有了这一模块,用户可以手动调试设置信号和测试安装及设备。
With this module, users can manually set signals for commissioning and testing installations and devices.
给出了飞机火警系统测试设备的设计思想,详细介绍了软硬件的组成及各个模块的功能和原理,并解决了一些相关技术问题。
The design idea of Airborne Fire Alarm System Test Equipment has been given, the components of software, hardware, the function, principle of each module, and solves some related technology problems.
完成了汽轮机、蒸发器、汽水分离器、管道等热力系统典型设备模块的开发工作,并进行了相应的系统测试和应用研究。
The modules of important thermal power system equipments such as steam turbine, evaporator, steam-water separator and pipe are developed. System testing and application works are also completed.
维护光通信模块测试台,以及所属的测试设备。
Telecom Module Testing station maintenance and Equipment management.
本文的模块设计方法、热阻模型分析方法、热仿真分析方法、热测试方法可用于对军民用电子设备的热设计。
The module design method, thermal resistance model method, thermal emulation analysis method and thermal test method can be used for thermal design of military and civilian electronic equipment.
该任意波形发生器模块已应用于模块化雷达自动测试设备中,提供测试系统所需要的任何波形激励信号。
The AWG module has been applied to automatic test equipment of modularization radar and the stimulation signals to the test system are provided.
主要介绍了逻辑生成模块、配置文件下载模块及FPGA映像装载设备驱动模块的具体实现,并对系统的运行结果给出了测试。
The concrete realization of the logic module , configurable file downloading module and device drivers module which load FPGA reflection are mainly introduced. The result of the system is also tested.
测试设备包括三个主要的功能模块:数据监控处理单元、智能监测单元和信号转接单元。
Based on this structure, the test system can be divided three parts: data process computer, intelligence board and signal transform cell.
自从OBSAI架构以模块形式出现并且可升级,对于测试环境来说关键设备之一就是提供相同程度的可测量性。
Since OBSAI architectures are modular and scalable, one of the key requirements for the test environment is to offer the same degree of scalability.
首先介绍了整个系统结构框架,然后详细分析了各个模块的具体实现,最后在真实设备上进行了测试。
Firstly, the system architecture was introduced, then the realization of each module was analyzed, finally, testing on actual devices was carried out.
实验结果证明自动测试方法能在四到五分钟内测试出放大器各模块的性能参数,并在设备非正常工作时找出潜在的故障点。
The experimental results demonstrated that all parameters of each functional circuit can be obtained by the routine within about 4~5 minutes, and …
实验结果证明自动测试方法能在四到五分钟内测试出放大器各模块的性能参数,并在设备非正常工作时找出潜在的故障点。
The experimental results demonstrated that all parameters of each functional circuit can be obtained by the routine within about 4~5 minutes, and …
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