Systems and methods for managing noise in compact high speed and high force hydraulic actuators

The invention claimed is: 1. A hydraulic apparatus comprising: a hydraulic actuator comprising an actuator housing that at least partially defines a compression chamber and an extension chamber; a pump; and an extension-side accumulator comprising: an extension-side accumulator housing defining a first internal volume that is divided, by a first barrier, into a first contained chamber and a first working chamber, wherein: the first working chamber is fluidically coupled to the pump by an extension-side first flow path having a first inertance; the first working chamber is fluidically coupled to the extension chamber by an extension-side second flow path having a second inertance; and the first inertance is larger than the second inertance. 2. The hydraulic apparatus of claim 1 , wherein a first TFmag of a first transfer function has at least one of a first global maximum or first local maximum at a first frequency, and a second TFmag of a second transfer function has at least one of a second global maximum or second local maximum at a second frequency, wherein: the second frequency is higher than the first frequency; the first transfer function describes a first relationship between pressure at a first point and pressure at a second point; the second transfer function describes a second relationship between pressure at the second point and pressure at a third point; the first point is located in one of: the pump, a port of the pump, or the extension-side first flow path; the second point is located in the first internal volume of the extension-side accumulator; and the third point is located in the extension chamber of the actuator. 3. The hydraulic apparatus of claim 2 , wherein the second frequency is equal to at least 5 or at least 20 times the first frequency. 4. The hydraulic apparatus of claim 3 , wherein the second frequency is greater than the first frequency by a factor of less than 100. 5. The hydraulic apparatus of claim 2 , wherein the first frequency is higher than a first lower limit and lower than a first upper limit, wherein the first lower limit is one of 0 Hz, 2 Hz, 5 Hz, or 10 Hz and the first upper limit is one of 100 Hz, 80 Hz, 60 Hz, 50 Hz, 30 Hz, 20 Hz, or 15 Hz. 6. The hydraulic apparatus of claim 2 , wherein the second frequency is higher than a second lower limit and lower than a second upper limit, wherein the second lower limit is one of 100 Hz, 200 Hz, 300 Hz, 400 Hz, or 500 Hz and the second upper limit is one of 800 Hz, 1000 Hz, or 1500 Hz. 7. The hydraulic apparatus of claim 1 , wherein a first TFph of a first transfer function is equal to +/−90° at a first frequency, and a second TFph of a second transfer function is equal to +/−90° at a second frequency, wherein: the first transfer function describes a first relationship between pressure at a first point and pressure at a second point; the second transfer function describes a second relationship between pressure at the second point and pressure at a third point; the first point is located in one of: the pump, a port of the pump, and the extension-side first flow path; the second point is located in the first internal volume of the extension-side accumulator; and the third point is located in the extension chamber of the actuator. 8. The hydraulic apparatus of claim 1 , wherein the extension-side accumulator is a type-2 accumulator. 9. The hydraulic apparatus of claim 1 , further comprising: a compression-side flow path fluidically coupling the pump to the compression chamber; a compression-side accumulator comprising: a compression-side accumulator housing defining a second internal volume that is divided, by a second barrier, into a second contained chamber and a second working chamber, wherein: the second working chamber is fluidically coupled to the pump via a compression-side first flow path; and the second working chamber is fluidically coupled to the compression chamber via a compression-side second flow path. 10. The hydraulic apparatus of claim 9 , wherein the compression-side accumulator has a second stiffness and the extension-side accumulator has a first stiffness, wherein the second stiffness is greater than the first stiffness. 11. The hydraulic apparatus of claim 9 , wherein the compression-side accumulator is a type-2 accumulator. 12. A hydraulic apparatus comprising: a hydraulic actuator comprising an actuator housing that at least partially defines a compression chamber of the actuator and an extension chamber of the actuator; a bi-directional pump; and an extension-side accumulator comprising: an extension-side accumulator housing defining a first internal volume that is divided, by a first barrier, into a first contained chamber and a first working chamber, wherein the first contained chamber includes a compressible fluid, and wherein: the first working chamber is fluidically coupled to the pump by an extension-side first flow path; the first working chamber is fluidically coupled to the extension chamber of the actuator by an extension-side second flow path; wherein the extension-side first flow path is entirely distinct from the extension-side second flow path, and wherein at least one of (a) or (b) is true; (a) a first TFmag of a first transfer function has at least one of a first global maximum or first local maximum at a first frequency, and a second TFmag of a second transfer function has at least one of a second global maximum or second local maximum at a second frequency, wherein the second frequency is higher than the first frequency; (b) a first TFph of the first transfer function is equal to +/−90° at a first frequency, and a second TFph of a second transfer function is equal to +/−90° at a second frequency, wherein the second frequency is higher than the first frequency and wherein: the first transfer function describes a first relationship between pressure at a first point and pressure at a second point; the second transfer function describes a second relationship between pressure at the second point and pressure at a third point; the first point is located in one of: the pump, a port of the pump, and the extension-side first flow path; the second point is located in the first internal volume of the extension-side accumulator; and the third point is located in the extension chamber of the actuator. 13. The hydraulic apparatus of claim 12 , wherein (a) is true. 14. The hydraulic apparatus of claim 12 wherein (b) is true. 15. The hydraulic apparatus of claim 12 , wherein the second frequency is higher than the first frequency by a factor of at least 5. 16. The hydraulic apparatus of claim 12 , wherein the first frequency is higher than a first lower limit and lower than a first upper limit, wherein the first lower limit is one of 0 Hz, 2 Hz, 5 Hz, or 10 Hz and the first upper limit is one of 100 Hz, 80 Hz, 60 Hz, 50 Hz, 30 Hz, 20 Hz, or 15 Hz. 17. The hydraulic apparatus of claim 12 , wherein the second frequency is higher than a second lower limit and lower than a second upper limit, wherein the second lower limit is one of 100 Hz, 200 Hz, 300 Hz, 400 Hz, or 500 Hz and the second upper limit is one of 800 Hz, 1000 Hz, or 1500 Hz. 18. The hydraulic apparatus of claim 12 , wherein the extension-side first flow path is the shortest flow path of a first set of one or more flow paths, and the extension-side second flow path is the shortest flow path of a second set of one or more flow paths, wherein: the first set of one or more flow paths consists of each flow path of the hydraulic apparatu