A marine vessel having a propeller that provides propulsive force to the marine vessel, and a course control system. The course control system includes a course changing mechanism that changes a course of the marine vessel, and a controller configured or programmed to detect a sudden movement of the marine vessel originating from broaching caused by a following wave of the marine vessel, and upon detecting the sudden movement of the marine vessel originating from the broaching, control a rotation rate of the propeller and/or cause the course changing mechanism to change the course of the marine vessel.

A marine vessel having a propeller that provides propulsive force to the marine vessel, and a course control system. The course control system includes a course changing mechanism that changes a course of the marine vessel, and a controller configured or programmed to detect a sudden movement of the marine vessel originating from broaching caused by a following wave of the marine vessel, and upon detecting the sudden movement of the marine vessel originating from the broaching, control a rotation rate of the propeller and/or cause the course changing mechanism to change the course of the marine vessel.

A system for guiding a first watercraft remotely has a rudder proximate the stern of the first watercraft, having a rudder shaft extending upward from a deck area at the stern, a servo device having an output servo horn coupled to the rudder shaft by a linkage, adapted to turn the rudder shaft in concert with the servo horn, a radio receiver/controller adapted for receiving radio signals for guiding the first watercraft, the radio receiver/controller coupled to the servo device, and a radio transmitter having an input wheel for providing steering commands. The system is characterized in that the input wheel of the radio transmitter is manipulated by a user remote from the watercraft, the radio signals for guiding the first watercraft are transmitted from the radio transmitter to the radio receiver/controller on the first watercraft, and the radio receiver/controller provides operating signals to the servo device to rotate the servo horn either clockwise or counterclockwise, guiding the first watercraft.

A system for guiding a first watercraft remotely has a rudder proximate the stern of the first watercraft, having a rudder shaft extending upward from a deck area at the stern, a servo device having an output servo horn coupled to the rudder shaft by a linkage, adapted to turn the rudder shaft in concert with the servo horn, a radio receiver/controller adapted for receiving radio signals for guiding the first watercraft, the radio receiver/controller coupled to the servo device, and a radio transmitter having an input wheel for providing steering commands. The system is characterized in that the input wheel of the radio transmitter is manipulated by a user remote from the watercraft, the radio signals for guiding the first watercraft are transmitted from the radio transmitter to the radio receiver/controller on the first watercraft, and the radio receiver/controller provides operating signals to the servo device to rotate the servo horn either clockwise or counterclockwise, guiding the first watercraft.

A marine vessel having a propeller that provides propulsive force to the marine vessel, and a course control system. The course control system includes a course changing mechanism that changes a course of the marine vessel, and a controller configured or programmed to detect a sudden movement of the marine vessel originating from broaching caused by a following wave of the marine vessel, and upon detecting the sudden movement of the marine vessel originating from the broaching, control a rotation rate of the propeller and/or cause the course changing mechanism to change the course of the marine vessel.

A marine vessel having a propeller that provides propulsive force to the marine vessel, and a course control system. The course control system includes a course changing mechanism that changes a course of the marine vessel, and a controller configured or programmed to detect a sudden movement of the marine vessel originating from broaching caused by a following wave of the marine vessel, and upon detecting the sudden movement of the marine vessel originating from the broaching, control a rotation rate of the propeller and/or cause the course changing mechanism to change the course of the marine vessel.

A steering assist unit for a tiller handle of an outboard motor includes a housing, a pump, and a hydraulic actuator. The housing is connected to the tiller handle. The pump is housed in the housing. The hydraulic actuator is driven by hydraulic fluid from the pump. The hydraulic actuator applies an assist steering force to the outboard motor.

A steering device for an outboard motor is rotatably supported on a hull of a boat about a steering axis. The steering device includes a tiller handle, an actuator, and a linkage. The tiller handle is attached to the outboard motor. The actuator rotates the tiller handle about the steering axis. The link linkage is movably disposed between a connection position and a blocking position. The linkage transmits the driving force from the actuator to the tiller handle at the connection position. The linkage shuts off the transmission of the driving force from the actuator to the tiller handle at the blocking position.

A steering device for an outboard motor is rotatably supported on a hull of a boat about a steering axis. The steering device includes a tiller handle, an actuator, and a linkage. The tiller handle is attached to the outboard motor. The actuator rotates the tiller handle about the steering axis. The link linkage is movably disposed between a connection position and a blocking position. The linkage transmits the driving force from the actuator to the tiller handle at the connection position. The linkage shuts off the transmission of the driving force from the actuator to the tiller handle at the blocking position.

A redundant steering system for watercraft that transfers rudder control to an electronic steering system when a hydraulic steering system either fails or is under repair. The electronic steering system utilizes either a fueled generator or a battery or series of batteries to power electric steering and flanking motors that serve control the angular position of the rudders.