Mixed traffic cell transmission model (MCTM) can efficiently combine cell transmission model (CTM) with the behaviors of mixed traffic consisting of cars and motorcycles. The MCTM is restricted by the limitation of the homogeneous cell, it cannot describe the discrepancy between each lane on urban roads. Based on this, this study proposes multi-lanes mixed traffic cell transmission model to describe the lane difference on urban roads. Because the lane difference can be classified by turn-movement and vehicle type, the multi-lanes mixed traffic cell transmission model treat each turn-movement and vehicle type as one unit from the upstream of the road. The model combines with macro lane-changing function while the traffic propagation, and does the traffic discharge by each lane at the downstream of the road. Based on the field observations, the lane-changing is affected by signal, density and the difference of density at the downstream; the lane-changing is affected by turn-movement and vehicle type at the upstream. To validate the proposed model, videotaped traffic data in Hsinchu city are collected. The results show that the gap between the real data and the simulated data are the error percentage of the travel time of each car is 28% and the error percentage of the travel time of each motorcycle is 28%.