本文的目的是包含和联系不同的嵌入式动态电源管理方法。
This paper has the objective to cover and relate different approaches to system-level DPM.
为了解决复杂嵌入式系统的低功耗设计,提出了一种新的动态电源管理策略。
In order to solve the problem of low power design of complicated embedded system, a novel dynamic power management policy is presented.
动态电源管理技术设计成自动省电,甚至当系统不用的时候,不需要用户做任何操作。
Dynamic power Management techniques are designed to save power automatically, even as the system is in use, without requiring any action by the user.
传统动态电源管理(dpm)策略仅仅建立在对目标设备的工作负载进行观测的基础上。
Tactics builds tradition DPM only on the basis of carrying out observations on target device working load.
实验结果说明该算法对工作状态平稳的系统空闲预测效果比较理想,适用于动态电源管理。
The decision-making of dynamic power management is based on the predictive result of future idle period. The experimental result shows that the algorithm can predict idle…
它具有动态电源管理(dpm)、利用脉宽调制控制(PWM)充电电流和电压、耗尽电池检测等功能。
It has functions of dynamic power management (DPM), depleted battery detection and pulse width modulator (PWM) to accurately control battery charge current and voltage.
通用操作有设备的动态连接与移去、设置地址、信息配置、数据传送、电源管理、请求处理及出错处理等。
The common operations are dynamic attachment and removal, address assignment, configuration, data transfer, power management, request processing, request error.
以系统功耗小和响应快为指标,给出了一种适合深空探测器的电源动态管理方法,实现系统的低功耗要求。
The system response and power saving are used as index to select a suitable policy in order to achieve the design of low power for the deep space prober.
当所有的部件已经确定,他们就可以被添加到动态音频电源管理子系统单独以snd_soc _ dapm_new_control调用。
After all the widgets have been defined, they can then be added to the dapm subsystem individually with a call to snd_soc_dapm_new_control .
当所有的部件已经确定,他们就可以被添加到动态音频电源管理子系统单独以snd_soc _ dapm_new_control调用。
After all the widgets have been defined, they can then be added to the dapm subsystem individually with a call to snd_soc_dapm_new_control .
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