Protection device with communication bus fault diagnosis function, system and method

What is claimed is: 1. A protection device for a switch in a power distribution network, wherein the protection device is connected to a protection device of at least one other switch via at least one communication bus, the protection device comprising: a first interface, connectable to a first communication bus; a first controlled switch pair connected to the first interface, for configuring the first interface to be an output port or an input port in response to a control signal; and a first control unit, configured to control the first controlled switch pair such that the first interface is configured to be an input port within a first diagnosis time period; and configured to issue a first alert signal if an input signal from the first interface is abnormal within the diagnosis time period; wherein an interface of each protection device connected to the first communication bus is configured to be an input port within the first diagnosis time period. 2. The protection device of claim 1 , further comprising: a first feedback circuit, coupled to an output path of the first interface when the first interface is configured to be an output port, to detect a diagnosis signal sent via the first interface onto the first communication bus and to generate a first feedback signal, the first feedback signal being feedable into the first control unit; and wherein the first control unit is also configured to control the first controlled switch pair such that the first interface is configured to be an output port within a second diagnosis time period, and is configured to send a diagnosis signal periodically onto the first communication bus via the first interface, wherein the first control unit is also configured to also issue a second alert signal if the first feedback signal is abnormal within the second diagnosis time period, and wherein amongst the interfaces of protection devices connected to the first communication bus, only the first interface is configured to be an output port within the second diagnosis time period. 3. The protection device of claim 2 , further comprising: a first output circuit, connected to an output switch in the first controlled switch pair, wherein, when the output switch is conducting, the first output circuit converts a command from the first control unit to the diagnosis signal and conveys same to the first interface and wherein the first feedback circuit is disposed in an output path of the first output circuit. 4. The protection device of claim 3 , further comprising: a second interface, connected to a second communication bus; a second controlled switch pair, connected to the second interface, to configure the second interface to be an output port or an input port in response to a control signal, wherein the first output circuit is also connected to an output switch in the second controlled switch pair, the first and second controlled switch pairs are controllable by the first control unit such that the first interface and the second interface are configured to be output ports alternately within the second diagnosis time period; issuing a diagnosis signal via the output port within the second diagnosis time period; and reading the feedback signal within the second diagnosis time period, and issuing a second alert associated with the corresponding interface if the feedback signal is abnormal. 5. The protection device of claim 1 , further comprising: a first input circuit, connected to an input switch in the first controlled switch pair, wherein when the input switch is conducting, the first input circuit converts a signal from the first interface to the input signal that is readable by the first control unit, and conveys same to the first control unit. 6. The protection device of claim 5 , wherein the first control unit is also configured to control the first controlled switch pair such that the first interface is configured to be an input port within a second diagnosis time period, and is configured to issue a second alert if the input signal is abnormal within the second diagnosis time period; and wherein amongst the interfaces connected to the first communication bus, only one interface is configured to be an output port within the second diagnosis time period. 7. The protection device of claim 4 , further comprising: a first input circuit, connected to input switches in the first controlled switch pair and second controlled switch pair, wherein, when the corresponding input switch is conducting, the first input circuit converts a signal from at least one of the first and second interface to the input signal that is readable by the first control unit, and conveys same to the first control unit wherein the first control unit is also used for controlling the first and second controlled switch pairs such that the first interface and the second interface are configured to be input ports alternately within the second diagnosis time period, and issuing a second alert signal associated with the corresponding interface if the input signal is abnormal within the second diagnosis time period. 8. The protection device of claim 1 , wherein the first input circuit comprises a power supply and a first current sensitive element connected in series with the power supply, wherein the first current sensitive element senses the input signal when a current flows therethrough; or the first output circuit comprises a controlled bipolar junction transistor, a controlled end of the controlled bipolar junction transistor being connected to the first control unit, and an output switch being coupled to the collector of the controlled bipolar junction transistor; or the output feedback circuit is a second current sensitive element coupled to the collector of the controlled bipolar junction transistor, the second current sensitive element being configured to sense the feedback signal when a current flows therethrough. 9. The protection device of claim 8 , wherein the current sensitive element is an optocoupler. 10. The protection device of claim 1 , wherein the first control unit is also configured to control the first controlled switch pair in order to switch the first interface from an output port to an input port, or vice versa, when the direction of current flowing through the switch is reversed, to send or receive an interlocking signal. 11. A method for diagnosing faults on a communication bus used to transmit zone selective interlocking signals in a power distribution network, the power distribution network including two or more switches, each of the two or more switches being configured with a protection device, the protection device being configured to exchange signals with a protection device of at least one other of the two or more switches via at least one communication bus, the method comprising: configuring interfaces of all of the protection devices connected to the same communication bus to be input ports within a first diagnosis time period; detecting, at each of the protection devices connected to the communication bus, an input signal received by an input port thereof; and issuing via the protection device, if abnormality is detected in the input signal, a first alert associated with the corresponding interface. 12. The method of claim 11 , further comprising: making one of the protection devices connected to the same communication bus a query unit within a second diagnosis time period, and configuring an interface by which the query unit is connected to the communication bus to be an output port, while an interface of another non-query protection device is maintained as an input port; sending, at the query unit, a diagnosis signal per