1) Dynamic pressure feedback
动压反馈
1.
Structure Design and Dynamic Simulation of Hydrokinetic Hammer with Dynamic Pressure Feedback Using Virtual Prototyping Technology;
基于虚拟样机技术的动压反馈式液动冲击器结构设计与动态仿真分析
2.
The concept of the dynamic pressure feedback was proposed to solve the strong hydraulic pressure shock in the system and tractor pitch oscillation.
对具有锥阀式结构的电液控制系统在操作平顺性、液压冲击、发热、卸荷压力、响应特性等方面进行了详细的研究,提出利用动压反馈装置解决冲击问题。
3.
The bond graph model is presented so as to simulate this kind of systems and improve accuracy of the simulation,which is meaningful to guide the design of this kind of servo systems while simulation shows that dynamic pressure feedback is a good means to compensate this system.
为此建立了该系统的键合图模型 ,利用该模型进行仿真 ,提高了仿真方法的准确性 ,仿真结果表明动压反馈是一种有效的补偿方法 ,提出的观点方法对此类伺服系统的设计具有积极的指导意
2) dynamicpressure feedback network
动压反馈网络
3) actuator feedback voltage
致动器反馈电压
5) pressure feedback
压力反馈
1.
Research on cushion valve based on pressure feedback ror high speed cylinder;
高速气缸压力反馈式缓冲阀研究
2.
Study on hydraulic impacting system of hydraulic tamping & drawing component controlled by pressure feedback;
压力反馈控制液压夯拔装置冲击系统的研究
3.
Study on the dynamic simulation system of the new hydraulic impactor with pressure feedback
新型压力反馈式液压冲击器系统的动态仿真研究
6) voltage feedback
电压反馈
1.
At the same time, a more practical voltage feedback circuit is formed by adopting the photoelectric coupling circuit.
介绍了一种用功率开关器件组成的自动焊控制电路 ,主电路采用桥式可逆斩波电路及相应控制方法 ,同时在反馈环节中采用光电藕合器件组成了较实用的电压反馈电
2.
The charging technique with L-C constant-current converter is adopted, and the repeated charging and discharging process of the device is controlled by voltage feedback.
研制了一种检测氧化锌避雷器阀片的重复频率充放电装置,采用L C恒流充电技术,通过电压反馈法控 制充放电运行过程。
3.
This paper introduces and compares the circuit of voltage feedback in the PWM controller of the current mode,designs a kind of circuit with voltage feedback of UC3846 based on the current mode,which satisfies the stable output in the high frequency circuit,nonlinear load circumstance.
介绍并比较了电流模式PWM控制器中电压反馈的基本电路,设计出了基于电流控制型PWM控制芯片UC3846的电压反馈的实用电路,该电路能满足在高频电路、非线形负载情况下稳定的输出。
补充资料:冲击波超压与动压