Power management techniques for an infusion pump system

What is claimed is: 1. A method of administering medicinal fluid to a patient, the method comprising: performing a first medicine dispensing operation by supplying a first pattern of multiple electrical pulses from an energy source to a drive system of a pump device to activate the drive system during a predetermined actuation time; determining that the drive system completed the first medicine dispensing operation in less time or more time than the predetermined actuation time; in response to determining that the drive system completed the first medicine dispensing operation in less time or more time than the predetermined actuation time, determining a width or frequency for a second pattern of multiple electrical pulses to be supplied as part of a second medicine dispensing operation, wherein the width or frequency for the second pattern of multiple electrical pulses is different than a width or frequency for the first pattern of multiple electrical pulses; and performing the second medicine dispensing operation by supplying the second pattern of multiple electrical pulses from the energy source to the drive system according to the determined width or frequency to activate the drive system. 2. The method of claim 1 , wherein the first pattern of multiple electrical pulses during the predetermined actuation time corresponds to an incremental dispensing from a series of incremental dispensings of the medicinal fluid. 3. The method of claim 1 , wherein the pump device comprises a disposable and non-reusable instrument that houses the energy source. 4. The method of claim 1 , wherein the first pattern of multiple electrical pulses is correlated to an energy requirement profile defined by the drive system, and wherein one or more components of the drive system are actuated in response to the delivery of the first pattern of multiple electrical pulses so as to dispense the medicinal fluid from the pump device. 5. The method of claim 4 , further comprising: determining a voltage of the energy source; determining another width or frequency for a third pattern of multiple electrical pulses to be supplied as part of a third medicine dispensing operation, wherein the another width or frequency for the third pattern of multiple electrical pulses is determined at least in part based on the determined voltage of the energy source, and wherein the another width or frequency for the third pattern of multiple electrical pulses is different than the width or frequency for the second pattern of multiple electrical pulses; and performing the third medicine dispensing operation by supplying the third pattern of multiple electrical pulses from the energy source to the drive system according to the determined another width or frequency to activate the drive system. 6. The method of claim 4 , further comprising: detecting a time interval for the drive system to complete the second medicine dispensing operation; adjusting the energy requirement profile defined by the drive system based on the detected time interval and a predetermined actuation time for the second medicine dispensing operation; and delivering a third pattern of electrical pulses from the energy source to the drive system of the pump device that correlates to the adjusted energy requirement profile defined by the drive system. 7. The method of claim 6 , further comprising storing the adjusted energy requirement profile in computer-readable memory in the pump device. 8. The method of claim 1 , wherein the drive system comprises a limit switch, and wherein determining that the drive system completed the first medicine dispensing operation in less time or more time than the predetermined actuation time comprises determining the predetermined actuation time based at least in part on one or more limit switch actuations. 9. The method of claim 1 , wherein supplied electrical energy for each of the first and second medicine dispensing operations includes an initial period of higher energy supply to overcome static forces of the drive system followed by a second period of lower energy. 10. The method of claim 1 , wherein the energy source comprises a rechargeable battery, the method further comprising: charging the rechargeable battery with energy from a replaceable battery to maintain the rechargeable battery at a charge level greater than a threshold charge level when the replaceable battery is in a non-depleted state. 11. The method of claim 10 , further comprising: determining a voltage of the rechargeable battery; determining another width or frequency for a third pattern of multiple electrical pulses to be supplied as part of a third medicine dispensing operation, wherein the another width or frequency for the third pattern of multiple electrical pulses is determined at least in part based on the determined voltage of the rechargeable battery, and wherein the another width or frequency for the third pattern of multiple electrical pulses is different than the width or frequency for the second pattern of multiple electrical pulses; and performing the third medicine dispensing operation by supplying the third pattern of multiple electrical pulses from the rechargeable battery to the drive system according to the determined another width or frequency to activate the drive system. 12. The method of claim 10 , further comprising: outputting a user alert indicative of a remaining power supply based at least partially on the threshold charge level when the replaceable battery is in a depleted state or disconnected from electrical communication with the rechargeable energy source. 13. The method of 12 , wherein the user alert indicative of the remaining power supply indicates an estimated amount of medicine dispensing time remaining. 14. The method of 13 , further comprising detecting a rate of use of the drive system and estimating the estimated amount of medicine dispensing time remaining based on the rate of use of the drive system and the threshold charge level. 15. A wearable infusion pump system, comprising: a pump device including a drive system to dispense medicine from the pump device; an energy source to deliver electrical energy to the drive system to initiate actuations of the drive system to perform a medicine dispensing operation; control circuitry to initiate the medicine dispensing operation by supplying the electrical energy to the drive system; memory storing executable instructions that, when executed by the control circuitry, cause the wearable infusion pump system to perform operations comprising: performing a first medicine dispensing operation by supplying a first pattern of multiple electrical pulses from the energy source to the drive system of the pump device to activate the drive system during a predetermined actuation time; determining that the drive system completed the first medicine dispensing operation in less time or more time than the predetermined actuation time; in response to determining that the drive system completed the first medicine dispensing operation in less time or more time than the predetermined actuation time, determining a width or frequency for a second pattern of multiple electrical pulses to be supplied as part of a second medicine dispensing operation, wherein the width or frequency for the second pattern of multiple electrical pulses is different than a width or frequency for the first pattern of multiple electrical pulses; and performing the second medicine dispensing operation by supplying the second pattern of multiple electrical pulses from the energy source to the drive system according to the determined wi