低功耗设计的关键技术包括选用低功耗的各类器件,低工作电压,对MCU进行时钟管理或休眠,对各部分电路和器件进行电源管理等。
Low-power oriented design techniques include selecting low-power parts, low operation voltage, managing clock of MCU or making MCU turn into dormancy, managing power supply of circuit and so on.
提出了一种新型的低电压、低功耗、工作在亚阈值区的基准电压源。
A new low-voltage low-power CMOS voltage reference operating in subthreshold region is presented.
微功耗、低工作电压、高电源抑制比是在电源芯片中的基准源设计过程中遇到的主要挑战。
Low power, low voltage and high PSRR are the main challenges in designing bandgap reference for switching regulator.
在混合信号电路中,考虑到功耗和性能的要求,数字电路低电压工作而模拟电路高电压工作;
In mix signal circuits, digital circuits operate at a lower voltage and analog circuits at a higher one, so as to meet the requirement of power dissipation and performance.
本发明的优越性在于:结构简单、功耗较低、工作电压要求较低、稳定性高,可以应用到各种储存器电路中。
The invention has the advantages of simple structure, lower power, lower requirement for working voltages, high stability and application in various storage circuits.
结果表明,所设计的直流开关型变换器集成模块输出电压稳定、纹波小、工作频率,高、功耗低,且体积小。
It has been shown that the designed DC switching mode converter has a stable output voltage frequency, small ripple, high operating frequency and low power consumption.
此外,芯片在12V供电电压下的稳态工作功耗仅为0.11W(包括开关损耗)。
And the power dissipation is 0.11W (including switching loss) when supply voltage is 12V. The designed chip was taped out.
且工作电压低、功耗小,是CRT显示器的理想替代品。
As for it also has low working voltage and small power dissipation, it has became the ideal succedaneum of CRT.
此外,片上集成的模拟外设的正常工作电压降至1.8V,这有助于简化应用设计以及最大限度降低整体功耗需求。
In addition, integrated analog peripherals are fully functional at supply voltages down to 1.8v. This can help simplify design as well as helping to minimize overall power demand.
此外,片上集成的模拟外设的正常工作电压降至1.8V,这有助于简化应用设计以及最大限度降低整体功耗需求。
In addition, integrated analog peripherals are fully functional at supply voltages down to 1.8v. This can help simplify design as well as helping to minimize overall power demand.
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