This paper presents deposition and characterization of hydrogenated microcrystalline silicon (${mu}c$ -Si:H) films on low cost glass substrate by Hot Wire CVD(HWCVD). The HWCVD ${mu}c$ -Si:H films had deposition rates ranging from 2${AA}$/sec to 35${AA}$/sec with the variations of preparation conditions, which was 10 times higher than that of the films obtained from the conventional PECVD method. From the Raman spectroscopy, the prepared silicon films were found to be composed of the mixture of crystalline and amorphous phases. The crystalline volume fraction and average crystallite size, obtained from the Raman To mode peak near 520cm$^{-1}$, were 37-63% and 6-10 nm, respectively. The conductivity activation energy($E_a$) of the ${mu}c$ -Si:H films, representing the difference of conduction band and Fermi level in an intrinsic semiconductors, increased from 0.22eV to 0.68eV with increasing pressure from 30mTorr to 300mTorr. The increase of $E_a$ with pressure indicates that the deposited films have properties close to intrinsic semiconductors, which is also proved with low dark conductivity of the ${mu}c$ -Si:H deposited at 300mTorr. The tungsten concentration incorporated into films was about $6{ imes}10^{16}atoms/cm^3$ in the samples prepared at wire temperature of 1800$^{circ}C$.