacts 5-1, 5-2, 5-3, 5-4, 5-5, 5-6, 5-8, 5-9, 5-10, 5-11, 5-12, 5 -13 and NC contact 5-7; DC output terminals 6; AC input terminals 7 and AC output terminals 8, the first phase having input 7-1 and output 8-1 terminals; the second phase has input 7-2 and output 8-2 terminals, the third phase has input 7-3 and output 8-3 terminals, wherein said parts of the smoothing filter inductor are equal and each of them contains a coil and a core. The positive terminal of input terminals 1 is connected to the NO contact 2-1, relay 2 and the coil (not marked) of the DC relay 2, the free end of which is connected to the negative terminal of the input terminals 1 through the opening contact 5-7 of the AC relay 5, while to the coil (not marked) of the first part 3-1 of the smoothing filter choke is connected to the fixed part of contact 2-1, the coil (not marked) of the second part 3-2 of the smoothing filter choke is connected to the fixed part of contact 2-2 of relay 2, to the fixed part of contact 2 -3, a coil (not indicated) of the third part 3-3 of the specified inductor is connected, the free end of which is connected to the positive terminal of the DC output terminals 6, and the negative terminals of the input 1 and output 6 DC terminals are connected directly. The beginnings of all coils of the specified parts of the named inductor are indicated by dots. The beginning of the first inductor coil 3-1 is connected to the first phase connected to the terminal 7-1 of the three-phase AC input terminals 7 at point a, the end of this coil is connected to the specified phase at point b; the beginning of the coil of the second part of the inductor of the smoothing filter 3-2 is connected to the second phase connected to the terminal 7-2 of the AC input terminals 7 at point c, the end of this coil is connected to the specified phase at point d; the beginning of the coil of the third part of the inductor 3-3 of the specified filter is connected to the third phase connected to the terminal 7-3 of the input terminals 7 of the alternating current at point m, and the end of this coil is connected to the specified phase at point n, and these coils are connected by normally open contacts relay 5:

the first coil - through contacts 5-1 and 5-2; the second coil - through contacts 5-3 and 5-4; the third coil - through contacts 5-5 and 5-6 with the corresponding phases: the coil of the first part of the choke 3-1 is connected to the phase connected to terminals 7-1 and 8-1 of the input 7 and output 8 AC terminals, the coil of the second part of the choke 3-2 is connected to the phase connected between terminals 7-2 and 8-2 of input 7 and output 8 AC terminals, and the coil of the third part of the inductor 3-3 is connected to the phase connected between terminals 7-3 and 8-3 of input 7 and output 8 AC terminals, respectively. The upper plate of the capacitor 4-1 is connected to the phase between terminals 7-1 and 8-1, the lower plate of said capacitor is connected to the phase between terminals 7-2 and 8-2; the upper plate of the capacitor 4-2 is connected to the phase between terminals 7-2 and 8-2, and its lower plate is connected to the phase between terminals 7-3 and 8-3; the top plate of the capacitor 4-3 is connected to the phase between terminals 7-3 and 8-3, and its bottom plate is connected to the phase between terminals 7-1 and 8-1. Relay coil 5 is connected to the respective AC phases via normally open contacts 2-7, 2-8 and 2-9 of relay 2. Capacitors 4-1, 4-2 and 4-3 are connected to the indicated phases via normally open contacts of relay 5: 5-8 and 5-9, 5-10 and 5-11, 5-12 and 5-13.

The device works as follows.

When voltage is present at the corresponding terminals of the DC input terminals 1, the DC relay 2 is activated, which closes the NO contacts 2-1, 2-2, 2-3, 2-4, 2-5 and 2-6 and breaks the power circuits of relay 5 using contacts 2-7, 2-8 and 2-9, as a result of which a smoothing LC filter circuit is formed, while the rectified voltage with improved quality (lower ripple) is supplied to the consumer using the corresponding terminals of the DC output terminals 6, while three-phase AC relay 5 is disconnected from the network by NC contacts 2-7,2-8 and 2-9 of DC relay 2. In the presence of AC voltage at input terminals 7, relay 5 will operate, which will break the power supply circuit of relay 2 by NC contact 5-7 and

connect the coil of the first part of the choke 3-1 to the phase between terminals 7-1 and 8-1 (points a and b), the coil of the second part of the choke 3-2 to the phase between terminals 7-2 and 8-2 (points c and d) and the coil of the third part of the throttle 3-3 to the phase between terminals 7-3 and 8-3 (points m and n) using contacts 5-1 and 5-2, 5-3 and 5-4, 5-5 and 5- 6, respectively. In addition, using pins 5-8 and 5-9, capacitor 4-1 will be connected to the phases between terminals 7-1 and 8-1, 7-2 and 8-2, using pins 5-10 and 5-11 of capacitor 4 -2 will be connected to phases 7-2 and 8-2, 7-3 and 8-3, and using contacts 5-12 and 5-13 capacitor 4-3 will be connected to the phases between terminals 7-3 and 8-3, 7 -1 and 8-1. As a result of these operations, a three-phase alternating sinusoidal voltage will appear on terminals 8-1, 8-2 and 8-3 of the AC output terminals to supply AC consumers. Thus, with the help of DC relay 2, equipped with six NO contacts and three NC contacts, and AC relay 5, equipped with twelve NO contacts and one NC contact, the rectifier smoothing filter circuit is converted into a three-phase inverter resonant filter, which achieves the required technical result.

Sources taken into account

[1]. REA power supply sources. Directory. Ed. G.S. Nyvelt. M., Radio and communication, 1986, 576 s, fig. 4.19, a, p. 160.

Claims (1)

A device for converting a smoothing filter into a three-phase resonant filter, containing a smoothing filter containing input and output terminals with positive and negative terminals, a choke containing a coil wound on a core, a capacitor and output terminals, moreover, the choke coil is connected between the positive terminals of the input and output terminals, and the capacitor is connected in parallel with the output terminals, while the input terminals are connected to the rectifier, and a DC consumer is connected to the output terminals, characterized in that a DC relay with NO and NC contacts and a three-phase AC relay with NO contacts and one NC contact are introduced, the coil and the core of the inductor of the specified filter are divided into the first, second and third equal parts, connected in series with the smoothing filter circuit and in sections of the corresponding phases with the three-phase resonant filter circuit: the coil of the first part of the inductor between points a and b, the coil of the second part of the inductor between points c and d and the coil of the third part of the throttle between points m and n; the capacitor of the named filter is composed of three capacitors of equal capacity: the first, second and third, which are connected in parallel in the smoothing filter circuit and separately in the three-phase resonant filter circuit: the first capacitor is connected to the first and second phases, the second capacitor is connected to the second and third phases, the third capacitor - to the third and first phases, respectively.

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