1) clamping complementation technology
钳位互补补偿
2) Mutual lock compensate
互锁补偿
3) mutual compensation
相互补偿
1.
We calculate and analyze the mutual compensation between size tolerance and form & position tolerance while applying“the minimun material requirement” to the tested essential factors and standard key elements.
对被测要素、基准要素在应用“最小实体要求”时 ,尺寸公差与形位公差相互补偿问题进行计算分析。
2.
On the basis of mutual compensation of mobility and threshold voltage temperature effects, a stable CMOS band-gap voltage reference circuit was designed and fabricated in CSMC-HJ 0.
利用CMOS晶体管迁移率和阈值电压温度效应相互补偿的原理 ,采用CSMC HJ 0 6 μmCMOS技术设计了一种稳定的带隙参考电压源 ,该带隙参考电压源可以在 0~ 85℃、电源电压 4 5~5 5V的范围内正常工作 ,输出参考电压为 1 12 2~ 1 176V ,输出参考电压浮动比例小于± 3 70 % 。
4) mutual coupling compensation
互耦补偿
1.
The performance of adaptive arrays with mutual coupling compensation was analyzed in detail.
对互耦补偿后的自适应阵列性能作了深入的分析。
2.
A mutual coupling compensation method is presented.
提出了一种互耦补偿的方法即网络分析法,仿真结果表明了这种补偿方法的正确性和有效性。
3.
This paper investigates the benefit of mutual coupling compensation in a novel smart antenna circular array at 3G-communication system frequency.
本文研究了一种新型圆形智能天线阵在 3G通信系统所在频段的互耦补偿 。
5) interactive-compensatory
交互补偿
6) coupling compensation
互耦补偿
1.
With the help of scattering matrix in array antennas, a mutual coupling compensation algorithm is derived, and by the measured data of a 64-element planner array, the method given by the paper is verified, which avoids the complex and time-consuming calculation, and can be applied in real application.
本文主要研究了阵列天线的互耦机理,利用电磁散射理论分析了阵列天线的散射特性,得到阵列天线的散射矩阵,并根据散射矩阵中的实际物理意义,将矩阵进行分解,推导出阵列天线的互耦补偿公式,避免了复杂的计算,并在实际测试数据的基础上,利用本文提出的算法进行互耦补偿,验证了算法的有效性,对提升阵列天线性能具有现实的工程意义。
2.
With the help of scattering matrix in array antennas,a mutual coupling compensation algorithm is derived,and verified with the measured data of a 64-element planner array.
分析阵列天线的互耦机理,利用电磁散射理论研究阵列天线的散射特性,得到阵列天线的散射矩阵,并根据散射矩阵中的实际物理意义,将矩阵进行分解,推导出阵列天线的互耦补偿公式,避免了复杂的计算,并在实际测试数据的基础上,利用提出的算法进行互耦补偿,验证了该算法的有效性。
补充资料:钳钳
1.妄语貌。
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