Fluid level detection system and method

What is claimed is: 1. A method of detecting whether a surface of a sample in a container having a cover is within a safety distance of the cover, the method comprising: coupling an alternating current (AC) input signal to one of a probe and an outer surface of the container; moving at least one of the container and the probe relative to one another such that the probe is directed into the container; detecting an AC output signal from the other of the probe and the outer surface of the container that is not coupled to the input signal; generating a processed AC signal as a function of the detected AC output signal; comparing the amplitude of the processed AC signal to a contact threshold level; determining that the probe has contacted the sample surface when the amplitude of the processed AC signal is at least equal to the contact threshold level; comparing the amplitude of the processed AC signal to a first threshold level less than the contact threshold level and determining a time when the amplitude of the processed AC signal is greater than or equal to the first threshold level, indicative of contact between the probe and the container cover; measuring a distance the container and the probe have moved relative to each other since the determined time when the amplitude of the processed AC signal was greater than or equal to the first threshold level; comparing the measured distance to a safety distance; and, if the measured distance exceeds the safety distance and the amplitude of the processed AC signal has not been determined to be at least equal to the contact threshold level, then ceasing movement of the container and the probe relative to one another, wherein the AC input signal has a predetermined contact frequency f p , and wherein generating the processed AC signal comprises amplifying and filtering in frequency the detected AC output signal. 2. The method as recited in claim 1 , wherein generating the processed AC signal as a function of the detected AC output signal comprises: bandpass filtering the amplified AC output signal relative to the contact frequency f p . 3. A method of detecting a location of a probe with respect to a cover of a container having a sample therein, the method comprising: applying an alternating current (AC) input signal with a contact frequency f p to an outer surface of the container; detecting an AC output signal from a probe inserted in the container; generating a processed AC signal as a function of the detected AC output signal; comparing the amplitude of the processed AC signal to a contact threshold value; identifying the location of the sample surface when the processed AC signal is greater than or equal to the contact threshold value; comparing the amplitude of the processed AC signal to a first threshold value that is less than the contact threshold value; and if the amplitude of the processed AC signal is determined to be equal to or greater than the first threshold value but less than the contact threshold value, then determining that the probe has touched the cover of the container, wherein generating the processed AC signal comprises amplifying and filtering in frequency the detected AC output signal. 4. The method as recited in claim 3 , wherein generating the processed AC signal comprises: bandpass filtering the AC output signal relative to the contact frequency f p to provide a filtered AC signal as the processed AC signal. 5. The method as recited in claim 3 , wherein the contact frequency f p is in a range of 230-270 KHz. 6. A method of positioning a probe with respect to a cover of a container having a sample therein, the method comprising: applying a first alternating current (AC) signal with a first frequency f p to an outer surface of the container; moving the probe in a first direction into the container through the cover; detecting a second AC signal from the probe; generating a third AC signal as a function of the second AC signal; comparing an amplitude of the third AC signal to first and second threshold values where the first threshold value is less than the second threshold value; detecting when the amplitude of the third AC signal is equal to or greater than the first threshold value; detecting when the amplitude of the third AC signal is at least equal to the second threshold value; moving the probe a predetermined distance in the first direction after first detecting that the amplitude of the third AC signal is at least equal to the first threshold value; and determining the probe has contacted the sample when the amplitude of the third AC signal is at least equal to the second threshold value, wherein generating the third AC signal as a function of the second AC signal comprises amplifying and filtering in frequency the second AC signal. 7. The method as recited in claim 6 , wherein generating the third AC signal as a function of the second AC signal comprises: bandpass filtering the second AC signal with respect to the first frequency f p . 8. The method as recited in claim 6 , further comprising: determining a first distance the probe has been moved since the amplitude of the third AC signal was detected to be equal to or greater than the first threshold value. 9. The method as recited in claim 8 , further comprising: comparing the first distance to a predetermined safety distance; and stopping movement of the probe if the first distance is greater than the predetermined safety distance and the amplitude of the third AC signal is less than the second threshold value. 10. The method as recited in claim 6 , wherein generating the third AC signal as a function of the second AC signal comprises: bandpass filtering the second AC signal with respect to the first frequency f p ; and converting the third AC signal to a digital signal.