Due to the change of modern detecting systems from the single working mode to the compound workingone, materials with special spectral characteristics are required to meet camouflage demands. As a new kind of man-made structural function material, photonic crystals can realize thermal infrared camouflage because of its high-reflection photon forbidden band. Based on one-dimensional doped photonic crystal, a kind of far infrared and laser band compatible camouflage material is designed, then the transmission spectrum is calculated by characteristic matrix method of thin-film optical theory. The sample of photonic crystal is fabricated. It is found that the actual testing curve is coincident with the theoretic design curve. The result shows that one-dimensional doped photonic crystal can achieve far infrared and laser band compatible camouflage.