This study applied the dynamic-explicit finite element method to perform the forming limit analysis on the electrodeposited copper foil and the rolled copper foil in the micro deep drawing process of a square cup. Under the condition of isotropic materials, the numerical analyses were performed to explore the relationships between the punch load and the stroke, the distribution of cup heights, the forming limit, and the deformation process in the micro deep drawing process of a square cup. To verify that the finite element analysis program could reasonably predict the forming limits in micro deep drawing of a square cup, a set of square die and three sets of square punches were designed to perform the experiment. This study compared the forming loads, maximum cup heights, and forming limits of electrodeposited copper foil and rolled copper foil with different corner radii of punch. According to the results of the numerical analyses and the experiments results, when arc radius of punch increased, the forming load of the electrodeposited copper foil and rolled copper foil decreased, while the cup height increased. According to the definition of limit drawing ratio (LDR), when arc radius of punch increased from 0.2mm to 0.8mm, LDR of the electrodeposited copper foil increased from 2.075 to 2.273. And that of the rolled copper foil increased from 1.845 to 1.911. The numerical analyses could all reasonably simulate the experiment results. Therefore, the dynamic-explicit finite element analysis program proposed by this study could reasonably predict forming limits for electrodeposited copper foil and rolled copper foil in the micro deep drawing process of a square cup.