Camera voice coil motor driver circuit with variable power supply input voltage

What is claimed is: 1. A method for operating a driver circuit of a camera OIS actuator, comprising: determining an indication or expectation of a level of activity of a camera OIS actuator operating in an operating mode in which captured images are produced; and setting a power supply input voltage of a driver of the OIS actuator, based on said indication or expectation, and applying the power supply input voltage based on said indication or expectation, to power the driver while driving the OIS actuator during operation in the operating mode in which captured images are produced, wherein when the indication or expectation is that the level of activity of the OIS actuator is a first activity level, the power supply input voltage is set to a first power supply level and the driver is powered at the first power supply level to drive the OIS actuator while captured images are produced, and when the indication or expectation is that the level of activity of the OIS actuator at a second activity level that is lower than the first activity level, the power supply input voltage is set to a second power supply level that is lower than the first power supply level and the driver is powered at the second power supply level to drive the OIS actuator while captured images are produced. 2. The method of claim 1 wherein determining an indication or expectation of a level of activity of an OIS actuator comprises: accessing a stored variable that identifies a current mode of operation of a camera device of which the OIS actuator and the driver are a part, wherein the indication or expectation of the level of activity of the OIS actuator is the second activity level, in response to the current mode of operation being preview mode or still capture mode, and wherein the indication or expectation is the first level of activity in response to the current mode of operation being video capture mode. 3. The method of claim 1 further comprising: starting a timer when a video capture session begins; while the timer remains unexpired, maintaining the power supply input voltage of the driver at the first power supply level, to enable a high level of activity by the OIS actuator; and in response to expiration of the timer, lowering the power supply input voltage of the driver to limit the OIS actuator to a low level of activity that is lower than the high level of activity, even while the video capture session continues. 4. The method of claim 3 further comprising: detecting user context of a camera device, wherein the user context is one of a) attached to a tripod, b) walking, c) head or helmet mounted, or d) driving; and setting a duration of the timer in accordance with the detected user context. 5. The method of claim 1 wherein determining an indication or expectation of a level of activity of an OIS actuator comprises: accessing a stored variable that identifies a current mode of operation of a camera device of which the OIS actuator and the driver are a part, and wherein the indication or expectation of the level of activity of the OIS actuator is a maximum level of activity in response to the current mode of operation being camera diagnostic mode. 6. The method of claim 1 wherein determining an indication or expectation of a level of activity of a camera OIS actuator comprises using a current operating mode and a user context, to determine the indication or expectation of the level of activity of the camera OIS actuator. 7. The method of claim 6 wherein the current operating mode is any one of video capture, still capture and preview. 8. The method of claim 6 wherein the user context is one of a) attached to a tripod, b) walking, c) head or helmet mounted, or d) driving. 9. A portable camera device comprising: a camera imaging path element; a voice coil motor (VCM) actuator coupled to move the camera imaging path element while drawing a coil current; an VCM driver circuit having an output to conduct the coil current, a power supply input, and a control input to set a level of the coil current; an optical image stabilization (OIS) processor that is signal the control input of the driver circuit to move the camera imaging path element for OIS; a variable voltage regulator having an output that is to produce a power supply voltage and is coupled to the power supply input of the driver circuit, and a control input to vary a level of the power supply voltage; and a processor to signal the control input of the variable voltage regulator to increase the level of the power supply voltage when the camera device transitions from still capture mode or preview mode to video capture mode, wherein an increase in the level of the power supply voltage causes an increase in stroke of the VCM actuator. 10. The portable camera device of claim 9 wherein the processor is to decrease the level of the power supply voltage when transitioning from the video capture mode to the still capture or to the preview mode, which decreases stroke of the VCM actuator. 11. The portable camera device of claim 9 wherein the camera imaging path element, the OIS actuator, and the driver circuit are integrated within a camera module that is separate from a main logic board on which the variable voltage regulator is installed. 12. The portable camera device of claim 9 further comprising: an autofocus actuator coupled to the camera imaging path element; an autofocus driver circuit having an output to conduct current of the autofocus actuator; and a further voltage regulator having an output that is to produce a further power supply voltage at a power supply input of the autofocus driver, wherein the power supply input of the VCM driver circuit is controlled separately from the power supply input of the autofocus driver circuit. 13. A camera device comprising: a camera imaging path element; an optical image stabilization (OIS) actuator having a voice coil motor (VCM) coupled to actuate the camera imaging path element while drawing a coil current; a driver circuit having an output to conduct the coil current of the VCM, a power supply input, and a control input to set a level of the coil current; a variable voltage regulator having an output to produce a power supply voltage and being coupled to the power supply input of the driver circuit, and a control input to vary a level of the power supply voltage; and a processor coupled to the control input of the variable voltage regulator to modulate the power supply voltage at the power supply input of the driver circuit, at all times while the camera device is powered up, as a function of a present performance level demanded from the OIS actuator. 14. The device of claim 13 wherein the processor is to modulate the power supply voltage of the driver circuit in response to detecting a present user context in which the camera device is being used. 15. The device of claim 13 wherein the processor modulates the power supply voltage such that headroom of the driver circuit is varied continuously and is kept at a lowest level that meets a current performance level demanded from the OIS actuator. 16. The device of claim 13 wherein the processor is to modulate the power supply voltage based on a plurality of input variables that include a) an indication of the present capture mode of the camera device and b) a present user context. 17. The device of claim 16 further comprising a sensor whose output data is used by the processor to detect the present user context in which the camera device is being used, wherein the present user context is one of walking, ru