最后以发动机点火系统的次级电压为例,说明这种方法的应用过程。
At last, the application course was illustrated by analyzing secondary voltage of ignition system.
介绍了用示波器检查初级电流和次级电压波形,通过波形分析诊断出点火线圈的故障。
Through the analysis of the wave of primary current and sub-voltage detected by oscillograph, the malfunction of ignition coil will be diagnosed.
传统交错并联双管正激组合变换器应用于高电压输出场合时存在变换器次级电压偏高、高频整流二极管电压应力大的问题。
The traditional interleaved two transistor forward converter exists high voltage stress of freewheeling diode when applied in high output voltage condition.
点火线圈初级绕组。电流通过线圈,产生一个电磁场,用来在次级线圈中产生高电压。
Ignition coil primary winding. Current flow through the coil produces an electromagnetic field, which is used to induce a high voltage in the secondary coil.
变压器其交变电压的改变与初级线圈及其次级线圈的匝数成正比。
An electric transformer changes the alternating voltage applied to it in proportion to the Numbers of turns in its primary and secondary windings.
在本教程中,我们将观察在初级波形和次级ht输出之间的关系,和监测火花燃烧时间和HT电压。
In this tutorial we will be looking at the relationship between the Primary picture and the Secondary HT output, and monitoring spark burn times and HT voltages.
产品输入,输出的电压高低是根据,联接组别,调节抽头多少,绕组容量分配以及次级单相绕组,净化电路的运用。
Product input and output voltage level is based on, join groups, adjust the number of taps, winding single-phase capacity allocation, and secondary windings, the use of purification circuit.
由于次级主开关管是对电压脉冲进行开关,自然实现了软开关。
Because the main switches of the secondary only conduct voltage pulses, the soft switching of them can naturally be realized.
当处于焊接工况时,变压器次级采用全波整流方式,工作电压输出为36V;
The secondary side of the transformer uses the way of full-wave rectification and the output voltage is 36V, when it is in jointing.
交变电压的改变与初级线圈及其次级线圈的匝数成正比。
Of, relating to, or using an intermittent asymmetrical alternating electric current produced by an induction coil.
当次级侧的分布式发电功率很小的时候,也有可能引起高电压,这是由于架空线路、次级线包和配电变压器上的电压降引起的。
This can even happen for a small DG located on the secondary because of the voltage drop along the service drop, the secondary wiring, and the distribution transformer.
当次级侧的分布式发电功率很小的时候,也有可能引起高电压,这是由于架空线路、次级线包和配电变压器上的电压降引起的。
This can even happen for a small DG located on the secondary because of the voltage drop along the service drop, the secondary wiring, and the distribution transformer.
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