Inverter for converting a DC voltage into an AC voltage

The invention claimed is: 1. An inverter for converting a DC voltage into an AC voltage comprising: at least one DC input, an AC output, a heat sink, a printed circuit board, a DC disconnector, a DC-DC converter, an intermediate circuit, a DC-AC converter and a housing with a front cover and a basic shell, wherein the electrical components of the DC-DC converter, intermediate circuit and DC-AC converter are combined into subassemblies, and at least the DC disconnector and the subassemblies of the DC-DC converter, intermediate circuit and DC-AC converter are directly arranged on the printed circuit board in a U-shaped manner corresponding to the energy flow direction from the DC input to the AC output, and wherein the printed circuit board is arranged with the component side facing in the direction of a base of the basic shell of the housing and with the side opposite the component side on the heat sink. 2. The inverter according to claim 1 , wherein the printed circuit board is inclined relative to the base of the basic shell. 3. The inverter according to claim 1 , wherein a control unit is provided, which control unit is centrally arranged on the printed circuit board. 4. The inverter according to claim 1 , wherein at least one EMV filter is provided, said at least one EMV filter being arranged directly on the printed circuit board. 5. The inverter according to claim 1 , wherein the DC-DC converter and the DC-AC converter are designed for switching frequencies above 30 kHz. 6. The inverter according to claim 1 , wherein in the front cover a recess for an actuating element of the DC disconnector and an air inlet are arranged, and wherein an actuating shaft of the DC disconnector is passed through openings on the printed circuit board and the heat sink to the front cover. 7. The inverter according to claim 1 , wherein on a narrow housing side between front cover and basic shell, openings for an air outlet are provided. 8. The inverter according to claim 1 , wherein the heat sink connects at least partially to sidewalls of the basic shell of the housing and the heat sink forms a stiffener for the housing. 9. The inverter according to claim 1 , wherein the heat sink subdivides the housing into at least two housing chambers. 10. The inverter according to claim 1 , wherein a longitudinal section of the basic shell is designed essentially trapezoidal, wherein the basic shell has first and second sidewalls parallel to one another and wherein the first sidewall is lower than the second sidewall. 11. The inverter according to claim 10 , wherein a connection region for connecting DC sources to the DC input and for connecting a load or the like to the AC output is arranged adjacent to the lower sidewall of the basic shell. 12. The inverter according to claim 1 , wherein shielding plates are provided for cage-shaped enclosing of the printed circuit board including the subassemblies. 13. The inverter according to claim 12 , wherein individual subassemblies are shielded off against other subassemblies with shielding plates ( 72 , 73 ). 14. The inverter according to claim 1 , wherein a communication unit is provided, which communication unit is arranged directly on the printed circuit board. 15. The inverter according to claim 1 , wherein the DC-AC converter and/or the DC-DC converter is adapted for a bidirectional energy flow. 16. The inverter according to claim 1 , wherein the inverter is a photovoltaic inverter for high power densities. 17. The inverter according to claim 1 , wherein the inverter is a photovoltaic inverter for power densities of 250 W/dm 3 to 500 W/dm 3 . 18. The inverter according to claim 1 , wherein the DC-DC converter and the DC-AC converter are designed for switching frequencies greater than or equal to 100 kHz. 19. The inverter according to claim 9 , wherein a sealing is arranged between the heat sink and the basic shell. 20. The inverter according to claim 12 , wherein the heat sink partially forms part of the shielding plates.