Signal detection circuit and optical transmission equipment

What is claimed is: 1. A signal detection circuit comprising: a first optical filter configured to filter an optical signal carrying data signal and a frequency modulated signal with a first transmission band; a second optical filter configured to filter the optical signal with a second transmission band; a first photo detector configured to convert the output light of the first optical filter into a first electrical signal; a second photo detector configured to convert the output light of the second optical filter into a second electrical signal; a difference circuit configured to output a signal representing a difference between the first electrical signal and the second electrical signal; and a detector configured to detect the frequency modulated signal based on the output signal of the difference circuit, wherein a spectrum of the optical signal has a width corresponding to at least one of a data rate and a modulation format of the data signal, the first transmission band is arranged on the longer wavelength side with respect to the center wavelength of the spectrum of the optical signal so as to pass a part of the spectrum of the optical signal on the longer wavelength side with respect to the center wavelength of the spectrum, the second transmission band is arranged on the shorter wavelength side with respect to the center wavelength of the spectrum of the optical signal so as to pass a part of the spectrum of the optical signal on the shorter wavelength side with respect to the center wavelength of the spectrum. 2. The signal detection circuit according to claim 1 , wherein the first and second transmission bands are arranged substantially symmetrically with respect to the center wavelength of the spectrum of the optical signal. 3. The signal detection circuit according to claim 1 , further comprising: a first DC component removal circuit configured to remove a DC component of the first electrical signal; and a second DC component removal circuit configured to remove a DC component of the second electrical signal. 4. The signal detection circuit according to claim 1 , further comprising an amplitude adjustment circuit configured to adjust an amplitude of at least one of the first electrical signal and the second electrical signal. 5. Optical transmission equipment comprising: a first optical filter configured to filter an optical signal carrying data signal and a frequency modulated signal with a first transmission band; a second optical filter configured to filter the optical signal with a second transmission band; a first photo detector configured to convert the output light of the first optical filter into a first electrical signal; a second photo detector configured to convert the output light of the second optical filter into a second electrical signal; a difference circuit configured to output a signal representing a difference between the first electrical signal and the second electrical signal; and a detector configured to detect the frequency modulated signal based on the output signal of the difference circuit, wherein a spectrum of the optical signal has a width corresponding to at least one of a data rate and a modulation format of the data signal, the first transmission band is arranged on the longer wavelength side with respect to the center wavelength of the spectrum of the optical signal so as to pass a part of the spectrum of the optical signal on the longer wavelength side with respect to the center wavelength of the spectrum, the second transmission band is arranged on the shorter wavelength side with respect to the center wavelength of the spectrum of the optical signal so as to pass a part of the spectrum of the optical signal on the shorter wavelength side with respect to the center wavelength of the spectrum. 6. The signal detection circuit according to claim 1 , wherein a width of the first transmission band and a width of the second transmission band are respectively narrower than the width of the spectrum of the optical signal.