Capacitive liquid level sensor

The invention claimed is: 1. A capacitive liquid level sensor comprising: a capacitive probe having a capacitance and comprising a sensing tip wherein the capacitive probe is configured such that the capacitance of the probe changes when the sensing tip is exposed to liquid; a signal generator configured to supply an electrical signal alternating between a high and low state to the capacitive probe the electrical signal being configured such that the probe is alternately charged and discharged when the signal is high or low respectively; a comparator configured to detect the magnitude of an electrical signal across the capacitive probe and provide a first output signal value when the detected signal magnitude is greater than a predetermined threshold value and a second output signal value when the signal magnitude is less than the threshold value; a timer configured to receive an output signal from the comparator and to measure a time period starting when the comparator output signal transitions to the first output signal value and ending when the comparator output signal transitions to the second output signal value; and liquid detector configured to directly utilise the time period measured by the timer to determine if the sensing tip is exposed to liquid. 2. A capacitive liquid level sensor according to claim 1 wherein said liquid detector determines whether the sensing tip is exposed to liquid based on whether the time period measured by the timer is greater or less than a reference value. 3. A capacitive liquid level sensor according to claim 1 further comprising time period average configured to calculate an average time period from a plurality of time periods calculated by the timer; and wherein the liquid detector is configured to determine whether liquid is present based on whether the average time period calculated by the time period average is greater than a reference value. 4. A capacitive liquid level sensor according to claim 3 further comprising reference value calibrator configured to: calculate a calibration value equal to an average of a plurality of average time periods calculated by the time period average; determine whether the calibration value is equal to the reference value; and replace the reference value with the calibration value if it is determined that they are not equal. 5. A capacitive liquid level sensor according to claim 4 wherein the reference value calibrator is configured to perform a calibration when the number of average time periods is equal to or greater than a number of samples threshold value. 6. A capacitive liquid level sensor according to claim 5 wherein the reference calibrator is configured to perform the calibration utilising a number of samples equal to the number of samples threshold value. 7. A capacitive liquid level sensor according to claim 4 wherein the reference value calibrator is configured to calculate an initial reference value based on a number of average time periods less than the number of samples threshold value. 8. A capacitive liquid level sensor according to claim 1 wherein the comparator threshold value is adjustable. 9. A capacitive liquid level sensor according to claim 8 further comprising a variable resistance and wherein the comparator threshold value is adjustable by automatically or manually adjusting the resistance value of the variable resistor. 10. A capacitive liquid level sensor according to claim 2 wherein the liquid detector determines that the sensing tip is exposed to liquid when the time period or average time period is outside a range of ±1% of the reference value. 11. A capacitive liquid level sensor according to claim 1 wherein the capacitive probe is configured to have a capacitive sensitivity such that a change in capacitance of the probe is detectable when it is placed within at least 10 μl of liquid. 12. A capacitive liquid level sensor according to claim 1 wherein the signal generator wherein said comparator comprises a voltage comparator and said electrical signal detected across the capacitive probe is a voltage. 13. A capacitive liquid level sensor according to claim 1 wherein the alternating signal comprises an electrical pulse train and the signal generator is preferably a pulse width modulation signal generator. 14. A capacitive liquid level sensor according to claim 13 wherein the signal generator is configured such that in use the timing resolution of the pulse train signal can be adjusted. 15. A capacitive liquid level sensor according to claim 1 wherein said timer comprises a split time register. 16. A method of detecting liquid utilising a capacitive probe having a capacitance and comprising a sensing tip wherein the capacitive probe is configured such that the capacitance of the probe changes when the sensing tip is exposed to liquid, said method comprising: supplying an electrical signal alternating between a high and low state to the capacitive probe the electrical signal being configured such that the probe is alternately charged and discharged when the signal is high or low respectively; detecting the magnitude of an electrical signal across the capacitive probe and providing a first output signal value when the detected signal magnitude is greater than a predetermined threshold value and a second output signal value when the signal magnitude is less than the threshold value; receiving the first or second output signal and measuring a time period starting when the output signal transitions to the first output signal value and ending when the output signal transitions to the second output signal value; and directly utilising the measured time period to determine if the sensing tip is exposed to liquid. 17. A method according to claim 16 wherein the determination on whether the sensing tip is exposed to liquid comprises determining whether the measured time period is greater or less than a reference value. 18. A method according to claim 16 further comprising calculating an average time period from a plurality of calculated time periods; and wherein the determination on whether the sensing tip is exposed to liquid comprises determining whether the calculated average time period is greater than a reference value. 19. A method according to claim 16 further comprising a calibration step comprising: calculating a calibration value equal to an average of a plurality of average time periods; determining whether the calibration value is equal to the reference value; and replacing the reference value with the calibration value if it is determined that they are not equal or within a predetermined range. 20. A method according to claim 19 wherein the calibration step is performed when the number of average time periods is greater than a number of samples threshold value. 21. A method according to claim 20 wherein the calibration step comprises utilising a number of samples equal to the number of samples threshold value. 22. A method according to claim 19 wherein the calibration step further comprises calculating an initial reference value utilising a number of average time periods less than the number of samples threshold value. 23. A method according to claim 16 further comprising adjusting the threshold value manually or automatically while performing said method. 24. A method according to claim 23 further comprising wherein the threshold value is adjusted by adjusting the resistance value of a variable