Electrified vehicle and control method for electrified vehicle

What is claimed is: 1 . An electrified vehicle comprising: an electric power storage device; a drive device configured to generate vehicle drive power using electric power stored in the electric power storage device; a sensor configured to detect a state of the electric power storage device; and an electronic control unit configured to cause transition of a traveling mode to a fail-safe mode when a predetermined fail-safe traveling condition including failure of the sensor is established, the electronic control unit being configured to; detect a sign of an abnormality of the electric power storage device using a detection value of the sensor when the sensor is normal, set the fail-safe mode to a predetermined first fail-safe mode, when the fail-safe traveling condition is established and the sign of the abnormality of the electric power storage device is not detected, and set the fail-safe mode to a second fail-safe mode different from the predetermined first fail-safe mode, when the fail-safe traveling condition is established and the sign of the abnormality of the electric power storage device is detected. 2 . The electrified vehicle according to claim 1 , wherein the electronic control unit is configured to: in the predetermined first fail-safe mode, perform fail-safe traveling for traveling with more suppressed input and output of the electric power storage device than in a normal traveling mode, and in the second fail-safe mode, stop a system of the electrified vehicle. 3 . The electrified vehicle according to claim 1 , wherein the electronic control unit is configured to: detect the sign of the abnormality of the electric power storage device for every predetermined period and store a previous sign detection result at a time of execution of sign detection, the predetermined period being a period longer than a time from an occurrence of failure until the failure is confirmed when the failure occurs in the sensor, set the fail-safe mode to the predetermined first fail-safe mode, when the fail-safe traveling condition is established and determination is made that the sign of the abnormality of the electric power storage device is not detected based on the previous sign detection result; and set the fail-safe mode to the second fail-safe mode, when the fail-safe traveling condition is established and determination is made that the sign of the abnormality of the electric power storage device is detected based on the previous sign detection result. 4 . The electrified vehicle according to claim 1 , wherein the electronic control unit is configured to: determine that the electric power storage device is abnormal, when a value of a predetermined parameter indicating a degree of progress of an abnormality of the electric power storage device reaches a first threshold; and determine that the sign of the abnormality of the electric power storage device is detected, when the value of the predetermined parameter reaches a second threshold smaller than the first threshold. 5 . The electrified vehicle according to claim 4 , wherein the predetermined parameter is one of: variation in a state of charge among a plurality of cells included in the electric power storage device; variation in resistance value among the plurality of cells; variation in capacitance value among the plurality of cells; an increase rate of the resistance value from an initial state of the electric power storage device; a decrease rate from full charge capacity of capacity of the electric power storage device; and an increase rate of a self-discharge amount of the electric power storage device. 6 . A control method for an electrified vehicle including an electric power storage device, a drive device configured to generate vehicle drive power using electric power stored in the electric power storage device, and a sensor configured to detect a state of the electric power storage device, the control method comprising: detecting a sign of an abnormality of the electric power storage device using a detection value of the sensor when the sensor is normal; and causing transition of a traveling mode to a fail-safe mode when a predetermined fail-safe traveling condition including failure of the sensor is established, the fail-safe mode being set to a predetermined first fail-safe mode when the sign of the abnormality of the electric power storage device is not detected, and the fail-safe mode being set to a second fail-safe mode different from the predetermined first fail-safe mode when the sign of the abnormality of the electric power storage device is detected.