设计了主程序模块、采样中断模块、故障处理模块,并分别编制了子程序。
The software is divided into main program module, interrupt module, fault disposal module. These subroutines of each module are designed respectively.
数据级融合模块主要对多传感器的测量信号进行处理,提取出故障诊断的特征信息。
The data fusion level module mainly handles the metrical data of multi-sensors and extracts the feature of faults.
系统初始化后进入由键盘、显示、SCI、故障处理等模块组成的后台程序。
After initialization, the system ran into the background program which includes keyboard, display module, SCI module, and fault processing module.
论述了在故障诊断模块中如何利用PLC的逻辑判断功能实现被控对象的监测、传感器的监测、PLC自身故障监测以及对故障的处理等。
It discusses about how to realize inspecting the controlled objects, sensors, PLC and dealing with the fault by the logical judging function of PLC in the fault diagnosis module.
对系统硬件设计的DSP 3.3V电源的获取、电压电流采样模块、IGBT驱动、一般I/O信号的处理、故障监测和串口通信电路进行了研究分析。
The overall hardware design scheme is performed, such as DSP 3. 3V power, voltage and current sampling module, IGBT driving circuit, I/O signal processor, fault detection module and COM circuit etc.
针对各种故障告警的处理过程,完成了告警注册、告警相关性、告警相关信息添加和告警消息上报模块的设计和实现。
The designs and realizations of alarm registration, alarm message processing, and alarm message reporting and alarm display module have been accomplished.
相对于老一代微处理器而言具有速度快,功能强等特点。介绍了一种以DSP高速数据智能采集单元为核心开发的故障录波测距装置的软硬件结构和功能模块安排。
This paper introduces the structure of the software and hardware of a newly developed fault recorder based on intelligent data collecting unit of DSP.
相对于老一代微处理器而言具有速度快,功能强等特点。介绍了一种以DSP高速数据智能采集单元为核心开发的故障录波测距装置的软硬件结构和功能模块安排。
This paper introduces the structure of the software and hardware of a newly developed fault recorder based on intelligent data collecting unit of DSP.
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