AC rotary machine apparatus

What is claimed is: 1. An AC rotary machine apparatus, comprising: an AC rotary machine that is provided with first system plural-phase windings and second system plural-phase windings; a first system inverter that is provided with plural switching devices for applying voltage to the first system plural-phase windings; a second system inverter that is provided with plural switching devices for applying voltage to the second system plural-phase windings; a resolver that is a sensor for detecting a rotational position of the AC rotary machine, and is provided with a first system excitation winding, first system two output windings, a second system excitation winding, and second system two output windings, in which a magnetic interference occurs between a first system and a second system; a first system control circuit that applies AC voltage with a first period to the first system excitation winding, detects first system output signals outputted from the first system two output windings, calculates first system voltage commands for applying to the first system plural-phase windings, and turns on and off the plural switching devices of the first system inverter and applies voltage to the first system plural-phase windings, based on the first system voltage commands; and a second system control circuit that applies AC voltage with a second period which is different from the first period to the second system excitation winding, detects second system output signals outputted from the second system two output windings, detects a second system angle of the AC rotary machine based on components of the second period included in the second system output signals, calculates second system voltage commands for applying to the second system plural-phase windings based on the second system angle, and turns on and off the plural switching devices of the second system inverter and applies voltage to the second system plural-phase windings, based on the second system voltage commands, wherein the first system control circuit extracts components of the second period from the first system output signals, and determines whether operation of the second system control circuit stops based on the extracted components of the second period. 2. The AC rotary machine apparatus according to claim 1 , wherein the first system control circuit detects a first system angle of the AC rotary machine based on components of the first cycle included in the first system output signals, and calculates the first system voltage commands based on the first system angle, and wherein the second system control circuit extracts components of the second period from the second system output signals, and determines whether operation of the first system control circuit stops based on the extracted components of the second period. 3. The AC rotary machine apparatus according to claim 2 , wherein, when determining that the operation of the second system control circuit stops, the first system control circuit changes the first system voltage commands so that an output torque by the first system plural-phase windings increases more than when determining that the operation of the second system control circuit does not stop, and wherein, when determining that the operation of the first system control circuit stops, the second system control circuit changes the second system voltage commands so that an output torque by the second system plural-phase windings increases more than when determining that the operation of the first system control circuit does not stop. 4. The AC rotary machine apparatus according to claim 2 , wherein the AC rotary machine is an AC rotary machine for an electric power steering apparatus which outputs an electric steering torque which drives a steering apparatus of a vehicle, wherein, when determining that the operation of the first system control circuit and the operation of the second system control circuit do not stop, the first system control circuit and the second system control circuit share the electric steering torque with the first system plural-phase windings and the second system plural-phase windings to output, wherein, when determining that the operation of the second system control circuit stops, the first system control circuit changes the first system voltage commands so that a sharing rate by which the electric steering torque is shared with the first system plural-phase windings to output increases more than when determining that the operation of the second system control circuit does not stop, and wherein, when determining that the operation of the first system control circuit stops, the second system control circuit changes the second system voltage commands so that a sharing rate by which the electric steering torque is shared with the second system plural-phase windings to output increases more than when determining that the operation of the first system control circuit does not stop. 5. The AC rotary machine apparatus according to claim 2 , wherein the first system control circuit determines that the operation of the second system control circuit stops when an amplitude of the extracted components of the second period is larger than a determination threshold for second period component, and determines that the operation of the second system control circuit does not stop when the amplitude of the extracted components of the second period is not larger than the determination threshold for second period component, and wherein the second system control circuit determines that the operation of the first system control circuit stops when an amplitude of the extracted components of the first period is larger than a determination threshold for first period component, and determines that the operation of the first system control circuit does not stop when the amplitude of the extracted components of the first period is larger than the determination threshold for first period component. 6. The AC rotary machine apparatus according to claim 2 , wherein a first output winding and a second output winding which are the first system two output windings are provided so that phases of those output signals are mutually different 90 degrees in an electrical angle, wherein a third output winding and a fourth output winding which are the second system two output windings are provided so that phases of those output signals are mutually different 90 degrees in the electrical angle, wherein the first system control circuit extracts the component of the second period from the output signal of the first output winding, and extracts the component of the second period from the output signal of the second output winding, calculates an amplitude value of second period component by adding a square value of the extracted component of the second period of the first output winding, and a square value of the extracted component of the second period of the second output winding, determines that the operation of the second system control circuit stops when the amplitude value of second period component is larger than the determination threshold for second period component, and determines that the operation of the second system control circuit does not stop when the amplitude value of second period component is not larger than the determination threshold for second period component, and wherein the second system control circuit extracts the component of the first period from the output signal of the third output winding, and extracts the component of the first period from the output signal of the fourth output winding, calculates an amplitude value of first period component by adding a square value of the extracted component of the first period of the third output winding, and a square value of the extracted component of the first per