The article introduces a design of an embedded 8 bits long control CPU system.
本文论述了一个8位嵌入式控制CPU系统的设计。
This paper presents a scheme of Embedded real time System based on double CPU for power quality monitoring with the concerns of real time and complex algorithms application.
根据电能质量监测对于系统实时性和支持复杂算法的特殊要求,提出一种基于双cpu的嵌入式实时系统解决方案。
So, this paper mainly develop the dynamic balancer based on multi-CPU embedded system.
鉴于此,本课题研究开发了基于多CPU嵌入式系统的动平衡机。
In the premise, this paper works over the system structure of digital home 's control center based upon embedded CPU, and designs the Plug and control stack for server to manage the devices.
本文就是在这样的前提下,研究了基于嵌入式CPU的数字家庭控制中心的体系结构,并设计了服务器中对于设备的操作管理所使用的即插即控协议栈。
The train identification system based on embedded system is designed with ARM9 RSIC CPU AT91SAM9260 under the principle of automatic train identification system.
根据铁路车号自动识别的基本原理,采用ARM9工业级芯片AT91SAM9260设计开发了铁路车号识别系统的嵌入式系统;
The design of a real time emulation system based on hardware and its implementation is described, which is for the emulation and testing of ASICs with embedded CPU.
介绍了一种基于硬件的实时仿真系统的设计与实现,它用于带有内嵌cpu的专用集成电路的仿真与验证。
In the recorder, 32 bit embedded CPU is used, and operation speed is greatly increased, and thus high efficient compression algorithm can be used.
使用了32位嵌入式CPU,加快记录仪运算速度,可使用高效的压缩算法。
On the aspect of software and hardware environment, operation system and CPU of embedded device, develop and application platform of system were introduced.
在嵌入式设备的软硬件开发环境方面,介绍了嵌入式设备的操作系统和处理器以及系统的开发平台、应用平台。
The Main Research task of this text is for Environmental Monitoring of Intelligent Greenhouse and needs of Control system, Designing and implementing a dedicatedly embedded CPU.
本文主要的研究任务是:针对智能温室环境监测和控制系统的需要,设计并实现一款专用嵌入式CPU。
The embedded system in this thesis include CPU , memory part , LCD part, touching screen, keyboard, FLASH, SDRAM and internet interface and so on.
本论文的嵌入式硬件环境,包括CPU的外围时钟电路,复位电路,存储器单元,LCD模块,触摸屏,键盘,FLASH,SDRAM,网络接口等部分。
Along with wide application of good performance ARM CPU and EOS, the exploitation of embedded becomes very popular.
随着高性能ARM微控制器的推广和大量嵌入式操作系统的出现,嵌入式技术已成为目前最热门的技术之一。
The experimental results of applying this algorithm to 32-bit embedded CPU show that the system performance is dramatically improved.
应用该算法对嵌入式CPU进行优化计算,系统性能得到了明显改善。
This paper brought forward a design project of robot soccer controller based on embedded system. The hardware of the controller included ARM embedded chip LPC2138 used as main CPU.
本论文首先介绍了机器人小车子系统的设计要求及功能,确定了基于嵌入式系统的足球机器人小车的设计方案。
However, in common embedded system, the real-time clock interrupt will wake up the CPU rapidly and periodically even there is no other devices' interrupt. That will increase system power consumption.
但在一般的嵌入式系统中,当系统进入IDLE状态后,即使没有其他设备中断,实时时钟中断也会不断唤醒CPU,这样就会大大增加系统的功耗。
The research results indicate that the method is simple, small system overhead and portability, high stability, and it can be applied to pocket embedded systems based on micro-CPU.
试验结果表明:该方法实现简单,系统开销小,可移植性强,稳定性高,可应用于小cpu上的嵌入式系统。
The module with an embedded CPU has a data acquiring board based on detecting waveform peaks and high speed data compression for capturing the signal of the outburst failure.
采用嵌入式单片机作为在线监控系统的核心芯片,设计了基于波峰检测的高速数据压缩的数据采集模块,捕获突发的故障波形。
The thesis also describes the other components, offers new ideas and suggestions about boot loader and general optimization focus on the special embedded CPU.
论文也对嵌入式系统中的其它关键部分,如引导程序,专用嵌入式处理器的优化方法等进行了相关的阐述,提出了自已的见解。
The thesis also describes the other components, offers new ideas and suggestions about boot loader and general optimization focus on the special embedded CPU.
论文也对嵌入式系统中的其它关键部分,如引导程序,专用嵌入式处理器的优化方法等进行了相关的阐述,提出了自已的见解。
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