Voltage gain is a important technical index in amplifier.
电压放大倍数是放大电路的一个重要的技术指标。
Two-channel, triple RGB switch and buffer. Voltage gain 1V/V.
双通道,三重RGB开关和缓冲区。电压增益1V / V。
Voltage gain by external resistor Rf and Rin the ratio of the decision.
电压增益由外接电阻Rf与Rin的比值决定。
The second is that the voltage gain is increased to the extent of maximum value in theory.
将电压增益提高到了理论上的最大值。
This requires an overall voltage gain of 109, so a number of voltage gain stages will be required.
这就要求电压的总增益达到109,因此就需要很多放大器级联起来。
The EL2142 is stable for a gain of one, and requires two external resistors to set the voltage gain.
该EL2142是稳定的一个增益为1,需要两个外部电阻设置电压增益。
Many practical amplifiers chain together a series of analog amplifier stages to obtain a high overall voltage gain.
许多实际的放大器将多个放大器级联起来,以获得较高的电压增益。
The variation of voltage gain of the PGA can be realized by switched resistor-network, which is digitally controlled.
可编程增益运算放大器的电压增益变化可以通过数字控制的开关电阻网络来实现。
According to "virtual short" and "virtual-off" feature, available to the circuit passband voltage gain and pass-band cut-off frequency.
根据“虚短”和“虚断”的特点,可得到电路的通带电压放大倍数和通带截止频率。
Using the concept of virtual short circuit and virtual open circuit, the voltage gain of depth negative feedback circuit can be estimated.
利用“虚短”和“虚断”的概念来估算深度负反馈电路的电压增益。
They are used to enhance the gain of amplifier and realize the impedance matching, improve the current copying precision, decrease the tolerance of voltage gain.
它们用于提高放大电路的增益和实现输出阻抗匹配,提高电流复制精度,减小电压增益误差。
The paper analyzes in detail the synthetical method, the voltage gain and the switch action sequence of matrix converter based on the zero-output commutation strategy.
该文对零输出换相策略、电压增益及开关动作顺序进行了详细的分析,并与双电压合成控制策略下共模电压的最大瞬时值进行了对比。
The main design work as follow: the former disposal circuits were designed, and the circuit possesses very high input resistance, common-mode rejection and voltage gain;
具体设计内容包括:设计具有输入阻抗大、高增益和高共模抑制比的脑电信号调理电路;
Harmonic content of the input currents depends on the rectifier voltage gain m defined as ratio of the output voltage and the input line voltage as well as the employed control.
输入电流的谐波量有赖于整流器的电压获取值m,即输出电压和输入电压的比值,也有赖于操作人员的控制。
To solve this problem, the gain-enhancing structure is included in the design. Such structure can give attention to both the two indexes of high slew-rate and high voltage gain.
为解决此问题,设计中还引入了增益提升结构,使之能兼顾高压摆率和高增益这两个指标。
Based on the measured voltage gain-frequency response characteristics, a practical approach for model parameters measurement of piezoelectric transformer was proposed in this paper.
本文基于实测压电变压器电压增益-频率响应特性,提出了一种实用的压电变压器模型参数的求解方法。
This situation can arise, for example, when a transconductance amplifier feeds an output current i0 to a load resistor RL, but the overall circuit is considered to give a voltage gain VL/Vi.
例如当一个互导放大器提供一输出电流i0到负载电阻RL,而全部网络给出电压增益为VL/Vi时,就可出现这种情况。
The simulation results show that the amplifier of improved control circuit not only solve the question of output DC offset, but also keep the voltage gain lowered by voltage compensation technique.
仿真结果表明,改进控制电路后的系统不但解决了输出直流偏置问题,而且解决了电压补偿方法所造成的放大器增益下降问题。
Active inductors are employed as loads to expand the bandwidth and to get stable DC operation points, and the direct-coupled technique is used to increase voltage gain and reduce power dissipation.
电路采用有源电感负载来拓展带宽、稳定直流工作点,通过直接耦合技术来提高增益、降低功耗。
To calculate gain and transconductance, refer to the SENSE pin on fixed voltage parts.
为了计算增益和跨导,指的是部分意义上的固定电压引脚。
Introduces the saturation function into controller, reduces the wide-range switch of control gain, ensures the stability of stator voltage.
在控制器中引入了饱和函数,降低了控制增益的大幅切换,保证了定子电压的稳定性。
This paper solves this problem by using depth gain compensation (DGC) voltage.
本文采用深度增益补偿(DGC)电压解决这个问题。
It is proposed that LCR output filter can decrease the peak value of the gain of voltage transfer function as well as the high frequency burr contained in the source current.
并且提出采用LCR输出滤波器来减小电压传递函数增益的峰值,从而在串联电感较小时能够同时减小电网电流中高频毛刺的含量。
The output voltage of controller exerts an influence on thermal resistor so as to change gain characteristic in regulation circuit, thus the transmission levels being stabilized.
通过导频控制器的输出电压控制热敏电阻,从而改变调节网络的增益,达到稳定传输电平的目的。
It uses tow-stage differential amplifiuers to increasee the circuit gain and uses a source follower as a voltage buffer to decrease signal volt- age losing.
该电路应用两级差动放大增加电路增益,利用源极跟随器作为电压缓冲器以减少信号电平损失。
The electric characteristic parameters of this novel sleeve antenna are calculated, including the input impedance, voltage standing wave ratio (VSWR), horizontal gain and radiation pattern.
研究了这种新型套筒天线的输入阻抗、电压驻波比(VSWR)、增益及辐射方向图等电特性。
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.
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。
The gain of the APD can be controlled by the magnitude of the reverse bias voltage.
APD的增益可以由反向偏置电压的幅度来控制。
The gain of the APD can be controlled by the magnitude of the reverse bias voltage.
APD的增益可以由反向偏置电压的幅度来控制。
应用推荐