摘要
提出一种系统探测的逻辑控制方案.该方案以FPGA设计技术为核心,基于模块化编程思想,实现整个系统的逻辑控制功能.通过计算机仿真和实际电路测试。给出ens、ad_clk、oe、hbe等关键信号的逻辑时序仿真和测试波形.信号处理通道转换、电路延时、功耗等指标分析与测试表明,设计具有实时性、高集成度、高可靠性、低功耗和灵活性等特点.
According to the requirements of a transient feeble optical signal detection system, a design approach is presents for control logic of the system. The approach taken FPGA technology as the core and programmed on the module means is used in order that the function of system control is implemented. As a result of the simulation and the test,the waves of them are furnished for some key signals such as ens,ad_clk,oe and hbe. With the analysis and measurement of the guide line e. g. ,the switch of signal processing channels, the circuit delay, and the power dissipation, there is evidence that the design may be characterized by real-time,high-integration and -reliability, low-dissipation, flexibleness. The approach is applied in some transient feeble optical signal detection system successfully.
出处
《光子学报》
EI
CAS
CSCD
北大核心
2007年第B06期309-312,共4页
Acta Photonica Sinica
关键词
光电探测
FPGA
控制逻辑
电路仿真
Photoelectrical detection
FPGA
Control logic
Circuit simulation
