A series of polyacrylonitrile-dimethylsulfoxide-CuX2 (X = CF3SO3-, Cl-, Br-), films (foils) were prepared by means of the solution cast technique. The thickness of the foils was between 0.04 and 0.09 cm and they contained 70-80 wt.% of the solvent. Conductivities of the solid electrolytes were obtained from impedance measurements. The conductivity increases with the increase of the salt content up to 8 wt.%; at higher concentrations (>8 wt.%) the conductivity is more or less stable, and reaches, in the case of Cu(CF3SO3)(2) and CuCl2, the level of ca. 10(-3) Omega(-1) cm(-1) at room temperature. The foils based on the CuBr2 show even higher conductivity, close to 10(-2) Omega(-1) cm(-1) at room temperature, a value comparable to that characteristic for liquid solutions. The temperature variation of the conductivity for all the systems studied is of the Arrhenius type. The activation energy, determined from linear plots 1n sigma = f(T-1), is of the order ca. 14 kJ mol(-1) for the PAN/CuBr2/DMSO and of ca. 21 kJ mol(-1) for the PAN/CuCl2/DMSO and the PAN/Cu(CF3SO3)(2)/DMSO systems.