| 1. | Capacitive feedback circuit
电容反馈电路 |
| 2. | Cathode feedback circuit
阴极反馈电路 |
| 3. | Current feedback circuit
电流反馈电路 |
| 4. | Cathode - return circuit
阴极反馈电路 |
| 5. | Audio feedback circuit
声反馈电路 |
| 6. | The common - mode feed back ( cmfb ) circuit is realized by mos differential pairs which operated in saturation region so as to improve the loop gain of the cmfb
共模反馈电路采用工作在饱和区的mos差分对来实现,提高了共模反馈回路增益,加强对共模输出电压的控制。 |
| 7. | During the process of designing the core cell , a novel continuous common - mode feedback structure has been proposed , which is suitable for the input stage
在核心单元研发过程中,实现了极零抵消的密勒补偿方案,并提出了一种适用于输入级单元的新型连续型共模反馈电路架构。 |
| 8. | Constant output characteristic is performed by voltage feedback , and the dynamic characteristic control of power supply is realized by modifying the reference voltage in di / dt feedback loop
利用电压负反馈实现所要求的平外特性。对电源动特性的控制通过改变反馈电路中的给定焊接电压实现。 |
| 9. | By constructing the necessary condition and sufficient condition for feedback to exist in a circuit , can derive the methods of short circuit or open circuit for the load or the signal source resistance respectively of the feedback network , to analyze the configurations of the negative feedback circuits
通过构建电路存在反馈的必要条件和充要条件,可引出令反馈电路的负载和信号源内阻分别短路或开路的方法,用于分析负反馈电路的组态。 |
| 10. | By using a new optical input power level detection and signal treatment method to control the gain of the receiver and keep its output level within the required range , a novel feedforward agc optical receiver without radio frequency feedback circuits is realized
我们采用一种入射光功率电平检测与处理的新方法,对模拟光接收机的增益进行控制,将接收机输出电平控制在要求的范围内,实现了一种新型的无射频反馈电路的自动增益控制光接收机。 |
