Optical concentration measuring method

What is claimed is: 1. A concentration measuring method, comprising the steps of: irradiating light having a first wavelength and light having a second wavelength onto an object to be measured using a time-sharing method, the lights having first and second wavelengths having different light absorptivities with respect to the object to be measured; receiving the light of each wavelength that optically passes through the object to be measured as a result of the irradiation of the light of each wavelength, using a common light-receiving sensor; forming a differential signal between a first signal related to the light having the first wavelength and a second signal related to the light having the second wavelength output from the light-receiving sensor in accordance with the received light; and deriving a concentration of a chemical component of the object to be measured on the basis of the differential signal, wherein T 13 <T 12 ≤T 11 , where T 13 , T 12 and T 11 are respectively first, second and third periods, the first and second signals are formed by the light receiving sensor in first period T 13 , second period T 12 is from a rise start point (t 1 ) to a fall start point (t 2 ) of the light-receiving sensor, and third period T 11 being when the light is irradiated onto the object to be measured, first period T 13 is arranged to be within second period T 12 , and the second period T 12 is arranged to be the same as or within third period T 11 . 2. The concentration measuring method according to claim 1 , wherein the object to be measured is in a gas state. 3. The concentration measuring method according to claim 1 , wherein the object to be measured is in a liquid state. 4. The concentration measuring method according to claim 1 , wherein the object to be measured is a fruit or a vegetable. 5. The concentration measuring method according to claim 1 , wherein the light-emitting unit comprises a light source that emits the light having the first wavelength and a light source that emits the light having the second wavelength. 6. The concentration measuring method according to claim 1 , wherein the light-emitting unit comprises a light source that emits the light having the first wavelength and the light having the second wavelength. 7. A concentration measuring method, comprising the steps of: irradiating a first light and a second light onto an object to be measured using a time-sharing method, the first and second lights having different light absorptivities with respect to the object to be measured; receiving each light that optically passes through the object to be measured by irradiation of each light onto the object to be measured, using a common light-receiving sensor; forming a differential signal between a first signal related to the first light and a second signal related to the second light output from the light-receiving sensor in accordance with the received light; and deriving a concentration of a predetermined chemical component of the object to be measured on the basis of the differential signal, wherein T 13 <T 12 ≤T 11 , where T 13 , T 12 and T 11 are respectively first, second and third periods, the first and second signals are formed by the light receiving sensor in first period T 13 , second period T 12 is from a rise start point (t 1 ) to a fall start point (t 2 ) of the light-receiving sensor, and third period T 11 being when the light is irradiated onto the object to be measured, first period T 13 is arranged to be within second period T 12 , and the second period T 12 is arranged to be the same as or within third period T 11 . 8. The concentration measuring method according to claim 7 , wherein irradiation using the time-sharing method is performed by propagating the light through irradiation optical paths in which the optical axes of the emitted light and received light are the same or substantially the same. 9. The concentration measuring method according to claim 7 , wherein irradiation using the time-sharing method is performed by propagating the light through irradiation optical paths that are the same or substantially the same in the object to be measured.