Time measurement device

The invention claimed is: 1. A time measurement device for measuring a time interval between input timings of first and second target signals each being a pulsed signal, the time measurement device comprising: a number-of-periods detector that detects, by using a clock signal with a predetermined clock frequency and a predetermined clock period, the time interval in units of the clock period; a phase detection unit including a band-pass filter, wherein the band-pass filter receives at least one of the first and second target signals as a filtering target signal and extracts a signal component of the clock frequency from the filtering target signal, and the phase detection unit detects a phase difference between the extracted signal and the clock signal; and a processor that derives, by using a result detected by the number-of-periods detector and the phase difference detected by the phase detection unit, the time interval at a resolution finer than the clock period. 2. The time measurement device of claim 1 , further comprising: a clock selector that selectively outputs, based on a timing relationship between the filtering target signal and a reference clock signal having the clock frequency, either a clock signal having a same phase as the reference clock signal or a clock signal having a different phase from the reference clock signal, wherein the phase detection unit detects a phase difference between the extracted signal of the band-pass filter and an output clock signal of the clock selector. 3. The time measurement device of claim 2 , wherein the clock selector selectively outputs, based on the timing relationship, either the clock signal having the same phase as the reference clock signal or a clock signal resulting from inverting a phase of the reference clock signal. 4. The time measurement device of claim 3 , wherein the measured time interval is a length of time between a timing at which a signal level of the first target signal shifts from a first predetermined level to a second predetermined level and a timing at which a signal level of the second target signal shifts from the first predetermined level to the second predetermined level, and the clock selector outputs the clock signal having the same phase as the reference clock signal when a timing at which a signal level of the filtering target signal shifts from the first predetermined level to the second predetermined level falls in a range from 90° to 270° in terms of the phase of the reference clock signal, the clock selector otherwise outputting the clock signal resulting from inverting the phase of the reference clock signal. 5. The time measurement device of claim 1 , further comprising: a first clock selector that selectively outputs, based on a timing relationship between the first target signal and an original clock signal having the clock frequency, either a clock signal having a same phase as the original clock signal or a clock signal having a different phase from the original clock signal; and a second clock selector that selectively outputs, based on a timing relationship between the second target signal and an output clock signal of the first clock selector, either a clock signal having a same phase as the output clock signal of the first clock selector or a clock signal having a different phase from the output clock signal of the first clock selector, the phase detection unit includes: a first phase detection unit including a first band-pass filter, wherein the first band-pass filter extracts a signal component of the clock frequency from the first target signal, and the first phase detection unit detects a phase difference between the extracted signal of the first band-pass filter and the output clock signal of the first clock selector; and a second phase detection unit including a second band-pass filter, wherein the second band-pass filter extracts a signal component of the clock frequency from the second target signal, and the second phase detection unit detects a phase difference between the extracted signal of the second band-pass filter and the output clock signal of the second clock selector, and the processor derives the time interval at the resolution finer than the clock period by using the result detected by the number-of-periods detector and the phase differences detected by the first and second phase detection units. 6. The time measurement device of claim 5 , wherein the first clock selector selectively outputs, based on a timing relationship between the first target signal and the original clock signal, either the clock signal having the same phase as the original clock signal or a clock signal resulting from inverting a phase of the original clock signal, and the second clock selector selectively outputs, based on a timing relationship between the second target signal and the output clock signal of the first clock selector, either the clock signal having the same phase as the output clock signal of the first clock selector or a clock signal resulting from inverting a phase of the output clock signal of the first clock selector. 7. The time measurement device of claim 6 , wherein the measured time interval is a length of time between a timing at which a signal level of the first target signal shifts from a first predetermined level to a second predetermined level and a timing at which a signal level of the second target signal shifts from the first predetermined level to the second predetermined level, the first clock selector outputs the clock signal having the same phase as the original clock signal when a timing at which the signal level of the first target signal shifts from the first predetermined level to the second predetermined level falls in a range from 90° to 270° in terms of the phase of the original clock signal, the first clock selector otherwise outputting the clock signal resulting from inverting the phase of the original clock signal, and the second clock selector outputs the clock signal having the same phase as the output clock signal of the first clock selector when a timing at which a signal level of the second target signal shifts from the first predetermined level to the second predetermined level falls in a range from 90° to 270° in terms of the phase of the output clock signal of the first clock selector, the second clock selector otherwise outputting the clock signal resulting from inverting the phase of the output clock signal of the first clock selector. 8. The time measurement device claim 5 , wherein the number-of-periods detector detects the time interval in units of the clock frequency by using a signal based on the first target signal and the original clock signal and a signal based on the second target signal and the output clock signal of the first clock selector. 9. The time measurement device of claim 1 , wherein the phase detection unit includes: a first phase detection unit including a first band-pass filter, wherein the first band-pass filter extracts as a first extracted signal a signal component of the clock frequency from the first target signal, and the first phase detection unit detects a phase difference between the first extracted signal and the clock signal; and a second phase detection unit including a second band-pass filter, wherein the second band-pass filter extracts as a second extracted signal a signal component of the clock frequency from the second target signal, and the second phase detection unit detects a phase difference between the second extracted signal and the clock signal, and the processor derives the time interval at the resolution finer than the clock period by using the result detected by the number-of-periods detector and t