Power supply unit, vehicle and storage battery unit equipped with power supply unit, and remaining capacity detecting method of battery

The invention claimed is: 1. A power supply unit comprising: a charging and discharging battery; a current detector configured to measure a current charging or discharging the battery; a voltage detector configured to measure a voltage of the battery; and a remaining capacity meter configured to indicate a remaining capacity of the battery based on the current detected by the current detector and the voltage detected by the voltage detector, wherein the voltage detector outputs the measured voltage of the battery to the remaining capacity meter, and the current detector outputs the measured current of the battery to the remaining capacity meter, a remaining capacity controller, in communication with the remaining capacity meter, the remaining capacity controller comprising: a first voltage meter to determine a first open circuit terminal voltage Voc1 based on a plurality of values of the current input from the current detector and a plurality of values of the voltage input from the voltage detector, a first remaining capacity value being based on the first open circuit terminal voltage Voc1; a second voltage meter to determine a second open circuit terminal voltage Voc2 based on values of the current input from the current detector and values of the voltage input from the voltage detector, a voltage drop Vo by an ohmic resistance Ro, and a voltage drop Vp by a polarization resistance Rp, a second remaining capacity value being based on the second open circuit terminal voltage Voc2; an integrator to determine a third remaining capacity value based on an integration of a detected current input from the current detector; and a summer to determine the remaining capacity [SOC (%)] of the battery by weighted-averaging the first remaining capacity [SOCv1(%)], the third remaining capacity [SOCi (%)], and the second remaining capacity [SOCv2(%)] in the following equation [SOC (%)]= A ×SOC i (%)+ B ×SOC v 1(%)+ C ×SOC v 2(%) where, A, B, and C are constants, A is equal to or more than 0, B is equal to or more than 0, C is more than 0, A+B+C=1, and at least one of A and B is more than 0. 2. The power supply unit according to claim 1 , wherein the remaining capacity computing portion comprises a memory to store values of A, B, and C, and the values of A stored in the memory are low in the range of high and low level in the real remaining capacity of the battery such that the third remaining capacity is lightly weighted-averaged. 3. The power supply unit according to claim 1 , wherein the remaining capacity computing portion comprises a memory to store values of A, B, and C, and the values of B stored in the memory are high in the range of a large variation width in the current of the battery such that the first remaining capacity is heavily weighted-averaged. 4. A power supply unit comprising: a charging and discharging battery; a current detector configured to measure a current charging or discharging the battery; a voltage detector configured to measure a voltage of the battery; and a remaining capacity meter configured to indicate a remaining capacity of the battery based on the current detected by the current detector and the voltage detected by the voltage detector, wherein the voltage detector outputs the measured voltage of the battery to the remaining capacity meter, and the current detector outputs the measured current of the battery to the remaining capacity meter, a remaining capacity controller, in communication with the remaining capacity meter, the remaining capacity controller comprising: a first voltage meter to determine a first open circuit terminal voltage Voc1 based on a plurality of values of the current input from the current detector and a plurality of values of the voltage input from the voltage detector, a first remaining capacity value being based on the first open circuit terminal voltage Voc1; a second voltage meter to determine a second open circuit terminal voltage Voc2 based on values of the current input from the current detector and values of the voltage input from the voltage detector, a voltage drop Vo by an ohmic resistance Ro, and a voltage drop Vp by a polarization resistance Rp, a second remaining capacity value being based on the second open circuit terminal voltage Voc2; and an integrator to determine a third remaining capacity value based on an integration of a detected current input from the current detector; wherein the second voltage meter determines the second open circuit terminal voltage Voc2 by determining both the voltage drop Vo by the ohmic resistance Ro and the voltage drop Vp by the polarization resistance Rp in the following equation, based on the values of the current and the voltage of the battery; Voc2= V _ n−Vp−Vo−Vh Vp=Rp [ohm]× I _ n [A]×tau× a Vo=Ro [ohm]× I _ n [A]× b×c where, V_n is the voltage of the battery at a certain time, I_n is the current of the battery at the same certain time, − means a discharging current, + means a charging current, tau, a, b, c, are constants specified by a temperature, and Vh is a variable specified by hysteresis characteristics of charging and discharging of the battery.