System and method for evaluating a capacitive interface

The invention claimed is: 1. A method of evaluating a capacitive interface, the method comprising: discharging the capacitive interface to a lower voltage level that is less than a reference voltage level by a predetermined voltage difference; timing while applying a unit charge to the capacitive interface until a voltage of the capacitive interface rises to the reference voltage level from the lower voltage level and determining a corresponding charge time value; charging the capacitive interface to an upper voltage level that is greater than the reference voltage level by the predetermined voltage difference; timing while removing the unit charge from the capacitive interface until a voltage of the capacitive interface falls from the upper voltage level to the reference voltage level and determining a corresponding discharge time value; and determining whether leakage current exists in the capacitive interface based on the charge time value compared with the discharge time value. 2. The method of claim 1 , wherein said timing while applying a unit charge and determining a corresponding charge time value comprises: disconnecting a unit capacitor from the capacitive interface; charging the unit capacitor to the upper voltage level; connecting the unit capacitor to the capacitive interface for charge sharing; and repeating cycles of said disconnecting, charging, and connecting at a predetermined rate while counting a number of cycles of a clock until the voltage of the capacitive interface rises to the reference voltage level and providing a count value indicative of the charge time value. 3. The method of claim 1 , wherein said timing while applying a unit charge and determining a corresponding charge time value comprises applying a unit charge current to the capacitive interface while counting a number of cycles of a clock signal until the voltage of the capacitive interface rises to the reference voltage level and providing a count value indicative of the charge time value. 4. The method of claim 1 , wherein said timing while removing a unit charge and determining a corresponding discharge time value comprises: disconnecting a unit capacitor from the capacitive interface; discharging the unit capacitor to the lower voltage level; connecting the unit capacitor to the capacitive interface for charge sharing; and repeating cycles of said disconnecting, discharging, and connecting at a predetermined rate while counting a number of cycles of a clock signal until the voltage of the capacitive interface falls from the upper voltage level to the reference voltage level and providing a count value indicative of the discharge time value. 5. The method of claim 1 , wherein said timing while removing a unit charge and determining a corresponding discharge time value comprises drawing a unit charge current from the capacitive interface while counting a number of cycles of a clock signal until the voltage of the capacitive interface falls to the reference voltage level and providing a count value indicative of the discharge time value. 6. The method of claim 1 , wherein said charging comprises connecting a voltage source and a resistor to the capacitive interface, and wherein said discharging comprises connecting a resistor to the capacitive interface. 7. The method of claim 1 , further comprising determining a capacitance of the capacitive interface using an average of the charge time value and the discharge time value. 8. The method of claim 1 , further comprising determining an amount of leakage current based on at least one of the charge time value and the discharge time value. 9. The method of claim 1 , further comprising determining a direction of leakage current based on relative values of the charge time value with the discharge time value. 10. The method of claim 1 , further comprising connecting to one of a plurality of capacitive interfaces. 11. An evaluation system for evaluating a capacitive interface, the evaluation system comprising: a charge circuit for selectively charging and discharging the capacitive interface; a comparator that compares a voltage of the capacitive interface with a reference voltage, wherein said reference voltage is greater than a low voltage by a predetermined voltage difference and is less than an upper voltage by the predetermined voltage difference; a counter; and a controller that controls said charge circuit, said comparator, and said counter to perform a measurement operation by charging the capacitive interface from said low voltage to said reference voltage to provide a charge count value, and by discharging the capacitive interface from said upper voltage to said reference voltage to provide a discharge count value, wherein said controller determines whether leakage current exists in the capacitive interface based on said charge count value compared with said discharge count value. 12. The evaluation system of claim 11 , wherein said controller is configured to control said charge circuit to discharge the capacitive interface to a minimum level, and to initiate said counter and control said charge circuit to apply a unit charge to the capacitive interface until said comparator circuit indicates that said voltage of the capacitive interface has risen to said reference voltage, wherein said counter provides said charge count value. 13. The evaluation system of claim 11 , wherein said controller is configured to control said charge circuit to charge the capacitive interface to said upper voltage, and to initiate said counter and control said charge circuit to remove said unit charge from the capacitive interface until said comparator circuit indicates that said voltage of the capacitive interface has fallen to said reference voltage, wherein said counter provides said discharge count value. 14. The evaluation system of claim 11 , wherein said charge circuit comprises: a voltage source; a unit capacitor; and a plurality of switches, including a first switch for selectively coupling the capacitive interface to ground, a second switch for selectively coupling the capacitive interface to said voltage source, a third switch for selectively coupling the capacitive interface to said unit capacitor, a fourth switch for selectively coupling said unit capacitor to said voltage source, and a fifth switch for selectively coupling said unit capacitor to ground. 15. The evaluation system of claim 14 , wherein said controller is configured to toggle said third and fourth switches at a frequency of a clock signal to selectively apply said unit charge to the capacitive interface, and wherein said counter counts cycles of said clock signal to provide said charge count value. 16. The evaluation system of claim 14 , wherein said controller is configured to toggle said third and fifth switches at a frequency of a clock signal to selectively remove said unit discharge from the capacitive interface, and wherein said counter counts cycles of said clock signal to provide said discharge count value. 17. The evaluation system of claim 11 , wherein said charge circuit comprises: a voltage source; at least one current source; and a plurality of switches, including a first switch for selectively coupling the capacitive interface to ground, a second switch for selectively coupling the capacitive interface to said voltage source, and at least one third switch for selectively coupling the capacitive interface to said at least one current source. 18. The evaluation system of claim 17 , wherein said controller controls said at least one