Network system

What is claimed is: 1 . A network system configured to switch a state of a system, which is supplied with power from a power source, between a high power state and a low power state, a power consumption in the high power state being larger than a power consumption in the low power state, the network system comprising: a first electronic control unit communicably connected to one or more terminal devices and configured to control an operation of each terminal device; and a second electronic control unit communicably connected to the first electronic control unit and configured to control an operation of the first electronic control unit, wherein the first electronic control unit includes: a power switching circuit configured to switch a power supply to the second electronic control unit between a power supply state in which the power supply to the second electronic control unit is activated and a power cutoff state in which the power supply to the second electronic control unit is deactivated; an off control circuit configured to, using the power switching circuit, switch the power supply to the second electronic control unit from the power supply state to the power cutoff state in response to receiving an instruction to shift to an off mode indicating switching from the high power state to the low power state; and an on control circuit configured to, using the power switching circuit, switch the power supply to the second electronic control unit from the power cutoff state to the power supply state in response to receiving an instruction to shift to an on mode indicating switching from the low power state to the high power state. 2 . The network system according to claim 1 , wherein each terminal device is implemented by a terminal electronic control unit, and each terminal device is configured to: detect a trigger signal serving as a trigger for the instruction to shift to the on mode from an electric device connected to the terminal electronic control unit; and notify the first electronic control unit that the trigger signal is detected. 3 . The network system according to claim 2 , wherein the first electronic control unit is a zone control device that controls operations of the one or more terminal electronic control units, the second electronic control unit is an integrated control device that controls an operation of the network system, and the first electronic control unit is configured to: switch the power supply to the second electronic control unit from the power supply state to the power cutoff state by the off control circuit in response to receiving the instruction to shift to the off mode; and switch the power supply to the second electronic control unit from the power cutoff state to the power supply state by the on control circuit in response to receiving the instruction to shift to the on mode, which is output from one of the one or more terminal electronic control units based on the trigger signal. 4 . The network system according to claim 1 , wherein a signal obtained from a sensor equipped to a vehicle is used as a trigger signal that triggers a shift from the off mode to the on mode. 5 . The network system according to claim 1 , wherein, when the network system shifts to the off mode, a power device having a power supply capability lower than a power supply capability of supplying the power in the on mode is used. 6 . The network system according to claim 1 , wherein a signal received from an input device equipped to a vehicle or a signal acquired from an external source located outside of the network system is used as a signal for the instruction to shift from the on mode to the off mode or the instruction to shift from the off mode to the on mode. 7 . The network system according to claim 1 , wherein each terminal device is implemented by a terminal electronic control unit, and in the on mode, the first electronic control unit and the second electronic control unit are supplied with the power in the high power state and a power supply to each terminal electronic control unit is controlled according to an operation state of the corresponding terminal electronic control unit. 8 . The network system according to claim 1 , wherein each terminal device is implemented by a terminal electronic control unit, and a communication frame defined under controller area network (CAN) protocol is used for (i) a communication between the second electronic control unit and the first electronic control unit and/or (ii) a communication between the first electronic control unit and each terminal electronic control unit. 9 . The network system according to claim 1 , wherein each terminal device is implemented by a terminal electronic control unit, and when the network system shifts to the off mode, power supply to a part of the one or more terminal electronic control units, which has not received a trigger signal serving as a trigger for the instruction to shift to the on mode, is deactivated according to an instruction from the second electronic control unit. 10 . The network system according to claim 1 , further comprising, a third electronic control unit that controls operations of one or more terminal electronic control units and does not include the power switching circuit, wherein, when the network system shifts to the off mode, power supply to the third electronic control unit is deactivated according to an instruction from the second electronic control unit. 11 . The network system according to claim 1 , wherein each terminal device is implemented by a terminal electronic control unit, and when the network system shifts to the off mode, power supply to a part of the one or more terminal electronic control units, which has received a trigger signal serving as a trigger for the instruction to shift to the on mode, is switched to the low power state according to an instruction from the second electronic control unit. 12 . The network system according to claim 1 , wherein, when the network system shifts to the off mode, the off control circuit of the first electronic control unit is configured to switch the power supply to the second electronic control unit from the power supply state to the power cutoff state, and then switch the first electronic control unit from the high power state to the low power state. 13 . The network system according to claim 1 , wherein, when the network system shifts to the on mode, the first electronic control unit is set to the high power state. 14 . The network system according to claim 13 , wherein, after the first electronic control unit is set to the high power state, the on control circuit of the first electronic control unit switches the power supply to the second electronic control unit to the power supply state. 15 . The network system according to claim 1 , wherein the instruction to shift to the off mode is a long period off mode shift instruction set in advance for instructing to shift to the low power state for a long period, which is set to be equal to or longer than a predetermined period.