In this thesis, a compact tri-band and dual-polarized antenna, using a combination of mushroom-like structure and square-ring patch antenna is presented. This antenna can excite one linear polarization and two circular polarization. Mushroom-like structure is evolved from conventional mushroom structure for circular polarization by slotting slits along the diagonal direction of patch. This mushroom structure can be equivalent to composite right/left-handed transmission line model, and can realize dual-band and dual-polarized antenna that provides linear polarization at zeroth-order resonance (ZOR) and circular polarization at first-positive-order resonance (FPOR). Circular polarization is excited by using truncated corner patch on mushroom structure at FPOR. In order to achieve frequency tunability, the ZOR frequency can be adjusted by changing the left-handed inductance value or the right-handed capacitance value. Furthermore, the FPOR frequency can be adjusted by slotting different length of slits to change different current path, and the ZOR frequency is almost fixed. For realizing the third resonant frequency, the mushroom-like structure antenna combines with square-ring patch antenna by placing mushroom-like structure inside square-ring patch antenna in this thesis. Conventional microstrip patch antenna operating at fundamental mode is equal to half-wavelength resonance, but square-ring patch antenna that can decrease resonant frequency by extending current path is able to achieve antenna miniaturization, also uses truncated corner ring to excite circular polarization. Taking advantage of coaxial feed and coupling-strip feeds directly signal to two antennas, so impedance matching is easy to reach. The advantage of this tri-band and dual-polarized antenna is that all of the antennas are realized on upper metal of the same substrate, and only need single signal feeding to reach tri-band and dual-polarization. Finally, this antenna operates at 1.9GHz for ZOR, 2.45GHz for fundamental mode of square-ring patch antenna and 3.5GHz for FPOR.