Conductor-backed coplanar waveguide (CBCPW) exists two dominant modes including CPW and parallel plate modes with no cutoff frequency. The latter one causes the power leakage into transverse direction. We use the characteristic to design it as a good transmission line. Implementing the full wave analysis (Spectral Domain Approach) on the CBCPW structure, we can acquire the information that the surface wave propagates along a particular angle relative to the main CPW line. So, we etch rectangular slots along the angle on the two side ground planes. Because the slots are separated one guided wavelength, they are excited in the same phase. If the long dimension of the slot is significantly longer than the wide one and approximately equals to a half of guided wavelength, the slots fed by CBCPW can radiate power efficiently. Finally, we derive a broadside radiation pattern. Modern satellite communication systems use circular polarization (CP) to maximize the polarization efficiency. We use the sequential rotation feeding method to produce circular polarization antennas with linearly polarized elements. The antenna for direct broadcast from satellites (DBS) is operated at 12 GHz and asked for high gain and efficiency. We design our antenna to operate at this frequency. Finally, we have the measured radiation pattern with 24.84 dBiC and the measured axial ratio 3 dB bandwidth with 330 MHz.