| 1. | Size design of submergible control platform for submersible deep - sea cage
升降式深水网箱控制平台的尺寸设计 |
| 2. | We used the special computer as the controlling platform and windows as the os
系统选用工控机为控制平台, windows为操作系统。 |
| 3. | Consequently , the dissertation discusses and designs the specific solution of the control platform
论文对控制平台的详细方案进行了讨论和设计。 |
| 4. | The platform can also be used in other fields , such as mems , super precise process
宏微控制平台还可以应用于其他领域,比如说mems 、超精密加工等。 |
| 5. | The hardware is developed on the basis of the single - wire and multi - master network structure of can bus
硬件采用基于can总线技术的一线制、多主方式的网络结构为控制平台。 |
| 6. | An experimental control system based on tms320f240 for single - phase on - line ups is proposed in this dissertation
本文介绍了一种控制对象以中小型ups为模型的、基于tms320f240的数字化控制平台的样机实验系统。 |
| 7. | Since it works by monitoring the routing control plane , it does not poll any devices and adds no overhead to the network
由于它通过监测路由控制平台进行工作,所以将不会轮询任何设备,并且不会给网络添加开销。 |
| 8. | According to the requirements of the project and the solution design , clinux is selected as the os of sdh adm control platform
结合本课题的要求及方案设计,确定clinux作为sdh专用分接器控制平台的嵌入式操作系统。 |
| 9. | The high - speed system from the chinese academy of sciencens is employed as well as the win98 system automatic location and expert seal software
采用北京中科院激光系统,高速铝合金控制平台, win98系统运行,全自动定位专业印章软件。 |
| 10. | In the forth chapter , software design of virtual instrument technology based on gpib - bus , and working flow of local control flat will be introduced in detail
第四章详细介绍了基于gpib接口总线的虚拟仪器技术的软件设计,本地控制平台的工作流程。 |
