公开(公告)号：US11050485B2

公开(公告)日：2021-06-29

申请号：US16881170

申请日：2020-05-22

Applicant: Taiyuan University of Technology

Inventor： Yuncai Wang ,  Anbang Wang ,  Tong Zhao ,  Bingjie Wang ,  Peixin He

IPC: H04B10/071 ,  H04B10/079 ,  H04B10/25 ,  H04B10/27 ,  H04B10/50 ,  H04J14/02

Abstract: The present invention discloses a high-precision and large-dynamic-range fault monitoring device and method for a WDM-PON. The monitoring device includes a WDM-PON optical network system and an optical network monitoring system. The optical network system includes an OLT I, a feeder fiber II, a 1×n AWG III, a branch fiber IV, and an optical network unit V The optical network monitoring system includes an FP laser, a coupler, an optical coupling device, a photodetector, a signal acquisition and processing device, and an optical feedback device, where the FP laser is connected to the coupler; a large-coupling-ratio output end of the coupler is connected to an input end of the optical coupling device, and a small-coupling-ratio output end of the coupler is connected to an input end of the photodetector; the optical coupling device is installed on the feeder fiber II.

公开(公告)号：US10923881B2

公开(公告)日：2021-02-16

申请号：US16622172

申请日：2018-08-27

Applicant: Taiyuan University Of Technology

Inventor： Mingjiang Zhang ,  Jianzhong Zhang ,  Tianshuang Lv ,  Lijun Qiao ,  Yi Liu ,  Tong Zhao ,  Anbang Wang ,  Yuncai Wang

IPC: H01S5/30 ,  H01S5/042 ,  H01S5/10 ,  H01S5/20 ,  H01S5/34 ,  H01S5/22 ,  H01S3/067 ,  H01S5/12

Abstract: A monolithic integrated semiconductor random laser comprising substrate, lower confinement layer on the substrate, active layer on the lower confinement layer, upper confinement layer on the active layer, strip-shaped waveguide layer longitudinally made in middle of the upper confinement layer, P+ electrode layer divided into two segments and made on the waveguide layer and N+ electrode layer on a back face of the lower confinement layer, wherein the two segments correspond respectively to gain region and random feedback region. The random feedback region uses a doped waveguide to randomly feedback light emitted by the gain region and then generates random laser which is random in frequency and intensity. Further, the semiconductor laser is light, small, stable in performance and strong in integration.

公开(公告)号：US11216252B2

公开(公告)日：2022-01-04

申请号：US16486241

申请日：2018-11-26

Applicant: Taiyuan University of Technology

Inventor： Jianguo Zhang ,  Qiqi Zhang ,  Yuncai Wang ,  Anbang Wang ,  Pu Li

IPC: G06F7/58

Abstract: The present disclosure provides a high-speed random number generation method and device, comprising an entropy source module and an entropy sampling module. The entropy source module is an autonomous Boolean network formed by digital logic gates, the network is formed by an XNOR gate and (N−1) XOR gates, wherein the value of N is equal to 3n (n is a positive integer), and the entropy source can generate chaotic signals having wide and flat frequency spectrum. The entropy sampling module of the present disclosure is formed by D flip flops used for sampling and quantizing the chaotic signals to generate random number sequences. The random number sequences generated by the present disclosure can pass test standards (NIST and Diehard statistic tests) of random number industry and have excellent random statistic characteristics. The random number generation method and device of the present disclosure are completely formed by the digital logic gates, the circuit structure is simple and is easy to be integrated, and without the need of a post processing algorithm or circuit required by a conventional random number generation device, the power consumption can be greatly reduced. The present disclosure can be widely applied to the fields of information security such as secure communications, key distribution, data encryption and the like.

公开(公告)号：US20200374026A1

公开(公告)日：2020-11-26

申请号：US16880177

申请日：2020-05-21

Applicant: Taiyuan University of Technology

Inventor： Anbang Wang ,  Tong Zhao ,  Yuncai Wang ,  Bingjie Wang ,  Peixin He

IPC: H04J14/02 ,  H04J14/08

Abstract: The present invention discloses a device and a method for monitoring two-stage faults of a TDM-PON with high precision. A two-stage TDM-PON system includes an OLT I, a feeder fiber II, a stage-1 1:n optical splitter III, a stage-1 branch fiber IV, a stage-2 1:n optical splitter V, a stage-2 branch fiber VI, and an optical network unit (ONU) VII. A two-stage optical network monitoring system includes a monitoring part on the OLT I side and a monitoring part on the ONU VII side, where the monitoring part on the OLT I side includes a control-end isolator-free semiconductor laser, a control-end coupler, a control-end optical coupling device, a control-end photodetector, an integrated signal acquisition and processing device, and an optical coupling device; and the monitoring part on the ONU VII side is similar to the monitoring part of the OLT I side.

公开(公告)号：US11474412B2

公开(公告)日：2022-10-18

申请号：US17432425

申请日：2020-04-24

Applicant: TAIYUAN UNIVERSITY OF TECHNOLOGY

Inventor： Pu Li ,  Yuncai Wang ,  Qiang Cai ,  Zhiwei Jia ,  Jianguo Zhang ,  Anbang Wang ,  Mingjiang Zhang

IPC: G02F1/35 ,  G02F1/365 ,  H01S3/00 ,  H01S3/067

Abstract: Disclosed by the present invention is an ultra-wideband white noise source based on a slicing super-continuum spectrum. The entropy source used is a super-continuum spectrum photon entropy source having a coverage range of several hundreds of nm, white noise can thus be generated in a wide frequency range, thereby effectively avoiding the bandwidth bottleneck of an electronic device. By separately adjusting the filter centers of two optical filters, the center frequency for generating the white noise can be adjusted so as to get adapted to different working situations. High bandwidth white noise can be generated by simply filtering the super-continuum spectrum and performing photoelectric conversion, and in comparison with the previous solutions, the solution of the present invention is simpler and can be easily implemented.

公开(公告)号：US11152763B2

公开(公告)日：2021-10-19

申请号：US16622061

申请日：2018-08-27

Applicant: Taiyuan University Of Technology

Inventor： Mingjiang Zhang ,  Jianzhong Zhang ,  Ya'nan Niu ,  Yi Liu ,  Tong Zhao ,  Lijun Qiao ,  Anbang Wang ,  Yuncai Wang

IPC: H01S5/12 ,  H01S5/026 ,  H01S5/0625 ,  H01S5/343 ,  H01S5/40

Abstract: An InP-based monolithic integrated chaotic semiconductor laser chip capable of feeding back randomly diffused light, being composed of six regions: a left DFB semiconductor laser, a bidirectional SOA, a left passive optical waveguide region, a doped passive optical waveguide region, a right passive optical waveguide region, and a right DFB semiconductor laser, specifically including: an N+ electrode layer, an N-type substrate, an InGaAsP lower confinement layer, an undoped InGaAsP multiple quantum well active region layer, doped particles, distributed feedback Bragg gratings, an InGaAsP upper confinement layer, a P-type heavily doped InP cover layer, a P-type heavily doped InGaAs contact layer, a P+ electrode layer, a light-emitting region, and isolation grooves. It effectively solves problems of bulky volume of the existing chaotic laser source, the time-delay signature of chaotic laser, narrow bandwidth, and low coupling efficiency of the light and the optical waveguide.

公开(公告)号：US11081860B2

公开(公告)日：2021-08-03

申请号：US16835803

申请日：2020-03-31

Applicant: TAIYUAN UNIVERSITY OF TECHNOLOGY

Inventor： Anbang Wang ,  Yixuan Wang ,  Yuncai Wang ,  Yuanyuan Guo ,  Longsheng Wang ,  Tong Zhao

IPC: H01S5/00 ,  H01S5/10 ,  H01S5/026 ,  H01S5/14 ,  H01S5/02

Abstract: The present invention discloses an integrated broadband chaotic semiconductor laser using optical microcavities. The arc-shaped hexagonal laser outputs light. Part of the light is totally reflected through the deformed microcavity and then reflected out of the deformed microcavity from the passive waveguide II; after entering the passive feedback waveguide, another part of the light is fed back into the deformed microcavity by the high reflection film, passes through an in-cavity ray track and then is also reflected out of the deformed microcavity from the passive waveguide II; the two-path light is coupled into the arc-shaped hexagonal laser, and finally generated chaotic laser light is directionally coupled and output through the passive waveguide I at the other end of the arc-shaped hexagonal laser. The present invention has wide broadband, flat spectrum, compact structure, and no time delay signature.

公开(公告)号：US10944498B2

公开(公告)日：2021-03-09

申请号：US16880177

申请日：2020-05-21

Applicant: Taiyuan University of Technology

Inventor： Anbang Wang ,  Tong Zhao ,  Yuncai Wang ,  Bingjie Wang ,  Peixin He

IPC: H04J14/08 ,  H04J14/02

Abstract: The present invention discloses a device and a method for monitoring two-stage faults of a TDM-PON with high precision. A two-stage TDM-PON system includes an OLT I, a feeder fiber II, a stage-1 1:n optical splitter III, a stage-1 branch fiber IV, a stage-2 1:n optical splitter V, a stage-2 branch fiber VI, and an optical network unit (ONU) VII. A two-stage optical network monitoring system includes a monitoring part on the OLT I side and a monitoring part on the ONU VII side, where the monitoring part on the OLT I side includes a control-end isolator-free semiconductor laser, a control-end coupler, a control-end optical coupling device, a control-end photodetector, an integrated signal acquisition and processing device, and an optical coupling device; and the monitoring part on the ONU VII side is similar to the monitoring part of the OLT I side.