The analyses of the method for increase of radiation stability of semiconductor devices are given in thepresent state. For this purpose in n-Ge the thermal defects have preliminarily been created and theirinteraction with radiation defects in the irradiation process has been investigated by photocapacity andphotoconductivity methods.It has been found that when interacting with radiation defects in the irradiation process, preliminarily createdthermal defects in n-Ge fonn more stable defects which lead to increase of radiation stability of diodes.The set of the obtained experimental data indicates that at heat treatment of Germanium at temperatures of T> 500 °C the defects with intrinsic structural disturbances of the crystal lattice itself are formed. These defectsinteracting with radiation defects during irradiation form more stable defects leading to increase in radiationstability of the material. The fact that the insertion velocity of radiation defects in thermally treated samples isless than in thermally untreated samples indicates that thermal defects are responsible for mobile radiationdefects. The results obtained from this study are agree with the handled data.