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在低功耗系统中启用计时功能和延长电池寿命
电子跟踪时间的能力使电子设备能够实现诸如维护日历时间、定期唤醒系统启动某些动作、以及时间戳测量数据等功能。现在越来越多的系统实现时间保持功能。这些系统使用独立的实时时钟设备或带有集成实时时钟的处理器实现实时时钟(RTC)功能。实时时钟(RTC)允许系统跟踪时间并将事件同步到用户容易理解的时间基准。
在预计使用的手持式、便携式和电池供电的设备,给予的方式提高了最终产品的数量。例如,电池供电设备的使用在调度系统事件和任务,并能使处理器在深度睡眠模式,大部分的时间,显著降低了系统的功耗,延长电池寿命。此外,小型轻量电池模块的晶片尺寸的低功耗RTC集成模块中直接由电池供电的保证系统的计时信息不会丢失即使剩下的系统关机。
计时有时是在系统微控制器中使用内置振荡器完成的。然而,在某些情况下,需要一个外部独立RTC。使用一个独立的RTC具有低功耗的好处,更高的计时精度,并提高对系统锁定的可靠性。
In most systems, the on-TIme is magnitudes less than the off-TIme. Therefore, power saving during the off-TIme is essenTIal. In these systems, to save power, the user will generally shut down all circuitry that is not being used. However, it is still vital that the system maintains its time-keeping function. With the use of a standalone RTC during power-down modes, the power consumption could be as low as 100 nA, compared to the current consumption of a microcontroller with integrated RTC which could be up to 2 μA to 10 μA. By transferring the timekeeping function to the ultra-low power RTC, the microcontroller can go into hibernation mode and the system would only consume 100 nA to keep the RTC running. The system wake-up procedure can be programmed optimally to suit the application.
