The invention relates to an arrangement having at least one input alternating voltage terminal into which an alternating current can be fed and at least two output terminals, as well as to a method for generating direct current.
A corresponding arrangement is described in the international patent application WO 2012/152619A2. The known arrangement is a converter arrangement comprising at least one series circuit with at least two sub-modules connected in series. The sub-modules of the series circuit each comprise at least one converter module, an inverter module and a transformer module. The known converter arrangement works as a kind of energy distribution installation, and is used to distribute electrical energy. The sub-modules of the known converter arrangement are spatially distributed for this purpose, for example over an entire urban area; they form local tapping and/or feed-in sites of the energy distribution installation for tapping and/or feeding in electrical energy. The terminals for feeding in and for tapping electrical energy are formed by the transformer modules of the sub-modules.
The invention addresses the object of providing an arrangement for generating direct current that is particularly well suited to the supply of high-powered consumers such as, for example, arc furnaces.
This object is achieved according to the invention by an arrangement with the features as claimed in patent claim 1. Advantageous embodiments of the arrangement according to the invention are specified in dependent claims.
It is accordingly provided according to the invention that the arrangement is a rectifier arrangement and the output terminals form output direct voltage terminals of the rectifier arrangement at which terminals direct current can be tapped, the sub-modules of the series circuit each additionally comprise a rectifier module, and the outputs of the rectifier modules are connected in parallel and form the output direct voltage terminals of the rectifier arrangement.
A significant advantage of the rectifier arrangement according to the invention is to be seen in the fact that as a result of the modularity, or as a result of the modular structure, the rectifier arrangement can be scaled to any desired degree with regard to the achievable electrical power output; it is only necessary to adjust the number of sub-modules connected in series to the particular power output that is required.
It is deemed to be particularly advantageous if the rectifier arrangement is multi-phase and comprises a plurality of, at least two, input alternating voltage terminals, into each of which a phase current of a multi-phase input alternating current can be fed, wherein each phase of the rectifier arrangement comprises at least one series circuit with at least two sub-modules connected in series, wherein the sub-modules of the series circuits each comprise at least one converter module, an inverter module, a transformer module and a rectifier module, and wherein the outputs of the rectifier modules of each of the series circuits are each connected in parallel and form the output direct voltage terminals of the rectifier arrangement.
The rectifier arrangement is preferably three-phase. The three input alternating voltage terminals of the rectifier arrangement preferably electrically form a delta circuit or a star circuit.
Alternatively, it can be provided that the rectifier arrangement is three-phase, and six series circuits each with at least two sub-modules connected in series form a three-phase bridge circuit.
With respect to the construction of the sub-modules, it is deemed advantageous if at least one of the rectifier modules, in particular all of the rectifier modules, comprise(s) a bridge circuit composed of four diodes.
With a view to a reduction or suppression of harmonic oscillations, or for smoothing the direct current, it is deemed advantageous if at least one of the rectifier modules, in particular all of the rectifier modules, comprise(s) a fifth diode, which is connected in parallel with the bridge circuit. Advantageously the fifth diode is a Schottky diode or a silicon carbide diode.
Alternatively or in addition, an inductor can be connected between at least one of the output terminals of at least one of the rectifier modules, in particular of all of the rectifier modules, and the diodes of the respective rectifier module to smooth the direct current.
With respect to the construction of the inverter modules, it is deemed advantageous if at least one of the inverter modules, preferably all of the inverter modules, comprise(s) in each case one series circuit composed of at least two capacitors and, connected in parallel with that, a series circuit composed of at least two switching elements connected in series. Particularly preferably, the electrical center connection between the two capacitors forms one of the output terminals of the inverter module, and the electrical center connection between the two switching elements forms another of the output terminals of the inverter module.
Alternatively, the converter modules can each comprise four switching elements connected in an H-bridge circuit.
With respect to the construction of the inverter modules, it is deemed advantageous if at least one of the inverter modules, preferably all of the inverter modules, is/are connected to a drive circuit which drives the inverter modules and which is designed such that the output voltage formed at output alternating voltage terminals exhibits a different frequency from that of the input voltage applied to the input alternating voltage terminals. Preferably the frequency of the output voltage formed at the output alternating voltage terminals is higher than the frequency of the input voltage applied to the input alternating voltage terminals. The frequency of the output voltage formed at the output alternating voltage terminals is preferably in the range between 200 and 500 Hz.
The drive circuit is preferably designed such that it performs the drive of the inverter modules with a time offset. Through a time offset, current distortions on the rectifier side, or current variations in the generated direct current, can be minimized.
With respect to the transformer module or modules, it is deemed advantageous if their transformation ratio is less than 1, i.e. if the transformer modules bring about a reduction in the voltage.
The switching elements mentioned above are preferably formed by semiconductor switches (e.g. IGBT semiconductor switches, GTO semiconductor switches or MOSFET semiconductor switches).
The invention furthermore relates to an arrangement with a rectifier arrangement. It is provided according to the invention that the rectifier arrangement is designed as described above, i.e. according to the invention, and that an arc furnace is connected to the output direct voltage terminals of the rectifier arrangement.
In the rectifier arrangement according to the invention, the power output can be specifically adjusted through the choice of the number of sub-modules (power scaling through choice of the number of sub-modules).
The invention furthermore relates to a method for generating at least one output direct current with a rectifier arrangement, which incorporates at least one input alternating voltage terminal into which an alternating current can be fed, and two output direct voltage terminals at which direct current can be tapped.
According to the invention, it is provided with respect to such a method that the rectifier arrangement comprises at least one series circuit with at least two sub-modules connected in series, each of which comprises at least one converter module, an inverter module, a transformer module and a rectifier module, and the output direct current is formed through addition of the rectifier module currents delivered at the outputs of the rectifier modules.
With respect to the advantages of the method according to the invention, we refer to the explanations provided above in connection with the arrangement according to the invention.
The inverter modules are preferably operated unidirectionally.
The inverter modules are preferably driven with an offset in time. Through a time offset, current distortions on the rectifier side, or current variations in the generated direct current, can be minimized.
In the rectifier modules, the respective output voltage of a bridge circuit, composed of four diodes, of the respective rectifier module is smoothed with a fifth diode.
Additionally or as an alternative, a smoothing of the output voltage of the rectifier modules is achieved in an advantageous manner by means of a respective inductor which is connected between one of the output terminals of the respective rectifier module and the diodes of the respective rectifier module.
Preferably, with the transformer modules, the voltage is lowered in the direction of the respective output alternating voltage terminals of the respective transformer module.
The invention is explained below in more detail with reference to exemplary embodiments; by way of example here
For the sake of a clear overview, the same reference signs have in all cases been used in the figures for identical or comparable components.
The rectifier apparatus 20 comprises three input alternating voltage terminals E20a, E20b and E20c, which are connected to a three-phase electrical cable 80. The rectifier apparatus 20 is connected via the three-phase cable 80 to a terminal rail 90 and to an energy distribution network 100 which is only shown schematically.
On the output side, the rectifier apparatus 20 comprises two output direct voltage terminals A20a and A20b, through which the output side of the rectifier apparatus 20 is connected to an electrical direct current cable 110 and, through this, to a direct current load 120 in the form of an arc furnace.
The rectifier arrangement 10 according to
By means of the current sensor 40, the drive circuit 30 measures the three-phase input alternating current Ie flowing into the rectifier apparatus 20 at the input side, and, with the voltage sensor 50, the drive circuit 30 measures the three-phase input voltage applied to the rectifier apparatus 20. In addition to this, the drive circuit 30 uses the current sensor 60 and the voltage sensor 70 to measure the output direct current Ia delivered by the rectifier apparatus 20, as well as the output direct voltage provided at the output side.
With the aid of the measured values, the drive circuit 30 determines an optimum drive of the rectifier apparatus 20 in such a way that the output direct current Ia has optimum characteristics for the operation of the direct current load 120.
The rectifier apparatus 20 comprises three delta-connected series circuits 200, whose series-connected components are not shown in more detail in
Alternatively, in each case an individual direct current load 120 can be connected to each of the series circuits 200 (cf.
Each of the sub-modules 220 comprises two output terminals A220a and A220b. The output terminals A220a and A220b of the sub-modules 220 are connected in parallel, and form the two output terminals 200a and 200b, which—as
The outputs 224a and 224b of the rectifier modules 224 in the sub-modules 220 of the series circuit 200 are connected on the output side in parallel according to
The drive of the switching elements S1 and S2 of the converter module 221 is preferably performed by the drive circuit 30 according to
A capacitor C, which forms the input terminals E222a and E222b of the inverter module 222 that are connected to the upstream converter module 221 (cf.
The output terminals A222a and A222b of the inverter module 222 are connected to the input terminals E223a and E223b of the downstream transformer module 223 (cf.
The drive of the four switching elements S5, S6, S7 and S8 is preferably provided by the drive circuit 30 according to
The center terminal M1 between the two capacitors C1 and C2 connected in series forms one of the two output terminals A222a of the inverter module 222. The center terminal M2 between the two switching elements S5 and S6 connected in series forms the other of the two output terminals A222b of the inverter module 222.
The drive of the two switching elements S5 and S6 is preferably provided by the drive circuit 30 according to
The inverter module 222 according to
An inductor 224L is preferably connected in series between one of the two output terminals A224a of the rectifier module 224 and one of two terminals of the fifth diode D5 in order to smooth the current. Alternatively or in addition, an inductor 224L can be connected in series between the other of the two output terminals A224b of the rectifier module 224 and the other of the two terminals of the fifth diode D5 in order to smooth the current.
The three star-connected series circuits 200, or the star circuit formed by the series circuits 200, is/are connected via the output direct voltage terminals A20a and A20b of the rectifier apparatus 20 to an external electrical load, for example the direct current load 120 according to
Alternatively, in each case an individual direct current load 120 can be connected to each of the series circuits 200 (cf.
For reasons of clarity, the construction of the series circuits 200 is not shown in more detail in
The construction of the series circuits 200 of the rectifier apparatus 20 can, for example, correspond to the construction of the series circuits 200, as has been explained above in detail in connection with
Although the invention has been more closely illustrated and described in detail through preferred exemplary embodiments, the invention is not restricted by the disclosed examples, and other variations can be derived from this by the expert without going beyond the scope of protection of the invention.
Filing Document | Filing Date | Country | Kind |
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PCT/EP2014/070365 | 9/24/2014 | WO | 00 |