Bicycle derailleur and method of controlling bicycle derailleur

What is claimed is: 1. A bicycle derailleur comprising: a base member; a movable member configured to be movably coupled to the base member, the movable member being movable relative to the base member from a second gear position to a first gear position to move a chain in a first shifting direction, the movable member being movable relative to the base member from the first gear position to the second gear position to move the chain in a second shifting direction which is an opposite direction of the first shifting direction; a motor unit configured to move the movable member relative to the base member between the first gear position and the second gear position; and a controller configured to control the motor unit to rotate an output shaft of the motor unit at a first maximum voltage during a first shifting operation of the chain in the first shifting direction, the controller being configured to control the motor unit to rotate the output shaft of the motor unit at a second maximum voltage during a second shifting operation of the chain in the second shifting direction, the first maximum voltage being different from the second maximum voltage. 2. The bicycle derailleur according to claim 1 , wherein a gear ratio is defined as a quotient obtained by dividing a total tooth number of a bicycle front sprocket by a total tooth number of a bicycle rear sprocket, the gear ratio includes a first gear ratio and a second gear ratio that is smaller than the first gear ratio, the gear ratio changes from the second gear ratio to the first gear ratio in the first shifting operation, the gear ratio changes from the first gear ratio to the second gear ratio in the second shifting operation, and the first maximum voltage is higher than the second maximum voltage. 3. The bicycle derailleur according to claim 1 , wherein a gear ratio is defined as a quotient obtained by dividing a total tooth number of a bicycle front sprocket by a total tooth number of a bicycle rear sprocket, the gear ratio includes a first gear ratio and a second gear ratio that is smaller than the first gear ratio, the gear ratio changes from the second gear ratio to the first gear ratio in the first shifting operation, the gear ratio changes from the first gear ratio to the second gear ratio in the second shifting operation, and the first maximum voltage is lower than the second maximum voltage. 4. The bicycle derailleur according to claim 1 , wherein the motor unit is configured to move the movable member relative to the base member in the first shifting operation without stopping the movable member, and the motor unit is configured to move the movable member relative to the base member in the second shifting operation without stopping the movable member. 5. The bicycle derailleur according to claim 1 , wherein the controller is configured to control electric power supply to the motor unit at a first amount of electric power in a state where the motor unit moves the movable member relative to the base member in the first shifting operation, the controller is configured to control electric power supply to the motor unit at a second amount of electric power in a state where the motor unit moves the movable member relative to the base member in the second shifting operation, and the first amount of electric power is different from the second amount of electric power. 6. The bicycle derailleur according to claim 5 , wherein the first amount of electric power is larger than the second amount of electric power. 7. The bicycle derailleur according to claim 5 , wherein the first amount of electric power is smaller than the second amount of electric power. 8. The bicycle derailleur according to claim 1 , wherein the controller is configured to control the motor unit to move the movable member relative to the base member based on gear-region information related to a gear corresponding region defined between the first gear position and the second gear position, and the controller is configured to control the motor unit to adjust a position of the movable member based on over-stroke information related to an over-stroke region, and the over-stroke region includes a region which is at least partly outside the gear corresponding region. 9. The bicycle derailleur according to claim 1 , wherein the controller is configured to control the motor unit to move the movable member at a third maximum voltage so as to adjust a position of the movable member based on gear-position information of an additional derailleur which is a separate derailleur from the bicycle derailleur, and the third maximum voltage is lower than the first maximum voltage. 10. The bicycle derailleur according to claim 8 , wherein the controller is configured to control the motor unit, if the gear-region information satisfies a first adjustment condition, to move the movable member relative to the base member in the first shifting direction by a first adjustment distance, and the controller is configured to control the motor unit to move the movable member relative to the base member in the second shifting direction by a first return distance after moving the movable member in the first shifting direction by the first adjustment distance, and the first return distance is based on the over-stroke information. 11. The bicycle derailleur according to claim 8 , wherein the controller is configured to control the motor unit, if the gear-region information satisfies a second adjustment condition, to move the movable member relative to the base member in the second shifting direction by a second adjustment distance, and the controller is configured to control the motor unit to move the movable member relative to the base member in the first shifting direction by a second return distance after moving the movable member in the second shifting direction by the second adjustment distance, and the second return distance is based on the over-stroke information. 12. The bicycle derailleur according to claim 1 , wherein the controller is configured to change at least one of the first maximum voltage and the second maximum voltage based on power-source information relating to an electric power source configured to supply electric power to the bicycle derailleur. 13. The bicycle derailleur according to claim 12 , wherein the power-source information includes a remaining level of the electric power source, and the controller is configured to reduce higher one of the first maximum voltage and the second maximum voltage if the remaining level of the electric power source is lower than a remaining-level threshold. 14. The bicycle derailleur according to claim 12 , wherein the power-source information includes a remaining level of the electric power source, and the controller is configured to reduce lower one of the first maximum voltage and the second maximum voltage if the remaining level of the electric power source is lower than the remaining-level threshold. 15. The bicycle derailleur according to claim 12 , wherein the power-source information includes a remaining level of the electric power source, and the controller is configured to change at least one of the first maximum voltage and the second maximum voltage to vary a ratio of higher one of the first maximum voltage and the second maximum voltage to lower one of the first maximum voltage and the second maximum voltage depending on the remaining level of the electric power source. 16. A method of controlling a bicycle derailleur, comprising: controlling a motor unit to move a movable mem