module verification
- module verification的基本解释
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[计] 模块验证, 模块检验
- 更多网络例句与module verification相关的网络例句 [注:此内容来源于网络,仅供参考]
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First, the definition, significance, research emphases and status of NC machining verification technology are introduced in this paper. Then the platform—ACIS for the development of verification system, including its development interface, data structure, main functions, features and the application in the system is introduced. And, we indicate in brief the correlative knowledge of NC machining and then discuss the definition of the machining environment of NC machining verification system as well as the way that the module has been developed. Finally, we describe how to make Help Files and the structure of the Help Files in the system.
本文首先对数控加工动态仿真技术的定义、意义、研究重点、研究状况进行了介绍;并介绍了可用于开发数控仿真系统的实体造型平台—— ACIS ,包括 ACIS 的开发接口、数据结构、主要功能与特色以及在数控仿真系统开发中的应用;然后通过简要介绍数控加工的一些相关知识,引出了数控仿真系统加工环境的定义与该模块的实现方法;最后讲述了帮助文件的制作以及该系统帮助文件的结构。
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First, the definition, significance, research emphases and status of NC machining verification technology are introduced in this paper. Then the platform―ACIS for the development of verification system, including its development interface, data structure, main functions, features and the application in the system is introduced. And, we indicate in brief the correlative knowledge of NC machining and then discuss the definition of the machining environment of NC machining verification system as well as the way that the module has been developed. Finally, we describe how to make Help Files and the structure of the Help Files in the system.
摘要本文首先对数控加工动态仿真技术的定义、意义、研究重点、研究状况进行了介绍;并介绍了可用于开发数控仿真系统的实体造型平台――ACIS,包括ACIS的开发接口、数据结构、主要功能与特色以及在数控仿真系统开发中的应用;然后通过简要介绍数控加工的一些相关知识,引出了数控仿真系统加工环境的定义与该模块的实现方法;最后讲述了帮助文件的制作以及该系统帮助文件的结构。
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Then, on the basis of the functional verification, the system architectures of the radio frequency analog front end and the control logic circuit for the passive UHF RFID transponder are studied and designed with low-power design techniques. The RF AFE circuit includes rectifier, matching network, backscatter, regulator, AM demodulator, voltage reference, local oscillator and power on reset circuit, and so on. The control logic circuit contains clock synchronization module, decoding module, coding module, cyclic redundancy checksum module, power management unit, control unit, shift register and memory.
然后,在功能验证的基础上,重点研究了无源超高频射频识别标签芯片射频模拟前端电路和控制逻辑电路的系统架构,并采用低功耗设计技术对其进行了设计,射频模拟前端电路设计包括了整流器、匹配网络、反向散射电路、稳压器、AM解调器、电压参考源、本地振荡器以及上电复位电路等,控制逻辑电路设计包括了时钟同步模块、解码模块、编码模块、CRC校验模块、功率管理单元、控制单元、移位寄存器和存储器等。