Microstructures and the gas-sensing characteristics of the $ extrm{SnO}_2$ thin films were studied, which were deposited at various conditions (rf power, sample temperature, $ extrm{O}_2$/Ar ratio) by the rf magnetron sputtering. As a result, six typical microstructures were derived, such as amorphous(A), amorphous mixed with polycrystalline grains (A+P), polycrystalline with random crystalographic orientation (P), fine columnar (FC), coarse columnar (CC) and Zone T (T) with dense fiberous structure. Typically, A, A+ P, and P structures were formed when no $ extrm{O}_2$ was added to the sputter gas, whereas FC, CC, and T structures were obtained when $ extrm{O}_2$ was added. The A structure formed at low rf power and low temperature, the A+P at high rf power and low temperature, and the P at high rf power and high temperature. The FC structure was obtained at low rf power and low temperature. the CC at low rf power and high temperature, and the T at high rf power and low temperature. Results of the gas-sensing test of the sensor chips fabricated from the typical films indicated that the fine columnar microstructure shows the highest sensitivity both at $300^{circ}C$ and $400^{circ}C$. It was proposed that this is due to the high specific surface area of the micro-columns.