光电技术应用, 2013, 28 (2): 62, 网络出版: 2013-04-23   

红外热像仪硬件通讯电路的设计与实现

Design and Implementation of Hardware Communication Circuit in Infrared Thermal Imaging System
作者单位
北京环境特性研究所, 北京 100854
摘要
设计并实现了基于红外热像仪图像处理板 FPGA模块的硬件通讯电路, 该电路采用串行通讯和 FIFO读写方式。通讯电路一方面接收上位机的控制数据并实时应答反馈, 一方面将通过 FIFO与图像处理板的 DSP模块实时进行控制信息交互, 从而形成各模块间的双向通讯链路。该设计避免了传统图像处理板采用专用串行通讯芯片, 如 TL16CP754等, 将该芯片功能通过 FPGA实现, 节省了面积与成本, 提高了系统集成度和稳定性, 利于系统的小型化、低成本发展。仿真与实验结果均表明, 该设计合理, 系统工作稳定。
Abstract
Hardware communication circuits based on field-programmable gate array (FPGA) module on im. age processing boards of infrared thermal imaging systems are designed and implemented. Serial communication and first-in-first-out (FIFO) reading and writing modes are used in the circuits. On one hand, control data from PC are received and replied in real time by communication circuits. On the other hand, control information interchange is performed through FIFO and data signal processor (DSP) module on image processing boards to form bidirection. al communication links among modules. Special serial communication chips such as TL16CP754 used on tradition. al image processing boards are not adopted in the design. Functions of the chips are realized by FPGA, so the de. sign area and cost are saved. Integration and stability of the system is improved. It is easy to be a miniature and low cost system. Simulation and experiment results show that the design is correct and the system works stably.

杨金宝, 杨桦, 张挺, 罗院红, 朱敏, 刘欢. 红外热像仪硬件通讯电路的设计与实现[J]. 光电技术应用, 2013, 28(2): 62. YANG Jin-bao, YANG Hua, ZHANG Ting, LUO Yuan-hong, ZHU Min, LIU Huan. Design and Implementation of Hardware Communication Circuit in Infrared Thermal Imaging System[J]. Electro-Optic Technology Application, 2013, 28(2): 62.

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