设计线路板时应考虑到电容器的电性能可能随温度和频率的变化而变化。
Electrical characteristics may vary depending on changes in temperature and frequency. Please consider this variation when you design circuits.
对含电容器件的各种线路板回收同样有兼融性。
All kinds of circuit board recycling of capacitance device also has compatibility.
希望你现在明白为什么有两种不同类型的电容器在直流供电线路。
Hope you are now understand why there are two different types of capacitors in the DC supply line.
在双面线路板上安装电容器时,电容器的安装位置应避开多余的基板孔和过孔。
While mounting capacitors on double-side PC board, the capacitors should be away from those unnecessary base plate holes and connection holes.
并联电容器组的基本目的是要提高当地线路的电压,或提高引线路所带负荷的功率因数。
The basic purpose of a shunt capacitor bank is to increase the local circuit voltage and or reprove the load power factor carried by the circuit.
一旦电容器经过安装及加载,不要再试图用于其他线路板或其他用途。
Once a capacitor has been assembled in the set and power applied, do not attempt to re-use the capacitor in other circuits or application.
在电气回路上如不清楚或不明确线路之极性时,则建议使用无极性电解电容器。
If circuit polarity is unclear or unknown, then non-polar capacitors is recommended.
你想知道为什么有那么多的电容器在电子线路板吗?
Have you ever wonder why there are so many capacitors in electronic circuit board?
不适合的电容器会导致这个结果,或别的线路问题。
This can be caused by incorrect capacitor values, or other circuitry problems.
线路设计时应该注意,POSCAP是有极性的电容器,反向电压会造成漏电流加大或短路。
Circuit design should be noted, POSCAP is polarized capacitors, the reverse voltage will cause increased leakage current or short circuit.
交叉线路的设计包含了一系列的带有高音扩音器的电容器,这是一个确保阻止低频电流进入高音扩音器的有效方法。
A crossover design contains a capacitor in series with the tweeter. This is an effective way of ensuring low frequency currents don't reach the tweeter.
随着配电系统负荷日益增长,无功需求也相应增加,配电线路广泛采用并联电容器来满足无功需求。
With the load growth of distribution system, reactive demand rises in order to increase power factor, voltage quality and transmission efficiency.
从提高功角稳定性考虑,在单点补偿时,最佳补偿方式是将电容器安装在线路中点。
If all capacitors are located in single spot of line, in the term of improving power-angle stability, then it is the best option that compensation capacitor is placed at the middle of line.
提出了一种新的保留故障直流线路处的电容器组的策略,以提高故障下的暂态稳定性。
A novel new strategy is proposed, in which the filter of the DC fault line at converter station is reserved to enhance the system transient voltage stability under this fault.
提出了一种新的保留故障直流线路处的电容器组的策略,以提高故障下的暂态稳定性。
A novel new strategy is proposed, in which the filter of the DC fault line at converter station is reserved to enhance the system transient voltage stability under this fault.
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