A mechanical switch and a semiconductor switch are connected between a load and a power supply system. A mechanical switch and a semiconductor switch are connected between the load and a secondary battery side. A control part turns on the mechanical switch, turns off the semiconductor switch, turns
A mechanical switch and a semiconductor switch are connected between a load and a power supply system. A mechanical switch and a semiconductor switch are connected between the load and a secondary battery side. A control part turns on the mechanical switch, turns off the semiconductor switch, turns on the semiconductor switch and turns off the mechanical switch sequentially. In addition or alternatively, the control part turns on the mechanical switch, turns off the semiconductor switch, turns on the semiconductor switch and turns off the mechanical switch.
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1. An AC power supply source switching apparatus comprising: a first mechanical switch connected between a load and a power supply system, which supplies AC power as system power;a first semiconductor switch connected in series to the first mechanical switch between the load and the power supply sys
1. An AC power supply source switching apparatus comprising: a first mechanical switch connected between a load and a power supply system, which supplies AC power as system power;a first semiconductor switch connected in series to the first mechanical switch between the load and the power supply system;a second mechanical switch connected between the load and a DC-AC conversion device, which converts DC power of a secondary battery to AC power;a second semiconductor switch connected in series to the second mechanical switch between the load and the DC-AC conversion device; anda switching control part for controlling the first and the second mechanical switches and the first and the second semiconductor switches to switch over a switching state from a first state to a second state, the first state being that the load is connected to the power supply system through the first mechanical switch and the first semiconductor switch and disconnected from the secondary battery, and the second state being a state that the load is connected to the secondary battery through the second mechanical switch and the second semiconductor switch and is disconnected from the power supply system. 2. The AC power supply source switching apparatus according to claim 1, wherein the switching control part includes: a first switch control part for turning on the second mechanical switch;a second switch control part for turning off the first semiconductor switch after an operation of the first switch control part;a third switch control part for turning on the second semiconductor switch after an operation of the second switch control part; anda fourth switch control part for turning off the first mechanical switch after an operation of the third switch control part,thereby the switching state is switched over from the first state to the second state. 3. The AC power supply source switching apparatus according to claim 1, wherein the switching control part includes: a fifth switch control part for turning on the first mechanical switch;a sixth switch control part for turning off the second semiconductor switch after an operation of the fifth switch control part;a seventh switch control part for turning on the first semiconductor switch after an operation of the sixth switch control part; andan eighth switch control part for turning off the second mechanical switch after an operation of the seventh switch control part,thereby the switching state is switched over from the second state to the first state. 4. The AC power supply source switching apparatus according to claim 1, further comprising at least one of: a discharge detection part for monitoring discharge power, which is discharged from the DC-AC conversion device; anda system power detection part for monitoring system power, which is supplied from the power supply system. 5. The AC power supply source switching apparatus according to claim 4, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to switch over the switching state from the first state to the second state, when a detection signal of the discharge detection part indicates that the discharge power of the DC-AC conversion device is larger than a discharge power threshold value. 6. The AC power supply source switching apparatus according to claim 4, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to switch over the switching state from the second state to the first state, when a detection signal of the system power detection part indicates that the system power of the power supply system is larger than a system power threshold value. 7. The AC power supply source switching apparatus according to claim 4, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to switch over the switching state from the first state to the second state, when the detection signal of the system power detection part indicates that the system power of the power supply system is lower than the system power threshold value. 8. The AC power supply source switching apparatus according to claim 4, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to switch over the switching state from the second state to the first state, when a detection signal of the discharge detection part indicates that the discharge power of the DC-AC conversion device is lower than the discharge power threshold value. 9. The AC power supply source switching apparatus according to claim 1, further comprising: a failure check part for checking individually whether each of the first and the second mechanical switches and the first and the second semiconductor switches is failing. 10. The AC power supply source switching apparatus according to claim 9, further comprising: a notifying part for notifying externally that a switch failure is present, when the failure check part determines that either one of the first and the second mechanical switches and the first and the second semiconductor switches is failing. 11. The AC power supply source switching apparatus according to claim 9, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to return the switching state to the first state, when the failure check part determines that at least one of the first and the second mechanical switches and the first and the second semiconductor switches is failing at the time of switching from the first state to the second state. 12. The AC power supply source switching apparatus according to claim 9, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to return the switching state to the second state, when the failure check part determines that at least one of the first and the second mechanical switches and the first and the second semiconductor switches is failing at the time of switching from the second state to the first state. 13. The AC power supply source switching apparatus according to claim 9, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to switch over the switching state from the first state to the second state, when the failure check part determines that either one of the first mechanical switch and the first semiconductor switches is failing. 14. The AC power supply source switching apparatus according to claim 9, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to switch over the switching state from the second state to the first state, when the failure check part determines that either one of the second mechanical switch and the second semiconductor switches is failing. 15. The AC power supply source switching apparatus according to claim 9, wherein: the switching control part turns off the first and the second mechanical switches and the first and the second semiconductor switches, when the failure check part determines that at least one of the first and the second mechanical switches and the first and the second semiconductor switches is failing. 16. The AC power supply source switching apparatus according to claim 9, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to maintain a state that the load is connected to the one of the power supply system and the secondary battery, when the failure check part determines that at least one of the first and the second mechanical switches and the first and the second semiconductor switches is failing at the time the first and the second mechanical switches and the first and the second semiconductor switches are controlled to maintain a state that the load is connected to the one of the power supply system and the secondary battery. 17. The AC power supply source switching apparatus according to claim 1, wherein: the switching control part controls the first and the second semiconductor switches to turn on and off at time points of zero-crossing of the system power supplied from the power supply system and the discharge power supplied from the DC-AC conversion device. 18. The AC power supply source switching apparatus according to claim 2, wherein the switching control part includes: a fifth switch control part for turning on the first mechanical switch;a sixth switch control part for turning off the second semiconductor switch after an operation of the fifth switch control part;a seventh switch control part for turning on the first semiconductor switch after an operation of the sixth switch control part; andan eighth switch control part for turning off the second mechanical switch after an operation of the seventh switch control part,thereby the switching state is switched over from the second state to the first state. 19. The AC power supply source switching apparatus according to claim 18, further comprising: a discharge detection part for monitoring discharge power, which is discharged from the DC-AC conversion device; anda system power detection part for monitoring system power, which is supplied from the power supply system,wherein the switching control part allows a switchover from the first state to the second state only when a detection signal of the discharge detection part indicates that the discharge power of the DC-AC conversion device is larger than a discharge power threshold value, and a switchover from the second state to the first state only when a detection signal of the system power detection part indicates that the system power of the DC-AC conversion device is larger than a system power threshold value, andwherein the switching control part performs a switchover from the first state to the second state, when the detection signal of the system power detection part indicates that the system power of the power supply system is lower than the system power threshold value, and a switchover from the second state to the first state when the detection signal of the discharge detection part indicates that the discharge power of the DC-AC conversion device is lower than the discharge power threshold value. 20. The AC power supply source switching apparatus according to claim 18, further comprising: a failure check part for checking individually whether each of the first and the second mechanical switches and the first and the second semiconductor switches is failing; anda notifying part for notifying externally that a switch failure is present, when the failure check part determines that either one of the first and the second mechanical switches and the first and the second semiconductor switches is failing. 21. The AC power supply source switching apparatus according to claim 20, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to return the switching state to the first state, when the failure check part determines that at least one of the first and the second mechanical switches and the first and the second semiconductor switches is failing at the time of switching from the first state to the second state; andthe switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to return the switching state to the second state, when the failure check part determines that at least one of the first and the second mechanical switches and the first and the second semiconductor switches is failing at the time of switching from the second state to the first state. 22. The AC power supply source switching apparatus according to claim 20, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to switch over the switching state from the first state to the second state, when the failure check part determines that either one of the first mechanical switch and the first semiconductor switch is failing; andthe switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to switch over the switching state from the second state to the first state, when the failure check part determines that either one of the second mechanical switch and the second semiconductor switch is failing. 23. The AC power supply source switching apparatus according to claim 20, wherein: the switching control part turns off the first and the second mechanical switches and the first and the second semiconductor switches, when the failure check part determines that at least one of the first and the second mechanical switches and the first and the second semiconductor switches is failing. 24. The AC power supply source switching apparatus according to claim 20, wherein: the switching control part controls the first and the second mechanical switches and the first and the second semiconductor switches to maintain a state that the load is connected to the one of the power supply system and the secondary battery, when the failure check part determines that at least one of the first and the second mechanical switches and the first and the second semiconductor switches is failing at the time the first and the second mechanical switches and the first and the second semiconductor switches are controlled to maintain a state that the load is connected to the one of the power supply system and the secondary battery. 25. The AC power supply source switching apparatus according to claim 20, wherein: the switching control part controls the first and the second semiconductor switches to turn on and off at time points of zero-crossing of the system power supplied from the power supply system and the discharge power supplied from the DC-AC conversion device.
Dupraz, Jean-Pierre; Grieshaber, Wolfgang; Collet, Michel, Mechatronic circuit breaker device and associated tripping method and use thereof in interrupting a high direct current.
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