| 1. | The usb device controller is verified under pc ' s plug and play
其中usb设备控制器达到了与pc机即插即用的目的。 |
| 2. | This thesis introduces usb2 . 0 device controller ip core for fpga designs
本文主要研究usb2 . 0设备控制器的ip核设计。 |
| 3. | In conclusion , this paper realized the usb device controller and usb host controller
本文完成了usb设备控制器和主控制器的设计和实现。 |
| 4. | In conclusion , the usb2 . 0 device controller ip core is verified under pc ' s plug and play
本文所设计的usb2 . 0设备控制器ip核能做到在pc机上热插拔。 |
| 5. | After analyzing the usb device controller function requirements , the thesis divides the system into several sub - modules by the way of top - down
在对usb设备控制器的功能进行详细的分析后,采用自顶向下的方法划分系统模块。 |
| 6. | This paper studied the working principle of usb and designed the ip core of universal device controller , which are main parts of usb , based usb specification 1 . 1
本论文对通用串行总线( usb )系统进行了研究,并根据usb1 . 1规范设计了usb设备控制器的ip核。 |
| 7. | Then the usb device controller was described by hardware description language . after the design the modules were simulated , synthesized by activehdl , synplify and maxplus ii
以硬件描述语言对usb设备控制器进行了描述,并分别以activehdl 、 synplify和maxplus完成了usb设备控制器的仿真与综合。 |
| 8. | The paper takes the top - down high - level design method . the usb device controller finally realized with the ep1k100qc208 - 3 chip which is a series of acex fpga of altera company
论文采用自顶向下的正向高层次设计方法, usb控制器系统的最终实现是采用了altera公司的acex系列fpga芯片中的ep1k100qc208 - 3芯片。 |
| 9. | This dissertation focused on the working principle of usb and especially realized the design and simulation of the universal device controller and universal host controller , which are main parts of usb , based usb specification 1 . 1
本论文对通用串行总线( usb )系统进行了研究,并根据usb1 . 1规范设计并实现了usb设备控制器与usb主控制器。 |
| 10. | Then the usb device controller was described by hardware description language and simulated under self - established usb - pci simulation environment . at last , the usb device controller was verified
以硬件描述语言对usb设备控制器进行了描述,同时针对pci接口对usb - pci接口结构进行设计从而构建了pci - usb仿真验证环境,最终用fpga实现,并通过验证。 |
