The thesis describes the behavior of battery discharge and how to maximize battery capacity usage becomes an essential key influence to the entire power management design for lithium-ion battery. This thesis subjects a controller along with a lithium battery module to build up a platform to experiment. With this platform, we measured the whole cycle life and further to analyze how different cycle times influences the discharge characteristics of lithium battery. This battery management system designed for managing 7-Series and 3-Parallel cell battery system, provide a complete battery system control and battery capacity prediction. This technology can estimate the behavior of discharge of battery by cycle life. Through the model’s parameters, battery life prediction curve, are measured from the experiment under cycle times. The battery information interface use LCD as the display device, the battery communicates the info to MCU8051 controller via the interface. It reaches the complete management system design and improves the battery performance and life cycle. It also can be set the interlock including over-voltage protection, over-current protection, short circuit protection and thermal protection. When discharge process starts, the battery module controller will be used to estimate the capacity and life-time, calculate the battery terminal voltage under particular state of discharge to be a reference of battery life prediction curve. This technology can imitate the behavior of discharge under discharging cycles and estimate the operation time accurately from the experiment result. The entire architecture and the data of this experiment platform and result will be further explained and described in this thesis.