Method to perform intake cam lift state transitions

What is claimed is: 1. A method of transitioning between two intake valve lift states in an internal combustion engine, comprising the steps of: providing an instruction to shift an intake valve lift state from a first state to a second state, determining current angular positions of an intake cam and an exhaust cam, determining if an intake cam and an exhaust cam are in angular positions wherein the instructed shift will result in constant engine torque output before and after the commanded shift, adjusting a phase of the intake cam and the exhaust cam to provide constant torque before and after the instructed shift, commanding an intake cam transition from a first lift state to a second lift state and wherein an exit threshold of the intake cam transition from the first lift state to the second lift state is lower than an entrance threshold of the intake cam transition from the first lift state to the second lift state. 2. The method of transitioning between two intake valve lift states of claim 1 wherein the instruction to shift the intake valve lift state is generated in an engine control module. 3. The method of transitioning between two intake valve lift states of claim 1 further including the step of retarding engine spark when commanding the intake cam transition. 4. The method of transitioning between two intake valve lift states of claim 1 wherein the step of adjusting the phase of intake and exhaust cams delays the step of commanding the intake cam transition. 5. The method of transitioning between two intake valve lift states of claim 1 further including the step of utilizing look up tables to determine camshaft phases which provide constant engine torque output under current operating conditions at two cam lift states. 6. The method of transitioning between two intake valve lift states of claim 1 further including the step of polling a plurality of engine sensors to determine current operating conditions. 7. The method of transitioning between two intake valve lift states of claim 6 further including the step of determining engine speed and engine load to calculate engine torque. 8. A method of transitioning between a first intake valve state and a second, distinct valve state in an cylinder of an internal combustion engine, comprising the steps of: providing an instruction to shift an intake valve lift state from the first state to the second state, determining a instantaneous angular position of an intake cam and an exhaust cam, determining if an intake cam and an exhaust cam are in positions wherein the commanded shift will result in constant engine torque output before and after the commanded shift, adjusting the instantaneous angular position of the intake cam and the exhaust cam to provide constant torque before and after the commanded shift, commanding an actuator to shift an intake cam assembly from the first lift state to the second lift state and wherein an exit threshold of the actuator to shift an intake cam assembly from the first lift state to the second lift state is lower than an entrance threshold of the actuator to shift an intake cam assembly from the first lift state to the second lift state. 9. The method of transitioning between a first intake valve state and a second valve state in a cylinder of an internal combustion engine of claim 8 wherein the first state is a high lift cam state providing performance and the second state is a low lift cam state providing fuel economy. 10. The method of transitioning between a first intake valve state and a second valve state in a cylinder of an internal combustion engine of claim 8 wherein the first state is a low lift cam state providing fuel economy and the second state is a high lift cam state providing performance. 11. The method of transitioning between a first intake valve state and a second valve state in a cylinder of an internal combustion engine of claim 8 wherein the instruction to shift the intake valve lift state is generated in an engine control module. 12. The method of transitioning between a first intake valve state and a second intake valve state in a cylinder of an internal combustion engine of claim 8 further including the step of retarding engine spark when commanding the actuator to shift the intake cam assembly. 13. The method of transitioning between a first intake valve state and a second intake valve state in a cylinder of an internal combustion engine of claim 8 wherein the step of adjusting the phase of intake and exhaust cams delays the step of commanding an actuator to shift the intake cam assembly. 14. The method of transitioning between a first intake valve state and a second intake valve state in a cylinder of an internal combustion engine of claim 8 further including the step of utilizing look up tables to determine camshaft phases which provide constant engine torque output under current operating conditions at two cam lift states. 15. A method of transitioning between intake valve states in an internal combustion engine, comprising the steps of: monitoring current operating conditions of the internal combustion engine, determining that the current operating condition require a change in intake valve lift state, providing an instruction to shift an intake valve lift state from a first lift state to a second lift state, determining current phases of an intake cam and an exhaust cam, adjusting phases of the intake cam and exhaust cam to provide constant torque before and after the commanded shift, commanding an intake cam transition from the first lift state to the second lift state and wherein an exit threshold of the intake cam transition from the first lift state to the second lift state is lower than an entrance threshold of the intake cam transition from the first lift state to the second lift state. 16. The method of transitioning between intake valve states of an internal combustion engine of claim 15 further including the step of utilizing look up tables to determine intake and exhaust cam phases which provide constant engine torque output under current operating conditions at two cam lift states. 17. The method of transitioning between intake valve states in an internal combustion engine of claim 15 wherein the instruction to shift the intake valve lift state is generated in an engine control module. 18. The method of transitioning between intake valve states in an internal combustion engine of claim 15 further including the step of retarding engine spark when commanding the intake cam transition. 19. The method of transitioning between intake valve states in an internal combustion engine of claim 15 further including the step of utilizing look up tables to determine the intake and exhaust cam phases which provide constant engine torque output under current operating conditions at two cam lift states.