Ignition apparatus for internal combustion engine

The invention claimed is: 1. An ignition apparatus for an internal combustion engine, the ignition apparatus comprising: a main ignition circuit that performs energization control of a primary coil of an ignition coil, thereby causing a spark discharge in an ignition plug; an energy input circuit that inputs electrical energy to the primary coil during the spark discharge started by operation of the main ignition circuit, thereby applying a secondary electric current in the same direction to a secondary coil of the ignition coil, the energy input circuit also keeping the secondary electric current at a secondary electric current command value, thereby continuing the spark discharge started by operation of the main ignition circuit; and a blow-off determining unit which determines, when a value ΔI2 of the time derivative of the secondary electric current exceeds a predetermined threshold value Z during a determination period, that blow-off has occurred, the determination period being a predetermined time period ΔT from the start of the spark discharge by the main ignition circuit. 2. The ignition apparatus for an internal combustion engine as set forth in claim 1 , wherein when the number of times the value ΔI2 of the time derivative of the secondary electric current exceeds the predetermined threshold value Z during the determination period is greater than or equal to a predetermined number, the blow-off determining unit determines that blow-off has continuously occurred. 3. The ignition apparatus for an internal combustion engine as set forth in claim 2 , wherein the ignition apparatus further comprises an energy input commanding unit that generates, based on a determination result from the blow-off determining unit, a discharge continuation signal and a secondary electric current command signal and sends the generated signals to the energy input circuit, the discharge continuation signal being a command signal of spark discharge continuation, the secondary electric current command signal indicating the secondary electric current command value, referring to the spark discharge by the main ignition circuit as the main ignition and referring to the spark discharge continued by the energy input circuit as the continuing spark discharge, when it is determined that blow-off has continuously occurred during the main ignition, the energy input commanding unit generates the discharge continuation signal so as to perform the continuing spark discharge in a next cycle, and sets an electric current value that is obtained by adding a predetermined electric current value α to the secondary electric current value I2x immediately before the occurrence of blow-off as the secondary electric current command value in the continuing spark discharge in the next cycle. 4. The ignition apparatus for an internal combustion engine as set forth in claim 2 , wherein the ignition apparatus further comprises an energy input commanding unit that generates, based on a determination result from the blow-off determining unit, a discharge continuation signal and a secondary electric current command signal and sends the generated signals to the energy input circuit, the discharge continuation signal being a command signal of spark discharge continuation, the secondary electric current command signal indicating the secondary electric current command value, referring to the spark discharge by the main ignition circuit as the main ignition and referring to the spark discharge continued by the energy input circuit as the continuing spark discharge, when it is determined that blow-off has continuously occurred during the continuing spark discharge, the energy input commanding unit generates the discharge continuation signal so as to perform the continuing spark discharge in a next cycle, and sets an electric current value, which is obtained by adding a predetermined electric current value β to the secondary electric current command value in the cycle where it is determined that blow-off has continuously occurred, as the secondary electric current command value in the continuing spark discharge in the next cycle. 5. The ignition apparatus for an internal combustion engine as set forth in claim 1 , wherein the ignition apparatus further comprises an energy input commanding unit that generates, based on a determination result from the blow-off determining unit, a discharge continuation signal and a secondary electric current command signal and sends the generated signals to the energy input circuit, the discharge continuation signal being a command signal of spark discharge continuation, the secondary electric current command signal indicating the secondary electric current command value, referring to the spark discharge by the main ignition circuit as the main ignition and referring to the spark discharge continued by the energy input circuit as the continuing spark discharge, when it is determined that blow-off has occurred during the main ignition, the energy input commanding unit generates the discharge continuation signal so as to perform the continuing spark discharge in a next cycle, and sets an electric current value that is obtained by adding a predetermined electric current value α to the secondary electric current value I2x immediately before the occurrence of blow-off as the secondary electric current command value in the continuing spark discharge in the next cycle. 6. The ignition apparatus for an internal combustion engine as set forth in claim 5 , wherein the energy input commanding unit sets the predetermined electric current value α such that the higher the engine rotational speed, the greater the predetermined electric current value α. 7. The ignition apparatus for an internal combustion engine as set forth in claim 1 , wherein the ignition apparatus further comprises an energy input commanding unit that generates, based on a determination result from the blow-off determining unit, a discharge continuation signal and a secondary electric current command signal and sends the generated signals to the energy input circuit, the discharge continuation signal being a command signal of spark discharge continuation, the secondary electric current command signal indicating the secondary electric current command value, referring to the spark discharge by the main ignition circuit as the main ignition and referring to the spark discharge continued by the energy input circuit as the continuing spark discharge, when it is determined that blow-off has occurred during the continuing spark discharge, the energy input commanding unit generates the discharge continuation signal so as to perform the continuing spark discharge in a next cycle, and sets an electric current value, which is obtained by adding a predetermined electric current value β to the secondary electric current command value in the cycle where it is determined that blow-off has occurred, as the secondary electric current command value in the continuing spark discharge in the next cycle. 8. The ignition apparatus for an internal combustion engine as set forth in claim 7 , wherein the energy input commanding unit sets the predetermined electric current value β such that the higher the engine rotational speed, the greater the predetermined electric current value β.