Geartrain

Geartrain
The gear train consists of the planetary gear set, apply components, final drive gear set and differential.

Planetary Gear Set





The transaxle has two planetary gear set to provide operation in reverse and four forward speeds.
The gear set are comprised of the following components:
^ front sun gear (part of the front sun gear and shell assembly)
^ front carrier
^ rear ring gear
^ front ring gear and rear carrier
^ rear sun gear

Turbine Shaft
The turbine shaft is splined to both the torque converter stator and the drive sprocket. This allows input torque to be transmitted from the torque converter to the drive chain and driven sprocket.

Output Shaft
The output shaft is splined to one of the differential side gears on one end, supported by the driven sprocket and driven sprocket support on the other end. This allows power flow through the differential for even output torque to the drive axles.

Drive Chain and Sprockets
A chain drive transfers torque from the torque converter turbine to the planetary gear set. The chain drive is composed of the following components:
^ drive sprocket
^ driven sprocket
^ drive chain





The transaxle case has a support for the drive sprocket that also serves as the support for the torque converter stator. A driven sprocket support mounts in the barrel of the transaxle case and also supports the clutches and gear set components.

Final Drive Gear Set
The final drive consists of a planetary gear set that transfers and multiplies torque from the planetary gear set to the differential.
The final drive consists of the following components:
^ sun gear
^ carrier (part of the differential case)
^ ring year
The sun gear is splined to the front ring gear and rear carrier of the planetary gear set. The sun gear acts as the driving member and the carrier as the driven member. The ring gear is held stationary inside the case using lugged teeth.

Differential
The differential allows the halfshafts and wheels to rotate at different speeds during cornering.
The differential assembly consists of the following components:
^ differential case (part of the final drive carrier)
^ two pinion gears supported by a pinion shaft
^ two side gears supported by the differential case and halfshafts
When driving in a straight line both front wheels rotate at relatively the same speed. This means both side gears are rotating at the same speed, as well, while both pinion gears revolve (but do not rotate) with the side gears. During cowering, the wheel on the outside of the turn is forced to rotate faster than the wheel on the inside of the turn. Since the side gears must now rotate at different speeds, the pinion gears rotate on the pinion shaft allowing the drive axles to rotate at different speeds while still transferring output torque.