Automotive electric liquid pump

What is claimed is: 1. An automotive electric liquid pump comprising: a pump housing comprising a first longitudinal end and a second longitudinal end; a rotor which defines a longitudinal rotor axis; a pump chamber inlet; a pump chamber outlet; an electric motor comprising stator coils arranged within the first longitudinal end of the pump housing, the electric motor being configured to drive a pump rotor; a power electronics chamber comprising power semiconductors configured to drive the stator coils, the power electronics chamber being arranged within the second longitudinal end of the pump housing; a pump chamber configured to have the pump rotor driven by the electric motor rotate therein so as to pump a liquid from the pump chamber inlet to the pump chamber outlet, the pump chamber being arranged within the pump housing between the electric motor arranged within the first longitudinal end of the pump housing and the power electronics chamber arranged within the second longitudinal end of the pump housing; a first separation wall arranged in a first transversal plane, the first separation wall being configured to separate the pump chamber from the power electronics chamber; and a second separation wall arranged in a second transversal plane, the second separation wall being configured to separate the pump chamber from the electric motor, wherein, the power semiconductors are arranged so as to be in a heat-conduction connection with the first separation wall. 2. The automotive electric liquid pump as recited in claim 1 , wherein the first separation wall comprises a plane surface, and the pump chamber inlet is provided as a recess in the plane surface of the first separation wall. 3. The automotive electric liquid pump as recited in claim 1 , wherein the first separation wall comprises a plane surface, and the pump chamber outlet is provided as a recess in the plane surface of the first separation wall. 4. The automotive electric liquid pump as recited in claim 1 , wherein the power semiconductors are arranged so as to be closer to the pump chamber inlet than to the pump chamber outlet. 5. The automotive electric liquid pump as recited in claim 1 , further comprising: a rotor shaft, wherein, the first separation wall comprises a center recess arranged in a middle of the first separation wall and axially opposite to at least one of the rotor shaft and the pump rotor. 6. The automotive electric liquid pump as recited in claim 5 , wherein the center recess is fluidically connected to the pump chamber outlet. 7. The automotive electric liquid pump as recited in claim 6 , wherein the first separation wall further comprises a connection channel recess, the connection channel recess being configured to connect the center recess with the pump chamber outlet. 8. The automotive electric liquid pump as recited in claim 1 , further comprising: a motor rotor, wherein the stator coils are arranged so as to be axially offset with respect to the motor rotor so as to pull the pump rotor axially away from the first separation wall. 9. The automotive electric liquid pump as recited in claim 1 , wherein the automotive electric liquid pump is a lubricant pump. 10. The automotive electric liquid pump as recited in claim 1 , wherein the pump rotor is a gerotor-type pump rotor. 11. The automotive electric liquid pump as recited in claim 1 , wherein the first separation wall is a metal separation wall. 12. The automotive electric liquid pump as recited in claim 1 , wherein the second separation wall comprises a bearing for the rotor. 13. The automotive electric liquid pump as recited in claim 1 , wherein each of the first separation wall and the second separation wall are configured to directly contact and to extend from the pump housing. 14. An automotive electric liquid pump comprising: a pump housing comprising a first longitudinal end and a second longitudinal end; a rotor which defines a longitudinal rotor axis; a pump chamber inlet; a pump chamber outlet; an electric motor comprising stator coils arranged within the first longitudinal end of the pump housing, the electric motor being configured to drive a pump rotor; a power electronics chamber comprising power semiconductors configured to drive the stator coils, the power electronics chamber being arranged within the second longitudinal end of the pump housing; a pump chamber configured to have the pump rotor driven by the electric motor rotate therein so as to pump a liquid from the pump chamber inlet to the pump chamber outlet, the pump chamber being arranged within the pump housing entirely between the electric motor arranged within the first longitudinal end of the pump housing and the power electronics chamber arranged within the second longitudinal end of the pump housing; a first separation wall arranged in a first transversal plane, the first separation wall being configured to separate the pump chamber from the power electronics chamber; and a second separation wall arranged in a second transversal plane, the second separation wall being configured to separate the pump chamber from the electric motor, wherein the power semiconductors are arranged so as to be in a heat-conduction connection with the first separation wall. 15. The automotive electric liquid pump as recited in claim 14 , wherein the second separation wall comprises a bearing for the rotor. 16. The automotive electric liquid pump as recited in claim 14 , wherein each of the first separation wall and the second separation wall are configured to directly contact and to extend from the pump housing.