Hydraulic Flows

Hydraulic Flow
As the engine turns, the ATF pump starts to operate. Automatic transmission fluid (ATF) is drawn through the ATF strainer and discharge into the hydraulic circuit. Then, ATF flowing from the ATF pump flows the PH regulator valve and becomes pressure high (PH) pressure. PH pressure flows to the pulley control valves and then to the pulleys. The TCM actuates the solenoids to control hydraulic pressure shifting pulley ratio and engaging the start clutch.





Hydraulic pressure at the port is as follows:





General Chart of Hydraulic Pressure

R Position





Fluid from the ATF pump is regulated pressure to high at the PH regulator valve, and flows to the pulley control valves. The CVT driven pulley pressure control valve and the CVT drive pulley pressure control valve control the pulley control valves A and B to apply pressure to the pulleys. The driven pulley receives pressure higher than pressure drive pulley receives, but hydraulic pressure to the forward clutch is intercepted by the manual valve and to the start clutch is intercepted by the CVT start clutch pressure control valve. Under this condition, hydraulic pressure is not applied to the start and forward clutches.

[D] Position, at low speed range





The manual valve is shifted into the [D] position, and uncovers the port leading forward clutch pressure (FWD) to the forward clutch. The forward clutch pressure (FWD) flows to the forward clutch, the forward clutch is engaged, and drives the input shaft and drive pulley shaft. The drive pulley receives low pressure, and driven pulley receives high pressure. The TCM actuates the CVT start clutch pressure control valve to control start clutch pressure. The start clutch control pressure (CC) from the CVT start clutch pressure control valve becomes the start clutch pressure (SC) at the shift inhibitor valve, and flows to the start clutch. The start clutch is engaged, and the vehicle moves.

[D] Position, at middle speed range





As the speed of the vehicle reaches the prescribed value, the TCM controls the CVT driven pulley pressure control valve and the CVT drive pulley pressure control valve to provide about the same hydraulic pressure to the pulleys. The diameter contacted with the steel belt on the drive and driven pulleys become nearly equal, and the pulley ratio is in middle. Hydraulic pressure is then applied to the start and forward clutches.

[D] Position, at high speed range





Vehicle speed is further increased, the TCM controls the CVT driven pulley pressure control valve and the CVT drive pulley pressure control valve to apply hydraulic pressure to the drive pulley and to the driven pulley. The drive pulley receives high pressure and the driven pulley receives low. The drive pulley provides the steel belt a large-diameter contact and the driven pulley provides a small-diameter contact, and the result is a high pulley ratio. Hydraulic pressure remains to apply to the start and forward clutches.

[R] Position





The manual valve is shifted into the [R] position, uncovers the port leading to the reverse brake pressure (RVS) to the reverse inhibitor valve. The reverse inhibitor solenoid is turned OFF by the TCM, and reverse inhibitor pressure (RI) is applied to the right end of the reverse inhibitor valve. The reverse inhibitor valve is moved to the left side, and uncovers the port leading reverse brake pressure (RVS) to the reverse brake. Clutch reducing pressure (CR) becomes reverse brake pressure (RVS), and flows to the reverse brake via the reverse inhibitor valve. The reverse brake is engaged, and it locks the planetary carrier.

NOTE: When used, "left" or "right" indicates direction on the hydraulic circuit.

[R] Position
Reverse Inhibitor Control





If the [R] position is selected while the vehicle is moving forward at speeds over 6 mph (10 km/h), the TCM outputs signal to turn ON the reverse inhibitor solenoid, and reverse inhibitor pressure (RI) in the right end of the reverse inhibitor valve is released. The reverse inhibitor valve is moved to the right side, and uncovers the port to stop reverse brake pressure to the reverse brake from the manual valve. Reverse brake pressure (RVS) is not applied to the reverse brake, and power is not transmitted to the reverse direction.

NOTE: When used, "left" or "right" indicates direction on the hydraulic circuit.

[P] Position





The manual valve is shifted into the [P] position, the manual valve intercepts hydraulic pressure to the forward clutch. Hydraulic pressure is not applied to the start and forward clutches, and power is not transmitted to the drive pulley shaft.

[D] Position, when an electronic control system malfunction occurs.





When an electronic control system malfunction occurs, the CVT start clutch pressure control valve cannot operate the control start clutch pressure circuit, the transmission creates the temporary circuit of the start clutch pressure control to allow the vehicle to be driven.
The CVT start clutch control valve covers the port leading start clutch control pressure (CC) to the shift inhibitor valve, and the shift inhibitor valve is moved to the left side by drive pulley control pressure (DRC). Clutch reducing pressure (CR) becomes shift inhibitor pressure (SI) at the shift inhibitor valve, flows to the left side of the start clutch back-up valve, and becomes start clutch control B pressure (CCB). Start clutch control B pressure (CCB) becomes start clutch pressure (SC) at the shift inhibitor valve, and flows to the start clutch. Clutch reducing pressure (CR) also flows to the manual valve, and becomes to forward clutch pressure (FWD). The start clutch and the forward clutch are engaged, and the vehicle will move.

NOTE: When used, "left" or "right" indicates direction on the hydraulic circuit.

[R] Position, when an electronic control system malfunction occurs.





When an electronic control system malfunction occurs, and the CVT start clutch pressure control valve cannot operate the control start clutch pressure circuit, the transmission creates the temporary circuit of the start clutch pressure control to allow the vehicle to be driven.
The CVT start clutch control valve covers the port leading start clutch control pressure (CC) to the shift inhibitor valve, and the shift inhibitor valve is moved to the left side by drive pulley control pressure (DRC). Clutch reducing pressure (CR) becomes shift inhibitor pressure (SI) at the shift inhibitor valve, flows to the left side of the start clutch back-up valve, and becomes start clutch control B pressure (CCB). Start clutch control B pressure (CCB) becomes start clutch pressure (SC) at the shift inhibitor valve, and flows to the start clutch. Clutch reducing pressure (CR) also flows to the manual valve, and becomes to reverse brake pressure (RVS). The start clutch and the reverse brake are engaged, and the vehicle will reverse.

NOTE: When used, "left" or "right" indicates direction on the hydraulic circuit.

Park Mechanism





The park mechanism locks the transmission by engaging the park pawl with the park gear which is integral with the secondary drive gear. The secondary drive gear engages with the secondary driven gear which is splined with the final drive shaft, and the final drive gear integrated with the final drive shaft engages the final driven gear. Shifting to the [P] position causes the park cone (installed at the end of the park rod) to press the park pawl onto the park gear. Even if the end of the park pawl rides on the top of the park gear teeth, slight movement of the vehicle will cause the park pawl and park gear to mesh with each other completely because the park rod spring puts tension on the park cone. The park pawl receives the tension (which acts to separate the park pawl from the park gear) from the park pawl spring.