静态功耗 meaning in Chinese
quiescent dissipation
quiescent power dissipation
quiescent power drain
Examples
- In cmos technology the major source of power dissipation is attributed to dynamic power dissipation , which is due to the switching of signal values
电路的功耗分为静态功耗和动态功耗,对于cmos电路,功耗主要是动态功耗,大约占总功耗的85 ? 90 % 。 - With the voltage reduced by half , not only the static power consumption but also the requirement of the heat radiator are lowered accordingly , and the danger of the transistor broken down due to over - voltage is also reduced
电压降低一半,不仅减少了静态功耗,也降低了散热器的使用要求和晶体管因过压而造成击穿损坏的危险。 - While it works with supply voltages down to 1 . 5v , the standby current is lower than 80n a together with the static power consumption lower than 240u w as well as the dynamic range of output voltages and currents is very wide
仿真结果表明,电路工作于1 . 5v的低电压时,静态电流小于80 a ,静态功耗不到240 w ,电压输出端和电流输出端的输出动态范围大。 - The simulated results present that the circuit can offer several advantages such as low static state current ( < 100a ) , low power ( < 300w ) , wider dynamic swing and higher signal transfer precision when the operation voltage is 1 . 5v
仿真结果表明,当此电路工作于1 . 5的低电压时,静态电流小于100 a ,静态功耗低于300 w ,同时电路的信号动态范围大,信号转换精度高。 - Power sensitivity is defined and some related mathematical models are deduced , which bring on a set of theoretic power sensitivity analysis methods for combinational circuits . experimental results verify that the method can be used for dynamic power and leakage power
另外文章还提出了一种静态功耗压缩估计方法和一种双阈值电压快速优化方法,它可以很好地用在低漏电电路的设计中。