| 1. | Design of sinusoidal oscillator circuit based on current feedback amplifier
的正弦振荡电路设计 |
| 2. | Current feedback vs . voltage feedback operational amplifiers
电压反馈和电流反馈运算放大器的比较 |
| 3. | Current feedback amplifier
设计一种基于电流反馈放大器 |
| 4. | Study on stability and bifurcation of the current feedback controlled boost converter
变换器的稳定性及分岔研究 |
| 5. | Current feedback circuit
电流反馈电路 |
| 6. | Based on output voltage and capacitor - current feedback current spwm control , the inverter is modeled and the prototype is made
并对采用输出电压和电容电流瞬时值反馈的电流spwm控制技术逆变器建立了仿真模型,制作了原理样机。 |
| 7. | Current - mode dc / dc converter adds a current feedback loop on the base of voltage - mode control , achieving both current and voltage feedback loop control
电流模式dc / dc变换技术是在电压模式控制的基础上,增加了电流反馈环,实现了电压和电流的双环反馈控制。 |
| 8. | In order to compare performance of current feedback control with flux feedback control , the pid parameters optimization algorithm is designed based on genetic algorithm
为了便于对采用电流反馈与采用磁通反馈的悬浮控制算法的性能进行比较,设计了基于遗传算法的pid参数优化方法。 |
| 9. | Adopting current feedback suspension control algorithm , the stable region of control parameters are narrow , overshoot is great and unable to make the closed - loop system bandwidth narrow
目前采用的基于电流反馈的悬浮控制算法,参数稳定范围小、超调量大,且无法将闭环系统带宽设计得较低。 |
| 10. | Designed the dual - loop control circuit based on optimized psm , which realize to select the suitable duty ratio to make output stable by utilizing voltage and current feedback loops
3 )设计基于优化psm调制模式的双环控制电路。采用电压、电流双环路控制,根据负载情况选择合适占空比来实现稳压。 |
