Lithium-ion betteries which are used more widly in our daily life have been an important electric storage equipment because of its property of high energy density and reuse. LiFePO4 has been considered to be one of the most promising candidates for the next generation lithium ion batteries cathode materials. There are many different impurities in LiFePO4 with different methods for preparation. These impurities will affect the electric perfomance of Li-ion betteries. We hope to know how many impurities there are in our LiFePO4 samples and the influence of these impurities on the electric performance of Li-ion betteries. We analyzed the magentization curves, M(H), M(T), and hysteresis, of the LiFePO4 samples. We found steeply up lines at low fields in M(H) curves that shows the saturate magenitization of maghemite, and loops in hysteresis curves that shows the magnetism of Fe2P impurities which is ferromagnetic. We can use the characteristics of these curves to predict the electric performance of Li-ion betteries which use LiFePO4 as cathod materials. This mathod can be a tool to check the quality of LiFePO4 materials primarily.