Bronze processed Nb/sub 3/Sn superconducting wire with Cu-16wt%Sn-0.3wt%Ti (16%Sn bronze) matrix has been developed. For the development, two-step approach was taken. At the first step, two kinds of small size round wires, having a bronze to niobium ratio (bronze ratio) of 2.5 and 1.9, were prepared. Heat treatment was made on these wires at 650/spl deg/C or 700/spl deg/C and the effects of bronze ratio and heat treatment temperature on critical current density (J/sub c/) in magnetic field region from 18 to 25 T were examined. A sample with a bronze ratio of 2.5 and heated at 700/spl deg/C was found to show the highest J/sub c/ of all. In the second step, we manufactured commercial scale rectangular cross-sectioned wire using 16%Sn bronze. J/sub c/ n-value in high magnetic field region are estimated for this wire. As a result, the wire showed J/sub c/ and n-value of 115 A/mm/sub 2/ and 37, respectively, at 22 T, 2.1 K, demonstrating the possibility as a candidate superconducting wire for high field magnets such as over-920 MHz NMR magnet.