Power supply for a non-linear load with multilevel matrix converters

The invention claimed is: 1. An assembly, comprising: a nonlinear load being an arc furnace with an upstream furnace transformer; a power supply device for supplying said nonlinear load with electric power, said power supply device having a plurality of converter units; each of said converter units having a plurality of main modules and an output connection; each of said main modules having an input connection connected to a respective phase of a polyphase grid system operated at an operating frequency, and each of said main modules having an output; each of said converter units having a common star point connected to a respective said output of said main modules and via said output connection of the respective converter unit to a primary side of said furnace transformer; each of said main modules having a series circuit formed of a coupling inductance and a plurality of submodules; each of said submodules having a submodule input and a submodule output and a bridge circuit connected between said submodule input and said submodule output, said bridge circuit having four self-commutated semiconductor switches and a bridge path with a respective storage capacitor; and wherein said semiconductor switches of said submodules are each switchable independently of said semiconductor switches of respective other submodules of the same said main module and of other said main module; and an electrode control connected to receive detected voltages applied to a secondary side of said furnace transformer and currents flowing on the secondary side of said furnace transformer; wherein the voltages and currents detected on the secondary side of said furnace transformer are taken as a basis for using electrode control to perform position control for electrodes of said arc furnace; and wherein said electrode control is configured to ascertain nominal current values and/or nominal voltage values for said converter units. 2. The assembly according to claim 1 , wherein a number of said converter units is at least three and/or a number of said main modules per converter unit is at least three. 3. The assembly according to claim 1 , wherein said furnace transformer has no step switch. 4. The assembly according to claim 1 , wherein said converter units have: neither an inductor nor a capacitor; either an inductor or a capacitor; or a series circuit of an inductor and a capacitor; connected between their respective said star point and their respective said output connection. 5. The assembly according to claim 1 , which comprises: a first switching device for operational connection and isolation of said load from said converter units is connected between said output connections of said converter units and said load; a second switching device for unscheduled isolation of said load from said converter units connected between said load and said converter units; said second switching device having supplementary inputs connected to at least some phases of the polyphase grid system; and wherein said load, upon being isolated from said converter units during an unscheduled isolation, is connectable to the at least some phases via said second switching device and said supplementary inputs thereof. 6. The assembly according to claim 1 , which comprises a control device configured to actuate said semiconductor switches of said submodules such that load currents applied to said output connections of said converter units are sinusoidal or nonsinusoidal. 7. The assembly according to claim 1 , which comprises a control device configured to actuate said semiconductor switches of said submodules such that load currents applied to said output connections of said converter units have different RMS values. 8. The assembly according to claim 1 , which comprises a control device configured to actuate said semiconductor switches of said submodules such that load currents supplied to said nonlinear load are distributed to the phases of the polyphase grid system as per specification. 9. The assembly according to claim 8 , wherein the specification is as follows: grid system currents drawn from the polyphase grid system are sinusoidal; and/or the grid system currents drawn from the polyphase grid system have a predetermined phase offset relative to phase voltages applied in the polyphase grid system. 10. The assembly according to claim 8 , wherein the specification is influenced by a state of the polyphase grid system. 11. An assembly, comprising: a nonlinear load being an arc furnace with an upstream furnace transformer; a power supply device for supplying said nonlinear load with electric power, said power supply device having a plurality of converter units; each of said converter units having a plurality of main modules and an output connection; each of said main modules having an input connection connected to a respective phase of a polyphase grid system operated at an operating frequency, and each of said main modules having an output; each of said converter units having a common star point connected to a respective said output of said main modules and via said output connection of the respective converter unit to a primary side of said furnace transformer; each of said main modules having a series circuit formed of a coupling inductance and a plurality of submodules; each of said submodules having a submodule input and a submodule output and a bridge circuit connected between said submodule input and said submodule output, said bridge circuit having four self-commutated semiconductor switches and a bridge path with a respective storage capacitor; and wherein said semiconductor switches of said submodules are each switchable independently of said semiconductor switches of respective other submodules of the same said main module and of other said main modules; a first switching device for operational connection and isolation of said load from said converter units connecting between said output connections of said converter units and said load; a second switching device for unscheduled isolation of said load from said converter units connecting between said load and said converter units; said second switching device having supplementary inputs connected to at least some phases of the polyphase grid system; and wherein said load, upon being isolated from said converter units during an unscheduled isolation, is connectable to the at least some phases via said second switching device and said supplementary inputs thereof. 12. The assembly according to claim 11 , which comprises an electrode control connected to receive detected voltages applied to a secondary side of said furnace transformer and currents flowing on the secondary side of said furnace transformer, wherein the voltages and currents detected on the secondary side of said furnace transformer are taken as a basis for using electrode control to perform position control for electrodes of said arc furnace and wherein said electrode control is configured to ascertain nominal current values and/or nominal voltage values for said converter units.