Modular multilevel converter

What is claimed is: 1. A modular multilevel converter for converting between a DC voltage and an AC voltage, the modular multilevel converter comprising: two phase units connected in parallel and connectable to a DC terminal, wherein the phase units each comprise an upper converter arm, a middle converter arm, and a lower converter arm, wherein each converter arm includes one or more cells arranged in series, wherein each cell comprises an energy storage element and a switching arrangement switching the energy storage element in or out of the series of cells; a control unit controlling the switching arrangements of the one or more cells; wherein the upper converter arm is in series with the middle converter arm with an upper node therebetween; wherein the lower converter arm is in series with the middle converter arm with a lower node therebetween; an upper bridging element directly connecting said upper node and an AC terminal; and a lower bridging element directly connecting said lower node and said AC terminal. 2. The modular multilevel converter of claim 1 , wherein each of the bridging elements has a voltage rating equal to or higher than a voltage rating of the middle converter arm. 3. The modular multilevel converter of claim 1 , wherein: the energy storage elements of all of the coverter arms comprise capacitors; and the capacitors in the middle converter arm have a smaller respective capacity than the capacitors of the lower converter arm and the upper converter arm. 4. The modular multilevel converter of claim 1 , wherein the respective voltage rating of the middle, upper, and lower converter arms are equal to one another. 5. The modular multilevel converter of claim 1 , wherein the voltage rating of the middle converter arm is lower than a respective voltage rating of at least one of the upper or lower converter arm. 6. The modular multilevel converter of claim 1 , wherein the bridging elements each comprise one or more switches optimized for minimum conduction losses. 7. The modular multilevel converter of claim 1 , wherein the bridging elements each comprise one or more thyristors with reverse diodes. 8. The modular multilevel converter of claim 1 , wherein: the cells of the upper and lower converter arm comprise full-bridge type cells; and the cells of the middle converter arm comprise half-bridge type cells. 9. The modular multilevel converter of claim 1 , further comprising three or more of said phase units arranged in parallel. 10. The modular multilevel converter of claim 1 , further comprising: a second upper bridging element arranged between said upper node and the AC terminal; a second lower bridging element arranged between said lower node and said AC terminal. 11. The modular multilevel converter of claim 10 , further comprising: a first disconnector between the middle point of the upper and lower bridging element and the AC terminal; and a second disconnector between the middle point of the second upper and lower bridging element and the AC terminal. 12. A method for operating a modular multilevel converter comprising two phase units connected in parallel and connectable to a DC terminal, wherein the phase units each comprise an upper converter arm, a middle converter arm, and a lower converter arm, wherein each converter arm includes one or more cells arranged in series, wherein each cell comprises an energy storage element and a switching arrangement switching the energy storage element in or out of the series of cells, a control unit controlling the switching arrangements of the one or more cells, a middle converter arm in series with the upper converter arm an upper node located therebetween, the middle converter arm in series with the lower converter arm within series, an upper node between said upper and middle converter arm and a lower node therebetween, an upper bridging element directly connecting said upper node and an AC terminal, and a lower bridging element directly connecting said lower node and said AC terminal, wherein the phase units are connected to a DC network and the AC terminals of the phase units are connected to an AC network, the method comprising: controlling the switching arrangements of the cells of the upper and lower converter arm with the control unit to adjust the voltage of the upper and lower converter arm to the AC voltage level; turning on the upper bridging element when the lower converter arm voltage is higher than the upper converter arm voltage; and turning on the lower bridging element when the lower converter arm voltage is lower than the upper converter arm voltage. 13. The method of claim 12 , further comprising switching the bridging elements with the control unit with a frequency twice an AC voltage frequency. 14. The method of claim 12 , further comprising controlling the switching arrangements of the cells of the middle converter arm so individual switches of the respective converter arms are turned on and/or off when their voltage is zero.