Turbocharger having a waste-gate valve

What is claimed is: 1. A turbocharger comprising: a waste gate valve; a compressor; a turbine; a turbine housing configured to house the turbine; a bypass channel comprising an opening cross-section, the bypass channel being configured to bypass the turbine; a bypass channel section arranged in the turbine housing; an actuator housing comprising a separate coolant channel, the actuator housing being configured to be detachably secured to the turbine housing; an electric motor arranged in the actuator housing; a transmission comprising an output shaft, the transmission being arranged in the actuator housing; a control body coupled to the output shaft, the control body being configured to control the opening cross-section of the bypass channel; and an actuator cover; wherein, the separate coolant channel of the actuator housing is configured to surround a circumference of the transmission and to be closed axially by the actuator cover. 2. The turbocharger as recited in claim 1 , wherein the waste gate valve comprises electronic components which are arranged on the actuator cover. 3. The turbocharger as recited in claim 1 , wherein the actuator cover comprises a connector formed thereon. 4. The turbocharger as recited in claim 1 , further comprising: a magnet connected with the output shaft; and a contactless sensor fastened on the actuator cover, the contactless sensor being configured to provide a position feedback and to communicate with the magnet. 5. The turbocharger as recited in claim 1 , further comprising: terminals for the electric motor, the terminals being formed on the actuator cover. 6. The turbocharger as recited in claim 1 , wherein the separate coolant channel is further configured to radially surround the electric motor at least in part over an entire axial height of the electric motor. 7. The turbocharger as recited in claim 6 : the electric motor comprises a receiving portion, and further comprising: a coolant inlet port formed on the actuator housing and in the receiving portion of the electric motor; and a coolant outlet port formed on the actuator housing and in the receiving portion of the electric motor. 8. The turbocharger as recited in claim 7 , further comprising: a motor cover configured to axially close the separate coolant channel surrounding the electric motor. 9. The turbocharger as recited in claim 7 , further comprising: a partition wall arranged between the coolant inlet port and the coolant outlet port, the partition wall being configured to extend axially over an entire height of the separate coolant channel and to interrupt the separate coolant channel in a circumferential direction. 10. The turbocharger as recited in claim 7 , wherein, the electric motor is arranged axially parallel to the output shaft, and the receiving portion of the electric motor is configured to extend in a direction of the turbine housing. 11. The turbocharger as recited in claim 1 , wherein the control body is connected to rotate with the output shaft. 12. The turbocharger as recited in claim 1 , further comprising: a flap shaft comprising a common axis of rotation with the output shaft, wherein, the control body is coupled with the flap shaft. 13. The turbocharger as recited in claim 12 , further comprising: an Oldham coupling, wherein the flap shaft is coupled with the output shaft via the Oldham coupling.