Circuit arrangements for electronically controlled DC grids

The invention claimed is: 1. A device for switching in a DC voltage grid, the device comprising: a first series-connected circuit of hybrid switches having two hybrid switches connected in series in opposite directions and first and second connections, said two hybrid switches each having a parallel circuit containing an uncontrolled current-direction-dependent switch and a controllable switch, wherein a central junction point between said hybrid switches forming a third connection and said two hybrid switches connected in series in opposite directions can be inserted by said first connection and said second connection into a first line of the DC voltage grid; two polarized damping elements configured to absorb energy in only one polarity of a terminal voltage present and including first and second polarized damping elements, said first polarized damping element connected to said first connection for said first series-connected circuit of hybrid switches and can be connected to at least one of a second line of the DC voltage grid or a ground potential, said second polarized damping element connected to said second connection of said first series-connected circuit of hybrid switches and can be connected to at least one of the second line of the DC voltage grid or the ground potential; and a current pulse generator, which in response to a control command generating a unipolar current pulse passing via said third connection and said two polarized damping elements, such that a current direction in one of said hybrid switches can be momentarily reversed. 2. The device according to claim 1 , further comprising: at least one second series-connected circuit of hybrid switches containing further hybrid switches connected in series with one another in opposite directions and having further first and second connections, between said further hybrid switches a central junction point is formed and defines a further third connection, said further hybrid switches can be switched into at least one further line of the DC voltage grid by said further first and second connections; further polarized damping elements; and blocking diodes, said central junction point of each of said first and second series-connected circuit of hybrid switches connected in series with one another in opposite directions is connected to said current pulse generator via one of said blocking diodes. 3. The device as claimed in claim 2 , wherein said further polarized damping elements form a further pair of further polarizing damping elements assigned to said second series-connected circuit of hybrid switches. 4. The device according to claim 1 , further comprising two further hybrid switches connected in series in opposite directions connected to the second line and defining a second series-connected circuit of hybrid switches having further first and second connections, said first polarized damping element is connected to said first connection of said first series-connected circuit of hybrid switches and to said further first connection of said second series-connected circuit of hybrid switches and said second polarized damping element is connected to said second connection of said first series-connected circuit of hybrid switches and to said further second connection of said second series-connected circuit of hybrid switches; and wherein said current pulse generator has a first connection connected to said central junction point of the first series-connected circuit of hybrid switches and a second connection of said current pulse generator is connected to a central junction point of said second series-connected circuit of hybrid switches. 5. The device according to claim 1 , wherein at least one of said polarized damping elements or said current pulse generator consists of a series circuit containing in each case a plurality of units, said units having have center taps, and at least one of said center taps is connected to the ground potential. 6. The device according to claim 1 , further comprising: a second series-connected circuit of hybrid switches having two further hybrid switches connected in series in opposite directions, between said further hybrid switches a central junction point is formed and defines a further third connection; and two further polarized damping elements, said further third connection of said second series-connected circuit of hybrid switches is connected to said third connection of said first series-connected connected hybrid switches in the first line, such that the current pulse of said current pulse generator can also be fed into the further third connection of said second series-connected circuit of hybrid switches. 7. The device according to claim 1 , further comprising an additional controllable DC voltage source connected in parallel with at least one of said hybrid switches, a voltage of said additional controllable DC voltage source having a polarity opposite to a forward voltage drop of said uncontrolled current-direction-dependent switch. 8. The device according to claim 1 , wherein said uncontrolled current-direction-dependent switch is a semiconductor diode. 9. The device according to claim 1 , wherein said controllable switch is a vacuum interrupter. 10. The device according to claim 1 , wherein said current pulse generator contains a controllable switch, at least one capacitive energy store and an inductance, said at least one capacitive energy store and said inductance can be momentarily electrically connected to one another via said controllable switch, said current pulse generator further having a circuit path for charging said capacitive energy store from a voltage of the DC voltage grid and for overvoltage limiting, said circuit path containing at least one of said at least one capacitive energy store, a series resistor and a further blocking diode. 11. The device according to claim 1 , further comprising additional units for overvoltage limiting are connected in parallel with said current pulse generator or are integrated into said current pulse generator. 12. The device according to claim 11 , wherein said additional units for overvoltage limiting are selected from the group consisting of nonlinear resistors and varistors. 13. The device according to claim 12 , wherein a voltage level of said overvoltage limiting can be dynamically adapted in a manner synchronized with an initiation of the current pulse of said current pulse generator. 14. A method for interrupting a direct-current power grid, which comprises the following steps of: generating a current pulse which, in a hybrid switch having a parallel circuit containing an uncontrolled current-direction-dependent switch and a controllable switch, momentarily brings about a current reversal on a side situated in a current flow direction, such that the controllable switch of the hybrid switch can quench during the current reversal and thus isolates a current feed between a source and a load, wherein a polarized damping element on the side situated in the current flow direction damps a polarity-reversed voltage on the side situated in the current flow direction and thereby de-energizes a load-side line inductance, wherein a current pulse generator damps an elevated voltage on a side situated opposite to the current flow direction.