In this thesis, an I/Q mixer with operating frequency 2GHz to 6GHz is designed and fabricated. An I/Q mixer comprises three basic components, namely, a wideband coupler, a power divider and a single-balanced mixer. We will first discuss the design procedure of each component and then describe the implementation and integration of them to form a complete I/Q mixer. The whole I/Q mixer should be integrated into a substrate of a size less than 1 inch by 1 inch. The finite ground plane coplanar waveguide (FCPW) on the Al2O3 (with dielectric constant of 9.8) substrate is chosen to implement all circuit elements. The wideband three-section quadrature coupler is the most difficult part among three basic devices. In the tightest center coupling section, we propose a 6-line Lange coupler to achieve it. We also propose a method to improve the return loss performance of the quadrature coupler. The rat race ring 180 degree hybrid is used to implement the single-balanced mixer. In order to reduce circuit size and increase the bandwidth, a twist line phase inverter is used to replace the halve-wave 180 degree phase shifter of the conventional rat race ring. Besides, the diodes is placed inside the ring to further reduce the circuit size.