The oxidative addition of the allyl acetate CH2=CH-CH2-OAc to the Pd-0 complex generated from [Pd-0(dba)(2)] and 2 equiv. PPh3 (monodentate ligand) or 1 equiv. dppb (bidentate ligand) gives a cationic (eta (3)-allyl)palladium(II) complex with AcO-as the counter-anion. This reaction is reversible and proceeds from SPd0(PPh3)(2) or from SPd0(dppb) through at least two successive equilibria. The overall equilibrium constants have been determined. The overall equilibrium lies more in favor of the cationic (eta (3)-allyl)palladium(II) complex when dppp is considered, compared to PPh3. The reaction proceeds via a neutral intermediate complex Pd-0(eta (2)-CH2=CH-CH2-OAc)(dppb)] whose formation has been kinetically established. The rate constants of the successive steps have been determined in DMF by UV spectroscopy and conductivity measurements, for the dppb ligand. The overall complexation step of the Pd-0 by the allyl acetate C=C bond is faster than the oxidative addition/ionization step which gives the cationic (eta (3)-allyl)palladium(II) complex.