Sulfur oxides detection system

What is claimed is: 1. A sulfur oxides detection system comprising: a device part arranged in an exhaust passage of an internal combustion engine and comprising a first electrochemical cell having a first solid electrolyte layer having oxide ion conductivity, a first electrode arranged on one surface of the first solid electrolyte layer so as to be exposed to gas to be measured, and a second electrode arranged on an other surface of the first solid electrolyte layer so as to be exposed to the atmospheric air, and a diffusion regulating layer to regulate diffusion of the gas to be measured; a power supply to supply voltage across the first electrode and the second electrode; a detector to detect a first current correlation parameter correlated with a current flowing between the first electrode and the second electrode; and an electronic control part to control the power supply and to acquire the first current correlation parameter from the detector, wherein the electronic control part is to control the power supply so that a first voltage which is a decomposition start voltage of water and sulfur oxides or greater is to be applied across the first electrode and the second electrode and to calculate a concentration of sulfur oxides in the gas to be measured based on the first current correlation parameter detected by the detector if the first voltage is applied across the first electrode and the second electrode and the electronic control part is to judge whether a concentration of water in the gas to be measured is stable and does not calculate the concentration of sulfur oxides in the gas to be measured if the electronic control part judges that the concentration of water in the gas to be measured is not stable. 2. The sulfur oxides detection system according to claim 1 , wherein the device part further comprises a second electrochemical cell having a second solid electrolyte layer having oxide ion conductivity, a third electrode arranged on one surface of the second solid electrolyte layer so as to be exposed to the gas to be measured, and a fourth electrode arranged on an other surface of the second solid electrolyte layer so as to be exposed to the atmospheric air, the power supply is to apply voltage across the third electrode and the fourth electrode and the detector is to detect a second current correlation parameter correlated with a current flowing between the third electrode and the fourth electrode, and the electronic control part is also to control the power supply so that a second voltage which is a decomposition start voltage of water or greater is applied across the third electrode and the fourth electrode and is to judge that the concentration of water in the gas to be measured is not stable if an amount of change of the second current correlation parameter detected by the detector is a predetermined value or greater if the second voltage is applied across the third electrode and the fourth electrode. 3. The sulfur oxides detection system according to claim 1 , wherein the electronic control part is also to control the power supply so that a second voltage which is a decomposition start voltage of water or greater is applied across the first electrode and the second electrode and is to judge that the concentration of water in the gas to be measured is not stable if an amount of change of the first current correlation parameter detected by the detector is a predetermined value or greater if the second voltage is applied across the first electrode and the second electrode. 4. The sulfur oxides detection system according to claim 1 , wherein the sulfur oxides detection system further comprises a humidity sensor arranged in an intake passage of the internal combustion engine, and the electronic control part is also to judge that the concentration of water in the gas to be measured is not stable if an amount of change of humidity of the intake air detected by the humidity sensor is a predetermined value or greater. 5. The sulfur oxides detection system according to claim 1 , wherein the electronic control part is also to judge that the concentration of water in the gas to be measured is not stable if it judges that a type of fuel fed to a combustion chamber of the internal combustion engine has been switched. 6. The sulfur oxides detection system according to claim 5 , wherein the system further comprises an ethanol concentration sensor arranged in a feed path of the type of fuel fed to the combustion chamber, and the electronic control part is also to judge that the type of fuel has been switched if an amount of change of the concentration of ethanol in the fuel detected by the ethanol concentration sensor is a predetermined value or greater. 7. The sulfur oxides detection system according to claim 5 , wherein the system further comprises an air-fuel ratio sensor arranged in the exhaust passage, and the electronic control part is also to control a fuel amount fed to the combustion chamber by feedback so that the air-fuel ratio detected by the air-fuel ratio sensor becomes a target air-fuel ratio, and is to judge that the type of fuel has been switched if the target air-fuel ratio is maintained constant and an amount of change of the ratio between an amount of the intake air fed to the combustion chamber and the fuel amount fed to the combustion chamber is a predetermined value or greater. 8. The sulfur oxides detection system according to claim 5 , wherein the electronic control part is also to judge that the type of fuel has been switched in the period from when a fuel tank of the internal combustion engine is filled with fuel to when a predetermined amount or greater of fuel is fed to the combustion chamber. 9. The sulfur oxides detection system according to claim 1 , wherein the electronic control part is also to judge that the concentration of water in the gas to be measured is not stable if judging that there is condensed water at least at one of an exhaust gas recirculation (EGR) passage connecting the intake passage of the internal combustion engine with the exhaust passage and the exhaust passage or that condensed water will be formed at least at one of the EGR passage and the exhaust passage. 10. The sulfur oxides detection system according to claim 1 , wherein the electronic control part is also to judge that the concentration of water in the gas to be measured is not stable in the period from when water or an aqueous solution is injected into a path by which the gas to be measured reaches the device part to when the electronic control part judges that the injected water or aqueous solution passes the device part in the exhaust passage. 11. The sulfur oxides detection system according to claim 1 , wherein the electronic control part is also to calculate the concentration of sulfur oxides in the gas to be measured if judging that an exhaust air-fuel ratio of exhaust gas discharged from a combustion chamber of the internal combustion engine is stable and that the concentration of water in the gas to be measured is stable.