The low power design of an 80c51 embedded microprocessor core is presented in this paper.
介绍了一种80c51嵌入式微处理器内核的低功耗设计方法。
It is a form of computing where debit and credit CARDS have an embedded microprocessor chip.
它是一种形式的计算而借记卡和信用卡,有一个嵌入式微处理器芯片。
The system is made of obliquity sensor, absolute grating encoder and embedded microprocessor.
该系统由倾角传感器、绝对式光栅编码器和嵌入式微处理器组成。
These two can be applied to the ambulatory ECG monitor based on Embedded Microprocessor Unit.
经验证明具有较可靠的效果,可用于嵌入式智能便携心电监护仪中。
Embedded microprocessor has been one of the hot spots in the computer architecture research area.
嵌入式微处理器是体系结构研究领域的一个热点。
Embedded microprocessor and real-time operating system are two core technologies of an embedded system.
嵌入式微处理器和嵌入式实时操作系统是嵌入式系统的两大核心技术。
The distributed control technology is used in this system and every node is based on embedded microprocessor.
群控系统采用分布式控制,各节点以嵌入式微控制器为核心,实现电梯群控系统的硬件系统。
This investigates one kind of atmosphere laser signal processing method on the embedded microprocessor system.
本文研究一种基于嵌入式微处理器系统的大气激光信号处理方法。
The power consumption of embedded microprocessor has both certain power consumption and uncertain power consumption.
嵌入式处理器的功耗可以分为确定性功耗和非确定性功耗。
Against this background, the paper did the research on motor fault analysis system, which is based on ARM embedded microprocessor.
在此背景下,本文进行了基于ARM的嵌入式电机故障诊断系统的研究。
The circuit design and amelioration are based on HHARM2410_K2 development board using ARM9 embedded microprocessor S3C2410A as the core.
课题以arm 9嵌入式微处理器s3c 2410a为核心,基于HHARM 2410 - K2开发板进行电路设计与改进。
This paper researches a kind of AHRS which consists of high-performance ARM embedded microprocessor and embedded real-time operating system.
本文研究了一种基于ARM内核的高性能的嵌入式微处理器和嵌入式实时操作系统的航向姿态参考系统。
Embedded microprocessor ARM, with its small size, low-power, low-cost and high-performance, is occupying the leading position in embedded systems.
嵌入式微处理器arm以其体积小、低功耗、低成本和高性能而占据嵌入式应用中的领先地位。
This topic use the embedded microprocessor to be responsible to control the entire communication card system, thus processing speed is effectively enhanced.
课题采用嵌入式微处理器负责控制整个通信板卡系统,从而将接口处理速度有效的提高了。
We selected the S3C44B0X embedded microprocessor and configured image acquisition peripheral device to set up the hardware platform of machine vision system.
以嵌入式微处理器s3c 44b0x为中心,配置图像采集等外围器件,构建了机器视觉系统的硬件平台。
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.
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 power consumption reduction is one of the core techniques in designing the portable intelligence instruments based on embedded microprocessor unit (EMPU).
在嵌入式便携智能仪器的设计中,降低功耗是其核心技术之一。
In order to achieve architectural optimization with acceptable hardware overhead for embedded microprocessor, a novel multi-frequency clock scheme was proposed.
为了在微处理器结构优化的同时保持合理的硬件开销,提出了一种混合频率策略。
The hardware is based on the high efficient 8 bit embedded microprocessor C8051F040, its input and output function is extended with its plenty of source on chip.
硬件结构以高性能的8位嵌入式处理器C8051F040 为核心,充分利用其丰富的片上资源,扩展系统的输入输出功能。
Using Embedded microprocessor to store and manage it and wireless data transmission interface, we can realize the function of reception and transmission of data.
由嵌入式微处理器对其进行存储与管理,通过无线的数据传输接口,实现数据的接收与传送。
Most embedded systems have been applied in a single approach to embedded microprocessor core, with some monitoring, servo, pointing device with a certain function.
目前大多数嵌入式系统处于单独应用方式,以嵌入式微处理器为核心,与一些监测、伺服、指示设备配合实现一定的功能。
This paper introduces the definition and hardware structures of the embedded system Several embedded microprocessor units and their application fields are presented.
给出了嵌入式系统的定义和体系结构。较详细地阐述了几种常用的嵌入式微处理器及其应用领域;
Firstly, the embedded microprocessor and embedded Real Time Operating System are described, and the multi-task scheduling solution based on single-processor is given.
本文首先介绍了嵌入式微处理器和嵌入式实时操作系统,给出了基于单处理器的多任务调度方案。
We selected the S3C44B0X embedded microprocessor and configured image acquisition and motor driver peripheral devices to set up the hardware platform of robot vision system.
以嵌入式微处理器S3C44B0X 为中心,配置图像采集和电机驱动等外围器件,构建了机器人视觉系统的硬件平台;
This paper introduces a new type of portable and no invasive fetal heart rate monitor which based on 32-bit ARM embedded microprocessor LPC2290 and MEMS acceleration transducer.
介绍一种基于32位ARM嵌入式微处理器LPC 2290和MEMS微加速度传感器的一种便携、无创的胎儿心率检测仪。
YH TS 1 is a 32 bit embedded microprocessor designed by School of Computer in National University of Defense Technology. It is a top down design and has fully intellectual property.
银河TS1嵌入式微处理器是国防科学技术大学计算机学院设计的32位嵌入式微处理器,完全正向设计,具有自主版权。
This paper advance the way of applying the high-end embedded microprocessor chip of AT91RM9200 into the ECG monitor, and design the ECG data acquisition system based on ARM architecture.
本文提出了将高端ARM处理器芯片AT 91rm 9200应用到心电监护仪中,设计了基于ARM体系结构的心电数据采集系统。
In this paper, in order to solve this problem by using embedded microprocessor chip LPC2210 and Ethernet chip RTL8019AS constituted. Porting embedded Ethernet and Network Access Program.
为了解决此问题本文论述了采用嵌入式微处理器LPC 2210和以太网芯片rtl 8019as构成的嵌入式以太网接入方案。
Concerning the specific application environment of embedded microprocessor, the branch prediction technology was researched in this paper, and a new scheme of branch prediction was proposed.
针对五级流水线嵌入式微处理器的特定应用环境,对分支预测技术进行了深入研究,提出了一种新的分支预测方案。
Concerning the specific application environment of embedded microprocessor, the branch prediction technology was researched in this paper, and a new scheme of branch prediction was proposed.
针对五级流水线嵌入式微处理器的特定应用环境,对分支预测技术进行了深入研究,提出了一种新的分支预测方案。
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