Converter station with diode rectifier

The invention claimed is: 1. A converter station for transmission of electrical power, the converter station comprising: a converter having a DC-voltage connection and an AC-voltage connection; at least one transformer connected to said AC-voltage connection of said converter; at least one common encapsulation housing having at least a part of said converter and at least a part of said transformer disposed therein in common; insulating material encasing said part of said transformer and said part of said converter, said common encapsulation housing being filled with said insulating material; at least one DC-voltage smoothing inductor connected to conduct direct current output at said DC-voltage connection of said converter, wherein at least a part of said smoothing inductor is arranged in said common encapsulation housing; and a power supply device for supplying an AC-voltage network with electrical power, the AC-voltage network being connected to said converter, and said converter including a partial converter connected in series on a DC voltage-side with partial diode rectifiers of said converter. 2. The converter station according to claim 1 , wherein said insulating material is a protective gas or an insulating liquid. 3. The converter station according to claim 1 , wherein said converter is a thyristor rectifier or a diode rectifier. 4. The converter station according to claim 1 , wherein said partial converter has two DC-voltage terminals and a bypass switch configured to bridge said DC-voltage terminals. 5. A converter station for transmission of electrical power between a windfarm that is located at sea and a supply grid on land, the converter station comprising: a converter having a DC-voltage connection and an AC-voltage connection; at least one transformer connected to said AC-voltage connection of said converter; at least one common encapsulation housing having at least a part of said converter and at least a part of said transformer disposed therein in common; insulating material encasing said part of said transformer and said part of said converter, said common encapsulation housing being filled with said insulating material; energy supply means for supplying an AC-voltage network connected to the converter station with electrical power from a power supply grid on land or a neighboring AC-voltage grid at sea, or an AC-voltage line extending at least partly submerged in water; wherein the AC-voltage network connected to the converter station at sea has a plurality of wind energy generators connected thereto; said converter having a plurality of partial diode rectifiers connected in series at a DC voltage side thereof; a switchgear assembly connected to said at least one transformer and connectable to a coupling-in component via an AC-voltage line, the coupling-in component being connected to the power supply grid on land or to the neighboring AC-voltage grid at sea; wherein said converter further includes a controlled or selfcommutated partial converter which is connected in series with the plurality of partial diode rectifiers at the DC voltage side.