A modified dead time compensation method was used to obtain better output voltage waveforms.
采用了改进的死区效应补偿方法以获得理想的输出波形。
The problem of voltage balance was solved by a compensation for the difference of the output voltage of capacitor.
通过针对输出电容的电压差值的直流分量进行补偿,解决了电压平衡问题。
By making changes of reference voltage phase diagrams of load, this method can enlarge the compensation range and decrease the energy output of DVR.
该方法通过对负载参考电压相角的旋转和幅值的“伸缩”,扩大了DVR的补偿范围,减少了D VR的有功输出。
This paper analyzed the influence of the dead-time effect acting on the output voltage of SVPWM inverter, and proposed a solution to dead time compensation.
本文在分析死区效应对空间电压矢量调制输出电压影响的基础上,给出了一种对死区效应进行补偿的方案。
For the problem of voltage compensation, the design of microprocessor control system used in voltage compensation controlled voltage output availably, and the stabilization of the system is increased.
针对电压补偿问题,研究以嵌入式微处理器为核心的智能电压补偿器,有效地控制了输出电压,提高了设备的可靠性。
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。
It is shown by simulation results that output voltage can be increased and the THD of output voltages can also be greatly reduced due to the MZSVI compensation technique.
仿真结果表明,采用MZSVI补偿方法后提高了输出电压,输出电压总谐波含量THD也大大减小。
The ripple of the output voltage is decreased remarkably and the dynamic performances of the circuit are improved obviously due to the pulse compensation circuit and the optimized voltage loop.
脉动补偿电路及优化的电压环使输出电压纹波显著减小,并改善了电路动态性能。
And designed a voltage compensation circuit is not used to be able to resolve the output voltage adjustable from 0v questions begin.
并设计了一个电压补偿电路用来解决输出电压不能够从0V开始调节的问题。
Aimed at the influence on the inverter output voltage caused by the PWM inverter dead-time, one dead time compensation strategy is proposed.
针对PW M电压型变频器死区时间对输出电压的影响,提出了一种死区时间补偿方案。
Additional features include an onboard low drop regulator for IC power, programmable soft start, undervoltage lockout, adjustable current limit and output voltage temperature compensation.
其他特点包括用于IC电源的内置低压差稳压器、可编程软启动、欠压闭锁、可调电流限制和输出电压温度补偿。
Based on traditional two-stage amplifier, cross-coupled class AB output stage and cascode compensation were adopted to improve output voltage swing and bandwidth.
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.
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。
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