负载电压
- 与 负载电压 相关的网络例句 [注:此内容来源于网络,仅供参考]
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Next, the following points are emphasized:(1) The design of photoelectric conversion preamplifier circuit. In order to improve the measurement accuracy of luminometer and ensure linear relationship of the photoelectric, operational amplifiers is designed as current-voltage converter form, on the one hand, it is available to zero-load effect; on the other hand, short-circuit current can be transformed into a voltage volume through the feedback resistor, it is equivalent to voltage drop flowed through a load resistor on the actual effect.
其次,本文重点做了以下工作:(1)光电转换前置放大电路的设计:为了提高照度计的测量准确度,确保光电间的线性关系,本设计把运算放大器接成电流电压变换器的形式,一方面可得到零负载效应;另一方面,短路电流通过反馈电阻变成电压量,实际效果相当于流过一个负载电阻形成的压降。
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The instantaneous power theory was employed to analyze the instantaneous power of the control winding and the control scheme for the DWIG system with diode bridge load was obtained. The component of the currents on the control-winding flux determines the instantaneous reactive power, and the component on the perpendicular direction of the flux decides the reactive power. The former one influences the DC voltage of the diode bridge on power winding and the latter one influences the DC voltage of the static excitation controller of control windings.
基于瞬时功率理论,推导出按控制绕组磁场定向时控制绕组的瞬时功率,在此基础上分析了带整流桥负载的定子双绕组感应电机发电系统在宽转速运行时的电压调节机理,即:控制绕组电流在控制绕组磁场及其法线上的分量,分别决定着发电系统功率绕组整流桥直流侧电压和控制绕组静止励磁控制器(static excitation controller,SEC)直流侧电压,据此提出宽转速运行时DWIG发电系统电压控制策略。
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Voltage of active power filter can be controlled by system harmonic current, load harmonic current ,harmonic current of spur track, load harmonic voltage, or combination of them, further more, a comparison research on different control strategies is put forward, and the control strategy of ideal filtering is achieved at last.
HAPF的谐波电压可以受控于系统谐波电流、负载谐波电流、滤波支路谐波电流、负载谐波电压或它们的组合,本文对不同的控制策略进行比较,最后得出理想滤波控制策略。
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The voltage of active power filter can be controlled by system harmonic current, load harmonic current ,harmonic current of spur track, load harmonic voltage, or combination of them. Further more, a comparison research on different control strategies is put forward, the control strategy of ideal filtering is got ,and the system control strategy is determined at last.
HAPF的谐波电压可以受控于系统谐波电流、负载谐波电流、滤波支路谐波电流、负载谐波电压或它们的组合,本文对不同的控制策略进行比较,最后得出理想滤波控制策略,最终确定HAPF的系统控制策略。
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On the base of practical transformer substation main connection, electric components and system circuit model are first formed in the paper; analyze vacuum arc characteristic and medium resume are analyzed, then, according to vacuum chamber physical process of switching AC arc, resume process are divided into three stages: sheath development, neutral particles diffusion and static characteristic, with that, calculating model of medium resume strength is erected and applied in the computing of vacuum circuit breaker interrupting transform overvoltage; In the paper, Saber software is used to simulate a whole switching process; As follows, overvoltage characteristic of vacuum circuit breaker switching no load and load transformers, kinds of influence factors are analyzed in detail; At last, vacuum circuit breaker switching capacitance group overvoltage formative causes and electrode refining for lessening reignition are discuss.
本文针对中低压变电站的实际主接线建立各电气元件及系统的电路模型;在真空电弧的特点及间隙的介质恢复特性上,依据真空断路器灭弧室分断电弧的物理过程,将真空电弧熄灭后的恢复过程分为鞘层发展、中性粒子扩散和静态特性三个阶段,建立了相应的介质恢复强度的计算模型,应用到切除变压器操作过电压的计算中;采用Saber仿真软件模拟计算真空断路器切除变压器操作过电压;并分别对真空断路器切除空载及负载变压器操作过电压的特点与影响操作过电压的各种因素做了详细的分析;最后简要分析了真空断路器开断电容器组过电压的形成原因及为减少重燃的电极老炼措施。
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On the base of practical transformer substation main connection,electriccomponents and system circuit model are first formed in the paper;analyze vacuum arccharacteristic and medium resume are analyzed,then,according to vacuum chamberphysical process of switching AC arc,resume process are divided into three stages:sheathdevelopment,neutral particles diffusion and static characteristic,with that,calculatingmodel of medium resume strength is erected and applied in the computing of vacuumcircuit breaker interrupting transform overvoltage;In the paper,Saber software is used tosimulate a whole switching process;As follows,overvoltage characteristic of vacuumcircuit breaker switching no load and load transformers,kinds of influence factors areanalyzed in detail;At last,vacuum circuit breaker switching capacitance groupovervoltage formative causes and electrode refining for lessening reignition are discuss.
本文针对中低压变电站的实际主接线建立各电气元件及系统的电路模型;在真空电弧的特点及间隙的介质恢复特性上,依据真空断路器灭弧室分断电弧的物理过程,将真空电弧熄灭后的恢复过程分为鞘层发展、中性粒子扩散和静态特性三个阶段,建立了相应的介质恢复强度的计算模型,应用到切除变压器作过电压的计算中;采用Saber仿真软件模拟计算真空断路器切除变压器作过电压;并分别对真空断路器切除空载及负载变压器作过电压的特点与影响作过电压的各种因素做了详细的分析;最后简要分析了真空断路器开断电容器组过电压的形成原因及为减少重燃的电极老炼措施。
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On the base of practical transformer substation main connection,electriccomponents and system circuit model are first formed in the paper;analyze vacuum arccharacteristic and medium resume are analyzed,then,according to vacuum chamberphysical process of switching AC arc,resume process are divided into three stages:sheathdevelopment,neutral particles diffusion and static characteristic,with that,calculatingmodel of medium resume strength is erected and applied in the computing of vacuumcircuit breaker interrupting transform overvoltage;In the paper,Saber software is used tosimulate a whole switching process;As follows,overvoltage characteristic of vacuumcircuit breaker switching no load and load transformers,kinds of influence factors areanalyzed in detail;At last,vacuum circuit breaker switching capacitance groupovervoltage formative causes and electrode refining for lessening reignition are discuss.
本文针对中低压变电站的实际主接线建立各电气元件及系统的电路模型;在真空电弧的特点及间隙的介质恢复特性上,依据真空断路器灭弧室分断电弧的物理过程,将真空电弧熄灭后的恢复过程分为鞘层发展、中性粒子扩散和静态特性三个阶段,建立了相应的介质恢复强度的计算模型,应用到切除变压器操作过电压的计算中;采用Saber仿真软件模拟计算真空断路器切除变压器操作过电压;并分别对真空断路器切除空载及负载变压器操作过电压的特点与影响操作过电压的各种因素做了详细的分析;最后简要分析了真空断路器开断电容器组过电压的形成原因及为减少重燃的电极老炼措施。
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The traditional parallel theory without control interconnections has been adopted commonly in the parallel inverter system. There is a deviation between the steady output frequency and the instruction of this system controlled by the above scheme,and the heavier the load is, the droopier the frequency will be. When the error is out of the permitted range, the system can not be operated normally.
逆变电源无线并联系统常采用传统无线并联理论,即电压-频率下垂理论控制,采用此方案控制的并联系统,其稳态输出电压频率与指令值有偏差,且所带负载越重,稳态输出频率下降越多,当偏差超出允许范围时就会对所带负载造成影响,使其不能正常工作。
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Through the analysis of the work principle of three phases voltage resource PWM converter, set up the low and high mathematic models, deduce the restriction equations about grid voltage, grid current, modulation voltage and the DC output voltage and the calculation equations of the AC-side inductance and the DC-side capacitance. There are two control strategies are adopted: Predicted current control strategy and voltage-current two closed-loop control strategy, and give a comparison by theory and practice.
通过分析三相电压源型PWM变换器的工作原理,分别分析了低频和高频数学模型,并推导出了交流侧电压电流、调制电压、直流侧电压之间的数学约束关系以及交流侧电感和直流支撑电容参数的选取依据公式;分析对比了两种控制策略:预测电流控制和电压电流双闭环控制并加以实验验证;同时采用了负载电流前馈补偿和本文提出的一种基于专家系统的神经元新型智能PI控制器两种方法大大提高了整个系统的动态响应性能,并在仿真和实验中加以验证,这也是本文研究的重点内容之一。
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The boost converter is a voltage step-up and current step-down converter .the current source is synthesized from a DC voltage source by adding a large value inductor in series .in DC regulated power supply applications ,the voltage sink represents a large value capacitor in parallel with the load resistance .in the application of the DC motor control ,the voltage sink represents the back emf of the DC motor .the switching action produces a pulsating current .the capacitive filter smoothens the pulsating current and provides a DC voltage to the load
升压转换器是一个升压和降流的转换器。电流源是一个直流电压源添加一个大值电感串联合成的。在直流稳压电源的应用,电压降代表一个大值电容并联一个负载电阻。在直流电机的控制应用中,电压降代表反电动势的直流电机。转换行为产生一个脉动电流。一个滤波电容是这个脉动电流平和并且提供直流的电压负荷。
- 推荐网络例句
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Lugalbanda was a god and shepherd king of Uruk where he was worshipped for over a thousand years.
Lugalbanda 是神和被崇拜了一千年多 Uruk古埃及喜克索王朝国王。
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I am coming just now,' and went on perfuming himself with Hunut, then he came and sat.
我来只是现在,'歼灭战perfuming自己与胡努特,那麼,他来到和SAT 。
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The shamrock is the symbol of Ireland and of St.
三叶草是爱尔兰和圣特里克节的标志同时它的寓意是带来幸运。3片心形叶子围绕着一根断茎,深绿色。