DE102008026810A1 - Circuit arrangement for use in testing and measuring amplifier to parallelly connect alternating voltage sources to common load, has terminals that are attached to one of voltage sources and arranged at distance from common winding terminal - Google Patents

Abstract

The arrangement (3) has a transformer (4) comprising two partial windings (5.1, 5.2) which are arranged in series with one another and are connected with each other over a common winding terminal (6). A load (L) is attached to the terminal. Winding ends or terminals (8, 9) are attached to one of voltage sources (2.1, 2.2) or at a common winding terminal of another transformer, where the terminals are arranged at a distance from the common winding terminal. The winding ratio of the windings is selected corresponding to a desired distribution of the current supplied from the sources.

Description

The The invention relates to a device for parallel or interconnection from voltage sources or to a device for connecting multiple AC sources with a common load.

Known are testing and measuring devices with high output power, for example with an output power in the range of 30 KW or higher, the at least two exits, but preferably at least three phase-shifted, for example at three outputs phase shifted by 120 ° Supply alternating voltages that are used to test electrical specimens, d. H. For example, of electrical units, motors, systems, Components or networks or networks etc., eg. B. for reproduction one with interference voltages applied three-phase supply network with appropriate voltages or signals can be modulated or acted upon. The tensions at the outputs of a such testing or measuring unit (also test or Measuring amplifier) are stabilized in terms of their frequency and phase, wherein the frequency or fundamental frequency of the output signals for testing and measurement purposes be changed in at least a certain frequency range can, for example, in a frequency range between 50 - and 600 Hz.

frequently Now there is the desire, for example, the current or voltage outputs of such Hochleistungsprüf- and measuring unit or other voltage sources in parallel or interconnect so as to be connected to a plurality of voltage sources common load, for example, a candidate with a power too operate equal to or equal to the sum of the nominal power the individual power sources. A fundamental problem exists here in that, for example, the amplitude of the individual voltage sources different or not completely the same, so that thereby in a simple interconnection of the voltage sources equalizing currents, in particular also in the lower amplitude voltage sources or return currents would which is often not allowed is and / or causes that the desired performance at the common load is not achieved becomes.

task The invention is to show a device which has a parallel or interconnecting AC or AC sources allows and without the aforementioned disadvantages. To solve this problem is a Device designed according to claim 1. A testing system with such a device is the subject of the claim 12th

in the In the simplest case, the device according to the invention consists of at least a transformer having at least two partial windings, which via a common winding terminal connected in series and their translation or winding ratio the relationship the power distribution between the to the free connections of the Partial windings connected voltage sources corresponds. The Partial windings of the at least one transformer are designed and arranged that at a current flow through a partial winding in a direction, for example, from the free winding connection this winding at the common part of the windings Winding connection, in the other part winding an opposite Current flow, d. H. a current flow from the common winding terminal is induced to the free connection of this winding.

The voltage applied to the load corresponds to the device according to the invention in terms of the amplitude about the average amplitude of the voltages of the voltage sources and in terms of the phase position about the average phase angle of Voltages of the voltage sources.

further developments The invention are the subject of the dependent claims.

The Invention will be described below with reference to the figures of embodiments explained in more detail. It demonstrate:

1 a schematic representation of a measuring and test unit in the form of a power amplifier for generating a two-phase AC voltage at two outputs;

2 a schematic representation of a circuit arrangement for operating a load at both outputs of the test and measuring unit of 1 ;

3 in a simplified representation of the phasor diagram of the voltages u2.1 and u2.2 at the two outputs of the test and measurement unit and the voltage uL at the common load;

4 and 5 Representations similar to the 1 and 2 in a three-phase testing and measuring unit (three-phase unit).

In the figure is 1 a test and measurement unit in the form of a power amplifier for a high output power, for example of the order of 30 kW or larger. The testing and measuring unit 1 In the illustrated embodiment, there are two output stages at their outputs 2 respectively. 3 in each case an output AC voltage u2.1 or u2.2 supply whose frequency or fundamental frequency, for example, in one for the respective test and measurement purposes is adjustable, for example in the range between 50 and 600 Hz. By appropriate control of the test and measurement unit 1 or their amplifier stages, the voltages u2.1 and u2.2 for test and measurement purposes with appropriate voltages or signals can be modulated or acted upon with additional voltages. The testing and measuring unit 1 is used for testing of electrical test specimens in the broadest sense, ie, for example, for testing electrical units, devices, equipment, machinery, networks, networks, for example, in relation to their behavior at an impulse noise or interference voltages AC or mains voltage, etc.

In the illustrated form, the test and measurement unit 1 For example, be used for a two-phase test.

In many cases, it is desirable for a single-phase test with increased performance, the respective test specimen in the 2 is shown schematically as a load L, over both outputs 2 and 3 operate together, so the full rated performance of the test and measurement unit 1 ie the power of both outputs 2 and 3 or to be able to use the output stages forming these outputs in total. For this purpose serves in the 2 illustrated circuit arrangement 3 which essentially consists of a transformer 4 with a winding 5 consisting of a common winding connection or tap on both sides 6 two single windings 5.1 and 5.2 forms.

In the illustrated embodiment, the number of turns W5.1 and W5.2 of the two single windings 5.1 respectively. 5.2 equal. The test object or common load L, which in turn is an electrical device, an electric machine, an electrical system, an electrical network or network, etc. or a plurality of individual electrical components, is between the winding tap 6 and a common leader 7 connected, which is given for simplicity's sake as ground potential. The two exits 2 and 3 are each at an end 8th respectively. 9 the partial winding 5.1 respectively. 5.2 connected, like this in the 3 with the voltage sources 2 respectively. 3 is indicated. For interconnecting the outputs 2 and 3 have the voltages u2.1 and u2.2 z. B. the same frequency or fundamental frequency and are stabilized in terms of frequency and phase, which by controlling the the outputs 2 and 3 forming power amplifiers is easily accessible. It would not be possible, or only with very considerable effort, to stabilize the amplitude of the output voltages u2.1 and u2.2, so that these amplitudes are completely identical.

Like in the 3 are shown with the circuitry 3 despite different amplitudes of the voltages u2.1 and u.2.2, a mean voltage uL applied to the load and a corresponding current flowing through the load L are possible, and that without a compensating current in the input of the testing and measuring device 1 flows back with the smaller output voltage, ie at the for the 3 selected representation, a compensation or return current in the output 2.1 or in the local power amplifier.

About the circuit arrangement 3 or over the transformer 4 A current compensation takes place in such a way that both outputs 2.1 and 2.2 despite different amplitudes of their output voltages provide the same current through the load L.

The 4 shows in a presentation like 1 a testing and measuring unit 1a , which as three-phase unit with three outputs 2.1 - 2.3 is trained. Every exit 2.1 - 2.3 In turn, a power output stage is assigned, so that the test and measurement unit at their outputs 2.1 - 2.3 provides a high power, for example, a power of 30 kW or greater, with a variable frequency or fundamental frequency, z. In the range between 50 and 600 Hz. The outputs 2.1 - 2.3 are still stable in frequency or vibration. The output voltages u2.1-u2.2 provided there have a stable phase shift of 120 ° and can be modulated or acted on with appropriate voltages or signals for test and measurement purposes.

In the in the 4 As shown, the test and measurement unit for testing of electrical specimens, for example for testing three-phase electrical units, such as. As devices, machines, equipment, networks, networks, etc. used.

If a test object with the total rated power of the test and measurement unit 1a ie with the currents of all outputs 2.1 - 2.3 will be applied in the 5 illustrated circuit arrangement 3a used. This circuit consists of two "cascade" connected transformers, namely from the transformer 4 with the partial windings 5.1 and 5.2 and the winding taps 6 as well as from the transformer 10 with the winding 11 with winding tap 12 and the individual windings formed thereby 11.1 and 11.2 ,

As shown, the two outputs 2.1 and 2.2 turn to the transformer 4 or to the inputs or connections 8th and 9 connected so that the voltages u2.1 and u2.2 between the terminals 8th respectively. 9 and the common circuit point 7 , ie at the Darge arranged embodiment of the circuit ground is, for example, the neutral point of the outputs 2.1 - 2.3 is applied three-phase voltages. The winding tap 6 of the transformer 4 is with the single winding 11.1 or with the connection 13 connected to this single winding. The exit 2.3 is with the connection 14 connected so that the voltage u2.3 between the terminal 13 and the node 7 is applied.

Also for the measuring and test unit 1a is true that the stability of the frequency and phase for the outputs 2.1 and 2.3 a stabilization of the amplitudes of the voltages u2.1-u2.2, in particular in the form that the output signals constantly have the same amplitude, at most only with a considerable, economical usually by appropriate control of these outputs forming amplifiers Unreasonable effort is possible. The formwork arrangement 3a in turn allows interconnecting the outputs 2.1 - 2.3 to the common load L, without any compensation or return currents in those outputs of the measuring and test unit 1a occur at which output voltages with a smaller amplitude applied. The transformer 4 is in the context of the 2 formed, ie, the number of turns of the partial windings W5.1 and W5.2 is identical. At the transformer 10 is the number of turns W11.1 and W11.2 different, in such a way that the number of turns W11.2 of the partial winding 11.2 twice as large as the number of turns W11.1 of the partial winding 11 , Through the transformers 4 and 10 or by the turns ratio of the partial windings 5.1 / 5.2 (W5.1 / W5.2 = one) or partial windings 11.1 / 11.2 (W11.1 / W11.2 = one / two) it is achieved, despite different amplitudes of the output voltages u2.1-u.2.3, that the currents supplied by these outputs are identical.

To avoid direct currents it may be necessary to connect at least one free winding connection 8th . 9 or 14 To provide a capacitor of appropriate size, as shown in the 2 with the capacitor 15 is indicated.

The The invention has been described above with reference to exemplary embodiments. It is understood that numerous changes and modifications are possible, without thereby the idea of the invention underlying the invention will leave.

So it was assumed above that the winding ratio W5.1 / W5.2 of the transformer 4 One or the winding ratio W11.1 / W11.2 of the transformer 10 One / two is to achieve an even current distribution to the voltage sources. Of course, in a deviating power distribution also suitably adapted from one or one / two different winding ratio possible.

1, 1a

Testing and measuring unit or testing and amplifier

2.1-2.3

power output

3, 3a

circuitry

4

transformer

5

transformer winding

5.1 5.2

part winding

6

Wicklungsanzapf

7

common circuit point

8th, 9

connection

10

transformer

11

transformer winding

11.1, 11.2

part winding

12

Wicklungsanzapf

13 14

connection

15

capacitor

Claims (12)

Circuit arrangement for the parallel connection of at least two AC voltage sources to a common load (L), characterized by at least one transformer ( 4 . 10 ) with at least two partial windings ( 5.1 . 5.2 ; 11.1 . 11.2 ), which are arranged in series with each other and via a common winding connection ( 6 . 12 ) are connected to each other, that the load (L) to a common winding terminal ( 6 . 12 ) of the at least one transformer ( 4 . 10 ) and that the common winding connection ( 6 . 12 ), ie free winding ends or terminals ( 8th . 9 . 13 . 14 ) to one of the voltage sources ( 2.1 - 2.3 ) or to the common winding connection ( 6 ) of another transformer ( 4 ) are connected. Circuit arrangement according to claim 1, characterized in that the common winding connection ( 6 . 12 ), ie free winding ends or terminals ( 8th . 9 . 13 . 14 ) to one of the voltage sources ( 2.1 - 2.3 ) are connected. Circuit arrangement according to claim 1 or 2, characterized in that of the common winding terminal ( 6 . 12 ) remote, ie free winding ends or terminals ( 8th . 9 . 13 . 14 ) one to each of the voltage sources ( 2.1 - 2.3 ) and one to the common winding connection ( 6 ) of another transformer ( 4 ) is connected to. Device according to one of the preceding Claims, characterized in that the turns ratio (W5.1 / W5.2; W11.1 / W11.2) of the partial windings ( 5.1 . 5.2 ; 11.1 . 11.2 ) of the at least one transformer ( 4 . 10 ) according to a desired distribution of the voltage sources ( 2.1 - 2.3 ) supplied currents is selected. Device according to one of the preceding claims, characterized in that for parallel or interconnection of two voltage sources ( 2.1 . 2.2 ) that the common winding connection ( 6 ) remote terminals ( 8th . 9 ) of the at least one transformer ( 4 ) each having a voltage source ( 2.1 . 2.2 ) are connected. Device according to claim 5, characterized in that the partial windings ( 5.1 . 5.2 ) have the same or a different number of turns (W5.1, W5.2). Device according to one of the preceding claims, characterized in that for parallel or interconnection of more than two voltage sources ( 2.1 - 2.3 ) several transformers ( 4 . 10 ) are provided that the transformers ( 4 . 10 ) are connected to a cascade-like transformer arrangement in such a way that a first in this cascade arrangement transformer ( 4 ) with the free connections ( 8th . 9 ) of its partial windings ( 5.1 . 5.2 ) is connected to a voltage source that each in the cascade assembly following transformer ( 10 ) with the free connection ( 13 ) one of its partial windings ( 11.1 ) with the common winding connection ( 6 ) of a preceding in the cascade assembly transformer ( 4 ) and with the free connection of its further sub-winding ( 11.2 ) with a voltage source ( 2.3 ), and that to the common winding terminal ( 12 ) of the last transformer in the cascade arrangement ( 10 ) the load (L) is connected. Device according to claim 7, characterized that the number of transformers in the cascade is one less is the number of voltage sources. Device according to one of the preceding claims, characterized in that for parallel or interconnection of three voltage sources ( 2.1 - 2.3 ) at least two transformers ( 4 . 10 ) are provided that a first and a second voltage source ( 2.1 . 2.2 ) each with a common winding connection ( 6 ) of a first transformer ( 4 ) remote connection ( 8th . 9 ), that the common load (L) at the common winding terminal ( 12 ) of another transformer ( 10 ) connected to a partial winding ( 11.1 ) to the common winding connection ( 6 ) of the first transformer ( 4 ) and to its second sub-winding ( 11.2 ) the third voltage source ( 2.3 ) connected. Device according to claim 9, characterized in that the turns ratio (W5.1 / W5.2) of the partial windings ( 5.1 . 5.2 ) of the first transformer ( 4 ) One and the turn ratio (W11.1 / W11.2) of the second transformer ( 10 ) One / two is. Device according to one of the preceding claims, characterized in that the voltage sources of at least two outputs ( 2.1 - 2.3 ) of a testing and measuring unit ( 1 . 1a ), for example in the form of a test or measurement amplifier are formed. Test and measuring system with at least two voltage sources ( 2.1 . 2.2 . 2.3 ) and with a device parallel or interconnected voltage sources, characterized in that the device is designed according to one of the preceding claims 1-11.