Clutch control in a continuously variable transmission

What is claimed is: 1. A method for controlling a clutch of a continuously variable transmission (CVT) including a variator assembly for a motor vehicle, the method comprising: determining whether a predetermined condition is met for applying a clutch critical pressure to the clutch, the clutch critical pressure being less than a line pressure, the clutch critical pressure being a pressure at which the clutch may slip upon experiencing a predetermined minimum torque disturbance level; if the predetermined condition is met, commanding the clutch critical pressure to be applied to the clutch; determining whether the clutch is slipping beyond a predetermined threshold; and if the clutch is slipping beyond the predetermined threshold, commanding a clutch slip control scheme to be applied to the clutch that is configured to bring a clutch slip of the clutch under the predetermined threshold, wherein the step of commanding the clutch slip control scheme comprises activating a slip recovery decay timer. 2. The method of claim 1 , wherein the step of commanding the clutch slip control scheme includes implementing a feedback control scheme within a decay timeframe bound by the slip recovery decay timer. 3. The method of claim 2 , wherein implementing the feedback control scheme includes implementing a proportional-integral-derivative (PID) control scheme to bring the clutch slip of the clutch under the predetermined threshold within the decay timeframe. 4. The method of claim 3 , wherein the predetermined condition includes at least one of the following: the CVT being in an optimal clamping control mode and an auxiliary pump being on. 5. The method of claim 4 , wherein the step of commanding the clutch critical pressure to be applied to the clutch includes maintaining the clutch critical pressure by applying a slip feedback control. 6. The method of claim 5 , further comprising determining a rough road status of the vehicle, the clutch critical pressure being a clutch critical low pressure, the method further comprising commanding a clutch critical high pressure to be applied to the clutch if the rough road status of the vehicle is positive and the predetermined condition is met, the clutch critical high pressure being greater than the clutch critical low pressure and less than the line pressure, the clutch critical high pressure being a pressure at which the clutch may slip upon experiencing a predetermined medium torque disturbance level, the predetermined medium torque disturbance level being greater than the predetermined minimum torque disturbance level. 7. The method of claim 6 , wherein a positive rough road status includes at least one of the following: a predetermined number of bumps in a bump threshold timeframe; a wheel slip magnitude exceeding a wheel slip magnitude threshold for longer than a holding timeframe; a predetermined number of wheel slip detections in a rough road timeframe, the wheel slip detections being instances wherein the wheel slip magnitude exceeds the wheel slip magnitude threshold; and vehicle acceleration exceeding a predetermined acceleration threshold. 8. A transmission control system for controlling a clutch of a continuously variable transmission (CVT) having a variator assembly, the transmission control system comprising an instruction set, the instruction set executable to: determine whether a predetermined condition is met for applying a clutch critical pressure to the clutch, the clutch critical pressure being less than a line pressure, the clutch critical pressure being a pressure at which the clutch may slip upon experiencing a predetermined minimum torque disturbance level; command the clutch critical pressure to be applied to the clutch if the predetermined condition is met; determine whether the clutch is slipping beyond a predetermined threshold; and if the clutch is slipping beyond the predetermined threshold, command a clutch slip control scheme to be applied to the clutch that is configured to bring a clutch slip of the clutch under the predetermined threshold, wherein the transmission control system is configured to activate a slip recovery decay timer as part of the clutch slip control scheme. 9. The transmission control system of claim 8 , wherein, as part of the clutch control scheme, the transmission control system is configured to implement a feedback control scheme within a decay timeframe bound by the slip recovery decay timer. 10. The transmission control system of claim 9 , wherein, as part of the clutch control scheme, the transmission control system is configured to implement a proportional-integral-derivative (PID) control scheme to bring the clutch slip of the clutch under the predetermined threshold within the decay timeframe. 11. The transmission control system of claim 10 , wherein the predetermined condition includes at least one of the following: the CVT being in an optimal clamping control mode and an auxiliary pump being on. 12. The transmission control system of claim 11 , wherein the transmission control system is configured to command the clutch critical pressure to be applied to the clutch by maintaining the clutch critical pressure through applying a slip feedback control. 13. The transmission control system of claim 12 , wherein the transmission control system is configured to determine a rough road status of the vehicle, the clutch critical pressure being a clutch critical low pressure, the transmission control system being configured to command a clutch critical high pressure to be applied to the forward clutch if the rough road status of the vehicle is positive and the predetermined condition is met, the clutch critical high pressure being greater than the clutch critical low pressure and less than the line pressure, the clutch critical high pressure being a pressure at which the clutch may slip upon experiencing a predetermined medium torque disturbance level, the predetermined medium torque disturbance level being greater than the predetermined minimum torque disturbance level, wherein a positive rough road status includes at least one of the following: a predetermined number of bumps in a bump threshold timeframe; a wheel slip magnitude exceeding a wheel slip magnitude threshold for longer than a holding timeframe; a predetermined number of wheel slip detections in a rough road timeframe, the wheel slip detections being instances wherein the wheel slip magnitude exceeds the wheel slip magnitude threshold; and vehicle acceleration exceeding a predetermined acceleration threshold. 14. A continuously variable transmission (CVT) for a motor vehicle, comprising: a variator assembly including a first pulley and a second pulley, the first and second pulleys rotatably coupled by a continuous rotatable device, wherein the second pulley is rotatably coupled to an output member; the first pulley including a first moveable sheave that is translatable along a first axis relative to a first stationary sheave in response to urging of a first actuator; the second pulley including a second moveable sheave that is translatable along a second axis relative to a second stationary sheave in response to urging of a second actuator; a clutch selectively engageable to couple the first pulley to an input member to place the CVT in a forward mode of operation; and a control system having at least one controller and one or more sensors in communication with the controller, the control system including an instruction set, the instruction set executable to: determine whether a predetermined condition is met for applying a clutch critical pressure to the clutch, the clutch critical pressure be