平均功率

The Airy function is used to calculate the plasma impedance and the grill-plasma scattering matrix is deduced, then the coupling properties of the HT-7 LHCD MJ launcher are studied with the antenna scattering matrix and the grill-plasma scattering matrix based on the liner coupling theory. The average power reflection coefficient, directivity, power spectrum are obtained for different edge plasma densities and for different phasings between main waveguides.

采用线型耦合理论，用艾黎函数计算了等离子体阻抗，推导出常规波导阵对等离子体的散射矩阵，并利用它和天线自身的散射矩阵研究了HT-7装置低杂波多结波导阵天线的耦合特性；计算了其平均功率反射系数、方向性系数和功率谱与等离子体边缘密度和主波导相位差等参数的关系。

Input power in the technical parmeters list is average power of the allowable power calculated from the antigluing capability of gear contact strength and the allowable power calculated from the antibending capability of the teeth of cogwheel of the turbine.

技术参数表中的"输入功率"；是按齿轮接触强度"抗胶合能力"计算的许用功率和按蜗轮轮齿"抗弯曲能力"计算的许用功率二者的平均功率。

Brand: Install nimble human relations / Agilent/ HP / HP detailed data: Price of powermeter of HP437B powermeter HP437B low, performance is good, it is programmable of an only channel average powermeter, it can be mixed occasionally with HP8480 series heat form a complete set of diode power probe is used.

品牌：安捷伦/Agilent/惠普/HP 具体资料： HP437B功率计 HP437B功率计价钱低、机能好，是一台单通道可编程的平均功率计，它可与HP8480系列热偶和二极管功率探头配套利用。

Through this experiment,it was measured that average diameter of the fundamental frequency light is 2.33 mm in the pattern of ordinary krypton pump,while in he pattern of the laster- diode bar pump the average diameter is only 1.25 mm,and the light field of the later also took on the standard Gaussian distribution,therefore formed the high-bright...

通过实验测量到普通氪灯泵浦方式中基频光的平均直径为2.33 mm，LD 阵列对称泵浦方式中基频光的平均直径仅为1.22 mm，并且呈现标准的高斯分布，形成了高亮度激光输出。实验研究了 Nd：YAG 调 Q 固体激光器的重复频率对 KTP 倍频晶体转换效率的影响。并且，在基频光平均功率11.2 w时，经 KTP 晶体倍频产生5.11W 的532 nm 绿光输出，光-光转换效率达到45.6%。

2The female: height: 1.69 meter; Katolay index: 371gram/cm,;upper limbers anaerobic power: 130watt/kg; lower limbers 5 seconds peak power:7.78watt/kg; lower limbers 30 seconds average power:6.23watt/kg; standing long jump:2.21meters; specific movements time:15.68seconds; strikes/round:9 strikes; active errors/total strikes: 1.14%; switch reaction time: 580 mille-seconds; operating thoughts steps:65 steps; wills:189 points; and the type of temperament is sanguine.

2女运动员身高在1.69米左右，克托莱指数为371克/厘米，上肢峰值功率达130瓦，下肢峰值功率为7.78瓦/kg，下肢30秒平均功率为6.23瓦/kg，立定跳远在2.21米左右，10次专项跑动时为15.68秒，每回合拍数在9拍左右，主动失误率为1.14%，翻转反应时在580毫秒左右，操作思维步数在65步左右，意志得分为189分，气质类型倾向于多血质为主。

Three kinds of BCRC No.51534, 10322 and 10675 would be selected and acted as an experimental sample of Escherichia coli. Results shows that Escherichia coli of No.51534 will appear better performance because the maximum of open circuit voltage, closed current and power density are 1.01V, 22mA and 1342mW/m2, respectively. Concerning the effect of culture time with respect to different phase type on the electricity performance of MFCs, the time points on the intersection between lag phase and logarithmic phase, the middle of point of stationary phase for growth curve of Escherichia coli would appear a good performance of MFCs. In addition, the BCRC No. 51534 Escherichia coli possessing a better performance of MFCs than others would be suggested and applied to further studying. Comparison with the performance of MFCs with respect to electron mediator under different mole number, result shows that electron mediator of methylene blue with 4.63mM would appear a better electricity performance of MFCs than others. Concerning the different material of proton exchange membrane with PTFE-Nafion, Nafion 211, 212 and 117 with respect to the performance of MFCs, result shows that the Nafion 117 applied in MFCs will have a better performance of MFCs than other cases. Finally, the effect of molar concentration on the performance of MFCs would be expected at the studied cases of 0.4M, 0.2M, 0.1M and 0.05M respectively for cathode oxidant, result shows that a good performance of MFCs will happen at the condition of 0.2M. Those observations will be useful to improvement of MFCs in the further study.

於上述电池系统条件下，进行大肠杆菌生长曲线、电子传递介质、质子交换膜、电极与阴极氧化剂对电池电性效能分析；选择编号10322、10675与51534之大肠杆菌为实验菌株，依定量培养之生长曲线取出代表不同时生长特性时期的培养时间，利用亚甲基蓝作为电子传递介质进行实验分析从所测得的电量进行分析，以编号51534之大肠杆菌的微生物燃料电池有最大的开路电压为1.01V及最大闭路电流为22mA；当极化曲线中电压为0.47V、电流为11.4 mA时有最大的功率密度为1342 mW/m2；加以负载有平均工作功率密度294 mW/m2；从生长曲线与电性效能来分析，得知生长曲线的迟滞期与对数期的转变点与静止期的中间点有最佳电性效能表现；对於加入不同莫耳数之电子传递介质methylene blue、neutral red与thionine之电池效能表现，则以加入4.63mM methylene blue电子传递介质的电池有较佳平均功率密度230 mW/m2；另对於质子交换膜PTFE-Nafion、Nafion 211、Nafion 212与Nafion 117之电池效能表现，以Nafion 117质子交换膜的电池有较佳平均功率密度340 mW/m2；对於分析加入不同莫耳数浓度0.4M、0.2M、0.1M与0.05M的阴极氧化剂之电池效能，则以0.2M的阴极氧化剂的电池可得到较佳平均功率密度429 mW/m2。

Therefore, in order to guarantee the QoS requirements of each user, we proposed novel power allocation schemes to i minimize the maximum outage probability over all users, and ii to maximize the minimum rate under the outage probability and total power constraints.

由于每个用户的信道状态不同，采用传统的平均功率分配策略并非最优，为了满足用户的QoS要求，首先建立了在总功率受限条件下最小化最大用户中断概率的功率分配方案。

At first, setting up the arith relation between the signal input and the signal output of the generalized multi-carrier system of the Discrete Fourier Test spread-spectrum; then setting equilibria parameters of the frequency field equilibria subcarrier of the generalized multi-carrier system of the DFT spread-spectrum according to channel frequency response, channel noise variance and equilibria method; then calculating average power of useful signal, interferential average power between signals as well as noise variance of the generalized multi-carrier system receiving terminal of the DFT spread-spectrum according to the arith relation as well as the frequency field equilibria parameter, and recomputing available signal information noise ratio, so as to calculate the available signal information noise ratio of the generalized multi-carrier transmission system accurately, the method for estimating the available signal information noise ratio can be used for link self-adapting transmission solution of the generalized multi-carrier system based on Discrete Fourier Test spread-spectrum and radio material management.

一种DFT扩频的广义多载波系统的SINR估计方法，其通过首先建立所述离散傅立叶变换扩频的广义多载波传输系统的信号输入输出之间的数学关系，然后根据信道频率响应、信道噪声方差和均衡方法，设定所述DFT扩频的广义多载波传输系统的频域均衡子载波的均衡系数，再根据所述数学关系及所述频域均衡系数分别计算所述DFT扩频的广义多载波传输系统接收端有用信号的平均功率、信号间干扰的平均功率以及噪声方差，再计算有效信干噪比，如此以实现对广义多载波传输系统的有效信干噪比的准确计算，该有效信干噪比估计方法可用于基于离散傅立叶变换扩频的广义多载波传输系统的链路自适应传输方案和无线资源管理方面。

Numerical results show that Q factor and amplitude jitter can be improved for 40 Gb/s return-to-zero signals with Q factor between 5 and 12 when the fiber input average power is chosen suitably.

数值研究了输入平均功率对信号再生的影响，结果表明，通过控制输入光纤的平均功率，Q值在5到12的40 Gb/s归零码信号再生后均可实现Q值和幅度抖动的改善。

In this paper, based on a pill-box window model with a conical-shaped alumina ceramic and Ansoft HFSS software, the relation of VSWR with various electrical parameters in the window is simulated; the effects of variations of the output window structure on electrical field intensity, microwave power flow and quantity of heat are analyzed; the electrical characteristics of frequency bandwidth, power capability and heat dissipation for the pill-box window with conical-shaped or disk alumina ceramic are discussed, which shows that, with a rational structure of the window with conical-shaped alumina ceramic, the output capability of microwave peak and average power may greatly be increased, the secondary electron emission may effectively be suppressed, and heat dissipation may become more uniform and be easier for cooling.

本文在前人工作的基础上，基于圆锥形陶瓷盒形输出窗模型，采用Ansoft HFSS三维计算软件的优化模拟，对该输出窗模型的驻波频率特性与各种结构参量的关系进行了优化模拟，分析了该输出窗片结构变化对其表面的电场分布，功率流分布、热量分布的影响，得出最优模型参数。并且探讨了陶瓷窗片的形状和几何结构对改善输出窗的频带特性、提高峰值功率和平均功率、抑制二次电子倍增方面的作用。

average power：平均功率

该产品为英特尔最小型的处理器,同时也是全球耗电量低於3瓦的处理器中速度最快的产品,其散热设计功率(Thermal Design Power)范围自0.65~2.4瓦(目前一般笔记型电脑处理器为35瓦),平均功率(Average Power)范围从160~220毫瓦,

average power：平均功率=>平均電力

average pore size 平均孔径 | average power 平均功率=>平均電力 | average power output 平均功率输出

maximum average power：最大平均功率

maximal length 最大长度 | maximum average power 最大平均功率 | maximum capacity 最大容量

average power spectra：平均功率谱

average parallelism degree 平均并行度 | average power spectra 平均功率谱 | average power 平均功率

high average power：高平均功率

高压电源:High-voltage Power Source | 高平均功率:high average power | 高频电源:high-frequency power-supply

average power meter：平均功率计

平均功率|average power | 平均功率计|average power meter | 平均检出质量|average outgoing quality

output power：输出功率

我先来一个: 输出功率 (Output Power) 用来标明放大器的输出功率,有饱和功率和1dB压缩点功率. 前者是输出的最大功率后者则是指增益下降1dB时的输出功率,前者一般大于后者. 对脉冲能量的放大器有峰值功率和平均功率之分,

Pep：峰值包络功率

这个不应当算是问题的. 回去把平均功率和峰值包络功率(PEP)概念了解一下就知道了. 这个不应当算是问题的. 回去把平均功率和峰值包络功率(PEP)概念了解一下就知道了.

mean power：平均功率

目前在量测平均功率(Mean Power)时,可利用两种不同的方式求得. 第一种是在Spectrum Domain中利用IBM(Integrated Bandwidth Method)方式,加上RMS Detector可量测到即准确又可重复性的结果,然而这种方式所求得的结果,

mean power：平均功率=>平均電力

mean position 平均位置,平位置 | mean power 平均功率=>平均電力 | mean prediction 均值预测,均值预测