Systems and methods for automatically controlling attitude of a marine vessel with trim devices

What is claimed is: 1. A method for controlling a trim position of a trimmable drive unit powered by an engine with respect to a marine vessel, the method comprising: with a controller, determining a target trim position of the drive unit as a function of at least one of a speed of the vessel and a speed of the engine; measuring an actual trim position of the drive unit; comparing the actual trim position to the target trim position with the controller; and sending a first control signal to a trim actuator to trim the drive unit in a first direction toward the target trim position in response to a determination by the controller that the actual trim position is not equal to the target trim position and that at least two of the following are true: a defined dwell time has elapsed since a previous control signal was sent to the trim actuator to trim the drive unit; a given number of previous control signals has not been exceeded in an attempt to achieve the target trim position; and a difference between the target trim position and the actual trim position is outside of a given deadband. 2. The method of claim 1 , further comprising sending a second control signal for a defined brake time to trim the drive unit in an opposite, second direction in response to a determination that the actual trim position has one of achieved and exceeded the target trim position. 3. The method of claim 2 , wherein the brake time is on the order of tens of milliseconds. 4. The method of claim 3 , further comprising determining the brake time as a function of one or more of: how long it takes for the second control signal to result in movement of the trim actuator, the vessel speed, the target trim position, the actual trim position, and a type of the drive unit. 5. The method of claim 1 , further comprising: learning a maximum achievable trim position of the drive unit over time; and discontinuing sending the first control signal to the trim actuator in response to a determination that both of the following are true: the target trim position is greater than the maximum achievable trim position; and the actual trim position is within the deadband of the maximum achievable trim position. 6. The method of claim 5 , wherein the maximum achievable trim position is proximate a demarcation between a trim range and a tilt range of the drive unit. 7. The method of claim 6 , further comprising learning the maximum achievable trim position only when the target trim position is greater than a given trim position and a rate of change of the actual trim position has been less than a given rate of change for a given period of time. 8. The method of claim 7 , wherein the given trim position is within 10 percent of the demarcation between the trim range and the tilt range. 9. The method of claim 1 , wherein the deadband is a smallest discrete increment of change in trim position that the drive unit is capable of achieving. 10. The method of claim 1 , wherein the trim actuator comprises a hydraulic piston-cylinder in fluid communication with a hydraulic pump-motor combination. 11. A system for controlling a trim position of a trimmable drive unit powered by an engine with respect to a marine vessel, the system comprising: a trim actuator positioning the drive unit with respect to the marine vessel; a trim sensor that determines an actual trim position of the drive unit; and a controller that determines a target trim position of the drive unit as a function of at least one of a speed of the marine vessel and a speed of the engine, the controller being in signal communication with the trim actuator and the trim sensor; wherein the controller compares the actual trim position to the target trim position; and wherein the controller sends a first control signal to the trim actuator to trim the drive unit in a first direction toward the target trim position and to the target trim position or to a maximum achievable trim position of the drive unit in response to a determination that the actual trim position is not equal to the target trim position and that at least one of the following is true: a defined dwell time has elapsed since a previous control signal was sent to the trim actuator to trim the drive unit; a given number of previous control signals has not been exceeded in an attempt to achieve the target trim position; and a difference between the target trim position and the actual trim position is outside of a given deadband. 12. The system of claim 11 , wherein the controller further sends a second control signal for a defined brake time to trim the drive unit in an opposite, second direction in response to a determination that the actual trim position has one of achieved and exceeded the target trim position. 13. The system of claim 12 , wherein the brake time is on the order of tens of milliseconds. 14. The system of claim 13 , wherein the controller determines the brake time as a function of one or more of: how long it takes for the second control signal to result in movement of the trim actuator, the vessel speed, the target trim position, the actual trim position, and a type of the drive unit. 15. The system of claim 11 , wherein the controller further: learns the maximum achievable trim position of the drive unit over time; and discontinues sending the first control signal to the trim actuator in response to a determination that both of the following are true: the target trim position is greater than the maximum achievable trim position; and the actual trim position is within the deadband of the maximum achievable trim position. 16. The system of claim 11 , wherein the deadband is a smallest discrete increment of change in trim position that the drive unit is capable of achieving. 17. The system of claim 11 , wherein the trim actuator comprises a hydraulic piston-cylinder in fluid communication with a hydraulic pump-motor combination. 18. The system of claim 11 , wherein the trim actuator comprises an electric linear actuator. 19. A method for controlling a trim position of a trimmable drive unit powered by an engine with respect to a marine vessel, the method comprising: with a controller, determining a target trim position of the drive unit as a function of one of a speed of the vessel and a speed of the engine; measuring an actual trim position of the drive unit; comparing the actual trim position to the target trim position with the controller; sending a first control signal to a trim actuator to trim the drive unit in a first direction toward the target trim position in response to a determination by the controller that the actual trim position is not equal to the target trim position; and sending a second control signal for a defined brake time to trim the drive unit in an opposite, second direction in response to a determination that the actual trim position has one of achieved and exceeded the target trim position; wherein the brake time is on the order of tens of milliseconds. 20. The method of claim 19 , further comprising: learning a maximum achievable trim position of the drive unit over time; and discontinuing sending the first control signal to the trim actuator in response to a determination that both of the following are true: the target trim position is greater than the maximum achievable trim position; and the actual trim position is within a given deadband of the maximum achievable trim position.