Patent ID: 9303758
Filing Date: 2016-04-05
CPC Classification: B60K,B60W,B60Y,F16H,Y02T

Claim Text:
1. A control device for controlling a vehicle driving apparatus comprising an input member drive-coupled to a driving force source, an output member drive-coupled to a plurality of wheels, and a speed change mechanism which changes rotation speed from the input member according to a speed ratio of a shift speed formed by releasing or engaging a plurality of engagement devices among a plurality of shift speeds having different speed ratios and transmits the changed rotation speed to the output member, the control device comprising: a shift control section which, when a target shift speed, from among the plurality of shift speeds, is determined according to a required driving force for the wheels and a vehicle speed, becomes different from a current shift speed, releases a release-side engagement device which is at least one of the engagement devices forming the current shift speed, and engages an engagement-side engagement device which is at least one of the engagement devices forming the target shift speed, thereby making the speed change mechanism form the target shift speed, wherein when a shift speed, from among the plurality of shift speeds, is larger in speed ratio than the current shift speed is determined as the target shift speed in a state where the required driving force is equal to or less than a predetermined control judgment value, the shift control section judges that an implementing condition of engagement limited downshift control is met, starts transition control to cause the release-side engagement device to transition from a direct-coupled engagement state to a non-direct-coupled engagement state and, after the release-side engagement device transitions to a non-direct-coupled engagement state, starts increasing rotation speed control to control output torque of the driving force source so that rotation speed of the input member becomes higher than a synchronized rotation speed, which is rotation speed of the input member when the target shift speed is formed in the speed change mechanism, and after rotation speed of the input member becomes higher than the synchronized rotation speed, the shift control section starts a differential rotation speed control to control output torque of the driving force source so that rotation speed of the input member becomes close to a target rotation speed set higher than the synchronized rotation speed, and prohibits engagement of the engagement-side engagement device at least until rotation speed of the input member becomes higher than the synchronized rotation speed.