Power storage system

1 . A power storage system comprising: a secondary battery, a current measuring circuit, a voltage measuring circuit, and a control circuit, wherein the secondary battery comprises a negative electrode, wherein the negative electrode comprises graphite and silicon, wherein the current measuring circuit and the voltage measuring circuit are electrically connected to the control circuit, wherein the control circuit is configured to start charge of the secondary battery, wherein the control circuit is configured to perform a first arithmetic operation of calculating a voltage differential value of an amount of electricity of charge current of the secondary battery with use of a current value detected by the current measuring circuit and a voltage value detected by the voltage measuring circuit, and is configured to perform a second arithmetic operation of detecting an extremum of the voltage differential value, and wherein the control circuit is configured to stop the charge after a predetermined time elapses since the extremum is detected through the second arithmetic operation. 2 . A power storage system comprising: a secondary battery, a current measuring circuit, a voltage measuring circuit, and a control circuit, wherein the secondary battery comprises a positive electrode and a negative electrode, wherein the negative electrode comprises graphite and silicon, wherein the current measuring circuit and the voltage measuring circuit are electrically connected to the control circuit, wherein the current measuring circuit is configured to measure current flowing through the secondary battery, wherein the voltage measuring circuit is configured to measure voltage of the secondary battery, wherein the control circuit is configured to start charge of the secondary battery, wherein the control circuit is configured to calculate an amount of electricity Q(t) using current I(t) at a time t, wherein the control circuit is configured to detect a time tp at which a first curve has a first local maximum by analyzing the first curve with a horizontal axis representing voltage V(t) and a vertical axis representing a voltage differential of the amount of electricity Q(t) [dQ(t)/dV(t)], wherein the control circuit is configured to stop the charge at a time t 2 at which a predetermined time elapses from the time tp in a case where voltage V(tp) at the time tp is higher than or equal to first voltage, and wherein the first voltage depends on a kind of a positive electrode active material in the positive electrode. 3 . The power storage system according to claim 2 , wherein the positive electrode active material comprises lithium iron phosphate, and wherein the first voltage is higher than or equal to 3.40 V and lower than or equal to 3.50 V. 4 . The power storage system according to claim 2 , wherein the positive electrode active material comprises lithium nickel-cobalt-manganese oxide, and wherein the first voltage is higher than or equal to 3.90 V and lower than or equal to 4.50 V. 5 . The power storage system according to claim 2 , wherein the positive electrode active material comprises lithium cobalt oxide, and wherein the first voltage is higher than or equal to 4.20 V and lower than or equal to 4.50 V. 6 . The power storage system according to claim 1 , wherein a ratio Wg/Ws between a weight Wg of the graphite and a weight Ws of the silicon is greater than or equal to 4 and less than or equal to 10. 7 . The power storage system according to claim 6 , wherein a capacity charged in the negative electrode is greater than or equal to 70% and less than 90% of a rechargeable and dischargeable capacity of the negative electrode. 8 . The power storage system according to claim 2 , wherein a ratio Wg/Ws between a weight Wg of the graphite and a weight Ws of the silicon is greater than or equal to 4 and less than or equal to 10. 9 . The power storage system according to claim 8 , wherein a capacity charged in the negative electrode is greater than or equal to 70% and less than 90% of a rechargeable and dischargeable capacity of the negative electrode.