The organic spin valves(OSVs) has been successfully demonstrated, with junction structure CoFe/AlOx/PTCDA/AlOx/NiFe/CoFe. The ferromagnetic/organic interface is predicted to play a crucial role on OSVs. Using impedance spectrum and fitting with an equivalent circuit to extract the interface capacitance from junction is a way to study interface of OSVs. During our experiment, our OSVs present a better fitting result with two RC circuits than one RC circuit, which indicates the configuration of organic junction should be separated into bulk and interface parts. According to the experimental result, RC circuit of interface and bulk both depend on PTCDA thickness. Interface resistance presents a huge magnetoresistance, but not bulk resistance, which indicates interface resistance is the major part for con- tributing magnetoresistance of OSVs. The interface and bulk capacitances both are affected by increasing PTCDA thickness. The bulk capacitance is considered as a parallel plate capacitor, which decreases with increasing thickness of spacer layer, and the dielectric constant of bulk capacitance agrees with the dielectric property of PTCDA. The interface capacitance suffers from interface roughness, which gets worse with increasing PTCDA thickness, causing the interface capacitance became smaller. Magnetocapacitance of bulk and interface show totally different behaviour. This experimental result discovers more behaviour about interface of OSVs, which helps us to improve the application of OSVs in the future.