Compensation: This pin is the Error Amplifier output and is made available for loop compensation.
该引脚是误差放大器的输出,并提供环路补偿。
The error amplifier IP is suitable for low voltage operations and insensitive to process variations.
该误差放大器芯核同时具有适合低电压工作,并对工艺参数变化不敏感的优点。
The MAX15058 utilizes a current-mode control architecture with a high-gain transconductance error amplifier.
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。
A simple structured novel error amplifier with initial voltage reference for series voltage regulator is designed.
针对串联型稳压器,设计了一种应用于串联型稳压器具有自建基准的新型误差放大电路。
The lamp dimming can be done through this feedback loop or, by setting the reference DC level of the input of error amplifier.
灯管的亮度能够通过反馈回路,或者设置误差放大器输入端的参考端直流电平来调整。
Then the methods of how to compensate the error amplifier is introduced, a double-zero, double-pole construction is analyzed individually.
引入了误差放大器的频率补偿的方法,并着重分析了双零点、双极点的补偿电路。
To make sure the stability and lower the transient overshoot of the LDO, a buffer stage is used to isolate the pass element and the output of the error amplifier.
为了保证系统的稳定性以及减小系统的输出瞬时过冲,本文设计了输出缓冲级来隔离误差放大器的高阻抗输出节点与通路器件的栅极。
First, rectified DC voltage are compared with the given value and subtraction, and then obtained voltage control value after get through a low-pass filtering and the error amplifier.
首先将整流直流电压的测量值与给定值进行比较并相减,再经过具有低通滤波功能的误差放大器后得到电压控制量。
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.
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。
In addition, the mathematical model of the input circuit and the feedback link of the amplifier are analyzed on the error computation and stability evaluation.
此外,就放大器输入电路及反馈环节的数学模型进行了误差计算与工作稳定性的分析与评价。
Using the characteristic of integrated operational amplifier, an electric bridge circuit sensor without nonlinear error in its output voltage is designed.
利用集成运算放大器的特点,设计了输出电压无非线性误差的电桥电路传感器。
Error and precision about a digital signal power amplifier system was studied.
分析了一个数字电压信号功放大系统的输出精度和误差产生的因素。
The smart gam-control of the receiver not only avoids the amplifier saturation, but also minimizes the discrete error.
通过计算机对接收机增益进行智能化控制,既避免了放大器饱和,又使得采样的量化误差最小。
Has done the error analysis based on the experimental result and the principle of the charge amplifier.
在实验结果的基础上,结合电荷放大器原理对系统作了误差分析。
From the error analysis of LDA pointing, it is found out that the amplifier without micro-lens is more preferable.
最后引入了指向误差分析,比较了这两种耦合方式的优劣,最终将放大器定为直接耦合抽运方式。
Various errors of an operational amplifier can be substituted by equivalent error voltage or current sources.
运算放大器的各种误差都可以用等值的电压源或电流源来代替。
A Simple error analysis method for an operational amplifier is presented in this paper.
本文给出运算放大器误差分析的一种统一的简易方法。
Typical analysis of the constant-current resistance and the output current error, The writer gives the analysing process by means of operational amplifier.
从恒流源内阻和形成输出电流误差两个方面,给出用运算放大器构成压控恒流源的分析结果。
By using a double phase lock in amplifier to measure the AC strain, the measurement error can be decreased to 0.4% of the total measurement range.
如果使用双相位锁相放大器测量交变的被测量,误差将减小到全量程的0.4%以内。
This paper introduces the technologies of remote pumped erbium-doped optical fiber amplifier, remote pumped optical fiber pre -amplifier, Raman noise filtering and forward error correction used in G.
文章介绍了采用远泵掺铒光纤功率放大技术、远泵掺铒光纤前置放大技术、拉曼噪声抑制技术和前向误码纠错等技术,工程上常用的G。
Simple error analysis method for an operational amplifier is presented in this paper.
本文给出运算放大器误差分析的一种统一的简易方法。
The principle of transforming current to voltage is analyzed, and it is pointed out that the error factors mainly consist in the bias current and offset voltage of the operational amplifier.
分析了电流—电压转换原理,指出转换误差主要来源于偏置电流及失调电压。
The effects of the square wave cycle, phase, duty cycle and the fiber coil group delay and amplifier gain bandwidth on the bias error of closed-loop FOG were analyzed by simulating and testing.
通过仿真和测试分析了调制方波的周期、相位、占空比、光纤环的群延时以及放大电路的增益带宽对陀螺输出偏置的影响。
The effects of the square wave cycle, phase, duty cycle and the fiber coil group delay and amplifier gain bandwidth on the bias error of closed-loop FOG were analyzed by simulating and testing.
通过仿真和测试分析了调制方波的周期、相位、占空比、光纤环的群延时以及放大电路的增益带宽对陀螺输出偏置的影响。
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