Changes in the input voltage lower the barrier and increase current flow in transistors, just as adding an enzyme to a chemical reaction speeds it up.
改变输入电压能降低屏障并增加晶体管电流,正如加入酶使化学反应加速一样。
The characters of waste water treatments using dielectric barrier discharge, pulsed high direct voltage discharge and contact glow-discharge cold plasma are analyzed.
分析了无声放电法、高压脉冲直流放电法和接触辉光放电法低温等离子体直接处理废水技术的特点。
Breakdown voltage is not only a key characteristic of ac ceramic capacitors, but also the most difficult technical barrier.
击穿破坏电压是交流瓷介电容器最主要的技术参数,也是最难解决的技术难题。
Schottky barrier rectifier. Max repetitive peak reverse voltage 50 V. Max average forward rectified current 8.0 a.
肖特基势垒整流器。最大重复峰值反向电压50V最大平均正向整流电流8.0 A。
Using Schottky barrier diodes for D1 and D2 rather than common diodes reduces the low-level voltage on the bus, improving the noise margin.
使用肖特基二极管d1和D2,而不是普通二极管,为的是减少总线上低状态电压,改进噪声极限。
Schottky barrier rectifier. Max recurrent peak reverse voltage 40v. Max RMS voltage 21v. Max DC blocking voltage 40v. Current 1.0a.
肖特基势垒整流器。最大的经常峰值反向电压40v。最大RMS电压21v。最大直流阻断电压40v。电流1.0A。
Schottky barrier rectifier. Max recurrent peak reverse voltage 30v. Max RMS voltage 21v. Max DC blocking voltage 30v. Current 1.0a.
肖特基势垒整流器。最大的经常峰值反向电压30v。最大RMS电压21v。最大的隔直流电压30v。电流1.0A。
Based on the model, the variations of the electrical parameters such as the potential barrier, the anode junction voltage drop, and the current amplification factor are studied and discussed.
在该模型的基础上,讨论了势垒、阳极结的电势降落和电流的放大因子等电参数的变化。
The relation between relative light crosstalk and driving voltage, gap of discharge electrode, width of electrode, as well as the effect to restrain crosstalk with barrier ribs are also discussed.
着重讨论了相对光串扰与驱动电压、放电电极间距、电极宽度之间的关系。
The effective barrier changes with increasing applied voltage, and there is a step in the current of barrier vs voltage.
研究了场发射的有效势垒随外加电场的变化,发现在有效势垒随外电场变化的曲线中存在一段平台。
To analyze the formation of surface discharge on a dielectric plate under positive nanosecond impulse voltage in air, a wire to plane electrode system with a barrier of negative film was used.
采用感光胶片作为阻挡介质的针-板放电系统,解析空气中固体电介质上纳秒正脉冲表面放电的形成过程。
Schottky barrier rectifier. Max repetitive peak reverse voltage 20 V. Max average forward rectified current 3.0 a.
肖特基势垒整流器。最大重复峰值反向电压20V最大平均正向整流电流3.0 A。
Schottky barrier rectifier. Max repetitive peak reverse voltage 30 V. Max average forward rectified current 3.0 a.
肖特基势垒整流器。最大重复峰值反向电压30V最大平均正向整流电流3.0 A。
Schottky barrier rectifier. Max repetitive peak reverse voltage 30 V. Max average forward rectified current 1.0 a.
肖特基势垒整流器。最大重复峰值反向电压30V最大平均正向整流电流1.0 A。
Schottky barrier rectifier. Max repetitive peak reverse voltage 40 V. Max average forward rectified current 1.0 A.
肖特基势垒整流器。最大重复峰值反向电压40V最大平均正向整流电流1.0 A。
Schottky barrier rectifier. Case negative. Maximum recurrent peak reverse voltage 50 V. Maximum average forward rectified current 8.0 A.
肖特基势垒整流器。案例负。经常性最大峰值反向电压50V最大平均正向整流电流8.0 A。
The high-frequency and high-voltage pulse power source is the core part of the dielectric barrier discharge.
高频高压脉冲电源是介质阻挡放电的核心部分。
An added voltage is necessary to overcome the barrier thus created.
必须增加一个附加电压去克服这样引起的位垒。
Schottky barrier rectifier. Maximum recurrent peak reverse voltage 20 V. Maximum average forward rectified current 3.0 a.
肖特基势垒整流器。经常性最大峰值反向电压20V最大平均正向整流电流3.0 A。
Schottky barrier rectifier. Maximum recurrent peak reverse voltage 40 V. Maximum average forward rectified current 1.0 a.
肖特基势垒整流器。经常性最大峰值反向电压40V最大平均正向整流电流1.0 A。
Schottky barrier rectifier. Maximum recurrent peak reverse voltage 30 V. Maximum average forward rectified current 1.0 a.
肖特基势垒整流器。经常性最大峰值反向电压30V最大平均正向整流电流1.0 A。
Schottky barrier rectifier. Maximum recurrent peak reverse voltage 30 V. Maximum average forward rectified current 3.0 a.
肖特基势垒整流器。经常性最大峰值反向电压30V最大平均正向整流电流3.0 A。
Schottky barrier rectifier. Maximum recurrent peak reverse voltage 30 V. Maximum average forward rectified current 3.0 a.
肖特基势垒整流器。经常性最大峰值反向电压30V最大平均正向整流电流3.0 A。
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