A pair of data optical fiber transmission equipment based on CPLD is designed and developed. The video, gigabit network, RS422 and other multi-channel data are formed into high-speed data stream, and then the multi-channel digital stream is carried out wavelength division multiplexing and transmitted through the transceiver integrated optical terminal machine. The receiving optical terminal is demultiplexed and restored to multiplex individual digital signals, At full load, one channel of video, two channels of gigabit networks and five channels of RS422 are transmitted. Duo to the complex application environment of the optical terminal computer, the state of bidirectional data transmission information needs to be reported in real time. In this paper, a real-time fault detection method is designed for the entire optical fiber transmission link. The video locking state of optical terminal machine, the output voltage state of linear voltage regulator and the transmission fiber between two optical terminal machines are monitored in real time and is applied to a certain type of vehicle photoelectric system. The fault location is accurate and timely, and the application effect is good.
KEYWORDS: Telecommunications, Data communications, Design and modelling, Computing systems, Optical fibers, Data transmission, Data conversion, Optical communications, Data processing, Signal processing
Aiming at the characteristics of the self-designed and developed Fiber Tree Bus (FTB) terminal, such as more terminals, more interactive data and various node communication protocols, an intelligent data monitoring terminal is designed by using FPGA and QT software of host computer, a high-speed data transmission system is constructed, which is used to monitor and locate the data transmitted on the optical fiber bus. The system is divided into data transmission module, data analysis module, data transmission module receiving all data flow on fiber data bus, data analysis module caches all data, abnormal location. The test results show that the bus terminal satisfies the requirement of monitoring all terminal nodes on the self-designed FTB system, and the system runs RS422, gigabit network, CAN and other communication data. The monitoring terminal can receive all communication data, can locate the abnormal condition of each node, and the system runs smoothly.
KEYWORDS: Telecommunications, Data communications, Data transmission, Control systems, Data conversion, Data storage, System integration, Optical fibers, Field programmable gate arrays, Signal processing
Aiming at the characteristics of the self-designed and developed fiber tree bus (FTB) terminal, such as more terminals, more interactive data and various node communication protocols, This paper designs an efficient bus controller, a practical and efficient instruction list, and Constructs A high-speed data transmission system, which is used to manage and control the data transmitted on the fiber bus. FTB layered structure, bus topology and the performance of real-time transmission are introduced. According to the application requirements of military vehicle-borne photoelectric system, the model of photoelectric information transmission system based on FTB is built, and the transmission performance of FTB based on this bus controller is tested. The compared results of analysis and test show that, FTB has a variety of real-time information transmission capacity, but also verified that the bus controller is efficient and practical,Finally, Transmission Delay Index and information interaction index are analyzed and tested.
KEYWORDS: Optical fibers, Data transmission, Data communications, Time division multiplexing, Optical communications, Optical networks, Field programmable gate arrays, Passive optical networks, Fiber optic communications, Control systems
Passive Optical Network (PON), which possess the advantages of high efficiency, high speed and high bandwidth utilization, is a type of fiber channel technology that acquires the most concern. As a type of key technology in military weapon electronic system, the target of fiber channel data bus is to offer actual-time, high-speed and reliable communication link between instruments. In this article, a type of fiber channel data bus, which is based on PON topology, is raised and elaborated. The elaboration is concentrated on the designation of the topology and protocol used in the fiber channel data bus. On this basis, the research emphasis is the upstream Media Access Control (MAC) layer in the Network Terminal (NT) of the fiber channel data bus which is designed. Firstly, the upstream synchronization method and frame structure in GPON standards are analysed. Then, the upstream MAC layer control is actualized through Xilinx FPGA devices.
This paper first briefly describes the transport protocol, topology, technical characteristics and application status of the typical military electronic system MIL-STD-1553B bus. With respect to defects such as the bus bandwidth shortage, limited fault tolerance and complicated maintaining, this paper proposes a PON architecture based bus-type optical fiber data bus (FTB) technology with high bandwidth, low latency and strong fault tolerance. This paper mainly studies the bus topology based on the passive optical network (PON) architecture, the physical layer design based on burst mode laser drive circuit (BM-LDD) as well as the digital burst automatic power control circuit, and the design based on multi-point control protocol (MPCP) of time-division response mode. The designed optical fiber bus provides real-time, high-speed and highly reliable communication links for information exchange (video, audio, radar, distributed sensor data, etc.) between various electronic systems of military weapons. It can also accumulate technology for engineering application of optical fiber data bus technology.
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