指出环路的抑制性能是由前馈环的延迟失配、幅度失配和相位失配共同决定。 The result proved that the cancellation performance of cancellation loop is decided by the amplitude imbalance, phase imbalance and delay mismatch.
相位编码信号对多普勒敏感，不能很好地实现脉冲压缩。 Codes used in phase-coded pulse compression waveforms suffer from Doppler mismatch.
给出了在考虑相位失配情况下高功率全固态内腔倍频调Q激光器的速率方程解的情况。 The solutions of rate equations in a high power all solid-state Q-switched intracavity frequency doubled laser by taking the phase mismatch into account are presented.
相位失配误差是声强测量系统的主要误差源，仅靠提高仪器的精度很难消除这一误差。 The phase mismatch error is the main error source of sound intensity measurement system. It is difficult to eliminate this error only by upgrading the accuracy of instrument.
最后，对共形天线阵进行了误差分析，分析了阵元位置公差、阵元失配和馈电相位误差对天线阵辐射特性的影响。 And the measured array pattern is given. Finally, the effects of the array tolerance, mismatch and phase errors on the array is also analyzed.
但是存在于两组功率级之间的些微差异会造成彼此的电流产生不平衡的状况，使得系统的可靠度降低。 However, the mismatch of two power stages in dual-phase architecture will produce current sharing between them, and system reliability decreases.
基于我们方法建立在设计流程中的前段层级，除了可以大幅度的降低产 品设计上的成本，更能加速产品上市时间。 Furthermore, both process variation and device mismatch are considered in the early design phase to reduce the design costs and speed-up the time to market.
此外，当谐波的逆效应达到最小时，可将这两种方法结合，对相位误差进行综合补偿。 These techniques can also be used in combination to compensate for phase mismatch while minimizing adverse effects on harmonics.
在腔内倍频激光器中，非线性晶体的温度梯度造成的相位失配是影响谐波转化效率的关键。 The phase mismatch caused by nonlinear crystal temperature gradient is the key factor that affects on transfer efficiency.
应用于准相位匹配技术中的周期极化晶体，通过周期反转非线性晶体的电极化率，补偿非线性光学中三波互作用的相位失配。 The periodically poled crystal used in QPM can compensate the phase mismatch in the three-wave interaction by reversing the electric susceptibility periodically.
针对多种可能情况进行了多通道数字去斜算法仿真，并从实验结果中分析了通道对LPI信号的失配和相位不同步对系统检测性能的影响； On basis of them, the influences of mismatch factor and unsynchronized phase on the detection performance of the digital LPI radar detector are analyzed.
详细讨论了群速度失配、群速度色散和三阶非线性相位调制效应对倍频光脉冲波形、光谱及转换效率的影响。 The effects of group velocity mismatch and dispersion, third-order nonlinear phase modulation on pulse shape, spectrum distribution and conversion efficiency of second-harmonic pulse were discussed.
计算了掺镱光纤放大器失谐放大带来的相位调制，发现对压缩质量影响较小。 Although the phase-modulate was serious, the phase-modulate during YDFA mismatch amplification affected the quality of pulse after compression weakly.
绝缘式仪表中所用的直流容错变流器（CT）是造成电流和电压信号之间较大相位失配的原因之一。 Large phase mismatch between the current and voltage signals can be created by DC tolerant current transformers (CTs) used in meters requiring isolation.
由此得出，对热效应引起的相位失配进行补偿是改善转换效率的有效途径，因此必须在实际应用中加以考虑。 Then a compensation for the phase mismatch induced by temperature can provide an effective tool to rescue the reduction of conversion efficiency which thus should be considered in practice.
本文利用UA0914声强耦合腔产生的同一声场条件，测量声强测量系统两通道之间的传递函数，进而对两通道间的相位不匹配误差进行修正。 The phase mismatch errors are corrected by measuring the transfer function between two channels at the same acoustic field provided with B&KUA0914 inside in-tensity coupler.
对相位不匹配与等幅孤子注入，孤子之间发生分离； In dispersion compensation fiber, with phase mismatch and equal amplitude injection, the solitons leave each other;
传声器相位失配误差一直是声强测量最主要的误差源。 The microphone phase mismatch error is the main error factor of acoustic intensity measurement system.
在相位编码脉冲压缩技术中，各种码都存在着多普勒失配问题。 There lies Doppler mismatch in every code of phase-coded pulse compression techniques.
而失配相位为与频率编码相一一对应于各子脉冲中。 And the mismatch-phase sequence is corresponding with the frequency sequence one by one.
在考虑自相位调制，交叉相位调制和群速度失配的情况下，通过数值模拟对高强度飞秒激光的三倍频过程作了计算； The group velocity mismatch (GVM) and self- and cross- phase modulation (SPM, XPM) have been considered in the process of third harmonic generation by solving the coupling wave equations.