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1)  tunable sub-threshold swing
亚阈值摆幅可调
2)  subthreshold swing
亚阈值摆幅
1.
This yields a conventional exponential form of the subthreshold current,and the subthreshold swing can be obtained analytically from this current equation.
利用正则摄动法求解非线性泊松方程可以得到纳米MOSFETs亚阈值电流和亚阈值摆幅指数依赖外加偏压的解析表达式。
2.
The silicon fin\'s size dependence of threshold voltage and subthreshold swing were simulated and calculated.
利用三维器件模拟软件,研究了深亚微米三栅FinFET的短沟道效应,并模拟了阈值电压和亚阈值摆幅随硅鳍(fin)厚度和高度的变化情况。
3)  threshold adjustable
阈值可调
4)  limiting threshold
限幅阈值
5)  sub-threshold
亚阈值
1.
To meet the even higher reguirements of new types of microelectronic products for voltage reference,a unit-circuit of low-voltage reference source based on sub-threshold MOS has been developed.
为了满足新型微电子产品对电压基准提出的更高要求,提出了一种基于亚阈值MOS的低电压基准源单元电路,该基准源单元电路采用TSMC0。
2.
In order to effectively decrease the power consumption of analog integrated circuits and improve the technology compatibility,a design method of low-voltage low-power consumption voltage reference with fully CMOS configuration is presented based on the MOS transistors in sub-threshold region.
该方法基于工作在亚阈值区的MOS管,利用PTAT电流源与微功耗运算放大器构成负反馈系统以提高电源电压抑制比。
3.
The design adopts MOS transistor working at sub-threshold region to enhance robust of circuit.
给出了一种应用于低温光敏探测器读出电路的可编程电流源,工作在液氮环境(77K),无外加单元,与一般电流源设计不同,本设计将部分MOS管设计在亚阈值区工作来提高电路工作稳定性。
6)  sub-threshold region
亚阈值区
1.
It is based on the gate-source voltage of an NMOS operating in sub-threshold region and a PTAT voltage produced by the weighted difference of the gate source voltage of two different NMOSs.
本文利用工作在亚阈值区的NMOS管的栅源电压,结合由两个栅源电压之差产生的一个PTAT(与绝对温度成正比)电压,提出了一种用于电流模基准源的新的高阶补偿方法。
2.
When a MOSFET is working at the sub-threshold region,its IDS-VGScharacteristic is exponential.
文章利用工作在亚阈值区MOS管的I-V指数特性,分别对低温及高温条件下VBE的高阶非线性项进行了补偿,从而实现了高精度基准电压。
3.
The sub-threshold region was divided into a forward sub-threshold region and a reverse sub-threshold region.
研究了将非晶硅薄膜晶体管(a-Si∶HTFT)在电路模拟程序(SPICE)中使用的亚阈值区模型,将亚阈值区分为亚阈值前区和亚阈值后区并建立了模型,对比了不同模型下的模拟结果,发现亚阈值区的TFT特性依赖于材料性质,而且亚阈值前区和亚阈值后区的特性受栅源电压VGS和漏源电压VDS的影响,呈指数变化。
补充资料:摆调
1.方言。调弄﹐捉弄。
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