Low-time resolution electricity data have been used to drive battery energy storage system (BESS) planning due to data barriers. However, the coarse-resolution time series cannot reflect real power variation, and the planning results may be inappropriate due to the unrealistic representation of source-load uncertainties. To this end, this paper proposes a BESS planning method based on super-resolution (SR) source-load uncertainty reconstruction. The Gramian angular field (GAF) is employed to transform the 1D time series into 2D images to enrich the time dependency of signals. With advanced computer vision (CV), the entropy decrease generative adversarial network (EDGAN) based on information-growth attention is designed to recover the source-load profile from low resolution to high resolution. To depict source-load uncertainties in BESS sizing, a two-stage multi-distributionally robust optimization (2S-MDRO) is established under SR ambiguity sets. Case studies validated the accuracy of the proposed SR method and proved the effectiveness of the proposed sizing model. The recommended time resolution for BESS planning is presented in the comparative results.