 Abstract magnetic transition metal calcogenides are a promising platform for exploring spin-orbit-driven berry-phase effects due to their interplay with topology and magnetism. In particular, CR2TE3 Thin Films exhibited a unique temperature-dependent sine reversal of the anomalous Hall Effect, which was attributed to the berry curvature. Furthermore, the presence of strained magnetic layers, domains resulted in hump-shaped Hall Peaks during the magnetization switching process, which can be used to tune the electronic properties of these materials.