Interface unit, conveying system and method

The invention claimed is: 1. An interface configured to interface with one or more sensors, the interface comprising: an input circuit including a pull-up circuit and a pull-down circuit connected via paths to an input node of the input circuit, the input circuit configured to, receive, at the input node, a first sensing signal from the one or more sensors, the first sensing signal indicating a first operating condition associated with a status of one or more of an overspeed governor and an elevator door associated with the one or more sensors, duplicate the first sensing signal to generate duplicate sensing signals, transmit the duplicate sensing signals to the pull-up circuit and the pull-down circuit; and at least two controllers configured to, determine a status of the one or more sensors based on a voltage across one or more of the pull-up circuit and the pull-down circuit when the one or more sensors are electrically connected to the input circuit such that the first sensing signal is transmitted to the input circuit, and determine a second operating condition associated with the input circuit based on a voltage across one or more of the pull-up circuit and the pull-down circuit when the one or more sensors are electrically disconnected from the input circuit such that the first sensing signal is not transmitted to the input circuit. 2. The interface according to claim 1 , further comprises: a switch configured to electrically disconnect the one or more sensors from the input circuit, wherein the interface is configured to determine the second operating condition of the input circuit when the one or more sensors are disconnected. 3. The interface according to claim 2 , wherein the the switch is configured to disconnect a power supply associated with the one or more sensors. 4. The interface according to claim 1 , wherein the interface is configured to supply a testing voltage to the input circuit. 5. The interface according to claim 4 , wherein the interface is configured to supply the testing voltage to the input circuit while the one or more sensors remain electrically disconnected from the input circuit such that the first sensing signal is disconnected from the input circuit. 6. The interface according to claim 5 , wherein the interface is configured to sequentially apply the testing voltage to each of the paths. 7. The interface according to claim 1 , wherein the interface further comprises: a communication circuit configured to transmit a message to the one or more sensors via a communication bus. 8. The interface according to claim 1 , wherein the input circuit includes the input node for duplicating the first sensing signal arriving in the input circuit. 9. The interface according to claim 8 , wherein the at least two controllers includes a first controller configured to receive a first one of the duplicate sensing signals via a first one of the paths and a second controller configured to receive a second one of the duplicate sensing signals via a second one of the paths. 10. The interface according to claim 1 , wherein the one or more sensors include a first sensor and a second sensor, the first sensor configured to generate the first sensing signal, and the second sensor configured to generate a second sensing signal, the input circuit is configured to receive, via the input node, the first sensing signal and the second sensing signal, and to provide the first sensing signal and the second sensing to the paths, and the interface is configured to sequentially determine the operating condition of the paths. 11. The interface according to claim 10 , wherein the interface is configured to determine the second operating condition of the input circuit when the first sensing signal and the second sensing signal are disconnected from the input circuit. 12. The interface according to claim 1 , wherein the one or more sensors include one or more a safety switches connected in series. 13. A conveying system, comprising: an interface according to claim 1 . 14. The interface according to claim 1 , wherein the at least two controllers are configured to determine the second operating condition by determining if one or more of the pull-up circuit and the pull-down circuit have a first logic level when the one or more sensors are electrically disconnected from the input circuit. 15. The interface according to claim 14 , wherein the at least two controllers are configured to determine the second operating condition by further determining whether one or more of the pull-up circuit and pull-down circuit switch from the first logic level to a second logic level when a testing voltage is applied to each of the paths while the one or more sensors remain electrically disconnected from the input circuit. 16. The interface according to claim 15 , wherein the interface is configured to determine a fault situation in the input circuit, if the pull-up circuit and pull-down circuit in a respective one of the paths associated with the first one of the duplicate sensing signals do not switch from the first logic level to the second logic level when the testing voltage is applied to the respective one of the paths. 17. The interface according to claim 15 , wherein the interface is configured to determine a fault situation in the input circuit, if the pull-up circuit and pull-down circuit in a respective one of the paths associated with the second one of the duplicate sensing signals do not switch from the first logic level to the second logic level when the testing voltage is applied to the respective one of the paths. 18. A method for monitoring an operating condition of an input circuit included in an interface, the interface configured to interface with one or more sensors, the method comprising: receiving, at an input node of the input circuit, a first sensing signal from the one or more sensors, the first sensing signal indicating a first operating condition associated with a status of one or more of an overspeed governor and an elevator door associated with the one or more sensors; duplicating the first sensing signal to generate duplicate sensing signals; transmitting the duplicate sensing signals to a pull-up circuit and a pull-down circuit connected via paths to the input node of the input circuit; first determining a status of the one or more sensors based on a voltage across one or more of the pull-up circuit and the pull-down circuit when the one or more sensors are electrically connected to the input circuit such that the first sensing signal is transmitted to the input circuit; and second determining a second operating condition associated with the input circuit based on a voltage across one or more of the pull-up circuit and the pull-down circuit when the one or more sensors are electrically disconnected to the input circuit such that the first sensing signal is not transmitted to the input circuit. 19. The method according to claim 18 , wherein the second determining further comprises: disconnecting the one or more sensors from a power supply thereof. 20. The method according to claim 18 , wherein the second determining includes applying a testing voltage to each of the paths. 21. The method according to claim 18 , wherein the one or more sensors include one or more safety switches connected in series. 22. The method according to claim 18 , wherein the second determining includes determining if one or more of the pull-up circuit and the pull-down circuit h