1) compensation/dead-time effect
补偿/死区效应
2) Dead-Time Compensation
死区补偿
1.
Simulation of the dead-time compensation in vector-controlled induction motor;
异步电机矢量控制中死区补偿的仿真研究
2.
But the magnitude of output voltage will be affected and it’s waveform will be distorted by the existence of dead-time in its main circuitry without dead-time compensation.
单周控制静止同步补偿器是一种十分有效的无功补偿新方法,但由于其主电路功率器件存在固有死区,若不进行死区补偿,将严重影响装置的输出电压,使其波形失真,谐波含量加大。
3.
The dead time effects on the output voltage of the PWM voltage source inverter and a classification on dead-time compensations are presented.
详细地分析了脉宽调制(PWM)逆变器死区效应的发生机理及其影响,并对死区补偿方法进行了分类介绍,概括性地分析总结了各自的优缺点。
3) dead time compensation
死区补偿
1.
The design method and implementation technology of the proposed digital controllers were recommended, which comprised the harmonic detecting method with high accuracy, control arithmetic of variable structure, dead time compensation and hardware implementation.
该数字化控制器的设计及实现技术包括:利用高精度的谐波检测技术从电网电流中瞬时检测出电网所包含的谐波分量,并将其作为参考电流信号;采用三重滑模变结构控制算法使有源逆变器的输出电流快速、准确地跟踪参考电流信号;实现死区补偿技术和数字化控制器的硬件电路。
2.
Finally, a dead time compensation method based on control chip MR16 was implemented.
最后,在对死区补偿原理分析的基础上,提出了一种基于MR16的软件死区补偿方法。
3.
The survey has been made on three sub areas,they are PWM basic technique,PWM technique combined with current control,and PWM dead time compensation technique.
针对交流伺服应用 ,文中分三个方面阐述了 PWM技术的近期发展 :PWM技术、与电流控制相结合的 PWM技术和 PWM死区补偿技术。
4) Deadzone compensation
死区补偿
1.
Methods On the basis of conventional composite control with the deadzone compensation method, a comprehensive control approach with the deadzone and self adjusting feedforward compensation was proposed.
方法 在常规复合控制结合死区补偿方法的基础上,设计了死区和自调节前馈补偿的综合控制方法。
2.
The deadzone compensation using adaptive fuzzy logic is studied To implement self tuning scaling gains of the input fuzzy variables ,a weight function is constructed through defining a state distance from the ideal equilibrium point When the system is close to the stable state, the scaling gains notably enlarge and the adaptive deadzone compensation is accomplished.
采用自适应模糊控制方法研究了死区补偿问题。
5) dead-zone compensator
死区补偿器
6) no dead-time compensation
无死区补偿
补充资料:补偿效应
分子式:
CAS号:
性质:温度对反应速率的影响可用阿仑尼乌斯(Arrhenius)经验关系式k=Ae-Ea/RT表示。指前因子A一般是常数,但有时发现要使实验数据适合该表达式,活化能Ea和A都得增加或都得减少,结果反应速率k改变就会比只是Ea或只是A改变来得少,即一个参数的改变被另一个完全地或部分地“补偿”了。由绝对反应速率理论推知,结果活化络合物和反应物之间的焓变△H≠的增加伴随着熵变△S≠的增加,就会产生补偿效应。
CAS号:
性质:温度对反应速率的影响可用阿仑尼乌斯(Arrhenius)经验关系式k=Ae-Ea/RT表示。指前因子A一般是常数,但有时发现要使实验数据适合该表达式,活化能Ea和A都得增加或都得减少,结果反应速率k改变就会比只是Ea或只是A改变来得少,即一个参数的改变被另一个完全地或部分地“补偿”了。由绝对反应速率理论推知,结果活化络合物和反应物之间的焓变△H≠的增加伴随着熵变△S≠的增加,就会产生补偿效应。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条