基于平台的嵌入式数控系统,无限升级扩展功能。软硬件同步的抗干扰设计,确保系统时间可靠运行。
E. platform based embedded CNC system, unlimited upgrade expansion function. The anti interference design of hardware and software synchronization to ensure the reliable operation of the system time.
本文档简要介绍以嵌入式计算机PC 104为硬件开发平台,基于DOS操作系统下的高分辨率图形显示设计。
This article simply introduces high resolving graphic display design which USES embed computer PC104 as hardware to develop platform and bases on DOS operating system.
在硬件设计中,本课题采用了基于ARM处理器组成的嵌入式系统平台。
In the section of the hardware design, the embedded platform consisted of ARM processor is used in this project.
本文讨论嵌入式网络测控平台的实现,完成系统的构成以及硬件和软件设计。
This paper discusses the realization of the embedded network platform of measurement and control, the design of finish - systematic composition, hardware and software design.
设计嵌入式仿真平台,可以大大缩短开发嵌入式软硬件的周期,使得调试操作系统级的代码更加方便。
Designing embedded simulation platform can shorten embedded software and hardware development cycle greatly and make debugging codes of operating system level more conveniently.
文中给出了整个系统的软、硬件设计方案,并重点讨论了监测节点嵌入式平台和GPRS通信功能的设计与实现方法。
The software design and hardware implementation of the total system are also proposed, the embedded platform of monitor unit and implementation of GPRS function is discussed chiefly.
论文所要设计与实现的测试平台就是为测试嵌入式系统硬件功能性而提出的。
The test platform which is designed and implemented in this paper is put forward to test the hardware functionality of embedded system.
以支持实时仿真的32位嵌入式arm7处理器LPC 2136为控制核心,设计开发嵌入式机器人控制系统硬件平台。
Hardware platform of embedded robot control system is developed using embedded 32-bit processor LPC2136 based on ARM7 that is the center control system, which supports real time simulation.
由于嵌入式系统设计的专有性,目前没有一个通用的用于嵌入式硬件系统测试的平台。
Due to the exclusive design, there is no one universal test platform for all embedded system hardware.
在硬件方面,本文设计了一个基于32位ARM微处理器LPC 2104的硬件实验平台,并结合嵌入式系统远程监控的需要,给出了硬件电路的整体设计原理和实现方法。
The 32-bit ARM embedded microprocessor, LPC2104, is selected as the core of hardware experiment circuit board, and the designing of hardware circuit is given.
论文以JTAG为基础,以地震数据采集站硬件板为测试项目,设计并实现了基于JTAG的嵌入式系统硬件测试平台。
This paper base on JTAG and take the hardware board of earthquake data acquisition station system as test project, design and implement the JATG-Based test platform for embedded system hardware.
如何在特定硬件平台上设计出优秀的图形用户界面,对商业化嵌入式系统至关重要。
It is critical in the commercialization of embedded systems to design superior GUIs based on a specific hardware platform.
针对需求分析,结合嵌入式技术,提出平台化的机电仪器仪表的硬件系统设计思路。
According to the needs analysing, putting forward the design method of that hardware platform with embedded technology.
本文详细论述了基于嵌入式的数控系统软硬件的设计和基于PC的开放式控制系统硬件平台的设计。
The designs of the hardware platform are detailedly discussed that are based on MCU's embedded CNC system and PC's on-limits CNC system in the paper.
针对嵌入式系统开发平台构建中的硬件环境差异问题,给出了一种高移植性的硬件抽象层设计方案,并介绍了实现方法。
As a software layer between embedded operation system and hardware in embedded system, HAL (hardware Abstraction layer) is a key problem of embedded application.
该分析仪选取以ARM7TDMI处理器为核心的软硬件开发平台,采用嵌入式系统设计方法进行软硬件的设计开发。
The analyzer chooses an ARM-based software and hardware development platform and designs with the embedded system hardware and software design method.
该分析仪选取以ARM7TDMI处理器为核心的软硬件开发平台,采用嵌入式系统设计方法进行软硬件的设计开发。
The analyzer chooses an ARM-based software and hardware development platform and designs with the embedded system hardware and software design method.
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