The growth of large semiconductor crystals is crucial for advancing modern electronics and optoelectronics. While various crystal growth techniques have been developed for lead halide perovskites, a significant challenge remains: as crystal size increases, performance tends to deteriorate dramatically. This study addresses the inherent limitations of perovskite crystal growth by designing a novel strategy for near-equilibrium growth system to maintain optimal conditions throughout the process. The system consists of three independent units: a solution supply unit, a crystal growth unit, and a solution recycling unit, which together ensure a constant solution concentration and temperature. By systematically optimizing temperature control and solution feeding rates, large and high-quality FAPbBr