Method of dampening pressure pulsations in a working fluid within a conduit

What is claimed is: 1. A method of actively compensating for pressure changes of a working fluid within a conduit, the method comprising: providing a first cavity in fluid communication with the conduit, a second cavity in fluid communication with a control fluid, and a plunger in communication with both the first cavity and the second cavity and movable in response to pressure changes of the working fluid in the conduit; controlling the flow of the control fluid into and out of the second cavity with a control valve; and re-centering the plunger to maximize the plunger travel available for compensation of pressure changes of the working fluid in the conduit, the re-centering including: collecting position data representative of the movement of the plunger over an elapsed time period, analyzing the position data with a control unit to determine an average position of the plunger which is offset relative to a center position in which available plunger displacement is equal in both directions, comparing, with the control unit, the average position of the plunger to the center position, and relaying a re-centering signal from the control unit to the control valve to urge the plunger toward the center position. 2. The method of claim 1 , further comprising: providing a position sensor in one of the first cavity and the second cavity, wherein collecting position data of the plunger relative to the center position includes measuring the location with the position sensor. 3. The method of claim 1 , further comprising repeating the re-centering steps for an additional elapsed time period. 4. The method of claim 1 , further comprising operating the control valve to dampen a pressure pulsation within the working fluid, wherein a time period required for dampening the pressure pulsation is at least an order of magnitude less than a time period for re-centering the plunger. 5. The method of claim 1 , further comprising, measuring a pressure pulsation within the working fluid and, prior to relaying the re-centering signal from the control unit to the control valve, modifying the re-centering signal to simultaneously dampen the pressure pulsation and urge the plunger toward the center position. 6. The method of claim 5 , wherein the first cavity, the second cavity, and the plunger form a first actuator and further comprising a second actuator including a third cavity, a fourth cavity, and a second plunger, the method further comprising: providing the third cavity in fluid communication with the conduit, the fourth cavity in fluid communication with the control fluid, and the second plunger in communication with both the third cavity and the fourth cavity and movable in response to pressure changes of the working fluid in the conduit; relaying the pressure of the working fluid to the control unit, wherein the control unit selects the first actuator to dampen the pressure pulsation. 7. The method of claim 1 , wherein the plunger is movable along an axis, the plunger comprising a first portion in fluid communication with the working fluid and a second portion in fluid communication with the control fluid, the second portion defining a cross-sectional area greater than a cross-sectional area of the first portion.