时间管理系统方法之所以不起作用的原因是这些方法是用来管理时钟时间的。
The reason time-management gadgets and systems don't work is that these systems are designed to manage clock time.
系统的硬件部分主要包括了DSP微处理器的基本外围电路、非易失性存储、LED显示、时钟管理、键盘接口,以及SCI通信和CAN通信等单元电路。
The hardware of the monitoring system mainly consists of the DSP controller, nonvolatile memory, LED, clock management, keyboard interface, SCI communication units and CAN communication units.
该系统采用了片同步技术实现了采样后高速数字信号的可靠锁存,采用高精度的时钟管理芯片和设计合理的时钟路径对时钟抖动做了严格控制。
The Chip-Sync technology has been used to ensure the latch of high-speed signal, and we use high accuracy clock management chips and design reasonable clock way to strict control the clock jitter.
首先针对网络控制系统分布式的特点,特别是类似于CAN总线的多主系统,由于没有单一的时钟提供同步机制,影响调度管理的同步。
First, aiming at the distribution of NCS, specially the multi-master system such as CAN, there is no unified network clock, so the scheduling and management are affected.
智能排队管理系统,各类行情显示屏,店招屏、橱窗屏、时钟屏、走字屏等,并提供显示技术解决方案。
Smart queue management system, various quotation displays, signboards, showcases and clock screens, word display screens and providing technique solutions for display.
多时钟实现方法在项目管理与其它类别微处理器系统级设计中的运用给予了拓展性描述。
Expanded description on project management and other MCUs' system - level architecture is also discussed in this paper.
动态功耗管理是一种系统级低功耗设计技术,降低功耗的思路是根据系统当前负载动态调整时钟频率或者关闭时钟。
Dynamic power Management (DPM) is a technique to reduce power consumption of systems by shutting down clocks or changing their frequency according to system loads.
文章着重分析了基于系统级的低功耗技术,提出了动态时钟管理技术,介绍了其背景、原理以及在系统低功耗中发挥的重要作用。
A number of low-power design techniques at system level are surveyed, and a dynamic clock management(DCM) methodology is presented, which remarkably reduces the dynamic power dissipation of SoC"s."
文章着重分析了基于系统级的低功耗技术,提出了动态时钟管理技术,介绍了其背景、原理以及在系统低功耗中发挥的重要作用。
A number of low-power design techniques at system level are surveyed, and a dynamic clock management(DCM) methodology is presented, which remarkably reduces the dynamic power dissipation of SoC"s."
应用推荐