Use of wind power generation is increasing nowadays, particularly in the broader sense of the distribution areas. The technological impacts and constraints are still under study, and are almost unchanged in many ways. One consequence of this is the low-signal reliability of delivery networks. This paper analyzes the influence of wind power on a Grid Integrated distribution system's small signal stability. Factors such as level of integration of wind power, wind turbine technology, device activity, location of the wind farms and distributed wind farms are considered. Using modal analysis, the oscillatory modes which arise due to changes in system operating conditions are computed. The behavior of synchronous generators is corroborated with the aid of analysis of the time domain. The findings showed that the integration of wind turbines increases the damping ratio and reduces the oscillatory frequency of all modes. The point of interconnection and the generation of distributed winds have no effect on damping ratio and oscillatory frequency.