Magnetoelectric coupling in some special materials among the multiferroics family can provide an extra degree of freedom for the functioning of future multifunctional devices. In this context, here, we report a systematic study of multiferroic, 3-phase, (1-x)[0.7BiFeO(3)-0.3CoFe(2)O(4)]-xPbTiO(3) composites (x = 0, 0.1, 0.2, 0.3, 0.4, and 0.5) with magnetically tunned robust magnetoelectric (ME) coupling. These composites were synthesized through sol-gel technique and sintering process. The crystalline phases of rhombohedral BiFeO3, spinel cubic CoFe2O4, and tetragonal PbTiO3 were confirmed by X-ray diffraction analysis. A scanning electron microscope was used to analyze the surface microstructures and an energy-dispersive spectroscopy provided the stoichiometric elemental confirmation. Significantly improved dielectric, magnetic, ferroelectric, and lower ac-leakage behavior were observed. The optimum best dielectric properties, saturation polarization, saturation magnetization, and ME couplings were observed for the 10% PTO (x = 0.1) in the composite series. These properties confirmed that a critical amount of PTO could provide enhanced, magnetically robust polarization, making it an excellent tuning candidate for composite properties and multifunctional devices.