Wetting current sequencing for low current interface

1 . A method for automated contact wetting in a sensor circuit comprising: generating a first current through a contact by sequencing a first circuit on, the first current exceeding a wetting threshold of the contact; and reducing current through the contact to a second current by sequencing a second circuit on, the second current being below the wetting threshold. 2 . The method of claim 1 , further comprising delaying reducing current through the contact to a second current by sequencing a second circuit on, the second current being below the wetting threshold until the first current has passed through the contact for a preset delay period. 3 . The method of claim 1 , wherein sequencing a first circuit on comprises exciting a sensor circuit connected to the contact. 4 . The method of claim 1 , wherein sequencing a second circuit on comprises exciting a controller input circuit connected to the contact. 5 . The method of claim 1 , further comprising operating in a sensing mode after reducing the current through the contact to a second current by sequencing a second circuit on, the sensing mode comprising passing a current below a sensing threshold through the contact. 6 . The method of claim 5 , wherein the sensing threshold is at least one order of magnitude lower than the wetting threshold. 7 . The method of claim 1 , wherein sequencing of the first circuit and sequencing of the second circuit is controlled by a wetting controller. 8 . The method of claim 1 , further comprising maintaining the second current for at least a duration of first circuit operations. 9 . A sensor configuration comprising: a first sensor circuit connected to a contact; a controller input circuit connected to the contact, such that a sensor output is operable to be passed through the contact to the controller input; a sequencing controller controllably coupled to each of said first sensor circuit and said controller input circuit such that said sequencing controller is configured to control energizing each of said first sensor circuit and said controller input circuit; and the sequencing controller including instructions operable to cause the sensor configuration to generate a first current through a contact by sequencing a first circuit on, the first current exceeding a wetting threshold of the contact, and reduce current through the contact to a second current by sequencing a second circuit on, the second current being below the wetting threshold. 10 . The sensor configuration of claim 9 , wherein said sequencing controller is a module within a controller including the controller input circuit. 11 . The sensor configuration of claim 9 , wherein said first sensor circuit comprises at least a sensor element, and a voltage source configured to drive said sensor element at a sensing current while said controller input circuit is energized, and configured to drive a wetting current through said contact when said controller input circuit is not energized. 12 . The sensor configuration of claim 9 , wherein the controller input circuit comprises an amplifier having inputs connected to the contact, at least one power source connecting a neutral to a corresponding one of said inputs via a protection diode. 13 . The sensor configuration of claim 12 , wherein said at least one power source connecting a neutral to a corresponding one of said inputs via a protection diode comprises a first power source connecting the neutral to a first amplifier input via a first protection diode and a second power source connecting the neutral to a second amplifier input via a second protection diode. 14 . The sensor configuration of claim 9 , wherein said controller input circuit is configured such that said controller input circuit is operable to reduce a current passing through said contact to a sensing current level when said controller input circuit is energized.