折叠共源共栅放大器的增益、共模抑制比等。
And gain, common mode rejection ration in folded cascade amplifier.
电流源采用共源共栅结构,提高了电源抑制比。
The current source adopts cascade structure to improve power supply rejection ration (PSRR).
放大器采用共源共栅结构,芯片内部埋置了螺旋电感。
The amplifier employs cascode structure, and spiral inductors on chip.
利用共源共栅电感可以提高共源共栅结构功率放大器的效率。
The efficiency of the cascode power amplifier can be boosted by use of cascode-inductance.
文章详细分析了共源共栅级联型低噪声放大器的优化设计方法。
An optimal design method of Cascode LNA is presented in detail.
应用快速建立理论,设计出动态偏置的折叠式共源共栅运算跨导放大器。
Based on the theory of fast settling behavior, a folded cascode operational Transconductance amplifier OTA with dynamic bias voltage is designed.
在设计中还采用了共源共栅两级运放和差分动态比较器来优化电路的速度和功耗。
The cascode two -stage op -amp and differential dynamic comparator are also used to optimize the speed and power dissipation.
电路运用带隙温度补偿技术,采用共源共栅电流镜,两级运放输出用于自身偏置电路。
The technology of temperature compensation and cascade current mirror was used, and the output of two stage amplifier was used for the bias of itself.
电路设计采用电流镜、折叠式共源共栅等结构,实现了在峰值电流控制模式中的电流比较功能。
By using the structures such as current mirror, folded-cascode and so on, the function of comparison in peak-value-current-mode-control is realized.
该带隙电压基准源电路中的深度负反馈运算放大器为低失调、高增益的折叠型共源共栅运算放大器。
A deep negative feedback operation amplifier used in band gap reference is a common source and gate folded cascade operation amplifier with a lower offset voltage and a higher gain.
因此介绍了一种采用自偏置低压共源共栅电流源的带隙基准电路结构,用两个电阻代替了偏置电路。
This paper introduces a low supply voltage band -gap reference circuit which used a self-bias cascode current mirror.
设计了一个共源共栅运算跨导放大器,并成功地将其应用在一款超低功耗ld O线性稳压器芯片中。
A cascode operational transconductance amplifier (OTA) is designed, which was integrated into an ultra-low power LDO regulator chip.
为了使电路性能达到低电压、低功耗与超高速的统一,本文采用一种改进型共栅结构的动态负载锁存器。
In order to achieve the unification of low voltage, low power and super high speed, the article applies an improved common-gate structure dynamic load latch.
跨阻放大器(TIA)采用全差分结构,利用震荡反馈技术和可调节共源共栅(RGC)结构来增加其带宽。
The transimpedance amplifier (tia) takes a fully differential configuration, feedback oscillation technique, and regulated cascode (RGC) input stage for bandwidth enhancement.
在共源级已优化的基础上,为了实现低噪声放大器的性能最优,提出了对共栅管的沟道宽度进行优化设计的方法。
On the base of the optimization of source, a method to optimize the whole performance is given by adjusting the channel width of gate.
本文也对CMOS低噪声放大器进行了分析,将传统共源共栅结构看作二级放大器级联形式,并由此引入级间匹配网络。
In this paper, the traditional cascode structure of CMOS LNA is considered as a two-stage amplifier and inter-stage matching network is introduced accordingly.
其设计特点是采用了共源共栅电流镜,运放的输出作为驱动的同时还作为自身的偏置电路;其次是采用了带隙温度补偿技术。
The cascade current mirror was used in the circuit, and the output of the OPAMP was used for the bias of itself and to drive the next stage.
在传统两级运放的基础上,采用交叉耦合的AB类输出级和共源共栅补偿,提高了输出摆幅和带宽,并通过数学工具对功耗进行了优化。
Based on traditional two-stage amplifier, cross-coupled class AB output stage and cascode compensation were adopted to improve output voltage swing and bandwidth.
该运放采用了折叠式共源共栅放大结构、连续时间共模反馈电路以及低压宽摆幅偏置电路,以实现在高稳定性下的高增益带宽、大输出摆幅。
A new CMFB circuit is used to stabilize the common mode level of the output; Effected measures are used to constrain the wing of the output of the pre.
在此基础上,通过分析整个级联型低噪声放大器的密勒效应对优化设计的影响,进一步提出了对共栅级MOSFET的沟道宽度优化的必要性。
Based on this, the article draws a conclusion that the optimizing channel width of common-source MOSFET is necessary by analyzing Miller effect of LNA.
在此基础上,通过分析整个级联型低噪声放大器的密勒效应对优化设计的影响,进一步提出了对共栅级MOSFET的沟道宽度优化的必要性。
Based on this, the article draws a conclusion that the optimizing channel width of common-source MOSFET is necessary by analyzing Miller effect of LNA.
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