Wetting Current Diagnostics

1 . A circuit for diagnostic testing regarding wetting current provided to a load control switch, the circuit comprising: a current source coupled to a power source and configured to provide the wetting current along a path to the load control switch; a current sensor connected in series with the current source along the path, the current sensor being configured to generate a current sensor signal indicative of a current level along the path; a voltage measurement unit having an input terminal coupled to a node along the path through which the wetting current flows to reach the load control switch, the voltage measurement unit being configured to detect a state of the load control switch based on a voltage at the node; and a controller coupled to the current sensor and the voltage measurement unit, the controller being configured to determine a wetting current diagnostic condition in accordance with the current level and the detected state of the load control switch. 2 . The circuit of claim 1 , further comprising a current measurement unit coupled to the current sensor to receive the current sensor signal, the current measurement unit being configured to generate an output signal indicative of a comparison of the current level with a threshold current level, wherein the controller is coupled to the current measurement unit and configured to determine the wetting current diagnostic condition based on the output signal. 3 . The circuit of claim 2 , wherein the controller is configured to correlate operation of the voltage measurement unit and the current measurement unit. 4 . The circuit of claim 2 , wherein: the controller is configured to implement first and second diagnostic routines when the voltage measurement unit detects that the state of the load control switch is open and closed, respectively; the first diagnostic routine is configured to determine whether the voltage measurement unit is operating correctly; and the second diagnostic routine is configured to compare the current level with the threshold current level. 5 . The circuit of claim 1 , wherein the controller is configured to provide a low current alert if the current level falls below a current range, and to provide a high current alert if the current level is above the range. 6 . The circuit of claim 1 , wherein the controller is configured to, while receiving an indication of an open state of the load control switch, provide a switch detection fault alert if the current level is within a range of current levels expected to be reached with the load control switch closed. 7 . The circuit of claim 1 , wherein the controller is configured to: if the current level is above an open threshold current level with the load control switch in an open position, deactivate the current source to determine a voltage level at the node with the current source deactivated; generate a voltage offset fault alert if the voltage level remains above a threshold voltage level upon deactivation; and generate a leakage fault alert if the voltage level falls below the threshold voltage level upon deactivation. 8 . The circuit of claim 1 , further comprising a voltage reference source and a switch that couples the input terminal of the voltage measurement unit to either the voltage reference source or the node, wherein the controller is configured to select a state of the switch. 9 . A circuit for diagnostic testing regarding wetting current provided to a load control switch, the circuit comprising: a current source coupled to a power source and configured to provide the wetting current along a path to the load control switch; a current sensor connected in series with the current source along the path, the current sensor being configured to generate a current sensor signal indicative of a current level along the path; a current measurement unit coupled to the current sensor to receive the current sensor signal, the current measurement unit being configured to implement comparisons of the current level with an open switch threshold and a closed switch threshold; a voltage measurement unit having an input terminal coupled to a node along the path through which the wetting current flows to reach the load control switch, the voltage measurement unit being configured to detect a state of the load control switch based on a voltage at the node; and a controller connected to the current measurement unit and the voltage measurement unit, the controller being configured to determine a wetting current diagnostic condition in accordance with the comparisons and the detected state. 10 . The circuit of claim 9 , wherein: the controller is configured to implement first and second diagnostic routines when the voltage measurement unit detects that the state of the load control switch is open and closed, respectively; the first diagnostic routine is configured to detect whether the state of the load control switch is detected correctly based on the comparisons of the current level with the open and closed switch thresholds; and the second diagnostic routine is configured to compare the current level with the closed switch threshold. 11 . The circuit of claim 9 , wherein: the current sensor comprises a diode disposed in the path and a current mirror connected across the diode; and the current measurement unit comprises a resistive load driven by the current mirror and further comprises a voltage comparator to compare a voltage across the resistive load with a reference voltage. 12 . The circuit of claim 9 , wherein the current sensor comprises a resistor disposed in the path and a transistor coupled to the resistor such that a voltage drop across the resistor controls an extent to which the transistor is activated. 13 . The circuit of claim 9 , wherein the current sensor comprises a common base amplifier circuit. 14 . The circuit of claim 9 , wherein the current measurement unit comprises an active load. 15 . A method of providing wetting current diagnostics for a load control switch, the method comprising: detecting a state of the load control switch; measuring a current level of a wetting current; when the detected state is an open state, determining, based on the measured current level, whether the state of the load control switch is detected correctly; and when the detected state is a closed state, comparing the measured current level to a closed switch current threshold. 16 . The method of claim 15 , further comprising providing a wetting current fault notification when the measured current level falls outside of a range of current levels relative to the closed switch current threshold. 17 . The method of claim 15 , wherein determining whether the state of the load control switch is detected correctly comprises comparing the measured current level to first and second open switch current thresholds. 18 . The method of claim 17 , wherein: detecting the state comprises measuring a voltage at a node through which the wetting current passes to the load control switch; and the method further comprises providing a voltage offset fault alert if the measured current level falls between the first and second open switch current thresholds and if the measured voltage is above a voltage reference. 19 . The method of claim 17 , further comprising providing a leakage fault alert if the measured current level falls between the first and second open switch current thresholds and the measured voltage is below the voltage reference. 20 . The method of cl