Linear power supply pre-regulator for electrical climate compressors

The invention claimed is: 1. An inverter for an electric compressor, wherein the inverter comprises an auxiliary voltage supply which supplies a control electronics of the inverter with DC voltage, the auxiliary voltage supply comprises a series circuit of a linear voltage regulator and a linear pre-regulator, and the linear pre-regulator comprises a transistor which is connected to the input terminal of the linear voltage regulator, wherein only one of the linear pre-regulator and the linear voltage regulator is actively cooled by a refrigerant utilized in the electric compressor, wherein the linear pre-regulator comprises furthermore a regulation unit which operates the transistor in the linear range such that the transistor generates a voltage drop from the input voltage of the auxiliary voltage supply to a predetermined output voltage, and wherein the transistor is disposed on a circuit board of the inverter and via thermal vias connected to an housing of the electric compressor, wherein the thermal vias are thermally conducting through-holes through the circuit board. 2. The inverter according to claim 1 , wherein the main portion of the power loss is not generated in the linear voltage regulator but rather in the linear pre-regulator and the linear voltage regulator operates with minimal difference between the input voltage of the linear voltage regulator and the output voltage of the linear voltage regulator in the range of 0.1 V to 1 V, and wherein the regulation unit monitors the input voltage of the auxiliary voltage supply and switches off the transistor if the input voltage exceeds a threshold value. 3. The inverter according to claim 1 , wherein the auxiliary voltage supply comprises furthermore a control unit which switches off the transistor in response to a shutdown signal. 4. The inverter according to claim 1 , wherein the inverter comprises a high-voltage domain, which supplies a motor of the electric compressor with AC current, and a low-voltage domain, which processes control commands for the control of the electric compressor, and the auxiliary voltage supply is disposed in the low-voltage domain. 5. The inverter according to claim 1 , wherein the linear voltage regulator is a low-dropout voltage regulator. 6. The inverter according to claim 1 , wherein the transistor is a metal oxide semiconductor field effect transistor (MOSFET). 7. An inverter for an electric compressor, wherein the inverter comprises an auxiliary voltage supply which supplies a control electronics of the inverter with DC voltage, the auxiliary voltage supply comprises a series circuit of a linear voltage regulator and a linear pre-regulator, and the linear pre-regulator comprises a transistor which is connected to the input terminal of the linear voltage regulator, wherein only one of the linear pre-regulator and the linear voltage regulator is actively cooled by a refrigerant utilized in the electric compressor, wherein the linear pre-regulator comprises furthermore a regulation unit which operates the transistor in the linear range such that the transistor generates a voltage drop from the input voltage of the auxiliary voltage supply to a predetermined output voltage, wherein the main portion of the power loss is not generated in the linear voltage regulator but rather in the linear pre-regulator and the linear voltage regulator operates with minimal difference between the input voltage of the linear voltage regulator and the output voltage of the linear voltage regulator in the range of 0.1 V to 1 V, wherein the linear pre-regulator comprises furthermore a regulation unit which monitors the input voltage of the auxiliary voltage supply and switches off the transistor if the input voltage exceeds a threshold value, wherein the transistor is disposed on a circuit board of the inverter and via thermal vias connected to an housing of the electric compressor, wherein the thermal vias are thermally conducting through-holes through the circuit board, and wherein the auxiliary voltage supply comprises furthermore a control unit which switches off the transistor in response to a shutdown signal.