Abnormality diagnosing method for torque detecting device and electric power steering device

The invention claimed is: 1. An abnormality diagnosing method of a torque detecting device, wherein the torque detecting device comprises at least: a coil pair for detecting a relative displacement between a first rotary shaft and a second rotary shaft, which are connected to each other via a torsion bar that generates a twist when receiving a torque, by corresponding the relative displacement to a change in impedance; a signal processing unit having a torque detecting function for processing an output signal from the coil pair when a magnetization signal is supplied to the coil pair, and outputting a torque detecting signal; and a monitoring unit for regularly monitoring an abnormality of the torque detecting function; the abnormality diagnosing method comprising: inputting a diagnosis signal to the monitoring unit before the torque detecting function starts an operation; and confirming that the monitoring unit is operating normally, and wherein the monitoring unit is a magnetization signal monitoring unit for monitoring a waveform of the magnetization signal, and the monitoring unit receives a normal signal having an ideal waveform of the magnetization signal, and an abnormal signal different in frequency from the normal signal as signals for diagnosis, instead of the magnetization signal to be monitored, for determining whether or not the magnetization signal monitoring unit is operating normally. 2. The abnormality diagnosing method of the torque detecting device of claim 1 , wherein a signal having one half the frequency of the normal signal is input as the abnormal signal, for determining whether or not the magnetization signal monitoring unit is operating normally. 3. The abnormality diagnosing method of the torque detecting device of claim 1 , wherein the monitoring unit is a phase monitoring unit for monitoring whether or not the torque detecting signal shifts a phase from that of the magnetization signal, and the monitoring unit receives the magnetization signal and the signal having the phase shifted from the magnetization signal via a phase shift circuit, as diagnosis signals, instead of the torque detecting signal to be monitored, for determining whether or not the phase monitoring unit is operating normally. 4. The abnormality diagnosing method of the torque detecting device of claim 1 , wherein: the signal processing unit is configured to A/D-convert the torque detecting signal and output the resulting signal, and the monitoring unit is an ADC monitoring unit for monitoring an output value a voltage value to be monitored after an A/D conversion, and the monitoring unit receives a plurality of normal voltage values including a central voltage value within a regularly used voltage region of the torque detecting signal and a plurality of abnormal voltage values different from the normal voltage value, as diagnosis signals, instead of the voltage value to be monitored, for determining whether or not the ADC monitoring unit is operating normally. 5. The abnormality diagnosing method of the torque detecting device of claim 1 , wherein: the signal processing unit comprises a counter for frequency-dividing the clock signal and generating a pulse with an excitation frequency of the magnetization signal, the monitoring unit comprises a CR oscillator and a pulse width memory unit for calculating a width of an output pulse of the CR oscillator using the clock signal, and the monitoring unit is a clock monitoring unit for monitoring an abnormality of the clock signal by calculating the width of the output pulse of the CR oscillator using the clock signal and comparing the calculated value to the width of the output pulse stored in the pulse width memory unit, and the monitoring unit receives the pulse with the excitation frequency generated by the counter, as a diagnosis signal, instead of the clock signal to be monitored, for determining whether or not the clock monitoring unit is operating normally. 6. The abnormality diagnosing method of the torque detecting device of claim 1 , wherein: the signal processing unit comprises an oscillation unit for generating, based on a clock pulse, the magnetization signal with a sinusoidal wave to be supplied to the coil pair, the monitoring unit comprises a low-pass filter for monitoring, the low-pass filter receiving the magnetization signal output from the oscillation unit, and the monitoring unit is a clock frequency change monitoring unit for detecting a change in amplitude of an output from the low-pass filter, as a change in frequency of the clock pulse, and receives a regular clock signal and an abnormal clock signal different in an excitation frequency from the regular clock signal, as diagnosis signals, for determining whether or not the clock frequency change monitoring unit is operating normally. 7. The abnormality diagnosing method of the torque detecting device of claim 6 , wherein: the clock frequency change monitoring unit has a configuration for detecting whether or not at least either a peak value along an upper half wave of the output from the low-pass filter for monitoring or a lower-half wave of the output falls within a normal amplitude range, and receives two kinds of signals including an abnormal high frequency clock signal having a frequency higher than an allowable upper-limit frequency of the regular clock signal, and an abnormal low frequency clock signal having a frequency lower than an allowable lower-limit frequency for the regular clock signal, as the abnormal clock signals, for determining whether or not the clock frequency change monitoring unit is operating normally. 8. The abnormality diagnosing method of the torque detecting device of claim 1 , wherein the signal processing unit further comprises: an AD converter for converting an analog signal corresponding to the torque to a digital signal; a memory unit for storing beforehand a gain correcting value and an offset correcting value for correcting a gain and an offset for the digital signal converted by the AD converter; a first correction and calculation unit for correcting the digital signal converted by the AD converter based on the gain correcting value and the offset correcting value stored in the memory unit and outputting the corrected value as the torque detecting signal; and a second correction and calculation unit for performing the same correcting operation as that of the first correction and calculation unit; and the monitoring unit is an operating logic monitoring unit for inputting the same signal to the first correction and calculation unit and the second correction and calculation unit to compare calculated results of the first correction and calculation unit and the second correction and calculation unit, and monitor whether or not the operating logic of the first correction and calculation unit is functioning normally, and in determining whether or not the operating logic monitoring unit is functioning normally, whether or not the operating logic monitoring unit is operating normally is determined by inputting to the second correction and calculation unit a different signal than that of the first correction and calculation unit, as a diagnosis signal, to confirm that the calculated results of the first correction and calculation unit and the second correction and calculation unit differ. 9. The abnormality diagnosing method of the torque detecting device of claim 8 , wherein an inverted signal of the input signal to the first correction and calculation unit is used as a different signal to be input to the second correction and calculation unit from that to be input to the first correction and calculation unit, for determining whether or not the operating logic monitoring unit is opera