目前,电磁场全波分析、参数提取、电路建模、快速电路分析及商用软件开发等方面的研究已经较为丰富及成熟;
The analysis on the electrical performance of microwave and high speed circuit system becomes more and more important.
电池放电时,正极释放出的锂离子快速运动回到负极,充电过程中在负极由锂离子携带的电子被释放出来,从而为外部电路提供电力。
As they do so, the electrons that were paired with them in the anode during the charging process are released. These electrons power an external circuit.
整机控制电路全部采用航空快速接头插接式设计,方便快捷。
The machine control circuit use all air quick coupling plug design, convenient and quick.
这种快速保护电路具有响应快、结构简单、调试方便等众多优点。
The rapid protection circuit has many advantages in rapid response, simple structure and convenient adjustment.
本文根据快速斥力机构特有的工作原理和结构特点设计了一种新型励磁电路,结构简单,而且能够同时解决合闸弹跳和分闸弹振问题。
Under the principle and structural characteristics, a new type of excitation circuit is designed, which has simple structure, and also could solve switch on and off oscillation problems bothly.
大量的实验结果表明:与基于模拟器的方法相比,采用该系统可以快速综合出可制造的深亚微米cmos模拟单元电路。
It has been demonstrated that compared to simulator-based method, manufacturable deep sub-micron CMOS analog circuits can be synthesized using this system in a short run time.
设计特殊电路和有针对性的控制算法,实现对压电陶瓷的快速驱动与高精度定位的结合。
Special circuits and pertinent control algorithm realize the combination of quickly driving and precising positioning.
仿真结果表明,DSP控制器可以获得较高的功率因数,且具有快速的电路动态响应、灵活的控制方法以及简洁的硬件设计等特点。
The simulation result shows that the DSP controller has very fast dynamic response and unity power factor, flexible control and simplified hardware design.
本文结合目前的先进技术和印刷电路板机械加工的特点对快速PC B机的关键技术进行了研究。
This paper researches the key technology of High Speed PCB Machine based on the current advanced technology and the characteristic of PCB 's mechanical processing.
实验结果表明,用此方法能够快速简便地测量生理仪器或内部单元电路的线性度。
The results of experiment show this method is quick and convenient for measuring the linearity of physiological instrument and its inner unit circuits.
介绍了mkc—1型快速充电机存在的问题,提出改进方案和电路原理。
This paper introduces the problem mkc-1 type quick charger existing Improvement ways and circuit principle are put.
用电路理论定义电压稳定裕度指标并提出简单、快速、准确地从正常运行电网中搜寻电压弱支路的方法。
This paper defines the abundance index of voltage stability by circuit theory and suggests a method to search weak circuit branches from operating power grids simply, quickly and correctly.
该算法能够实现对复杂电路的快速故障定位。
设计一种基于反激式同轴多绕组输出均衡电路,实现对多个串联单体的快速有效均衡。
One kind of equalization circuit based on CWT (coaxial windings transformer) was designed to achieve the destination of fast equalization on series connected ultra capacitors.
对标准电路仿真结果表明:该方法能够实现快速故障检测与定位,具有准确率高的特点。
Simulation results on benchmark circuits show that this scheme is feasible and has many powerful features, such as diagnosing and locating faults quickly and exactly.
电路采用可编程电容阵列,可快速调谐,以保证模块稳定。
In this circuit, programmable capacitor arrays were used to rapidly tune parameters, which ensured stability of the module.
仪器采用声光指示的快速分选电路,使产品检测的测试速度快、劳动强度低,工作效率高。
The instrument adopts sorting circuit showed by sound and light, which bring high detecting speed, high efficiency and low intensity of work.
为了快速诊断板级电路故障,提出了采用分类的粗糙集-神经网络-专家系统的混合系统实现雷达装备的故障诊断。
To diagnose the board-level circuit fault rapidly, we put forward a hybrid system of rough set, neural network, and expert system for fault diagnosis of radar equipment.
利用横向谐振法结合奇异积分方程技术,导出了具有快速收敛特性的不连续性等效电路参量计算公式。
A formulation for the equivalent circuit parameters of the discontinuities with superior convergency is derived by the transverse resonance method with the singular integral equation technique.
基于TMS320F 2812的自由空间激光通信快速定位跟踪系统,由四象限探测器、高速放大电路及DSP2812构成。
The fast orientation tracking system with free space optimal communication based on TMS320F2812 consists of four-quadrant detector, high-speed amplificatory circuit and DSP2812.
内容包括FET的非线性电路模型、状态方程向稳态的快速收敛方法及相应程序的编制。
The contents include the nonlinear modeling of MESFET's, the method of quick convergence for obtaining the steady state response of nonlinear state equations and computing program.
分析了实现大功率晶体管(GTR)快速保护的途径,提出了一种GTR的快速保护电路,尤其对检测电路作了详细的讨论。
This paper analyses the ways to realize rapid protection of GTR and presents a practical rapid protection circuit. The detector circuit is discussed in detail.
本论文详细阐述了一种高效率、控制更稳定可靠的快速充电管理电路。
A novel fast charging management IC is designed in this thesis, achieving high stability and high efficiency.
电路级综合实验结果表明:本方法可以快速设计出满足性能指标的运算放大器。
It has been demonstrated that this approach can design an op-amp to meet the requirements rapidly.
拥有快速反应、小型封装等特色之新型电路设计可符合电路反应情形、组件数量、缩减空间等需求。
The response of this circuit, amount of components, and space constraints demanded a new circuit design with a faster response, smaller footprint, etc.
为了利用快速充电电池,要强化汽车电路以承载大电流。
To take advantage of fast-charging batteries, a car's electrics will have to be hardened up to cope with the huge amperage involved.
我们从LOD的组成结构和逻辑两个方面进行设计,实现了一种快速、高效的LOD电路。
Through the structure and logical designing, we get a high-speed and effective LOD circuit, which applied in floating-point adder.
根据非线性负载的等效电路模型,提出了一种基于快速跟踪算法的有源电力滤波器单相电路谐波电流检测方法。
According to the equivalent circuit model of non-linear load, a detecting approach of harmonic current in single-phase circuit based on fast iterative algorithm in active power filter is proposed.
根据非线性负载的等效电路模型,提出了一种基于快速跟踪算法的有源电力滤波器单相电路谐波电流检测方法。
According to the equivalent circuit model of non-linear load, a detecting approach of harmonic current in single-phase circuit based on fast iterative algorithm in active power filter is proposed.
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