In synchronization of high-precision motion systems, in particular the synchronization between a wafer stage system and a reticle stage system of a wafer scanner, a novel feedforward structure is studied. In this structure, the numerator of each plant model is described by an input shaping filter capturing the zeros of said model. The denominator is described by a feedforward filter capturing the poles. Ideally, this gives zero error tracking of both the reticle and wafer stage systems without the need for plant inversion. But in view of the different input shaping filter operations, appropriate synchronization behavior is not guaranteed. To obtain both appropriate tracking and synchronization behavior, we propose to augment the reticle sta...