Systems and methods for operating an electric motor of a two-wheeled vehicle. One method includes detecting a position of a drive torque control included in the vehicle, detecting a position of a regenerative brake control included in the vehicle, mapping the detected position of the drive torque control to a requested driving torque, mapping the position of the regenerative brake control to a requested braking torque, determining, with an electronic control unit, a torque command based on the requested driving torque and the requested torque, and transmitting the torque command to an electric motor included in the vehicle.

Systems and methods for operating an electric motor of a two-wheeled vehicle. One method includes detecting a position of a drive torque control included in the vehicle, detecting a position of a regenerative brake control included in the vehicle, mapping the detected position of the drive torque control to a requested driving torque, mapping the position of the regenerative brake control to a requested braking torque, determining, with an electronic control unit, a torque command based on the requested driving torque and the requested torque, and transmitting the torque command to an electric motor included in the vehicle.

The present invention relates to a bicycle propelling device capable of transferring power to a bicycle wheel by using the gripping force of both hands. The present propelling device uses the gripping force, and thus overcomes the problem of prior art hand and foot bicycles in which balance is easily lost during driving because the prior art hand and foot bicycles require the use of the arms. The propelling device can be used together with a pedaling operation when greater power is required while the user is riding the bicycle as usual, thereby improving the running efficiency of the bicycle. Furthermore, the propelling device is formed by combining simple devices including a string and a freewheel, and thus a bicycle can maintain the original structure thereof as it is, so that it does not cause any disadvantage or difference when the user rides the bicycle by stepping on pedals in a conventional manner.

A handlebar control for use with a vehicle operated by a user. The vehicle includes a handlebar operable to steer the vehicle and at least one brake configured to slow the vehicle when the at least one brake is activated. The handlebar control includes an actuator assembly mounted on the handlebar and configured to be actuated manually by a hand of the user. When actuated, the actuator assembly being configured to activate the at least one brake and/or another component of the vehicle.

A handlebar control for use with a vehicle operated by a user. The vehicle includes a handlebar operable to steer the vehicle and at least one brake configured to slow the vehicle when the at least one brake is activated. The handlebar control includes an actuator assembly mounted on the handlebar and configured to be actuated manually by a hand of the user. When actuated, the actuator assembly being configured to activate the at least one brake and/or another component of the vehicle.

A grip heater device includes a display unit provided at a grip and including a first light source and a second light source, and a controller including an electric power control section which controls an amount of electric power to be supplied to the heater in response to an operation of a temperature adjustment member, and a light source control section which controls the first light source and the second light source. The display unit is configured to perform: a first color display, a second color display, and a third color display. The light source control section causes the display unit to perform a temperature display with a blinking pattern corresponding to an amount of the electric power supplied to the heater, by use of the first color display, the second color display, or the third color display, in response to the operation of the temperature adjustment member.

In a throttle opening detecting apparatus for a saddle riding vehicle which includes a handle cover, a handle switch group, and a handlebar, and in which a throttle opening sensor fixed to the handlebar and configured to detect a displacement of a rotor in a sensor case is included in the handle cover, at least one switch of the handle switch group is disposed at a position facing the sensor case in the handle cover, and the sensor case has a step portion formed on a side surface thereof on a side opposite to a throttle pipe rotated integrally with the rotor.

In a throttle opening detecting apparatus for a saddle riding vehicle which includes a handle cover, a handle switch group, and a handlebar, and in which a throttle opening sensor fixed to the handlebar and configured to detect a displacement of a rotor in a sensor case is included in the handle cover, at least one switch of the handle switch group is disposed at a position facing the sensor case in the handle cover, and the sensor case has a step portion formed on a side surface thereof on a side opposite to a throttle pipe rotated integrally with the rotor.

Example control devices for operating bicycle components are described herein. An example control device includes a housing having an opening to receive a handlebar of the bicycle and a rotating member rotatably coupled to the housing. The rotating member is rotatable about a first axis. The rotating member is configured to rotate between a first position and a second position to change an operating state of a component. The example control device includes a securing mechanism configured to lock the rotating member in the second position. The example control device also includes a release actuator coupled to the housing. The release actuator has an actuating surface to be engaged by a user and moved along a second axis that intersects the first axis. The release actuator is configured to, when actuated, unlock the securing mechanism to enable the rotating member to rotate back to the first position.

Example control devices for operating bicycle components are described herein. An example control device includes a housing having an opening to receive a handlebar of the bicycle and a rotating member rotatably coupled to the housing. The rotating member is rotatable about a first axis. The rotating member is configured to rotate between a first position and a second position to change an operating state of a component. The example control device includes a securing mechanism configured to lock the rotating member in the second position. The example control device also includes a release actuator coupled to the housing. The release actuator has an actuating surface to be engaged by a user and moved along a second axis that intersects the first axis. The release actuator is configured to, when actuated, unlock the securing mechanism to enable the rotating member to rotate back to the first position.