Idle tone dispersion device and frequency ratio measuring device

What is claimed is: 1. An idle tone dispersion device that outputs a frequency delta-sigma modulation signal obtained by using either one of a reference signal and a measured signal to perform frequency delta-sigma modulation of the other and dispersion an idle tone, the idle tone dispersion device comprising: n (n is any natural number equal to or larger than 2) frequency delta-sigma modulation sections; and an adder configured to add up output signals of the n frequency delta-sigma modulation sections and output the frequency delta-sigma modulation signal, wherein each of the n frequency delta-sigma modulation sections uses either one of the reference signal and the measured signal to perform the frequency delta-sigma modulation of the other, and at least one of the reference signal and the measured signal includes jitter including a frequency component higher than a frequency of an idle tone of an output signal of the frequency delta-sigma modulation section. 2. An idle tone dispersion device that outputs a frequency delta-sigma modulation signal obtained by using either one of a reference signal and a measured signal to perform frequency delta-sigma modulation of the other and dispersion an idle tone, the idle tone dispersion device comprising: n (n is any natural number equal to or larger than 2) frequency delta-sigma modulation sections; a phase adjusting section configured to adjust phases of the measured signal and the reference signal, generate n sets of output measured signals and output reference signals, and supply the output measured signal and the output reference signal of each of the sets to each of the n frequency delta-sigma modulation sections; and an adder configured to add up output signals of the n frequency delta-sigma modulation sections and output the frequency delta-sigma modulation signal, wherein the phase adjusting section adjusts the phases of the measured signals and the reference signals to differentiate phases of idle tones of output signals of at least a part of the n frequency delta-sigma modulation sections from one another and generates the n sets of the output measured signals and the output reference signals, and each of the n frequency delta-sigma modulation sections uses either one of the output reference signal and the output measured signal supplied from the phase modulating section to perform the frequency delta-sigma modulation of the other, and at least one of the output reference signal and the output measured signal includes jitter including a frequency component higher than a frequency of the idle tone. 3. The idle tone dispersion device according to claim 2 , wherein, when a predetermined time is represented as D, one cycle of the measured signal or one cycle of the reference signal is represented as T, m is any natural number equal to or smaller than n, mD/nT is an integer, mD/nT and m are relatively prime, and a phase difference between an output measured signal and an output reference signal supplied to an i (i is any natural number equal to or smaller than n−1)-th frequency delta-sigma modulation section is represented as Pi, the phase adjusting section adjusts the phases of the measured signal and the reference signal to satisfy D/n=P i+1 −P i and generates the n sets of the output measured signals and the output reference signals. 4. The idle tone dispersion device according to claim 2 , wherein the phase adjusting section adjusts the phases of the measured signal and the reference signal to differentiate phases of idle tones of output signals of a part of the n frequency delta-sigma modulation sections from one another and generates the n sets of the output measured signals and the output reference signals. 5. The idle tone dispersion device according to claim 2 , wherein, when a predetermined time is represented as D, one cycle of the measured signal or one cycle of the reference signal is represented as T, m is any natural number equal to or smaller than n, mD/nT is an integer, mD/nT and m are relatively prime, and a phase difference between an output measured signal and an output reference signal supplied to an i (i is any natural number equal to or smaller than n−1)-th frequency delta-sigma modulation section is represented as Pi, D/n≠P i+1 −P i is satisfied. 6. The idle tone dispersion device according to claim 1 , wherein the jitter includes a frequency component higher than a frequency of a component having largest intensity among frequency components of the idle tone. 7. The idle tone dispersion device according to claim 2 , wherein the jitter includes a frequency component higher than a frequency of a component having largest intensity among frequency components of the idle tone. 8. The idle tone dispersion device according to claim 1 , further comprising a jitter generating section configured to generate the jitter. 9. The idle tone dispersion device according to claim 2 , further comprising a jitter generating section configured to generate the jitter. 10. The idle tone dispersion device according to claim 1 , wherein magnitude of the jitter is determined on the basis of at least one of a frequency of the reference signal, a frequency of the measured signal, a measurement band of the measured signal, and a number of the frequency delta-sigma modulation sections. 11. The idle tone dispersion device according to claim 2 , wherein magnitude of the jitter is determined on the basis of at least one of a frequency of the reference signal, a frequency of the measured signal, a measurement band of the measured signal, and a number of the frequency delta-sigma modulation sections. 12. A frequency ratio measuring device comprising the idle tone dispersion device according to claim 1 , wherein the frequency ratio measuring device measures a frequency ratio of the measured signal and the reference signal. 13. A frequency ratio measuring device comprising the idle tone dispersion device according to claim 2 , wherein the frequency ratio measuring device measures a frequency ratio of the measured signal and the reference signal. 14. A frequency ratio measuring device comprising the idle tone dispersion device according to claim 3 , wherein the frequency ratio measuring device measures a frequency ratio of the measured signal and the reference signal. 15. A frequency ratio measuring device comprising the idle tone dispersion device according to claim 4 , wherein the frequency ratio measuring device measures a frequency ratio of the measured signal and the reference signal. 16. A frequency ratio measuring device comprising the idle tone dispersion device according to claim 5 , wherein the frequency ratio measuring device measures a frequency ratio of the measured signal and the reference signal. 17. A frequency ratio measuring device comprising the idle tone dispersion device according to claim 6 , wherein the frequency ratio measuring device measures a frequency ratio of the measured signal and the reference signal. 18. A frequency ratio measuring device comprising the idle tone dispersion device according to claim 7 , wherein the frequency ratio measuring device measures a frequency ratio of the measured signal and the reference signal. 19. A frequency ratio measuring device comprising the idle tone dispersion device according to claim 8 , wherein the frequency ratio measuring device measures a frequency ratio of the measured signal and the reference signal. 20. A frequency ratio measuring device comprising the idle tone dispersion device according to claim 10 , whe