Coordination of vehicle actuators during firing fraction transitions

The invention claimed is: 1. A method of controlling an engine to deliver a requested engine output, the method comprising: (a) while the engine is operating at a first firing fraction and an associated first cam phase, determining a requested firing fraction that is different than the first firing fraction, the requested firing fraction being a second firing fraction having an associated second cam phase, the second cam phase being different than the first cam phase; (b) selecting an intermediate firing fraction that is between the first and second firing fractions, the intermediate firing fraction having an associated intermediate cam phase; (c) identifying the selected intermediate firing fraction as a target firing fraction and the intermediate cam phase as a target cam phase; (d) initiating a transition from the first cam phase to one of the second cam phase or the target cam phase; (e) after an actual cam phase is at or within a predetermined range of the target cam phase transitioning to the target firing fraction; (f) when the target firing fraction is not the second firing fraction, selecting a next firing fraction having an associated next cam phase and setting the target firing fraction to be the next firing fraction and setting the target cam phase to be the next cam phase and causing the cam phase to transition towards the next cam phase or the second cam phase; and (g) iteratively repeating (e) and (f) until the requested firing fraction is reached; and (h) directing operation of the engine during the transitions to deliver the requested engine output, whereby an actual commanded firing fraction changes over a course of the transition. 2. The method as recited in claim 1 wherein when the first firing fraction is greater than one half and the target firing fraction is less than one half, the intermediate firing fraction is one half. 3. The method as recited in claim 1 wherein: an engine controller that directs the firing fraction transitions has a defined set of potential operational firing fractions; at various particular operating conditions, only an associated subset of the potential operational firing fractions are designated as candidates for use; the firing fraction candidates for use do not always include all potential operational firing fractions that are capable of delivering the requested engine output; and each target firing fraction is selected from the firing fraction candidates for use at current operating conditions. 4. The method as recited in claim 3 wherein the intermediate firing fraction is determined by selecting the lowest firing fraction candidate that has an associated cam phase within a predefined range of the first cam phase at the current operating conditions. 5. The method as recited in claim 3 wherein the next firing fraction is determined by selecting the lowest firing fraction candidate that has an associated cam phase within a predefined range of the previous target cam phase. 6. The method as recited in claim 5 wherein the predefined range of the target cam phase is no more than about ±3 degrees of crank shaft angle at the current operating conditions. 7. The method as recited in claim 3 wherein each selected next firing fraction is the lowest firing fraction candidate that has an associated cam phase within the predefined range of the immediately preceding target firing fraction, or the next lower firing fraction candidate when no lower firing fraction candidate has an associated cam phase within the predefined range. 8. The method as recited in claim 3 wherein each selected next firing fraction is the next lower firing fraction candidate. 9. The method as recited in claim 3 wherein: when at least one of the firing fraction candidates that is lower than the first firing fraction has an associated cam phase within a predefined range of the first cam phase at the current operating conditions, the intermediate firing fraction is the lowest firing fraction candidate that has an associated cam phase within the predefined range; and when no lower firing fraction candidate has an associated cam phase within the predefined range, the intermediate firing fraction is either a predefined firing fraction or the next lower firing fraction candidate. 10. The method as recited in claim 1 wherein during each firing fraction transition, a commanded firing fraction and a commanded intake manifold pressure are changed during the transition in a manner that helps provide the desired engine output throughout the transition. 11. The method as recited in claim 1 wherein when the requested firing fraction changes during a transition to a new requested firing fraction that is higher than a then current firing fraction, a firing fraction immediately begins transitioning to the new requested firing fraction. 12. The method as recited in claim 1 wherein when the requested firing fraction changes during a transition to a new requested firing fraction that is lower than a then current firing fraction, the transition continues according to the method of claim 1 to the new requested firing fraction and a new second cam phase associated with the new requested firing fraction. 13. The method as recited in claim 1 wherein: an engine controller that directs the firing fraction transitions has a defined set of firing fraction candidates; each target firing fraction is selected from the firing fraction candidates for use at current operating conditions. 14. The method as recited in claim 1 wherein the target firing fraction is a lesser fraction than the first firing fraction. 15. The method as recited in claim 1 wherein the set of available firing fractions only includes one and fractions having a denominator that is not greater than nine. 16. A method of controlling an engine to deliver a requested engine output, the method comprising: while the engine is operating at a first firing fraction having an associated first cam phase, determining a desired second firing fraction and an associated second cam phase, the second cam phase being different than the first cam phase; initiating a transition from the first cam phase to the second cam phase; after an actual cam phase is at or within a predetermined range of the second cam phase transitioning to the second firing fraction, wherein transition to the second firing fraction is initiated only after the actual cam phase is at or within the predetermined range of the second cam phase; and directing operation of the engine during the transitions to deliver the requested engine output, whereby an actual commanded firing fraction gradually changes over a course of the transition from the first firing fraction to the second firing fraction. 17. An engine controller arranged to direct skip fire operation of an engine, the engine controller being configured to: (a) direct operation of the engine at a first firing fraction and a first cam phase; (b) while the engine is operating at the first firing fraction and the first cam phase, determine a requested firing fraction that is different than the first firing fraction, the requested firing fraction being a second firing fraction having an associated second cam phase, the second cam phase being different than the first cam phase; (c) select an intermediate firing fraction that is between the first and second firing fractions, the intermediate firing fraction having an associated intermediate cam phase; (d) identify the selected intermediate firing fraction as a target firing fraction and the intermediate cam phase as a target cam phase; (e) in