省电模式

  • 网络POWER SAVE MODE;Power Saving;power save;Power saving mode;Power Saver
省电模式省电模式
  1. 在实现多种显示功能的前提下,采用省电模式、门控时钟和重定时方法进行了低功耗优化设计。

    In the conditions of implementing many display functions , we adopt power save mode , gating clock and retiming method to reduce power consumption .

  2. 一种RFID手持读/写设备省电模式的实现

    Implementation of Power Saving Mode for RFID R / W Handset

  3. 一般来讲,这会引起CPU消耗更多的电能,而大多数的现代CPU当它们空闲的时候是能够进入省电模式的。

    This generally causes the CPU to consume more power as most modern CPUs can enter power-save modes when they are idle .

  4. 在省电模式下,异步定时器与LCD控制器继续运行,允许用户保持一个时间基准及对LCD显示器进行操作,而其余功能模块处于休眠状态;

    In Power-save mode , the asynchronous timer and the LCD controller continues to run , allowing the user to maintain a timer base and operate the LCD display while the rest of the device is sleeping .

  5. 提出了一种新型的低泄漏功耗FPGAs查找表(Look-upTables,LUTs)结构。这种结构的LUTs可以工作在三种不同的模式:高速工作模式、省电模式以及睡眠模式。

    In this paper we propose a new low-leakage FPGA Look-up Tables ( LUTs ) that can operate in three different modes : high-speed , low-power or sleep .

  6. 另一方面,针对系统AWAKE状态下的低功耗设计,首先分析智能手机用户常用的使用场景,然后,从增加省电模式和优化通话省电两方面实现软件低功耗设计。

    On the other side , when the system is in AWAKE state , it analyzes common usage scenarios of smart phone users . According to these scenarios , it designs power-saving mode and phone call power-saving to archive software low power design .

  7. 在省电模式下工作时,AD7813会在一次转换结束时自动关断,并在新转换开始时自动上电。

    When used in its power-down mode , the AD7813 automatically powers down at the end of a conversion and powers up at the start of a new conversion .

  8. 自动省电模式,最大程度地在轻负荷运行效率。

    Automatic power-saving modes maximizes efficiency during light load operation .

  9. 在省电模式下,数字输出被置为高阻状态。

    In power-down mode , the digital outputs are driven to a high impedance state .

  10. 用户可选项提供各种省电模式、数字数据格式和数字数据定时方案组合。

    User-selectable options offer a combination of power-down modes , digital data formats , and digital data timing schemes .

  11. 我的笔记型电脑有省电模式,经过二十分钟的?置,萤幕就会自动关闭。

    My laptop computer has an energy saving mode . The screen will turn off after 20 minutes of inactivity .

  12. 在省电模式下,通过牺牲电路的速度来实现降低功耗的目的,泄漏功耗与高速工作模式相比可以减小约68%~73%。

    In low-power mode , as the expense of speed , leakage power is reduced by 68 % ~ 73 % vs. high-speed mode .

  13. 它的其他环保特点,允许使用者根据不同的能源消耗水平调整显示器的亮度,其中有四种预设的省电模式供选择。

    Its other eco feature allows users to adjust a monitor 's brightness based on different energy consumption levels with four preset energy-saving options to choose from .

  14. 在此基础上,成功地给出了具有容错能力的三线制串行传输协议、省电模式转换方法及时间控制输出的实现方案。

    Serial transmission protocal of 3-wire model with tolerable error ability , the method of transition to save electricity state and time control output realization is also described .

  15. 我最喜欢的一个功能是超级省电模式,这个功能可以在低电量、且用户还想保持待机的时候关掉不必要的功能。

    My favorite feature , ' ultra power savings mode , ' turns off nonessential services when battery-power is low and you want to preserve juice for phone service .

  16. 该器件还提供省电模式,不执行转换时,用户可以切断对桥式传感器的供电,并使该器件进入省电模式,从而延长产品的电池使用时间。

    The AD7781 also has a power-down mode that allows the user to switch off the power to the bridge sensor and power down the AD7781 when not converting , thus increasing the battery life of the product .

  17. 在此基础上,对动态检测算法在站点跨服务区移动,站点进入省电模式和站点退出网络的特定应用环境中所面临的问题进行了分析,提出了解决方案。

    On this basis , analyze some problems such as the movement of hidden stations in Extended Service Set , hidden stations being in power saving mode and hidden stations exiting from the network , which are faced by dynamic detection algorithm , and propose solutions .

  18. 在硬件设计中,着重于低功耗电路的设计,采用低功率器件和省电管理模式,使整个系统的工作功率低于1.5W。

    The low power chips were used to insure that the whole system power is under 1.5W .

  19. 针对传统大功率PFC功耗高,瞬态响应慢的缺点,提出了一种具有省电工作模式的设计办法,设计了一种具有低带宽滤波功能和快速平滑输出瞬态响应能力的多输出矢量误差放大器。

    With regards to the disadvantages of high wastage and a slow transient response , the paper presents a design method about green mode and a proprietary multi-vector error amplifier that can provide a fast transient response in a low-bandwidth PFC loop .