耗散功率

以制动器耗散功率最大为目标的防抱死制动系统的控制方法，具有制动稳定性与制动效能皆佳的优点。

Control method of anti-blocking brake system with the aim to get maximum power dissipation possesses the advantage of both good braking stability and efficient braking .

制动器耗散功率原理在ABS标定匹配中的应用

Application of Brake Decay Power in Calibration of ABS

增频激励法能有效提高IC耗散功率；表面漫射法能有效增大元器件的发射系数。

Moreover , multiple frequency stimulation method can increase consumption of IC obviously and surface diffuse reflection method can improve surface emission coefficient of IC availably .

基于耗散功率转归分量的LMP计算方法

LMP Calculation Using Imputation Components of Dissipation Power

采用的耗散功率理论，避免了传统的逻辑门限值研究方法的局限性，取得了理论上的突破，研发ABS成功且进入产业化、批量生产阶段。

The theory of dissipation power , avoid the traditional logic threshold method of research , the theory has limitations , r & d ABS success and the breakthrough , batch production industrialized stage .

寄生杂散电感会使超快速IGBT关断时产生过电压尖峰，通常抑制过电压法会增加IGBT开关损耗或外围器件的耗散功率。

Overvoltage spike will be coursed by stray inductance while ultra speed IGBT cutting off . But by normal way of overvoltage control , IGBT switching loss or dissipation power of peripheral devices will be increased .

基于仿真结果首次讨论了GGNMOS的栅长对其一次击穿电压、二次击穿电压和电流、导通电阻、耗散功率等的作用。

Further analysis is conducted on the dependence of breakdown voltage , second breakdown voltage / current , turn-on resistance and dissipated power on gate length , based on MEDICI simulation .

随机激励下系统耗散功率的计算

The Calculations of the Dissipating Power of a System under Random Excitations

惠斯通电桥电路中耗散功率的极值问题

Extremum Problem in the Wheatstone Bridge Circuit

晶体管在耗散功率时，结温分布一般不均匀。

When a transistor dissipates power on work , its junction temperature distribution is commonly non-uniform .

基于支路耗散功率转归分量的最优潮流模型与算法

A Novel Model and Algorithm for Optimal Power Flow Using Imputation Component of Dissipation Power in Branches

再探讨了联营/双边模式下各类交易对无功服务依赖度和耗散功率分量的算法。

The algorithm of dependence factor and dissipation power components is discussed in pool / bilateral model .

集成电路老化温度与耗散功率、频率关系的研究单片集成主振荡器功率放大器

Analysis of the Action of Static Power Dissipation in Burn-in Condition on Yield of VLSI monolithically integrated master oscillator power amplifer

根据阻尼器的加载过程分析，提出了阻尼器耗散功率概念。

Based on the analysis of damper movement during load test period , a concept for the dissipation power of damper is suggested .

对随机过程加载的试验结果进行处理，提出了基于概率统计的等效刚度、等效阻尼及耗散功率谱等方法。

For analyzing the result of random test , the methods of equivalent stiffness , equivalent damping coefficient based on statistics are prompted .

结合含碳铬矿粉在微波场中的比热容、介电性质等热及物理性质的变化，通过计算模拟得出微波耗散功率与温度的关系，进而拟合出含碳铬矿粉的升温曲线。

The relationship between dissipation power of microwave and temperature can be solved by calculation , then the temperature-rising curve fitting of carbon-containing chromite fines can obtain by it .

通过进一步分析盘式刹车系统的使用要求和刹车过程中失效的主要形式，提出了刹车盘摩擦表面温度变化的理想曲线和耗散功率变化的理想曲线。

By further analysis of the operating requirements of the disc brake system and main failure forms during braking periods , the theoretical curves of temperature change and consuming power changes are proposed .

半导体器件的工作温度是由器件的耗散功率、环境温度及散热条件决定的，温度与热应力对器件电性能及可靠性有极大的影响。

The working temperature of semiconductor lie in dissipation power , environment temperature and condition of elimination of heat , the temperature and heat stress affect greatly the Reliability and electrical performance of apparatus .

之后以微波和电介质之间的相互作用原理研究了陶瓷在微波场中的热学特性，给出了描述耗散功率和温度场的等式与方程。

Besides , the thermal properties of ceramics in microwave field are studied on the base of interacting theory between microwave and dielectrics . The formulas are also showed which describe dissipation power and temperature field .

然后运用耗散功率转归分量确定各支路耗散功率转归给各个电源的部分，总加某个电源在电网所有支路上的耗散功率分量得到该电源引起的电网损耗。

And then the imputation part of branch dissipation power to each source is calculated by using imputation components of dissipation power . It is the loss allocation caused by a certain source to sum its component of dissipation power on each branch .

基于塑性力学和极限分析理论，研究了岩土体的体积塑性耗散功率和面积塑性耗散功率，并以平动性滑坡为例，给出了滑坡体塑性耗散功率和安全因子的计算方法。

Based on plastic mechanics and limit analysis theorem , the power of plastic dissipation that is dissipated in any kinematically admissible failure mechanism is studied . As an example , the method calculating the plastic dissipation power and safety factor of translation landslides is given .

有关系统能量耗散运动的功率谱分析

Spectrum Analysis on Dissipative Motion in Relevant System

通过数值模拟，实现有关自由度的能量耗散过程，采用功率谱方法研究有关系统运动中的坐标q（t）或动量p（t）的演化过程。

The energy dissipation in the relevant system is realized by numerical simulation .

全金属慢波结构由于具有热耗散能力强，功率容量大，比耦合腔慢波线带宽宽，结构整体性好，尺寸大等一系列优点而备受人们关注。

All metal slow wave structure is being paid a good deal of attention because it has a series of advantages , such as good dissipation ability , high power capacity , wide passband , well integrated structure and large size etc.