Patent ID: 7895891

Claim:
An electric capacity level sensor with a high degree of precision for micro-volume systems, comprising: a metal part or casing, having walls, an opening and a borehole closed at the bottom thereof so as to constitute a container having walls, a lower part and a bottom; at least one inlet for gases; a first outlet disposed at the lower part of the container, the first outlet being an outlet for liquids; a second outlet, the second outlet being an outlet for gases, a probe; and a capacity level sensor having an oscillating RC circuit and a second electronic circuit, the oscillating RC circuit being a measuring circuit and the second electronic circuit being an offsetting circuit, wherein: the metal part or casing operates as a condenser with the aid of a Peltier cell cooling system, the Peltier cell cooling system being in contact with the walls of the casing, thus allowing liquids to condense on the walls of the container, and to be collected in the bottom of the container; wherein the probe is configured to be inserted through the opening of the metal part or casing and into the container, the probe is electrically isolated from the remainder of the metal part or casing and is capable of withstanding pressures up to 400 bar, and the probe constitutes, in conjunction with the metal part or casing, an electric condenser system, such that liquid present between the probe and the metal part or casing operates as a dielectric capable of modifying the electrical capacity of the electric condenser system; wherein the oscillating RC circuit is configured to provide a frequency signal proportional to the electrical capacity of the condenser system, the electrical capacity of the condenser system being proportional to a height of the liquid in the container; wherein the second electronic circuit is configured to operate at exactly the same temperature as the oscillating RC circuit; wherein the second electronic circuit is configured to provide a frequency signal proportional to the electrical capacity of the condenser system, and the second electronic circuit is configured to work in parallel with the oscillating RC circuit; and wherein the frequency signals from the oscillating RC circuit and from the second electronic circuit are received in a microprocessor through a multiplexor, and the microprocessor is configured to perform calculations so as to enable measuring errors due to changes in temperature in the oscillating RC circuit to be offset, and the microprocessor is configured to perform calculations for an output signal proportional to the frequency signals from the oscillating RC circuit and from the second electronic circuit, the output signal of the microprocessor being proportional to the height of the liquid in the container.