Patent ID: 8142320

Claim:
A shift control apparatus in a stepped automatic transmission having a plurality of friction engagement elements whose engagement states achieve a plurality of corresponding power transmission paths in a speed change gear mechanism and which shifts speeds by switching engagement among the plurality of friction engagement elements, the shift control apparatus comprising: a controller operative to control a downshift to a speed spaced apart by two or more steps through an intermediate shift speed by disconnecting and connecting respective pairs of the plurality of friction engagement elements at a single switching of the engagement of the plurality of friction engagement elements; wherein the pairs of the friction engagement elements comprise: a first pair of friction engagement elements comprising a first shift release element that is in an engaged state at a high shift speed that is higher in speed than the intermediate shift speed and released during shifting from the high shift speed to the intermediate shift speed, and a second shift release element that is in an engaged state at the high shift speed, maintains the engagement during shifting from the high shift speed to the intermediate shift speed and releasing the engagement during shifting from the intermediate shift speed to a low shift speed that is lower in speed than the intermediate shift speed; and a second pair of friction engagement elements comprising a first shift engagement element that is in a released state at the high shift speed and engaged at the intermediate shift speed, and maintain the engagement until reaching the low shift speed, and a second shift engagement element that is in a released state at both the high and intermediate shift speeds, and engaged at the low shift speed; wherein during the downshift, the controller, after sequentially reducing torque capacity of the first shift release element and the second shift release element, increases torque capacity of the first shift engagement element so as to be higher than the torque capacity of the second shift release element, and then increases and again reduces the torque capacity of the second shift release element by feedback control, so that an appropriate rotation change is produced, and also controls so that the torque capacity of the first shift engagement element which forms a reaction force during the feedback control is increased in accordance with the increase in the torque capacity of the second shift release element, so as to be higher than the torque capacity of the second shift release element, while monitoring the torque capacity of the second shift release element controlled by the feedback control.