Scanning endoscope system

What is claimed is: 1 . A scanning endoscope system comprising: a scanning section that includes a light guide section that is configured to guide illumination light for illuminating a subject and to emit the illumination light from an emitting end, and an actuator that is configured to swing the emitting end of the light guide section according to a voltage or a current of an electrical signal that is applied to cause the illumination light to scan the subject; and an application section configured to apply, to the actuator, the electrical signal that takes, as a drive frequency, a frequency at which an amount of change in amplitude at a time of swinging of the emitting end of the light guide section is at or below a predetermined value even when frequency characteristics of the amplitude are changed due to a change in a use condition of the scanning section. 2 . The scanning endoscope system according to claim 1 , wherein the drive frequency of the electrical signal that is applied to the scanning section by the application section is a frequency at which a ratio of an amount of change in the amplitude to an amount of change in a frequency of the electrical signal that is applied to the actuator is at or below a first threshold that is set, according to the frequency characteristics of the amplitude. 3 . The scanning endoscope system according to claim 2 , further comprising: a calculation section configured to acquire frequency characteristics by detecting the amplitude while successively changing, and applying to the actuator, the frequency of the electrical signal, to calculate the ratio of an amount of change in the amplitude to an amount of change in the frequency of the electrical signal that is applied to the actuator, by using the frequency characteristics, and to calculate frequencies at which the ratio is at or below the first threshold as the drive frequency domain; and a setting section configured to set the drive frequency that is applied to the actuator in the drive frequency domain, wherein the application section applies the electrical signal having the drive frequency that is set by the setting section to the actuator. 4 . The scanning endoscope system according to claim 3 , wherein the calculation section does not calculate the ratio for a frequency domain near a resonance frequency. 5 . The scanning endoscope system according to claim 3 , wherein, with respect to a frequency domain of a predetermined range, if the ratio is continuously at or below the first threshold, the calculation section takes frequencies that are at or below the first threshold as the drive frequency domain. 6 . The scanning endoscope system according to claim 2 , wherein the scanning section has a characteristic that the resonance frequency according to the frequency characteristics of the amplitude shifts to a low-temperature side due to a change in the use condition, and the application section applies, to the actuator, the electrical signal that takes, as the drive frequency, a frequency on a higher frequency side than the resonance frequency, among frequencies at which the ratio is in a range of the first threshold that is set. 7 . The scanning endoscope system according to claim 2 , wherein the first threshold is substantially zero. 8 . The scanning endoscope system according to claim 1 , wherein the drive frequency of the electrical signal that is applied to the actuator by the application section is a frequency in a range at or below a second threshold where a proportion of an amount of change in the amplitude is set such that an angle of view of the illumination light is within a set target range even when the frequency characteristics of the amplitude at a time of swinging of the emitting end of the light guide section is changed due to a change in the use condition of the scanning section. 9 . The scanning endoscope system according to claim 8 , wherein the scanning section has a characteristic that the resonance frequency according to the frequency characteristics of the amplitude shifts to a low-temperature side due to a change in the use condition, and the application section applies, to the actuator, the electrical signal that takes, as the drive frequency, a frequency on a higher frequency side than the resonance frequency, among frequencies at which a proportion of the amount of change in the amplitude is at or below the second threshold.