1) cross-coupled transistor pairs
交叉耦合晶体管对
2) negative resistance complementary cross-coupled pair
负阻交叉耦合晶体管对
3) cross-coupled pair
交叉耦合对
1.
The speed of latch has a direct effect on the performance of divider,which can be improved by separating trace differential pair and cross-coupled pair and decreasing the bias current of the later.
通过分离跟踪差分对与交叉耦合对,并减小后者的偏置电流可以提高锁存器的工作速度。
4) complementary cross-coupled pair
互补交叉耦合对
5) cross-coupling
交叉耦合
1.
The internal error is deal with cross-coupling controller,the external error is eliminated by a expert-fuzzy controller.
采用交叉耦合控制器对履带车辆的内部误差进行补偿,采用专家模糊控制器对履带机器车的外部控制误差进行补偿,从而实现了履带机器车的轨迹跟踪控制。
2.
Based on the Single Channel Monopulse self-tracking system,this paper analyses the reasons of cross-coupling,and discusses all factors and solutions of the cross-coupling deterioration.
在单通道单脉冲自跟踪系统的基础上,说明了交叉耦合产生的原因,讨论了导致交叉耦合恶化的各种因素及解决方法,分析目前存在的几种相位校正方法的局限性,从工程应用的角度提出一种新的相位自动校正方案。
3.
Two models for analyzing both the cross-couplings and their phase relationships and the implementation in cavity-filters by establishing auxiliary signal passages and adding control parts between non-adjacent resonators to both introduce finite transmission zeroes and optimize the performance of filters are proposed.
提出了相位关系和交叉耦合两种分析交叉耦合的模型;给出了在腔体滤波器中实现交叉耦合的方法,通过在非相邻谐振器之间开辟辅助信号通道并添加控制部件,引入有限的传输零点而优化了滤波器性能。
6) cross coupling
交叉耦合
1.
Comparison of UPFC performance betweencross coupling and decoupling controls;
基于交叉耦合与交叉解耦的UPFC控制性能对比
2.
Stepped Impedance Resonators(SIR) taken as basic resonator unit of coaxial filters,a kind of generalized Chebyshev coaxial-cavity filter through cross coupling is designed.
利用阶跃阻抗谐振器SIR作为同轴腔滤波器的基本谐振单元,设计了一个利用交叉耦合来实现广义切比雪夫函数的同轴腔体滤波器。
3.
For having missile of two sets of the same side directions autopilot,there is cross coupling between two control channels.
对于具有两套相同侧向自动驾驶仪的导弹,两个控制通道之间存在交叉耦合。
补充资料:晶体管-晶体管逻辑电路
晶体管-晶体管逻辑电路 transistor-transistor logic 集成电路输入级和输出级全采用晶体管组成的单元门电路。简称TTL电路。它是将二极管-晶体管逻辑电路(DTL)中的二极管,改为使用多发射极晶体管而构成。TTL电路于1962年研制成功,基本门电路的结构和元件参数,经历了3次大的改进。同DTL电路相比,TTL电路速度显著提高,功耗大为降低。仅第一代TTL电路产品,就使开关速度比DTL电路提高5~10倍。采用肖特基二极管的第三代TTL电路,开关时间可缩短到3~5纳秒。绝大部分双极型集成电路,都是TTL电路产品。 |
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