Methods for positioning multiple trimmable marine propulsion devices on a marine vessel

What is claimed is: 1. A method for positioning two or more trimmable marine propulsion devices coupled to a transom of a marine vessel and powered by respective internal combustion engines, the method being carried out by a controller and comprising: identifying two propulsion devices located one on each of a port side and a starboard side of a vertical centerline of the transom and spaced symmetrically with respect to the centerline of the transom; defining the two propulsion devices as a first set of propulsion devices; setting a first target trim position for the first set of propulsion devices as a function of a vessel operating condition; determining if an actual trim position of each propulsion device in the first set of propulsion devices differs from the first target trim position by at least a given amount; and actuating each propulsion device in the first set of propulsion devices to the first target trim position in response to a determination that the actual trim positions of all propulsion devices in the first set of propulsion devices differ from the first target trim position by at least the given amount. 2. The method of claim 1 , wherein the given amount is a smallest achievable discrete increment of change in trim position that the propulsion devices are capable of achieving. 3. The method of claim 1 , further comprising: identifying at least one additional propulsion device coupled to the transom of the marine vessel; defining the at least one additional propulsion device as a second set of propulsion devices; setting a second target trim position for the second set of propulsion devices as a function of the vessel operating condition; determining if an actual trim position of each propulsion device in the second set of propulsion devices differs from the second target trim position by at least the given amount; and actuating each propulsion device in the second set of propulsion devices to the second target trim position in response to a determination that the actual trim positions of all propulsion devices in the second set of propulsion devices differ from the second target trim position by at least the given amount. 4. The method of claim 3 , further comprising: actuating each propulsion device in the first set of propulsion devices to the first target trim position only if a given time has elapsed since a previous command was sent to actuate all propulsion devices in the first set of propulsion devices to the first target trim position; and actuating each propulsion device in the second set of propulsion devices to the second target trim position only if the given time has elapsed since a previous command was sent to actuate all propulsion devices in the second set of propulsion devices to the second target trim position. 5. The method of claim 3 , wherein the second set of propulsion devices contains one propulsion device that straddles the centerline of the transom. 6. The method of claim 3 , further comprising automatically assigning the propulsion devices on the transom into the first and second sets of propulsion devices based on an identification of which of the propulsion devices on the transom are turned on and not in a fault state. 7. The method of claim 3 , wherein the first target trim position is different from the second target trim position. 8. The method of claim 3 , further comprising: setting the first and second target trim positions in response to a user sync command instead of as a function of the vessel operating condition; actuating an individual propulsion device in the first set of propulsion devices to the first target trim position in response to the user sync command and in response to the actual trim position of the individual propulsion device in the first set of propulsion devices differing from the first target trim position by at least the given amount, regardless of whether the actual trim position of another individual propulsion device in the first set of propulsion devices differs from the first target trim position by at least the given amount; and actuating an individual propulsion device in the second set of propulsion devices to the second target trim position in response to the user sync command and in response to the actual trim position of the individual propulsion device in the second set of propulsion devices differing from the second target trim position by at least the given amount, regardless of whether the actual trim position of another individual propulsion device in the second set of propulsion devices differs from the second target trim position by at least the given amount. 9. The method of claim 8 , wherein in response to a synchronize-to-master user sync command, the method further comprises setting the first and second target trim positions as a current trim position of one of the propulsion devices in the first and second sets of propulsion devices that has been predefined as a master propulsion device. 10. The method of claim 8 , wherein in response to a synchronize-to-average user sync command, the method further comprises setting the first and second target trim positions as an average of current trim positions of all of the propulsion devices in the first and second sets of propulsion devices. 11. The method of claim 8 , wherein in response to a synchronize-to-setpoint user sync command, the method further comprises setting the first target trim position to a first trim setpoint that is based on a current vessel operating condition and setting the second target trim position to a second trim setpoint that is based on the current vessel operating condition. 12. A method for positioning two or more trimmable marine propulsion devices coupled to a transom of a marine vessel and powered by respective internal combustion engines, the method being carried out by a controller and comprising: identifying two propulsion devices located one on each of a port side and a starboard side of a vertical centerline of the transom and spaced symmetrically with respect to the centerline of the transom; defining the two propulsion devices as a first set of propulsion devices; identifying at least one additional propulsion device coupled to the transom of the marine vessel; defining the at least one additional propulsion device as a second set of propulsion devices; setting a first target trim position for the first set of propulsion devices; and setting a second target trim position for the second set of propulsion devices; wherein the controller sets the first and second target trim positions according to one of the following: (a) in response to a user sync command; or (b) automatically as a function of a vessel operating condition; wherein when the controller sets the first and second target trim positions automatically as a function of the vessel operating condition, the method further comprises: actuating each propulsion device in the first set of propulsion devices to the first target trim position in response to a determination that actual trim positions of all propulsion devices in the first set of propulsion devices differ from the first target trim position by at least a given amount; and actuating each propulsion device in the second set of propulsion devices to the second target trim position in response to a determination that actual trim positions of all propulsion devices in the second set of propulsion devices differ from the second target trim position by at least the given amount; and wherein when the controller sets the first and second target trim positions in response to the user sync command, the method further comprises: actuating an individual propulsion devic