A design concept of broadband and miniaturized SMD-typed common-mode filters applying multi-layer mushroom structure is proposed in this thesis. Based on the low-temperature co-fired ceramic fabrication technology, miniaturized common-mode filters with six pins are realized. The filters can be mounted on PCB using surface-mount technology (SMT). By routing the signal traces symmetrically, different effects are produced to common mode and differential mode. For common mode signal, the return current go through the railway-shaped mushroom structure, while the odd-mode return current is zero at the railway-shaped mushroom structure. In this paper, the common mode filter was miniaturized by using multilayer structure, meander lines and railway-shaped mushroom structure. The SMD-typed filters are unlike the conventional common-mode choke. The filter size is 0.021λg × 0.036λg with the corresponding real size 1.2 mm× 2 mm. It is found that the common-mode noise can be reduced over 10dB from 1.5 GHz to 3.9 GHz with the 89% of fractional bandwidth. In addition, the design, analysis and investigation of the effect on differential geometry parameters of the railway-shaped mushroom structure. More importantly, the good differential signal integrity is still maintained within the wide stopband.