Temporal configuration of a motion sensor in an implantable medical device

What is claimed is: 1. A method of operating an implantable device (ID) adapted for disposition within the heart of a patient, the ID comprising a motion sensor for detecting movement of the patient, the method comprising: initializing the ID by: contemporaneously collecting a set of data points from the motion sensor and from a cardiac electrical signal; correlating time periods within the set of data points from the motion sensor to cardiac activity reflected by the cardiac electrical signal; and configuring the ID to capture data from the motion sensor by reference to specific repeatable elements of the cardiac electrical signal; using the ID as configured in the initializing step to capture cardiac signals of the patient and motion signals for the patient. 2. The method of claim 1 further comprising; using the motion signals to determine an activity level of the patient; and setting and implementing a pacing rate for the patient using the determined activity level. 3. The method of claim 1 wherein the step of configuring the ID to capture data from the motion sensor is performed by: determining when intrinsic mechanical motion of the heart is detected by the motion sensor relative to electrical signals of the heart; and setting a data capture period for the motion sensor relative to a specified electrical signal of the heart to avoid capturing the intrinsic mechanical motion of the heart with the motion sensor. 4. The method of claim 1 wherein the step of configuring the ID to capture data from the motion sensor is performed by: determining when a quiet period in the intrinsic mechanical motion of the heart is detected by the motion sensor relative to electrical signals of the heart; and setting a data capture period for the motion sensor relative to a specified electrical signal of the heart to avoid capturing the intrinsic mechanical motion of the heart with the motion sensor. 5. The method of claim 1 wherein the step of configuring the ID to capture data from the motion sensor includes determining a delay after a T-wave in the cardiac electrical signal. 6. The method of claim 5 wherein the delay is configured as a function of cardiac rate. 7. The method of claim 6 wherein the cardiac rate is determined as a rate of pacing output of the ID. 8. The method of claim 6 wherein the cardiac rate is determined as an intrinsic rate of the patient's heart. 9. The method of claim 1 wherein the specific repeatable elements of the cardiac electrical signal are one of an R-wave or a QRS complex. 10. The method of claim 1 wherein the specific repeatable elements of the cardiac electrical signal comprise the T-wave. 11. The method of claim 1 wherein the step of configuring the ID to capture data from the motion sensor by reference to specific repeatable elements of the cardiac electrical signal further includes configuring the ID to maintain the motion sensor in a low power state except when the ID is capturing data therefrom. 12. An implantable medical device (IMD) adapted for implantation within the heart of a patient and comprising: a plurality of electrodes adapted for one or more of sensing electrical cardiac activity and delivering therapy; a motion sensor for detecting movement of the patient; and a processing module configured to receive signals from the motion sensor and from the plurality of electrodes to determine patient status, wherein the processing module is configured to enhance the operation of the device by: initializing the IMD by: contemporaneously collecting a set of data points from the motion sensor and from a cardiac electrical signal capturing using two or more of the plurality of electrodes; correlating time periods within the set of data points from the motion sensor to cardiac activity reflected by the cardiac electrical signal; and setting up the IMD to capture data from the motion sensor by reference to specific repeatable elements of the cardiac electrical signal; and using the IMD as set up in the initializing step to capture cardiac signals of the patient and motion signals for the patient. 13. An IMD as in claim 12 wherein the processing module is further configured to: use the motion signals to determine an activity level of the patient; and set and implement a pacing rate for the patient using the determined activity level. 14. An IMD as in claim 12 wherein the processing module is configured to set up the IMD to capture data from the motion sensor by: determining when intrinsic mechanical motion of the heart is detected by the motion sensor relative to electrical signals of the heart; and setting a data capture period for the motion sensor relative to a specified electrical signal of the heart to avoid capturing intrinsic mechanical motion of the heart with the motion sensor. 15. An IMD as in claim 12 wherein the processing module is configured to set up the IMD to capture data from the motion sensor by: determining when a quiet period in the intrinsic mechanical motion of the heart is detected by the motion sensor relative to electrical signals of the heart; and setting a data capture period for the motion sensor relative to a specified electrical signal of the heart to avoid capturing intrinsic mechanical motion of the heart with the motion sensor. 16. An IMD as in claim 12 wherein the processing module is configured to set up the IMD to capture data from the motion sensor by determining a delay after a T-wave in the cardiac electrical signal. 17. An IMD as in claim 16 wherein the processing module is configured to set the delay after a T-wave as a function of cardiac rate. 18. An IMD as in claim 12 wherein the specific repeatable elements of the cardiac electrical signal are one of an R-wave or a QRS complex. 19. An IMD as in claim 12 wherein the specific repeatable elements of the cardiac electrical signal comprise the T-wave.