基于FPGA的拟色电子系统设计、测试与分析
|
摘要
提出了一种基于FPGA的拟色电子系统,采用CMOS摄像头采集环境图像,并利用三色LED点阵实时、动态模拟环境图像的相应变化。设计了基于串行、并行等两种工作方式的拟色电子系统,并测试和比较了两者的性能,结果表明:相比于并行工作方式,串行方式在满足本系统实时性要求(拟色周期约为35.8 ms)的同时,还可有效减小系统体积和成本。
An electronic system used for chromic imitation is designed and tested based on FPGA. In this system,CMOS camera is used to capture the environmental image,and the corresponding change of the environmental image is imitated in real time by using RGB LED matrix. In this work,the chromic imitation system based on serial and parallel operation mode is designed respectively,and the performance of these two systems is also tested and compared. The test result shows that compared with the system with parallel mode,the system with serial mode can not only meets the real-time requirement of an electronic system(the chromic imitation period is about 35.8 ms),but also reduces the system size and fabrication cost.
An electronic system used for chromic imitation is designed and tested based on FPGA. In this system,CMOS camera is used to capture the environmental image,and the corresponding change of the environmental image is imitated in real time by using RGB LED matrix. In this work,the chromic imitation system based on serial and parallel operation mode is designed respectively,and the performance of these two systems is also tested and compared. The test result shows that compared with the system with parallel mode,the system with serial mode can not only meets the real-time requirement of an electronic system(the chromic imitation period is about 35.8 ms),but also reduces the system size and fabrication cost.
引文
[1] Sauvet K,Sauques L,Rougier A.IR Electrochromic WO3 Thin Films:From Optimization to Devices[J].Solar Energy Materials and Solar Cells,2009,93(12):2045-2049.
[2] 唐光伦.基于FPGA的电致变色器件自适应系统设计[D].成都:电子科技大学,2016.
[3] 李晓晨,姚素英,黄碧珍,等.一种应用于高动态范围CMOS图像传感器的曝光控制技术[J].传感技术学报,2013,26(3):328-332.
[4] Zhou W G,Liu Y,Lyu C,el al.Real-Time Implementation of Panoramic Mosaic Camera Based on FPGA[C]//IEEE International Conference on Real-Time Computing and Robotics(RCAR),Cambodia.2016:204-209.
[5] Omni Vison.http://www.alldatasheet.com/datasheet-pdf/pdf/587044/OMNIVISION/OV5640.html.
[6] 程光伟,陈玲玲.高速图像采集系统中的SDRAM缓存模块设计磁[J].计算机与数字工程,2016,44(3):538-541.
[7] 项力领,刘智,杨阳,等.单片SDRAM的数据读写乒乓操作设计[J].长春理工大学学报,2013(5):140-143.
[8] 陈培腾,王卫东,黎官华.高刷新率LED驱动芯片中PWM控制电路的设计[J].电子器件,2016,39(1):16-20.
[9] http://cn.world-semi.com/contact/WS2812B.html.
[2] 唐光伦.基于FPGA的电致变色器件自适应系统设计[D].成都:电子科技大学,2016.
[3] 李晓晨,姚素英,黄碧珍,等.一种应用于高动态范围CMOS图像传感器的曝光控制技术[J].传感技术学报,2013,26(3):328-332.
[4] Zhou W G,Liu Y,Lyu C,el al.Real-Time Implementation of Panoramic Mosaic Camera Based on FPGA[C]//IEEE International Conference on Real-Time Computing and Robotics(RCAR),Cambodia.2016:204-209.
[5] Omni Vison.http://www.alldatasheet.com/datasheet-pdf/pdf/587044/OMNIVISION/OV5640.html.
[6] 程光伟,陈玲玲.高速图像采集系统中的SDRAM缓存模块设计磁[J].计算机与数字工程,2016,44(3):538-541.
[7] 项力领,刘智,杨阳,等.单片SDRAM的数据读写乒乓操作设计[J].长春理工大学学报,2013(5):140-143.
[8] 陈培腾,王卫东,黎官华.高刷新率LED驱动芯片中PWM控制电路的设计[J].电子器件,2016,39(1):16-20.
[9] http://cn.world-semi.com/contact/WS2812B.html.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |