提出了一种超宽带伪差分运算跨导放大器。
A pseudo differential operational transconductance amplifier is proposed in this paper.
高压跨导放大器。
最后激励级的跨导放大器将电压线性的转化为电流。
Finally, the transconductance amplifier of the stimulating circuit linearly translates the voltage signal into cu.
提出多输入端运算跨导放大器的两种CMOS电路结构。
This paper describes two CMOS circuit structures of multiple-input operational transconductance amplifier.
设计了一种低电压全差动增益增强CMOS运算跨导放大器。
A low voltage fully differential gain-boosted CMOS operational transconductance amplifier is designed.
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.
利用两次回转方法,由运算跨导放大器(简称OTA)构成浮地电容乘法器。
Using the approach of twice impedance inversion, a floating capacitance multiplier was built by operational transconductance amplifier (OTA).
如果输出电压大于预定的电压电平,则跨导放大器产生使过电压标志置位的电流。
If the output voltage is less than the predetermined voltage level, a transconductance amplifier generates a current that sets an overload flag.
经由将回路滤波器中的运算跨导放大器的规格做最佳化,一个电流最佳化的技术被提出。
A current optimization technique is proposed by making a specification optimization of the Operational Transconductance Amplifier in loop filter.
提出了一种新的任意阶运算跨导放大器——电容(OTA - C)多功能滤波器的设计方法。
This paper presents a new general design method for arbitrary order operational transconductance amplifiers and capacitors (OTA-C) multifunction filters.
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.
提出了一种应用于流水线型模数转换器(adc)的增益提高型套筒式全差分跨导放大器(OTA)的设计与分析方法。
This paper describes the design and analysis of a fully differential, gain-enhanced CMOS telescopic operational transconductance amplifier (OTA) used in a pipeline analog-to-digital converter (ADC).
在分析峰值电流模式升压转换器原理的基础上,设计了一种结构新颖,高精度高性能跨导误差放大器。
On the basis of analyzing the principle of peak-current-mode-controlled boost converter, a novel transconductance error amplifier with high accuracy and high performance is presented.
该MAX15058采用了具有高增益跨导误差放大器电流模式控制架构。
The MAX15058 utilizes a current-mode control architecture with a high-gain transconductance error amplifier.
当你用跨导运算放大器作为可编程动态电流源时你会发现很多问题。
If you need a programmable dynamic current source, find out about operational transconductance amps. Most of the problem is figuring out when you need a programmable dynamic current source.
当你用跨导运算放大器作为可编程动态电流源时你会发现很多问题。
If you need a programmable dynamic current source, find out about operational transconductance amps. Most of the problem is figuring out when you need a programmable dynamic current source.
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