Harmonic distribution radial piston hydraulic machine

The invention claimed is: 1. A hydraulic machine having radial pistons and comprising a cam and a cylinder block that rotate relative to each other about an axis of rotation, the machine having a first and a second main duct respectively for feed and discharge or discharge and feed of hydraulic fluid, the cylinder block having multiple radial cylinders connected to communication orifices of the cylinder block, there being a communication orifice for each cylinder of the multiple of cylinders, the radial pistons mounted to slide in the cylinders and co-operating with the cam, said cam having a plurality of lobes, each lobe having two ramps, each ramp of each lobe extending between a top dead center arc and a bottom dead center arc, the machine further comprising a fluid distributor for connecting the communication orifices to the first or the second main duct in sequences, the fluid distributor being constrained not to rotate relative to the cam, each sequence of connecting any one particular communication orifice to the first or second main duct comprising a first connection stage during which the particular communication orifice is connected to the first main duct and a second connection stage during which said particular communication orifice is connected to the second main duct, the first and second connection stages being separated by a switchover stage, the switchover stage comprising, in succession, for each cylinder, closing a connection of a selected communication orifice to one of the first and second main ducts, isolating in an isolation stage the selected communication orifice from the two main ducts, thereby defining multiple isolation stages with one isolation stage associated with each cylinder, and opening a connection of the selected communication orifice to the other one of the first and second main ducts, wherein the selected communication orifice is the communication orifice of a particular cylinder, and each stage of the multiple isolation stages taking place while the piston mounted in the particular cylinder is bearing on a particular top dead center arc or bottom dead arc, which is defined as being the dead center arc that is associated with the isolation stage, an angular position of a start or of an end of any particular isolation stage relative to the particular dead center arc that is associated with said particular isolation stage being defined as being the angular difference between said start or said end and the bisector of the angle covered by said particular dead center arc that is associated with said particular isolation stage; wherein an angular position of the start or the end of a first isolation stage of the multiple isolation stages relative to the dead center arc that is associated with the first isolation stage is different from an angular position of the start or the end of a second isolation stage of the multiple isolation stages relative to the dead center arc that is associated with said second isolation stage during one revolution cycle of the machine, and wherein the dead center arcs associated with said first isolation stage and said second isolation stage are both one of top dead center arcs and bottom dead center arcs. 2. The machine according to claim 1 , wherein, there is an isolation stage associated with each particular switchover stage and for each particular switchover stage, the difference between the angular position of the start of the isolation stage of the particular switchover stage and the start of the dead center arc that is associated with said isolation stage of the particular switchover stage, and the difference between the angular position of the end of the isolation stage of the particular switchover stage and the end of said dead center arc that is associated with said isolation stage of the particular switchover stage is not less than 1/20 th of the angle covered by said dead center arc. 3. The machine according to claim 1 , wherein, there is an isolation stage associated with each particular switchover stage and for each particular switchover stage, the length of an arc between the angular position of the start of the isolation stage of a particular switchover stage and the start of the dead center arc that is associated with said isolation stage of the particular switchover stage, and the length of arc between the angular position of the end of the isolation stage of the particular switchover stage and the end of said dead center arc that is associated with said isolation stage of the particular switchover stage are not less than 0.1 mm. 4. The machine according to claim 1 , wherein an absolute value of the difference between the angular positions of the start or of the end of the first isolation stage and the second isolation stage is not less than 1/20 th of the angle covered by the smaller of the dead center arcs that are associated with the first isolation stage and the second isolation stage. 5. The machine according to claim 1 , wherein the difference between angular positions of the start or of the end of the first isolation stage and the second isolation stages covers an arc having a length not less than 0.1 mm. 6. The machine according to claim 1 , wherein the fluid distributor is provided with distribution orifices adapted to be connected to either one of the main ducts and for being successively in register with the communication orifices of the cylinder block while the cylinder block and the cam are rotating relative to each other, each distribution orifice corresponding to one of the ramps of the cam. 7. The machine according to claim 6 , wherein the first isolation stage and the second isolation stage utilize the communication orifice of the same cylinder, the angular position of the start or of the end of the first isolation stage that takes place while the piston mounted in the same cylinder is bearing against a first dead center arc being offset relative to the angular position of the start or of the end of the second isolation stage that takes place while the piston mounted in said same cylinder is bearing against a second dead center arc different from the first dead center arc, and wherein, with the first and second dead center arcs being respectively situated at one end of a first ramp and at one end of a second ramp, the position of the distribution orifice corresponding to the first ramp and the position of the distribution orifice corresponding to the second ramp are at a first offset relative to each other, which positions are relative to the bisectors of the angles covered by the respective ramps. 8. The machine according to claim 7 , wherein, with the first and second ramps being respectively ramps of a first cam lobe and of a second cam lobe, the position of the distribution orifice corresponding to the other ramp of the first cam lobe, and the position of the distribution orifice corresponding to the other ramp of the second cam lobe are, relative to each other, at the same offset as the first offset, which positions are relative to the bisectors of the angles covered by the respective other ramps. 9. The machine according to claim 1 , wherein the first isolation stage and the second isolation stage utilize the communication orifice of the same cylinder, the angular position of the start or of the end of the first isolation stage that takes place while the piston mounted in the same cylinder is bearing against a first dead center arc being offset relative to the angular position of the start or of the end of the second isolation stage that takes place while the piston mounted in said same cylinder is bearing against a second dead center arc different from the first dead center arc. 10. The machine according to claim 1