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India has recently ascended to the third position globally in solar power generation, marking a significant milestone in its renewable energy trajectory. The nation's solar capacity has witnessed exponential growth, surging from 2.6 GW in March 2014 to approximately 123.13 GW as of August 2025[1]. This includes 93.90 GW from groundmounted solar plants, 20.85 GW from grid-connected rooftop installations, and additional contributions from hybrid and off-grid systems. The National Institute of Solar Energy (NISE) has estimated India's solar potential at approximately 748 GW[1], underscoring the vast untapped opportunity for clean energy expansion. As India continues to integrate new solar connections into its electrical infrastructure, particularly at the distribution level, it becomes imperative to evaluate the technical feasibility and grid stability implications of such additions. Uncoordinated integration can lead to voltage fluctuations, reverse power flows, and protection malfunctions, especially in radial distribution networks. This paper presents a structured methodology for assessing the impact of proposed solar connections on the distribution electrical network. The approach includes load flow analysis, voltage profile assessment, fault level evaluation, and hosting capacity estimation to ensure reliable and secure grid operation while facilitating the country's transition to a sustainable energy future. In this paper we would like to share the methodology to analyze the technical feasibility & impact of new solar connection on Distribution electrical network.