Abstract: An apparatus is disclosed which uses electrodes to analyse a test sample.

Abstract: An apparatus is disclosed which uses electrodes to analyse a test sample.

Abstract: An apparatus is disclosed which uses electrodes to analyse a test sample.

Abstract: The invention relates to a probe for measuring the biomass content in a medium having a suspending fluid and cells. The probe has at least three electrodes, wherein two of the electrodes are configured as excitation electrodes for transmitting an excitation signal through a medium. Two of the electrodes are configured as signal electrodes for receiving an excitation signal that has passed through the medium. The or each signal electrode is located between the two excitation electrodes at a position where a high current density is generated. The probe can have two excitation electrodes and four signal electrodes. The signal electrodes are configured substantially in parallel and arranged in couples adjacent each other, at positions between the excitation electrodes.

Abstract: A probe assembly and a method of manufacturing a probe assembly. In one aspect there is a method of manufacturing a probe assembly comprising providing an electrode carrier carrying a plurality of electrodes, the electrode carrier comprising a top wherein the plurality of electrodes are exposed relative to the top and a bottom having a plurality of electrical contacts in electrical communication with the plurality of electrodes respectively; moulding a body around the electrode carrier to retain the electrode carrier whilst leaving the plurality of electrodes exposed. The invention also extends to a biomass monitoring system comprising a flexible enclosure including a probe assembly and support arrangement for receipt of the probe assembly in an engaged configuration.

Abstract: The invention relates to a probe for measuring the biomass content in a medium having a suspending fluid and cells. The probe has at least three electrodes, wherein two of the electrodes are configured as excitation electrodes for transmitting an excitation signal through a medium. Two of the electrodes are configured as signal electrodes for receiving an excitation signal that has passed through the medium. The or each signal electrode is located between the two excitation electrodes at a position where a high current density is generated. The probe can have two excitation electrodes and four signal electrodes. The signal electrodes are configured substantially in parallel and arranged in couples adjacent each other, at positions between the excitation electrodes.

Abstract: An improved probe designed in particular but not exclusively for measuring the concentration of live biomass. The probe has an insulating body portion arranged to carry a first and second electrode where the probe has a longitudinal axis and the first and second electrodes extend in this longitudinal axis. The body portion has a cross-sectional area perpendicular to the longitudinal axis defined by a major axis and minor axis, wherein the length of the body portion in the major axis is greater than the length of the body portion in the minor axis. The first and second electrodes are positioned on either side of the major axis. This reduces the effect of impedance between the electrode and the liquid through increasing the effective distance between the electrodes.

Abstract: A bioreactor includes a plastic enclosure for containing a biological medium, the enclosure being integrally formed to have one or more elongate port extensions projecting outwardly from the enclosure and communicating from the exterior to the interior of the enclosure. A biomass impendence monitor probe is provided for use in conjunction with the bioreactor. The probe is pushed into one or more of the elongate ports in order to have an electrode arrangement positioned internally of the container. The probe has an elongate housing having an outer surface extending along and contiguous with the elongate inner surface of the port extension. The housing extends from the electrode end of the probe to a remote end. The housing is provided with an electrical connector connected to the electrode arrangement.

Abstract: A method of dealing with the electrode polarization error when analyzing a dielectric test medium is achieved by firstly applying an excitation current to the test medium at a test frequency, by means of a first electric couple (23, 24) comprising excitation electrodes (23, 24). Next the voltage across the excitation electrode couple (23, 24) is measured and the voltage across a second couple of electrodes (25, 26) is also measured. The measured voltages across the first and second electrode couples are compared in order to derive a polarization correction factor which is used to provide a corrective value for the capacitance, or conductivity measurement. The method is suitable for use in industrial on-line applications.