Two kinds of compact electromagnetic band gap (EBG) structures are designed.A two layer compact EBG structure configured with cross spiral shape line inductors and interdigital capacitors is first presented.Because of its significantly enlarged equivalent inductor and capacitance,the period of the lattice is approximately 4.5% of the free space wavelength.By insetting several narrow slits in the ground plane,the bandwidth of the main bandgap is enhanced by nearly 19%.Further effort has been made for designing a three layer compact EBG structure.Simulation results show that its period is reduced by about 26% compared to that of proposed two layer EBG structure,and the bandwidth of the main bandgap is about 3 times as that of the proposed two layer EBG structure.The detailed designs including a two layer compact 3×7 EBG array with and without defect ground plane and the three layer EBG array are given and simulation results are presented. Two kinds of compact electromagnetic band gap (EBG) structures are designed. A two layer compact EBG structure configured with cross spiral shape line inductors and interdigital capacitors is first presented. Since the significant equivalent inductor and capacitance, the period of the lattice is approximately 4.5% of the free space wavelength.By insetting several narrow slits in the ground plane, the bandwidth of the main bandgap is enhanced by nearly 19% .Further effort has been made for designing a three layer compact EBG structure.Simulation results show that its period is reduced by about 26% compared to that of proposed two layer EBG structure, and the bandwidth of the main bandgap is about 3 times as that of proposed two layer EBG structure.The detailed designs include a two layer compact 3 × 7 EBG array with and without defect ground plane and the three layer EBG array are given and simulation results are presented.