Arrangement for igniting thin rods composed of electrically conductive material, in particular thin silicon rods

What is claimed is: 1. A circuit arrangement for igniting three thin silicon rods in a polycrystalline silicon production process, said circuit comprising: a three-phase transformer having a primary side for connection to a three-phase voltage supply system and a secondary side connected via auxiliary transformer means to the three thin silicon rods; and a controller; wherein the secondary-side of the three-phase transformer comprises a star or zig-zag connected secondary winding system having line-to-line voltages between phases of the secondary winding system; wherein the star or zig-zag connected secondary winding system comprises tapped windings within each phase of the star or zig-zag connected secondary winding system, each winding of said tapped windings being connected to the auxiliary transformer means via switches which are individually controllable by the controller; wherein the auxiliary transformer means comprises three separate single-phase auxiliary transformers respectively connected between the phases of the star or zig-zag connected secondary winding system such that the line-to-line voltages provided to the auxiliary transformer means via the individually controllable switches form a three-phase closed vector triangle; wherein the three separate single-phase auxiliary transformers feed the line-to-line voltages provided to the three thin silicon rods, respectively; wherein the three thin silicon rods are connected in series to another AC power source which is configured to take over supplying voltage to the three thin silicon rods upon (i) ignition of the three thin silicon rods and (ii) disconnection of the auxiliary transformers from the star or zig-zag connected secondary winding system via the individually controllable switches. 2. The circuit arrangement of claim 1 , wherein the three-phase transformer has one of (i) a delta-connected winding system on the primary side and (ii) a star-connected winding system on the primary side. 3. The circuit arrangement of claim 1 , wherein the auxiliary transformer means further comprises a three-phase auxiliary transformer. 4. The circuit arrangement as claimed claim 1 , wherein a frequency converter is connected between the three-phase voltage supply system and the three-phase transformer. 5. The circuit arrangement of claim 1 , wherein the three-phase transformer comprises a low-voltage transformer; and wherein the auxiliary transformer means comprises a medium-voltage transformer means.