Method and device for determining state of rechargeable battery

The invention claimed is: 1. A method for determining a state of a rechargeable battery, the method comprising: obtaining a complex impedance measured by applying AC voltage or AC current to a rechargeable battery that is subject to determination; and determining a state of the rechargeable battery based on the obtained complex impedance, wherein the determining a state of the rechargeable battery includes determining whether or not a first capacity shift is occurring based on a comparison of a value of the complex impedance at a predetermined frequency with a first determination value used to determine a negative electrode capacity shift, and when determined that the first capacity shift is not occurring, determining whether or not a second capacity shift is occurring based on a comparison of a gradient of the complex impedance with respect to a real axis in a diffusion resistance region with a second determination value used to determine a positive electrode capacity shift. 2. The method according to claim 1 , wherein the first determination value is a threshold value used to determine that the first capacity shift is occurring, the determining whether or not a first capacity shift is occurring includes determining that the first capacity shift is occurring when the value of the complex impedance at the predetermined frequency is greater than the first determination value, the second determination value is a threshold value used to determine that the second capacity shift is occurring, and the determining whether or not a second capacity shift is occurring includes determining that the second capacity shift is occurring when the gradient of the complex impedance with respect to the real axis in the diffusion resistance region is less than the second determination value. 3. The method according to claim 2 , wherein the first determination value is one of a plurality of first determination values that differ from each other; the determining whether or not a first capacity shift is occurring includes determining an amount of the first capacity shift based on a comparison of the value of the complex impedance at the predetermined frequency with the plurality of first determination values. 4. The method according to claim 1 , wherein the second determination value is one of a plurality of second determination values that differ from each other; the determining whether or not a second capacity shift is occurring includes determining an amount of the second capacity shift based on a comparison of the gradient of the complex impedance with respect to the real axis in the diffusion resistance region with the plurality of second determination values. 5. The method according to claim 1 , wherein the first determination value is a value indicating that the first capacity shift is not occurring, the determining whether or not a first capacity shift is occurring includes determining that the first capacity shift is occurring when a difference of the value of the complex impedance at the predetermined frequency and the first determination value is greater than a predetermined value, the second determination value is a value indicating that the second capacity shift is not occurring, and the determining whether or not a second capacity shift is occurring includes determining that the second capacity shift is occurring when a difference of the gradient of the complex impedance with respect to the real axis in the diffusion resistance region and the second determination value is greater than a predetermined value. 6. The method according to claim 1 , further comprising overcharging the rechargeable battery when determined that the first capacity shift is occurring. 7. The method according to claim 1 , further comprising overdischarging the rechargeable battery when determined that the second capacity shift is occurring. 8. The method according to claim 6 , further comprising: re-determining whether or not the first capacity shift is occurring in the overcharged rechargeable battery, and determining that the rechargeable battery is not reusable when re-determined that the first capacity shift is occurring. 9. The method according to claim 7 , further comprising: re-determining whether or not the second capacity shift is occurring in the overdischarged rechargeable battery, and determining that the rechargeable battery is not reusable when re-determined that the second capacity shift is occurring. 10. The method according to claim 1 , wherein the rechargeable battery is a nickel-metal hydride rechargeable battery. 11. A state determination device for a rechargeable battery, the state determination device comprising: an impedance obtaining unit configured to obtain a complex impedance measured by applying AC voltage or AC current to a rechargeable battery that is subject to determination; and a state determination unit configured to determine a state of the rechargeable battery based on the complex impedance obtained by the impedance obtaining unit, wherein the state determination unit includes a first capacity shift determination unit configured to determine whether or not a first capacity shift is occurring based on a comparison of a value of the complex impedance at a predetermined frequency with a first determination value used to determine a negative electrode capacity shift, and a second capacity shift determination unit configured to determine, when the first capacity shift determination unit determines that the first capacity shift is not occurring in the rechargeable battery, whether or not a second capacity shift is occurring based on a comparison of a gradient of the complex impedance with respect to a real axis in a diffusion resistance region with a second determination value used to determine a positive electrode capacity shift. 12. The state determination device according to claim 11 , wherein the first determination value is a threshold value used to determine that the first capacity shift is occurring, the first capacity shift determination unit is configured to determine that the first capacity shift is occurring when the value of the complex impedance at the predetermined frequency is greater than the first determination value, the second determination value is a threshold value used to determine that the second capacity shift is occurring, and the second capacity shift determination unit is configured to determine that the second capacity shift is occurring when the gradient of the complex impedance with respect to the real axis in the diffusion resistance region is less than the second determination value. 13. The state determination device according to claim 11 , wherein the first determination value is a value indicating that the first capacity shift is not occurring, the first capacity shift determination unit is configured to determine that the first capacity shift is occurring when a difference of the value of the complex impedance at the predetermined frequency and the first determination value is greater than a predetermined value, the second determination value is a value indicating that the second capacity shift is not occurring, and the second capacity shift determination unit determines that the second capacity shift is occurring when a difference of the gradient of the complex impedance with respect to the real axis in the diffusion resistance region and the second determination value is greater than a predetermined value. 14. The state determination device according to claim 11 , further comprising an overcharging unit that overcharges the rechargeable battery when the first cap