Low temperature performance of LiFePO 4 cathode is investigated by charge/discharge test and electrochemical impedance spectroscopy (EIS). The results show that the effect of charge temperature on charge and discharge capacity is very slight in range of −20 to 20°C and the influence of discharge temperature on discharge capacity is more greater. At −20°C, LiFePO 4 cathode only retains less than 50% of the discharge capacity obtained at 20°C. We can extend time durability of constant-voltage charge to improve the discharge capacity, especially below −20°C. Charge/discharge dependence on temperature is studied by EIS and the results show that the charge-transfer resistance (R ct ) becomes significantly higher than bulk resistance (R b ) and solid-state interface resistance (R sei ) as temperature decreases, no matter in charge or discharge state. The R ct value of charged state is also found to be much lower than that of discharge state. Charge-transfer activation energies of charge and discharge are calculated to be 33.80 and 40.90kJmol −1 , indicating that the extra energy barrier is the main thermodynamic factor causing the sluggish discharge behavior at low temperature.