Gas sensor control apparatus

The invention claimed is: 1. A gas sensor control apparatus for controlling a gas sensor, the gas sensor comprising a sensor element that has: a solid electrolyte layer; a first electrode arranged on one side of the solid electrolyte layer so as to be exposed to the exhaust gas of an internal combustion engine; and a second electrode arranged on the other side of the solid electrolyte layer so as to face an atmospheric air chamber, wherein the gas sensor generates a sensor output according to the oxygen concentration in the exhaust gas, the gas sensor control apparatus comprising: a microcomputer, including storage memory and a processor, and a sensor control circuit operatively coupled to the microcomputer, wherein the microcomputer and the sensor control circuit form a configuration to at least perform: an oxygen supply that supplies oxygen to the first electrode side from the second electrode side via the solid electrolyte layer by applying a predetermined voltage between the pair of electrodes; and an abnormality determination that calculates, after start of the oxygen supply by the oxygen supply, a rate parameter representing a change rate of electric current between the pair of electrodes which is generated with the start of the oxygen supply and determines a crack abnormality of the solid electrolyte layer based on the rate parameter, a detection that detects, within a predetermined voltage range, the electric current flowing between the pair of electrodes, and wherein the abnormality determination calculates, as the rate parameter, a clamping time for which the electric current detected by the detection is clamped to a limit value of the predetermined voltage range and determines that the crack abnormality of the solid electrolyte layer has occurred when the clamping time is shorter than a predetermined time. 2. The gas sensor control apparatus as set forth in claim 1 , wherein the configuration formed the microcomputer and the sensor control circuit further performs: an oxygen concentration acquisition that acquires a value of the oxygen concentration in the exhaust gas during the performing of the oxygen supply by the oxygen supply; and a setting that variably sets, based on the value of the oxygen concentration acquired by the oxygen concentration acquisition, the predetermined voltage or the predetermined electric current applied between the pair of electrodes in the oxygen supply. 3. The gas sensor control apparatus as set forth in claim 1 , wherein the configuration formed by the microcomputer and the sensor control circuit further performs: an oxygen concentration acquisition that requires a value of the oxygen concentration in the exhaust gas during the performing of the oxygen supply by the oxygen supply; and a setting that variably sets, based on the value of the oxygen concentration acquired by the oxygen concentration acquisition, a determination threshold value for the crack abnormality determination of the solid electrolyte layer in the abnormality determination. 4. The gas sensor control apparatus as set forth in claim 1 , wherein the configuration formed by the microcomputer and the sensor control circuit further performs: an element temperature acquisition that acquires a temperature of the sensor element during the performing of the oxygen supply by the oxygen supply; and a setting that variably sets, based on the element temperature acquired by the element temperature acquisition, a determination threshold value for the crack abnormality determination of the solid electrolyte layer in the abnormality determination. 5. The gas sensor control apparatus as set forth in claim 1 , wherein the abnormality determination identifies, in addition to determining the presence or absence of the crack abnormality of the solid electrolyte layer, a degree of the abnormality based on the electric current or the electromotive force between the pair of electrodes which is generated with start of the oxygen supply by the oxygen supply. 6. The gas sensor control apparatus as set forth in claim 1 , wherein the sensor element further has a diffusion layer as a path for introducing the exhaust gas to the first electrode, wherein the configuration formed by the microcomputer and the sensor control circuit further performs: determination of an abnormality of the diffusion layer as a first determination and determination of the crack abnormality of the solid electrolyte layer as a second determination, wherein the first determination determines, when a fuel cut is performed in the internal combustion engine, the abnormality of the diffusion layer based on the sensor output of the gas sensor, and the second determination determines, when the internal combustion engine is in an operating state other than fuel cuts, the crack abnormality of the solid electrolyte layer based on the electric current or the electromotive force between the pair of electrodes which is generated by the oxygen supply. 7. A gas sensor control apparatus for controlling a gas sensor, the gas sensor comprising a sensor element that has: a solid electrolyte layer; a first electrode arranged on one side of the solid electrolyte layer so as to be exposed to the exhaust gas of an internal combustion engine; and a second electrode arranged on the other side of the solid electrolyte layer so as to face an atmospheric air chamber, wherein the gas sensor generates a sensor output according to the oxygen concentration in the exhaust gas, the gas sensor control apparatus comprising: a microcomputer, including storage memory and a processor, and a sensor control circuit operatively coupled to the microcomputer, wherein the microcomputer and the sensor control circuit form a configuration to at least perform: an oxygen supply that supplies oxygen to the first electrode side from the second electrode side via the solid electrolyte layer by applying a predetermined voltage between the pair of electrodes; and an abnormality determination that calculates after start of the oxygen supply by the oxygen supply, a rate parameter representing a change rate of electric current between the pair of electrodes which is generated with the start of the oxygen supply and determines a crack abnormality of the solid electrolyte layer based on the rate parameter, and wherein the abnormality determination calculates, as the rate parameter, the change rate of the electric current flowing between the pair of electrodes and determines that the crack abnormality of the solid electrolyte layer has occurred when the change rate of the electric current is higher than or equal to a predetermined value. 8. The gas sensor control apparatus as set forth in claim 7 , wherein the configuration formed by the microcomputer and the sensor control circuit further performs: an oxygen concentration acquisition that requires a value of the oxygen concentration in the exhaust gas during the performing of the oxygen supply by the oxygen supply; and a setting that variably sets, based on the value of the oxygen concentration acquired by the oxygen concentration acquisition, the predetermined voltage or the predetermined electric current applied between the pair of electrodes in the oxygen supply. 9. The gas sensor control apparatus as set forth in claim 7 , wherein the configuration formed by the microcomputer and the sensor control circuit further performs: an oxygen concentration acquisition that acquires a value of the oxygen concentration in the exhaust gas during the performing of the oxygen supply by the oxygen supply; and a setting that variably sets, based on the value of the oxygen concentration acquired by the oxygen concentration acquisition, a determination threshold value for the