The installation of residential solar systems in India is a solution that can help lower the country's electricity expenditures while also being beneficial to the environment. These systems, despite the many benefits they offer, are associated with a number of drawbacks that affect the infrastructure of the whole electric grid. A decrease in the power factor of the distribution grid may be one of the potential side effects of increased penetration of photovoltaic (PV) systems, for example. When the power factor is low, there is an increased likelihood of heat production as well as switch failures. In spite of the fact that previous study of a similar nature has been published in the past, this is the first time that PV systems have been evaluated in India in terms of their power factors. People who are interested in learning how photovoltaics (PVs) influence the total power factor of their systems might use this research as a resource. In the beginning of this investigation, the researchers proposed a straightforward power factor selection criterion that may be used for photovoltaic (PV) systems. Second, the piece included a suggestion for an auxiliary power factor controller in its conclusion. According to the findings of this research, the conclusions of this article might be used by municipalities, grid operators, and legislators as a tool to assist them in the planning, forecasting, and accommodating of new PV systems in their grids in terms of total power factor. This would be the case because of the findings of the study. However, despite the fact that the data utilized in this investigation come from Indian sources, it is still possible to employ the findings in other parts of the world because the data sets that were utilized cover the entire planet.