为此,提出了在继电器两端并联一个电阻器或者电容器的改进方案,使其起到降低输出继电器两端激励电压的作用。
Therefor, it is suggested that a resistor or a capacitor be connected with the relay in parallel to lower the exciting voltage at both ends of the output relay.
循环输出的工作方式,可延长电容器和交流接触器的使用寿命。
Circularly output way, prolong capacitor and power modules or combination switch life.
当电容器被用作过滤器,它是连接在与电源的输出端,如图8 - 4平行。
When a capacitor is used as a filter, it is connected in parallel with the output of power supply, Figure 8-4.
在压力的作用下一个电容器的容量增大而另一个则相应减小,测量结果由差动式电路输出。
Under the pressure of increasing the capacity of a capacitor while the other is reduced, measured by the differential circuit output.
工频试验变压器主要用于测量工频试验设备的输出峰值、有效值、谐波,亦可兼作耦合电容器。
Frequency capacitive dividers are used to measure the output power frequency test equipment peak, RMS, Harmonic, also doubles as a coupling capacitor.
在储能电容器中,双电层电容器的储能密度特别高,但其内电阻大,且元件的输出电压低。
Electric double-layer capacitors (EDLC) exhibit very high storage energy density compared with other capacitors, but their inner resistance is rather higher and output voltage lower.
利用超级电容器和电池组成混合动力系统,能够很好的满足电动汽车高功率密度输出场合的需要。
When work with secondary batteries, it can be used as electromotion automobile power system, enhance power density and energy density of rechargeable batteries.
第一种方式是透过光电二极体上的光源减少来对电容器进行放电,一旦所需的光源输出被产生之后就关闭装置。
The first USES the light falling on the photodiode to discharge the capacitor, turning off the device once the required light output has been generated.
建立了基于功率变换器的有源式超级电容器-蓄电池混合储能系统的模型,并对控制环节进行了设计,提出了一种在脉动负载下蓄电池恒流输出的控制策略。
A mathematical model of the actively controlled battery-ultracapacitor hybrid energy storage system based on a power converter was set up, and the control loop was designed.
为此,提出了在继电器两端并联一个电阻器或者电容器的改进方案,使其起到降低输出继电器两端激励电压的作用。
The RC loop parallel with the card formed an electric circuit on the series relay coil to excite the coil and make the contact maloperate.
逆变输出柜:由功率模板、触发板、电容器组、电感、输出极板等组成。
Inverter output counters: power template, the trigger board, capacitors, inductors, and output plate, etc.
然后运用脉冲功率技术,通过由电容器和磁开关等组成的脉冲陡化电路对正弦电压波形进行改形,最后输出纳秒级上升前沿、高重复频率的高压脉冲。
Then, transform it through the pulse sharpening circuit consisting mainly of capacitances and magnetic switches, finally outputting the high voltage and high repetition rate nanosecond pulses.
开关电容DCDC变换器的输出功率受电容网络中电容取值及开关频率的限制,电容器的集成是开关电容DCDC变换器集成的关键。
The output power of the switched capacitor DC DC converter is restricted by the capacitance of the series parallel(SP)capacitors and the switching frequency.
开关电容DCDC变换器的输出功率受电容网络中电容取值及开关频率的限制,电容器的集成是开关电容DCDC变换器集成的关键。
The output power of the switched capacitor DC DC converter is restricted by the capacitance of the series parallel(SP)capacitors and the switching frequency.
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