The structure of ferrite influences its magnetic and electric properties significantly, and the growth process is crucial to the structural behaviors of ferrites. Compared to bulk ferrites, there are more effects that could modify physical properties in ferrite thin films. In this work, we fabricate NiZnCu ferrite (NiZnCuFe2O4) thin films onto SrTiO3 (STO), MgO, and glass substrates by the magnetron RF sputtering technique in an ultrahigh vacuum system. The influences of growth conditions on magnetic properties and structures of NiZnCu ferrite thin films are studied. And the relations between the magnetism and the structure are also investigated. With the increase of substrate temperature, the spinel structure of NiZnCu ferrite films is formed and the magnetic moment is enhanced. But this effect is obvious only for films on STO. It reveals that compressive stress is conducive to the formation of spinel ferrites. The addition of oxygen could reduce oxygen vacancies in NiZnCu ferrite films under deposition. And we found a linear relation between the saturation magnetization and the inverse of the film thickness. According to the linear relation, we can predict that the NiZnCu thin film exceeds the bulk in the saturation magnetization as the thickness of the film is reduced to 6 nm. The coercivity and the remenance of films are greater than those of bulk ferrites under any growth conditions. The saturation magnetization of films with thickness of 10 nm and substrate temperature of 650 ℃ achieves 75 % of the bulk value.