Active hydraulic ripple cancellation methods and systems

What is claimed is: 1. A pressure-balanced active buffer for mitigating flow ripple in a hydraulic circuit that hydraulically connects a pump and a load, the pressure-balanced active buffer comprising: a buffer reservoir hydraulically connected to the hydraulic circuit; a balance reservoir hydraulically connected to the hydraulic circuit; a piston assembly comprising a first piston with a first surface exposed to hydraulic fluid in the buffer reservoir and a second piston with a second surface exposed to hydraulic fluid in the balance reservoir; an intermediate chamber, at least partially filled with a compressible fluid, interposed between the first piston and the second piston; and an actuator physically attached to the first piston. 2. The pressure-balanced active buffer of claim 1 comprising: a buffer fluid channel configured to provide fluid communication between the hydraulic circuit and the buffer reservoir; and a balance fluid channel configured to provide fluid communication between the hydraulic circuit and the balance reservoir. 3. The pressure-balanced active buffer of claim 1 comprising: an actuator controller in communication with the actuator and configured to determine an actuator cancellation signal based at least in part on a first set of inputs, wherein transmitting the actuator cancellation signal to the actuator causes a dimension of the actuator to change. 4. The pressure-balanced active buffer of claim 3 comprising a non-transitory computer memory in communication with the actuator controller, wherein the memory stores at least one ripple map. 5. The pressure-balanced active buffer of claim 1 , wherein the pump is a positive displacement pump comprising an outlet port, wherein the outlet port is in fluid communication with the buffer reservoir and the balance reservoir. 6. The pressure-balanced active buffer of claim 3 , comprising: a positive displacement pump comprising an outlet port, wherein the outlet port is in fluid communication with the buffer reservoir and the balance reservoir; a motor comprising a rotor operatively coupled to one or more rotatable elements of the positive displacement pump; and a rotary position sensor configured to generate a position signal corresponding to an angular position of (i) the positive displacement pump or (ii) the rotor, wherein the first set of inputs comprises the position signal. 7. The pressure-balanced active buffer of claim 2 , wherein the balance fluid channel comprises a low-pass filter. 8. The pressure-balanced active buffer of claim 7 , wherein the low-pass filter is selected from the group consisting of a restriction orifice and a Helmholtz resonator. 9. A method for operating a pressure-balanced active buffer, the pressure-balanced active buffer comprising a buffer reservoir, a balance reservoir, a first surface, and a second surface, the method comprising: receiving, at the buffer reservoir, a first portion of fluid from a hydraulic circuit; receiving, at the balance reservoir, a second portion of fluid from the hydraulic circuit, wherein the first surface is exposed to the first portion of fluid and the second surface is exposed to the second portion of fluid; and changing a position of the first surface with an actuator, thereby changing a volume of the buffer reservoir. 10. The method of claim 9 , wherein the actuator is electrically controlled. 11. The method of claim 9 , wherein changing the position of the first surface comprises: determining a cancellation signal; and applying the cancellation signal to the actuator, wherein the actuator is physically attached to a buffer piston comprising the first surface, wherein applying the cancellation signal to the actuator changes a dimension of the actuator, thereby changing the position of the first surface. 12. The method of claim 11 , wherein determining the cancellation signal comprises: characterizing a first aspect of a ripple at a first point in the hydraulic circuit; and determining, based at least in part on the first aspect, the cancellation signal, wherein the first aspect is at least one of a direction and a magnitude, and wherein the ripple is at least one of a flow ripple and a pressure ripple. 13. The method of claim 12 , wherein characterizing the first aspect comprises: detecting an angular position of at least one of: (i) a positive displacement pump and (ii) a rotor of a motor operatively coupled to one or more rotatable elements of the positive displacement pump; and determining the first aspect based at least in part on the detected angular position. 14. The method of claim 13 , wherein determining the first aspect comprises: accessing a ripple map; and determining the first aspect based at least in part on the detected angular position and the ripple map.