The design of V-band Substrate Integrated Waveguide (SIW) micrrostrip T-junction duplexer is presented in this thesis. Two inductive-post coupled channel filters are combined with microstrip T-junction. Two structures are proposed to improvement the isolation. First, we suppress unwanted signal by using a bandstop filter. The adventage of this method is that even if the frequencies of two channel filters are close to each other the method is still valid. Second, we replace the Chebyshev channel filter with a 3rd order cross-coupled filter that a transmission zero near the edge of the passband is created. The adventage of this method is the small size but as the channels closing to each other the suppression is not as good as the first method. To explore the relation between isolation and the distance of two center frequencies, two duplexers with center frequency of 60 GHz, 67 GHz and 63 GHz, 67 GHz are studied. The circuits are fabricated using two kinds of substrates. One is Rogers RT- Duroid 5880TM substrate with thickness of 10 mil, dielectric constant of 2.2, the other one is Rogers RO4350TM substrate with 10 mil, dielectric constant of 3.66. The circuits using Rogers RT- Duroid 5880TM substrate are connected to SIW to a specially designed rectangular waveguide transition and measured by vector network analyzer.