In this thesis, we propose the design of coupled-line directional coupler with arbitrary coupling level based on complementary split-rectangle resonators (CSRR), which can be broadly classified into two major categories. The directional coupler includes an asymmetry phase coupler and two novel directional couplers, which are designed for single band and dual band. Complementary split-rectangle resonator, which is one kind of the meta-materials exhibits unique electromagnetic properties that lead to a wide range of application in design of microwave circuit and antenna. In the first part of this thesis, a CRLH transmission line is implemented by utilizing the CSRR. And then we adopt the coupled-mode theory based on the new structure to propose the concept of size reduction and design of the asymmetry phase coupler. This coupler exhibits the superior coupling and direction; furthermore, its size also can be reduced by means of CSRR. In the last part of this thesis, a novel coupled line concept based on CSRR is proposed, and realized the single-band and dual-band couplers which feature not only high coupling and direction, but also breakthrough of the conventional coupled way to increase the coupling bandwidth and even miniature the circuit. In the research, the coupling, isolation, and bandwidth of the novel CRLH directional coupler are more excellent than conventional couplers. Furthermore, the novel coupled line concept we propose can solve the trade-off in the microwave circuit design. Under the fine coupling potency, it can reduce the size of coupler largely, and increase the integration with other microwave circuit.