Infrared image sensor and signal read method

The invention claimed is: 1. An infrared image sensor for detecting infrared rays, the infrared image sensor comprising: a light-receiving unit including a pixel region in which a plurality of pixels are arranged and at least one reference pixel; a difference circuit for acquiring a first differential signal that is a differential signal between a signal of one pixel contained in the pixel region and a signal of the reference pixel and a second differential signal that is a differential signal between signals of two predetermined pixels out of the pixels contained in the pixel region; and a pixel signal calculating unit that calculates a signal of each of the pixels on the basis of the first differential signal and the second differential signal, wherein the two predetermined pixels are connected in series with respective first ends thereof connected to each other and also with respective second ends connected to different potentials, and the difference circuit acquires the second differential signal on the basis of a difference between a potential at the connecting point of the two predetermined pixels and a predetermined potential. 2. The infrared image sensor according to claim 1 , wherein the pixel region includes at least one pixel line, and the reference pixel is arranged at one end of the at least one pixel line. 3. The infrared image sensor according to claim 1 , wherein the pixel region includes at least one pixel line, and the reference pixel is arranged at each of both ends of the at least one pixel line. 4. The infrared image sensor according to claim 1 , wherein the two predetermined pixels are adjacent pixels. 5. An infrared image sensor for detecting infrared rays, the infrared image sensor comprising: a light-receiving unit including a pixel region in which a plurality of pixels are arranged and at least one reference pixel; a difference circuit for acquiring a first differential signal that is a differential signal between a signal of one pixel contained in the pixel region and a signal of the reference pixel and a second differential signal that is a differential signal between signals of two predetermined pixels out of the pixels contained in the pixel region; and a pixel signal calculating unit that calculates a signal of each of the pixels on the basis of the first differential signal and the second differential signal, wherein the two predetermined pixels each are connected to different resistances in series with respective first ends thereof connected to the resistances and also with respective second ends connected to a same potential, and the difference circuit acquires the second differential signal on the basis of a difference between potentials at respective connecting points of the two predetermined pixels to the resistances. 6. The infrared image sensor according to claim 5 , wherein the pixel region includes at least one pixel line, and the reference pixel is arranged at one end of the at least one pixel line. 7. The infrared image sensor according to claim 5 , wherein the pixel region includes at least one pixel line, and the reference pixel is arranged at each of both ends of the at least one pixel line. 8. The infrared image sensor according to claim 5 , wherein the two predetermined pixels are adjacent pixels. 9. A signal read method performed by an infrared image sensor including a light-receiving unit that includes a pixel region including at least one pixel line and two reference pixels arranged at one end of the pixel line, the signal read method comprising: a differential signal acquisition step of acquiring a first differential signal that is a differential signal between a signal of one pixel contained in the pixel region and a signal of each of the reference pixels and a second differential signal that is a differential signal between two predetermined signals out of a plurality of pixels contained in the pixel region; and a pixel signal calculation step of calculating a signal of each of the pixels on the basis of the first differential signal and the second differential signal, wherein at the differential signal acquisition step, the first differential signal and the second differential signal are acquired from a first reference pixel of the reference pixels as a starting point and then from adjacent pixels in series and also the first differential signal and the second differential signal are acquired from a second reference pixel of the reference pixels as a starting point and then from adjacent pixels in series and, at the pixel signal calculation step, a signal of each of the pixels is calculated based on the first differential signal and the second differential signal that are obtained with the first reference pixel as a starting point and also a signal of each of the pixels is calculated based on the first differential signal and the second differential signal that are obtained with the second reference pixel as a starting point, and based on two results thus calculated, a signal of each of the pixels is calculated.