Patent ID: 8666074

Claim:
An optical fiber secure communication apparatus, comprising a transmitter and a receiver being connected with each other via an optical fiber, wherein the transmitter comprises a first signal input interface, a second signal input interface, a first PPC processor unit, a first field programmable gate array test board, a first semiconductor laser, a second semiconductor laser, a first LiNbO 3 modulator, a second LiNbO 3 modulator, a first co-axial transmission line, a second co-axial transmission line, an optical fiber coupler, a first connection optical fiber and a second connection optical fiber; wherein the first signal input interface and the second signal input interface are connected to the first FPGA test board via the first PPC processor unit; those two paths of signals are encrypted by the first FPGA test board and then loaded onto the first LiNbO 3 modulator and the second LiNbO 3 modulator via the first co-axial transmission line and the second co-axial transmission line, respectively; two paths of modulated lights enter the optical fiber coupler via the first connection optical fiber and the second connection optical fiber respectively and are then combined into one path of output light; the first semiconductor laser and the first LiNbO 3 modulator as well as the second semiconductor laser and the second LiNbO 3 modulator constitute light-emitting modules, respectively; and the receiver comprises a wavelength division multiplexer, a third connection optical fiber, a fourth connection optical fiber, a first photodetector, a second photodetector, a second FPGA test board, a second PPC processor unit, a first signal output interface and a second signal output interface; wherein optical signals are inputted to the wavelength division multiplexer via the optical fiber connecting the transmitter with the receiver; the optical signals each having a respective wavelength of λ 1 and λ 2 enter the first photodetector and the second photodetector via the third connection optical fiber and the fourth connection optical fiber, respectively; two paths of electrical signals converted by the detectors are decrypted by the second FPGA test board, forwarded by the second PPC processor unit and then outputted via the first signal output interface and the second signal output interface respectively, wherein a 2×2 optical switch is further arranged between the first semiconductor laser and the first LiNbO 3 modulator as well as between the second semiconductor laser and the second LiNbO 3 modulator, which is configured to interchange signals between the two paths of signals according to a frequency hopping sequence under control of a control circuit of the first FPGA test board.