Electronic control unit

What is claimed is: 1. An electronic control unit that monitors a state of a monitor target based on an analog signal from a sensor which is supplied with electric power and which outputs the analog signal that changes in accordance with a value of the electric power and the state of the monitor target, the electronic control unit comprising: a first power supply; a second power supply having higher accuracy than the first power supply; and a controller that performs a first determination by supplying the power to the sensor with the first power supply and determining occurrence and non-occurrence of a change in the state of the monitor target based on the analog signal, and when determining the occurrence of the change in the state of the monitor target in the first determination, performs a second determination by switching over a power supply supplying the power to the sensor from the first power supply to the second power supply and determining occurrence and non-occurrence of the change in the state of the monitor target. 2. The electronic control unit according to claim 1 , wherein: in a low power consumption mode in which power consumption of the electric control unit is smaller than in a wakeup mode, the controller intermittently performs the first determination; when determining the occurrence of the change in the state of the monitor target in the first determination, the controller performs the second determination; and when determining the occurrence of the change in the state of the monitor target in the second determination, the controller wakes up the electronic control unit. 3. The electronic control unit according to claim 1 , wherein: the controller includes a function unit that intermittently performs the first determination during a sleep state of the electronic control unit; when the function unit determines the occurrence of the change in the state of the monitor target, the controller performs the second determination by changing the electronic control unit from the sleep state to a pre-wakeup state in which a function needed to perform the second determination is started; and when determining the occurrence of the change in the state of the monitor target in the second determination, the controller returns the electronic control unit to the sleep state. 4. The electronic control unit according to claim 3 , wherein the function unit includes: an AD converter that converts the analog signal into a digital signal; a determinator that determines occurrence and non-occurrence of the change in the state of the monitor target based on the digital signal obtained by conversion of the AD converter; and a first signal outputter that, during the sleep state of the electronic control unit, intermittently outputs a first trigger signal which triggers the first power supply to supply the power to the sensor, and wherein the AD converter and the determinator start up in synchronization with output of the first trigger signal. 5. The electronic control unit according to claim 4 , wherein: the controller further includes a second signal outputter that is separated from the function unit and that outputs a second trigger signal which triggers the second power supply to supply the power to the sensor; when the function unit determines the occurrence of the change in the state of the monitor target in the first determination, the controller changes the electronic control unit into the pre-wakeup state in which, in addition to the function unit, the second signal outputter is started; and in the pre-wakeup state, the output of the first trigger signal is stopped and the second determination is performed based on the digital signal obtained by the conversion of the AD converter. 6. The electronic control unit according to claim 1 , wherein: the controller includes a threshold setter that sets a first threshold based on a reference signal that is the signal outputted from the sensor at a time of transition of the electronic control unit from a wakeup state to a sleep state, wherein the first threshold is a threshold for distinguishing between the occurrence of the change in the state of the monitor target and non-occurrence of the change in the state of the monitor target; and in the first determination, the controller determines the occurrence of the change in the state of the monitor target when the signal from the sensor exceeds the first threshold and determines the non-occurrence of the change in the state of the monitor target when the signal from the sensor does not exceed the first threshold. 7. The electronic control unit according to claim 6 , wherein: the threshold setter sets the first threshold to a value that is the same as the reference signal. 8. The electronic control unit according to claim 6 , wherein: in the second determination, the controller determines the occurrence of the change in the state of the monitor target when the signal from the sensor exceeds a predetermined second threshold and determines the non-occurrence of the change in the state of the monitor target when the signal from the sensor does not exceed the second threshold. 9. The electronic control unit according to claim 8 , wherein: the second threshold is larger than the first threshold. 10. The electronic control unit according to claim 1 , wherein: the electronic control unit is mounted to a vehicle; and the sensor detects a state of the vehicle. 11. An electronic control unit that monitors a state of a monitor target based on an analog signal from a sensor which is supplied with electric power and which outputs the analog signal that changes in accordance with a value of the electric power and the state of the monitor target, the electronic control unit comprising: a first power supply; a second power supply having higher accuracy than the first power supply; and a controller that performs a first determination by supplying the power to the sensor with the first power supply and determining occurrence and non-occurrence of a change in the state of the monitor target based on the analog signal, and when determining the occurrence of the change in the state of the monitor target in the first determination, performs a second determination by switching over a power supply supplying the power to the sensor from the first power supply to the second power supply and determining occurrence and non-occurrence of the change in the state of the monitor target, wherein the controller includes a threshold setter that sets a first threshold based on a reference signal that is the signal outputted from the sensor at a time of transition of the electronic control unit from a wakeup state to a sleep state, wherein the first threshold is a threshold for distinguishing between the occurrence of the change in the state of the monitor target and non-occurrence of the change in the state of the monitor target; and wherein in the first determination, the controller determines the occurrence of the change in the state of the monitor target when the signal from the sensor exceeds the first threshold and determines the non-occurrence of the change in the state of the monitor target when the signal from the sensor does not exceed the first threshold.