DE102015104660A1 - throttle arrangement - Google Patents

Abstract

The present invention relates to a throttle arrangement and a filter circuit with such a throttle arrangement. To achieve a high common mode inductance in a small design, a throttle arrangement is proposed with a core having at least three legs, a push-pull choke with at least two push-pull windings, wherein the at least two push-pull windings are wound on different legs of the core, wherein on a leg no push-pull winding is wound, and a common mode choke having at least two common mode windings wound on the leg not wound with a push-pull winding, the number of differential mode windings and the common mode windings being identical. Connecting lines for connecting each one push-pull winding in series with a common mode winding are provided such that the current flow direction about the respective leg in the push-pull winding is opposite to the common mode winding connected in series therewith.

Description

The present invention relates to a throttle arrangement, in particular a combined counter and common mode choke. Furthermore, the present invention relates to a filter circuit for arrangement between the power supply network on the one hand and a power consumer or a power generator on the other side. The throttle arrangement and the filter circuit can be used in particular in power electronic applications.

To protect motors, sine filters (LC low pass) between frequency converter and motor are often used to filter the clock frequency from the inverter output voltage between the phases (push-pull), thus protecting motor insulation. These sine filters are sold commercially by different filter manufacturers and usually consist of a three-phase push-pull choke and X-capacitors between the phases. The voltage phase-phase at the motor is sinusoidal through the filters. However, the motor voltage phase to ground or the motor neutral point voltage to earth is often distorted and is hardly affected by the sine wave filters. As a result, inverter-related bearing currents as well as strong conducted and radiated disturbances continue to occur.

In addition, to free the motor voltage to ground or the motor neutral point voltage to earth from the clock frequency component, an additional low pass is often used in the common mode system. This low pass consists of a common mode choke (eg a toroidal core) and a Y capacitor connected to earth or the DC link.

In general, the push-pull sinusoidal filter as well as the common-mode sinusoidal filter are marketed as one unit in a common housing under the designation "all-pole sine-wave filter". In DE 10 2005 031 372 A1 such a combined filter is shown. In US 6122184 A and DE 19814059 A1 Three single-phase chokes are used instead of push-pull and common-mode chokes. I WO 2011/099976 A1 a choke structure is shown having a push-pull inductor with common mode inductance on a common core. However, this structure is only single-phase and also very expensive to produce due to the introduced air gap.

Mains pulse converters should always be decoupled from the grid by an electric filter. In most cases a simple mains choke is used for this purpose. However, a simple inductance is no longer sufficient for the high demands on the mains voltage quality, in particular for large systems such as wind turbines. For this reason, as a rule, filter circuits such as the aforementioned sine-wave filter circuits (see, for example, US Pat DE 103 10 577 A1 and EP 1 598 924 A2 ) or LCL filters (see, for example DE 10 2005 005 688 A ) used.

The present invention has for its object to provide a throttle assembly and a corresponding filter circuit, with a reduction of the pulse frequency components in the motor current and in the motor voltage (in motor-side application) or in the mains and in the mains voltage (in the network application) or . can achieve a reduction in the slope of the respective voltages (when used as a du / dt filter). In particular, a much higher attenuation of the pulse frequency components should be achieved in both the push-pull as well as in the common-mode system and thus optimal filtering of interference. Furthermore, the structure should be simple and inexpensive.

• – einem Kern mit mindestens drei Schenkeln,
• – einer Gegentaktdrossel mit mindestens zwei Gegentaktwicklungen, wobei die mindestens zwei Gegentaktwicklungen auf unterschiedlichen Schenkeln des Kerns gewickelt sind, wobei auf einem Schenkel keine Gegentaktwicklung gewickelt ist,
• – einer Gleichtaktdrossel mit mindestens zwei Gleichtaktwicklungen, die auf dem nicht mit einer Gegentaktwicklung bewickelten Schenkel gewickelt ist, wobei die Anzahl der Gegentaktwicklungen und der Gleichtaktwicklungen identisch ist,
• – Verbindungsleitungen zur Verbindung jeweils einer Gegentaktwicklung in Serie mit einer Gleichtaktwicklung derart, dass die Stromflussrichtung um den jeweiligen Schenkel in der Gegentaktwicklung gegenläufig zu der damit in Serie verbundenen Gleichtaktwicklung ist und
• – Anschlüssen zur Zuführung eines Strom derart, dass die Stromflussrichtung um den jeweiligen Schenkel in den Gegentaktwicklungen identisch ist und dass die Stromflussrichtung um den mit den Gleichtaktwicklungen bewickelten Schenkel in den Gleichtaktwicklungen identisch ist.

To achieve the object, a throttle arrangement is proposed according to the invention with:

• A core with at least three legs,
• - A push-pull choke with at least two push-pull windings, wherein the at least two push-pull windings are wound on different legs of the core, wherein on one leg no push-pull winding is wound,
• A common mode choke having at least two common mode windings wound on the leg not wound with a push-pull winding, the number of differential mode windings and the common mode windings being identical,
• - Connecting lines for connecting each of a push-pull winding in series with a common mode winding such that the current flow direction about the respective leg in the push-pull winding is in opposite directions to the thus connected in series common mode winding and
• - Terminals for supplying a current such that the current flow direction about the respective leg in the push-pull windings is identical and that the current flow direction is identical to the wound with the common mode windings legs in the common mode windings.

To solve the invention, a filter circuit according to the invention is further proposed for arrangement between the power supply network on the one hand and a power consumer or a power generator on the other side, with a throttle arrangement and a capacitor connected to each phase.

The proposed throttle arrangement is a previously unachieved minimum size of Such filter circuits, such as all-pole sine filters possible. It is only an inductive winding material needed, which allows both a high push-pull and common mode inductance with minimal construction volumes. The production of a multi-limbed throttle arrangement is thereby very simple and inexpensive with existing standard production methods possible, which was not possible or only partially and also with very great effort and high costs in known solutions. By acting in the proposed throttle arrangement magnetic coupling between the push-pull throttle and the common mode choke a much higher ratio of inductance to volume is achieved by the flux increase than in all known throttle arrangements and filter circuits.

In a preferred embodiment of the throttle arrangement according to the invention as a three-phase choke arrangement, the soft magnetic core has exactly four legs, wherein the push-pull choke has exactly three push-pull windings, one of which is wound on a leg, and wherein the common mode choke has exactly three common mode windings on the fourth Thighs are wound. On each of the three legs with the push-pull windings thus one phase (U, V, W) of the push-pull inductance is wound. The common mode choke is the common mode inductor and is disposed on the fourth leg. On this leg all three phases U, V, W are wound current compensated. The fourth leg thus constitutes a common mode inductance per se. In addition, the push-pull windings and the common mode windings are wound on the legs of the core and interconnected such that the direction of the magnetic flux generated by a current flowing through the push-pull windings in the fourth leg Same direction as the magnetic flux generated by the current flowing through the common mode windings. Thus, the common mode inductance of the inductor assembly is increased many times over the common mode inductance of only the fourth leg.

In a further preferred embodiment of the throttle assembly according to the invention as a single-phase choke arrangement, the soft magnetic core has exactly three legs, wherein the push-pull choke has exactly two push-pull windings, one of which is wound on a leg, and wherein the common mode choke has exactly two common mode windings on the third leg are wound. This embodiment is therefore basically identical to the three-phase design with the difference that the core is a three-legged core and the push-pull choke is wound on two legs and the common mode choke on the third leg.

Preferably, the number of turns of the three push-pull windings in the three-phase configuration of the throttle arrangement according to the invention by a factor of 2 to 5, in particular 3 to 4, greater than the number of turns of each connected in series common mode winding. In the single-phase embodiment of the choke arrangement according to the invention, the number of turns of the two push-pull windings by a factor of 1.5 to 4, in particular 2 to 3, is greater than the number of turns of the series-connected common-mode winding.

The number of turns of the at least two push-pull windings is preferably identical in each case and / or the number of windings of the at least two common-mode windings is identical in each case. As a result, the magnetic fluxes in the individual push-pull windings and the individual common-mode windings are identical in each case. to avoid asymmetries, which would cause unwanted differential clocks in the common mode windings and vice versa.

The core can basically consist of electrical sheet, ferrite, powder composite material and / or nanocrystalline or amorphous ribbons. Preferably, however, provided that the wound with the common mode windings leg of the core and possibly also the two yokes are made of a lower-loss material, as the wound with the Gegentaktwicklungen leg .. Conventionally common mode choke, for example, from standard electrical steel sheets (grain-oriented and not grain-oriented Sheets, for example with thicknesses 0.27 mm to 0.5 mm). Pure common mode chokes, on the other hand, are generally built with low-loss soft magnetic materials such as ferrite, powder or amorphous / nanocrystalline ribbons. However, when using normal electrical steel, the leg wound with the common mode windings would become extremely hot due to the RF losses. This is achieved in this advantageous embodiment by only the wound with the common mode windings leg (and possibly one or both yokes of the core), for example, from low-loss (preferably thinner) electric sheets, for. B. with a thickness of 0.2 mm to 0.1 mm. With this material mix, a homogenization of the losses is achieved and the throttle assembly works reliably and without overheating.

A preferred use of the proposed throttle assembly is a three-phase filter circuit for coupling between a frequency converter and a motor. Alternatively, the choke arrangement can also be used between the public voltage network or a stand-alone grid and a mains pulse converter circuit in a single-phase or three-phase circuit. A use in power electronic circuits such as boost or buck converter is in single-phase topology possible. Furthermore, the throttle arrangement can be used both for two-level and for multilevel converter systems.

The invention will be explained in more detail with reference to advantageous embodiments shown in the drawings. Show it:

1 a three-phase embodiment of a throttle arrangement according to the invention,

2 two single-phase embodiments of a throttle arrangement according to the invention,

3 an application of a filter circuit according to the invention as an all-pole sine filter, and

4 an application of a filter circuit according to the invention as a line filter.

1 shows a three-phase embodiment of a throttle assembly according to the invention 1 , The throttle arrangement 1 has a closed core 10 with four thighs 11 . 12 . 13 . 14 on, by means of an upper and lower yoke 15 . 16 are connected. Such a core 10 is generally made of soft magnetic material, eg. As ferrite, or is composed of a plurality of stacked electrical steel sheets. In preferred embodiments of the throttle arrangement according to the invention, however, the core is also constructed differently, as will be explained below.

The throttle arrangement 1 also has a push-pull throttle 20 (which represents a push-pull inductance) with at least three push-pull windings 21 . 22 . 23 on. The three push-pull windings 21 . 22 . 23 are on different thighs 11 . 12 . 13 of the core 10 being wound, being on a thigh 14 no push-pull winding is wound.

The throttle arrangement 1 also has a common mode choke 30 (which represents a common mode inductance) with three common mode windings 31 . 32 . 33 on, on the leg not wound with a push-pull winding 14 is wound. The number of push-pull windings 21 . 22 . 23 and the common mode windings 31 . 32 . 33 is thus identical, and the number of legs of the core 10 is one greater than the number of push-pull windings. The common mode choke 30 can basically also over more than one leg, so z. B. over a total of three separate legs are guided, on each of which one (or more, preferably all) common mode windings) is wound (are). This would lead to a further increase of the common mode inductance, but at the same time also increase the production cost. It is thus preferably provided that the number of legs is greater by one than the push-pull windings and all common mode windings are arranged on one leg.

Further, connection lines 41 . 42 . 43 provided for connecting in each case a push-pull winding 21 . 22 . 23 in series with a common mode winding 31 . 32 . 33 , The push-pull winding 21 So it is with the common mode winding 31 connected, the push-pull winding 22 is with the common mode winding 32 connected, and the push-pull winding 23 is with the common mode winding 33 connected. Finally, there are connections 51 . 52 . 53 . 54 . 55 . 56 provided for power supply.

The connection by means of connecting lines 41 . 42 . 43 and the power supply and discharge by means of the terminals 51 - 56 are chosen such that the current flow direction of a current flowing in the respective winding current about the respective leg in the push-pull winding is in opposite directions to the thus connected in series common mode winding. The streams 11 . 12 . 13 Thus, for example, flow counterclockwise around the respective leg 11 . 12 . 13 but through the respective common mode winding 31 . 32 . 33 clockwise around the thigh 14 , The current flow direction around the respective leg 11 . 12 . 13 is so in all push-pull windings 21 . 22 . 23 identical, and also the current flow direction around the fourth leg 14 is in all common mode windings 31 . 32 . 33 identical. This ensures that the of the push-pull windings 21 . 22 . 23 generated magnetic fluxes Φ ₂₁ , Φ ₂₂ , Φ ₂₃ and those of the common mode windings 31 . 32 . 33 generated magnetic fluxes Φ ₃₁ , Φ ₃₂ , Φ ₃₃ in the fourth leg 14 add and thus a "flux boost", so a significant amplification of the magnetic flux in the common mode windings 31 . 32 . 33 is reached. As a result, a very high common mode inductance (increased by a factor of 3 in the present case) is thus achieved with a minimum construction volume. The higher the push-pull inductance, the higher the damping effect, or alternatively, a smaller capacitor can be used for the same filtering effect.

2 shows two single-phase embodiments of a throttle assembly according to the invention 2 and 3 , These each have a core 10 ' with 3 thighs 11 . 12 . 13 and an upper and lower yoke 15 . 16 on. Furthermore, each two push-pull windings 21 . 22 which are arranged on different legs, and two common mode windings 31 . 32 provided on the same leg. Here are the common mode windings 31 . 32 in the throttle arrangement 2 ( 2A ) on the right thigh 13 and in the throttle arrangement 3 ( 2 B ) on the middle leg 12 arranged. You could also do both on the left thigh 11 are arranged. Generally, even with multiphase Throttling arrangements that the common mode windings can be arranged on any leg of the core.

In the case of a single-phase choke arrangement as well, the connection of a single-phase push-pull inductance on two legs of a three-limb core with a two-phase connection on the third leg is such that the magnetic fluxes in the third leg add up and the desired "flux boost" is achieved.

A similar effect can also be achieved in a four-phase choke arrangement in which a common-mode winding and a push-pull winding are respectively arranged in the U, V, W phase and in the L1, L2, L3 phase and in the neutral conductor. The core then preferably has five legs.

The core material of the core used in each case can basically be electrical steel, ferrite, powder composite materials or nanocrystalline or amorphous ribbons. The winding material for the windings differential mode choke and the common mode choke can be copper or aluminum in any shape.

It is preferably provided in an embodiment that only the wound with the common mode windings leg of the core and possibly the two yokes of low-loss material than the wound with the Gegentaktwicklungen leg, so in the throttle assembly 1 the thigh 14 in the throttle arrangement 2 the thigh 13 and in the throttle arrangement 3 the thigh 12 (and optionally the yokes 15 . 16 ). The remaining, wound with the Gegentaktwicklungen leg of the core, however, preferably consist of conventional (thicker) electrical steel, but may also consist of other material (ferrite, powder, amorphous or nanocrystalline ribbons, etc.). By only the wound with the common mode windings leg of z. B. low-loss electrical sheets, z. B. with a thickness of 0.2 mm to 0.1 mm, is made, this leg is extremely hot due to the RF losses. The proposed material mix thus leads to a homogenization of the losses, whereby the throttle assembly works reliably and without overheating. The production of the core of this material mix happens, for example, either by nesting the individual sheets or laminated cores with z. B. core screw fixation or by dull Aneinanderetzen of cuboid core packages by means of adhesive or external tension.

The turns ratio of the push-pull windings to the common mode windings is basically arbitrary. It is more advantageous, however, that the push-pull windings all have an identical number of turns and that the common-mode windings all have an identical number of turns. It is further preferred that the common-mode windings in the case of a three-phase configuration of the throttle arrangement each have 1/4 to 1/3 of the number of turns of the push-pull windings. In a single-phase configuration of the choke arrangement, the number of turns of the common mode windings is preferably in each case 1/3 to 1/2 of the number of turns of the push-pull windings.

The throttle arrangement according to the invention can preferably be used in a filter circuit. An advantageous application are all-pole sine filters between frequency converter and motor. 3 shows an embodiment of such a filter circuit according to the invention 100 in an application as an all-pole sine-wave filter. The filter circuit 100 has a three-phase throttle arrangement 1 on how they are about in 1 is shown. Recognizable is there in particular, the serial interconnection of each push-pull winding 21 . 22 . 23 with a common mode winding 31 . 32 . 33 , The order of series connection of push-pull winding and common-mode winding between inverters 110 and engine 120 can be the other way around.

Furthermore, the filter circuit 100 an X-capacitor connected to each phase 101 . 102 . 103 on, which are connected to each other in a star shape, wherein further at the star point 104 an (optional) Y-capacitor 105 connected. The inverter 110 is in such an application via a DC link 130 with the net 140 connected. The engine side is generally a pipe network 150 between the filter circuit 100 and the engine 120 intended. This results in sinusoidal voltages on the motor between the individual phases and between one phase and ground 120 at. It can thus be achieved with a smaller filter size, the same filter effect as with known filters.

At the in 3 shown circuit is the DC link feedback 106 currently at the DC link center 131 connected. This return 106 but could also about the connection point 132 or 133 respectively. In addition, the recirculation could also be via the PE conductor 107 respectively; the DC link 130 So it would not be directly to the filter circuit 100 connected.

A further advantageous application of the throttle arrangement and filter circuit according to the invention are line filters between the grid and the mains pulse converter. 4 shows an embodiment of such a filter circuit according to the invention 100 in an application as a line filter. The filter circuit 100 is between the network 140 and a power pulse converter 160 connected. Optional is also between the network 140 and the filter circuit 100 a mains choke 170 (as is often the case with LCL filters). To the mains pulse converter 160 is on the output side over a DC 180 an inverter 190 , about a PV module, a wind turbine or a biogas plant connected.

Applications of a single-phase choke arrangement would be, for example, a switching power supply, a single-phase frequency converter with active rectifier or a single-phase solar inverter.

The present invention is not limited to the illustrated embodiments and embodiments. The number, configuration and arrangement of push-pull windings and common mode windings may also be chosen differently, provided that the desired technical purpose is achieved.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102005031372 A1 [0004]
• US 6122184 A [0004]
• DE 19814059 A1 [0004]
• WO 2011/099976 A1 [0004]
• DE 10310577 A1 [0005]
• EP 1598924 A2 [0005]
• DE 102005005688 A [0005]

Claims (10)

Throttling arrangement with A core with at least three legs, - A push-pull choke with at least two push-pull windings, wherein the at least two push-pull windings are wound on different legs of the core, wherein on one leg no push-pull winding is wound, A common mode choke having at least two common mode windings wound on the leg not wound with a push-pull winding, the number of differential mode windings and the common mode windings being identical, - Connecting lines for connecting each of a push-pull winding in series with a common mode winding such that the current flow direction about the respective leg in the push-pull winding is in opposite directions to the thus connected in series common mode winding and - Terminals for supplying a current such that the current flow direction about the respective leg in the push-pull windings is identical and that the current flow direction is identical to the wound with the common mode windings legs in the common mode windings. The choke assembly of claim 1, wherein the soft magnetic core has exactly four legs, the push-pull choke having exactly three push-pull windings, one wound on each leg, and the common mode choke having exactly three common-mode windings wound on the fourth leg. The choke assembly of claim 1, wherein the soft magnetic core has exactly three legs, the push-pull choke having exactly two push-pull windings, one wound on each leg, and the common mode choke having exactly two common mode windings wound on the third leg. Throttle arrangement according to claim 2, wherein the number of turns of the three push-pull windings by a factor of 2 to 5, in particular 3 to 4, greater than the number of turns of each series-connected common mode winding. Throttle arrangement according to claim 3, wherein the number of turns of the two push-pull windings by a factor of 1.5 to 4, in particular 2 to 3, greater than the number of turns of each connected in series common mode winding. Throttle arrangement according to one of the preceding claims, wherein the number of turns of the at least two push-pull windings is identical in each case and / or the number of turns of the at least two common-mode windings is identical in each case. Throttle arrangement according to one of the preceding claims, wherein the core consists of electrical steel, ferrite, powder composite material and / or nanocrystalline or amorphous ribbons. A choke assembly according to any one of the preceding claims, wherein only the leg of the core wound with the common mode windings consists of a lower-loss material than the leg of the core wound with the push-pull windings. A choke assembly according to any one of the preceding claims, wherein the core has two yokes connecting the legs and wherein the leg of the core wound with the common mode windings and the two yokes are of a lower-loss material than the leg of the core wound with the push-pull windings. Filter circuit for arrangement between the power supply network on the one hand and a power consumer or a power generator on the other side, with a throttle arrangement and a capacitor connected to each phase.

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