The anion-excess fluorite-like solid solutions with general composition Bi_1−xTe_x(O,F)_2+δ (x > 0.5) have been synthesized by a solid state reaction of TeO₂, BiF₃ and Bi₂O₃ at 873 K with following quenching. The homogeneity areas and polymorphism of the I ↔ IV Bi_1−xTe_x(O,F)_2+δ phases were investigated. The crystal structure of the low temperature IV-Bi_1−xTe_x(O,F)_2+δ phase has been solved using electron diffraction and X-ray powder diffraction (a = 11.53051(9) Å, S.G. Ia-3, R_I = 0.046, R_P = 0.041). Glass formation area in the Bi₂O₃-BiF₃-TeO₂ (10% TiO₂) system was investigated. IVBi_1−xTe_x(O,F)_2+δ phase starts to crystallize at short-time (0.5-3 h) annealing of oxyfluoride glasses at temperatures above T_g (600-615 K). The ionic conductivity of the crystalline Bi_1−xTe_x(O,F)_2+δ phase and corresponding glass-ceramics was investigated. Activation energy of conductivity E_a = 0.41(2) eV for the IV-Bi_1−xTe_x(O,F)_2+δ crystalline samples and E_a = 0.73 eV for the glass-ceramic samples were obtained. Investigation of the oxyfluoride samples with a constant cation ratio demonstrates essential influence of excess fluorine anions on the ionic conductivity.