Amperometric oxygen sensor

Abstract

A low cost amperometric oxygen sensor which utilizes a plurality of oxygen ion conductor layers interposed between a plurality of oxygen-porous electrode layers is provided. Oxygen from a sample gas enters the sensor at porous cathode electrodes, is pumped through the ion conductor layers, and exits through the anode electrodes. The amperometric current generated is representative of the partial pressure of oxygen in the sample gas. In accordance with one embodiment of the present invention, an amperometric oxygen sensor is provided for determining the oxygen partial pressure of a gas. The sensor comprises a sensor body defined by a plurality of oxygen-porous electrode layers and at least one oxygen ion conductor layer. The plurality of oxygen-porous electrode layers include at least one cathode layer and at least one anode layer. Each of the cathode layers define first and second major cathode surfaces and each of the anode layers defining first and second major anode surfaces. The oxygen ion conductor layer is interposed between the first major cathode surface and the first major anode surface. The cathode layer defines an unexposed second major cathode surface and a cathode end portion exposed along a first edge of the sensor body. The anode layer defines an unexposed second major anode surface and an anode end portion exposed along a second edge of the sensor body. The amperometric oxygen sensor further comprises a voltage source having a first pole connected to the cathode layer and a second pole connected to the anode layer, and a current meter connected to measure an amperometric current flowing through the at least one ion conductor layer.