Diamond-like carbon (DLC) films were deposited by pulsed filtered cathodic vacuum arc (FCVA) deposition. The microstructure, mechanical and optical properties of DLC films have been investigated as functions of the variation in the substrate negative direct current bias voltage (V-bias) from 0.0 to 1.5 kV. Raman and X-ray photoelectron spectroscopy results show a correlation between the I-D/I-G ratio and the microstructure in terms of the sp(3)/sp(2) ratio to V-bias. This fact shows that a significant change in the sp(3) content, which is attributed to the transformation from graphite-like to diamond-like, is accompanied by a decreasing I-D/I-G ratio. The relatively high mass density of the films in the range of 2.51 to 2.79 g/cm(3) can be obtained with biasing. The mechanical properties, i.e., the hardness and elastic modulus, were 13-25 and 114-145 GPa, respectively. The improvement of the mechanical properties is due to the formation of the compressive residual stress and the local density depending on V-bias. The relationship between the refractive index and the I-D/I-G ratio agree well with the microstructure and mechanical properties of DLC films. All of these results indicate a vital role of V-bias in determining the DLC properties.