Control method for piezoelectric driving device, piezoelectric driving device, and robot

What is claimed is: 1. A control method for a piezoelectric driving device including: a vibrating body including a piezoelectric element for driving and configured to vibrate when a driving signal including a periodic signal is applied to the piezoelectric element for driving; a section to be driven that is driven by a vibration of the vibrating body; and a driving-signal generating section configured to generate the driving signal using a pulse signal generated based on a target pulse duty ratio, the driving-signal generating section detecting voltage amplitude generated in the piezoelectric element for driving and generating the target pulse duty ratio based on the voltage amplitude, wherein the driving signal includes an intermittent signal formed by an output period in which the periodic signal is output and a suspension period in which an output of the periodic signal is suspended, and when the voltage amplitude in the output period is represented as output-period voltage amplitude and the voltage amplitude in the suspension period is represented as suspension-period voltage amplitude, the driving-signal generating section detects the output-period voltage amplitude and does not detect the suspension-period voltage amplitude. 2. The control method for the piezoelectric driving device according to claim 1 , wherein the piezoelectric element for driving includes a stretching piezoelectric element that causes the vibrating body to stretching-vibrate and a bending piezoelectric element that causes the vibrating body to bending-vibrate, and the driving-signal generating section does not detect the suspension-period voltage amplitude generated in the bending piezoelectric element. 3. The control method for the piezoelectric driving device according to claim 1 , wherein the piezoelectric element for driving includes a stretching piezoelectric element that causes the vibrating body to stretching-vibrate and a bending piezoelectric element that causes the vibrating body to bending-vibrate, and the driving-signal generating section does not detect the suspension-period voltage amplitude generated in the stretching piezoelectric element. 4. The control method for the piezoelectric driving device according to claim 1 , wherein the driving-signal generating section controls driving speed of the section to be driven according to a ratio of the output period to a total of the output period and the suspension period. 5. The control method for the piezoelectric driving device according to claim 1 , wherein the driving-signal generating section sets a time interval for detecting the output-period voltage amplitude shorter than one cycle of the periodic signal. 6. The control method for the piezoelectric driving device according to claim 1 , wherein the driving-signal generating section sets the suspension-period voltage amplitude to a fixed value, averages, with a time, a value obtained by adding up the output-period voltage amplitude and the fixed value, and generates the target pulse duty ratio based on a result of processing of averaging. 7. The control method for the piezoelectric driving device according to claim 6 , wherein the driving-signal generating section sets the fixed value to 0. 8. The control method for the piezoelectric driving device according to claim 6 , wherein the driving-signal generating section sets the fixed value to a value other than 0. 9. A piezoelectric driving device comprising: a vibrating body including a piezoelectric element for driving and configured to vibrate when a driving signal including a periodic signal is applied to the piezoelectric element for driving; a section to be driven that is driven by a vibration of the vibrating body; and a driving-signal generating section configured to generate the driving signal using a pulse signal generated based on a target pulse duty ratio, the driving signal including an intermittent signal formed by an output period in which the periodic signal is output and a suspension period in which an output of the periodic signal is suspended, wherein the driving-signal generating section does not detect suspension period voltage amplitude generated in the piezoelectric element for driving in the suspension period, detects output period voltage amplitude generated in the piezoelectric element for driving in the output period, and generates the target pulse duty ratio based on a detected output period voltage amplitude. 10. A robot comprising: a first arm; a second arm coupled to the first arm in a joint section; and the piezoelectric driving device according to claim 9 disposed in the joint section.