在研究减少放大器失真方法时他发明了负反馈放大器。
While working on a means of reducing amplifier distortion, he devised the negative feedback amplifier.
讨论了负载电阻噪声对负反馈放大电路噪声性能的影响。
The effect of a load resistor noise on the noise property of a negative feedback amplifier is also discussed.
目前,方框图法是被广泛使用的分析负反馈放大电路的方法。
The block diagram method is widely used to analyze the negative feedback amplifier at present.
本文讨论负反馈放大电路的一种分析方法——节点导纳矩阵分析法。
This paper gives the discussion on a kind of analysis method, Node Admittance Matrix method, for negative feedback amplifying circuits.
根据电路原理,应用解析方法导出了四种形式负反馈放大器的输入、输出电阻关系式。
The input and output resistances of a negative-feedback amplifier is calculated by analytic method.
根据理想模型分析,表明负反馈放大器的4种负反馈对放大嚣的4种源增益的影响是不同的。
The analysis of ideal model indicates that 4 negative feedbacks of the negative feedback amplifiers have different effects on 4 gains of the amplifiers.
本文还选择了频率应和负反馈放大器稳定性判别中的一些实际问题,作为这种方法应用的实例。
As a practical example a frequency response and stability judgement of an amplifier with negative feedback are chosen to show the use of this method.
本文介绍了用计算机分析负反馈放大器稳定性的方法,给出了用BASIC语言编写的计算程序。
A method for stability analysis of negative feedback Amplifiers by using microcomputer is presented in this paper. The computer program in BASIC Language is proposed.
本文从单级放大电路、多级放大电路、负反馈放大电路三个方面,分析了信号源内阻对电路的影响。
This article analyses influence on inside resistance in the signal source on circuit in 3 ways: monopole amplifying circuit, multilevel amplifier circuit, and negative feedback amplifier.
目前高等院校在模拟电子技术课程中对于负反馈放大电路稳定性进行分析时,一般采用波特图的分析方法。
The stability of feedback of amplifier circuit is often analyzed with bode in Simulation Electron and Technology in the advanced institutes.
对这些放大器的最重要的设计特色之一是,缺乏全球性的负反馈。
One of the most important design characteristics of these amplifiers is the lack of global negative feedback.
电路中引入负反馈,使输入、输出电阻均发生变化,并且输入、输出电阻对放大电路有很大的影响。
The introduction of the negative feedback in circuit changes the input and output resistances, which have great influence on magnifying circuit.
高增益的运算放大器是容易得到的,这便使负反馈的使用现实而经济。
Operational amplifiers with very high gains are readily available, making the application of negative feedback on a large scale practical and inexpensive.
负反馈的最重要作用在于使放大器总增益不至于因基本放大器增益的改变而变化,其总增益的大小完全取决于反馈网络的元件参数。
The most important effect of this is to make the overall amplifier gain almost immune to changes in the amplifier unit gain, and dependent almost entirely on the feedback network components.
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.
在功率输出级采用OCL互补对称功率放大电路,并对该功放电路增加电压负反馈,使得输出的正弦电压信号平滑而稳定。
At the power output, OCL complementally and symmetrical power amplifier is adapted. The output sine voltage becomes smooth and stable by adding voltage-negative-feedback to power amplifier.
对工作在深度负反馈状态的运算放大器电路,常采用虚短虚断技术得出的理想参数代替实际参数。
To the operational amplifiers circuits which works at deep negative feedback mode, we adopt ideal parameter deduced form ideal model instead of actual parameter usually.
电路采用电容负反馈互导放大器(CTIA)及相关双取样(CDS)结构,有利于减小电路的噪声。
The adoption of capacitor feedback transimpedance amplifier (CTIA) and correlated double sampling (CDS) structure helps to reduce the noise of the circuit.
在放大电路中采用负反馈,而在波形产生和波形变换的电路中则需要采用正反馈。
Negative feedback has been widely used in amplify circuit, but in wave-generating and wave-transforming circuit, it should adopt positive feedback.
提出采用超前校正和负反馈校正提高电流放大器输出电流响应速度方法。
Two kinds of methods such as lead net rectification and negative feedback rectification are proposed, which can increase the output current speed of the current amplifier.
事实是,大多数,如果不是全部的话,是在现实中的阴极偏见,非负反馈ab类放大器,相反的是制造商的文学可以说。
The truth is that most, if not all, are in reality cathode-biased, non-negative feedback class AB amplifiers, contrary to what the manufacturer's literature may say.
负反馈能改善阻容耦合放大器中何种失真?。
What Kind of Distortion Can Negative Feedback Ameliorate in RC-Coupled Amplifier?
负反馈使放大器声音“更严格”,尤其是在低端,那里的一位发言者谐振驼峰拥有最影响放大器输出。
Negative feedback makes the amp sound "tighter", particularly in the low end, where the speaker resonant hump has the most effect on amplifier output.
从正、负反馈对放大器性能影响出发,分析RC串、并联电路及其对偶电路的频率特性。
The article analyzes the frequency characteristics of RC series parallel circuits and the symmetrical circuits, through studying the effectiveness of the positive-negative feedback to the amplifier.
从正、负反馈对放大器性能影响出发,分析RC串、并联电路及其对偶电路的频率特性。
The article analyzes the frequency characteristics of RC series parallel circuits and the symmetrical circuits, through studying the effectiveness of the positive-negative feedback to the amplifier.
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