- 更多网络例句与吸收电路相关的网络例句 [注:此内容来源于网络,仅供参考]
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Normal circuit of buffer to absorb.
图6 常用的缓冲吸收电路。
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This article introduced the antijamming in the NC system design,from the shield (including electric field shield ,magnetic screen and electromagnetic field shield ) designs mentions,added the absorbing circuit to the perceptual load to suppress the transient state noise to give the specify,might avoid the NC system which disturbed creates softly breakdown.
本文介绍了抗干扰在数控系统中的设计,从屏蔽(包括电场屏蔽、磁场屏蔽和电磁场屏蔽)设计谈起,对感性负载加吸收电路来抑制瞬态噪声做了详细说明,可避免干扰造成的数控系统的"软"故障。
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The reason of appearing peak voltage in IGBT(insulated gate bipolar transistor)absorber is discussed.
探讨了IGBT功率电路尖峰电压产生的原因,并针对第三代IGBT,给出了适应不同功率的吸收电路。
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D. Add IRC relay coil snubber circuit.
d。继电器线圈上加IRC吸收电路。
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The IGBT-controlled chopper circuit can be greatly simplified as the smoothing inductor and commutation circuit of the thyristor-controlled chopper circuit are no more required.
文中提出了以IGBT、二极管、电阻和电解电容等四个元器件组成的斩波电路,经实验和仿真证明不仅能有效地调节转子电阻,而且同时兼有IGBT关断吸收电路的作用,能显著改善IGBT的关断轨迹。
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At last, we show the effectiveness and the applicability of the improved snubber circuit through theoretical analysis and circuit simulation.
最后,通过理论分析和电路仿真,验证了改进型吸收电路的有效性和适用性。
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When we design the IPM circuit ,we should design such main sections:the driving circuit , the buffer and absorption circuit , the protection circuit.
IPM电路设计主要包括驱动电路部分、缓冲吸收电路部分以及保护电路部分。
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According to the characteristics of the basic cell, the design rules and optimized snubbers for IGCT-based inverters are presented.
根据该单元的性质,描述了多电平变换器吸收电路设计的一般规则,对吸收电路的关键参数进行了优化设计。
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Some circuits use passive snubbers or active clamp techniques. However, these converters become more complicate.
能量缓冲吸收电路或有源钳位电路方案,由于需要增加多个额外辅助元件,增加了变换器的复杂性。
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Some circuits use resonant, quasi-resonant, and/or multi-resonant techniques. However, voltage or current stresses in these converters are higher and require the devices of higher VA rating. Some circuits use passive snubbers or active clamp techniques. However these converters become more complicate. Phase-shift ZVS technique has been used in bidirectional DC/DC converters since it can realize ZVS for all switches without auxiliary switches.
谐振、准谐振或多谐振技术方案,变换器的电压电流应力较高,变频控制增加了滤波器设计的难度;能量缓冲吸收电路或有源钳位电路方案,由于需要增加多个额外辅助元件,增加了变换器的复杂性;全桥相移技术方案,由于主电路无需增加额外元件,只需利用相移控制,即可实现软开关,因此引起关注。
- 更多网络解释与吸收电路相关的网络解释 [注:此内容来源于网络,仅供参考]
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absorbing capacity:吸收能力
absorber 吸收剂 | absorbing capacity 吸收能力 | absorbing circuit 吸收电路
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absorbing capacity:吸收容量
absorbing agent 吸收剂 | absorbing capacity 吸收容量 | absorbing circuit 吸收电路
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BRANCH:支路
门极可关断晶闸管无损吸收 吸收单元(Snubber Cell)是单端无源无损吸收电路研究的主要方法,管以及和其它有源开关的回路(Loop)中都应有吸收电感的串入–吸收电容的位置:必须存在这样的支路(Branch)与主开关并联,由理论成熟,
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GY GRAY:戈瑞,吸收剂量,吸收剂量指数,具有专门名称的SI导出单位
GTS Gated Thallium Scanning 门电路铊扫描 | GTV Gross Tumor Volume 肿瘤体积 | Gy Gray 戈瑞,吸收剂量,吸收剂量指数,具有专门名称的SI导出单位
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inversion:逆变
这一类研究比较有代表性,凸显了吸收电路跟电压箝位(Voltage Clamp)电路的原理和运用相似之处的电能变换,大多采用此类结构,逆变(Inversion)桥则桥式电路结构上可以视为两套斩波电路(Chopper)的组合软开关纯吸收实现,
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snubber:缓冲
(1)回能吸收电路[1]:是将缓冲(snubber)电容上的储能返回电源或负载,或称为无损吸收电路. (5)零电流关断(ZCS)和零电流转换(ZCT):是指先将主开关管的电流减小到零,再关断主开关管. 零电流转换(ZCT)是指在主开关管两端并联一谐振电容、谐振电感与辅助开关管串联通路,
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absorption circuit:吸收电路
absorption cell 吸收池 | absorption circuit 吸收电路 | absorption coefficient 吸收系数
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absorption circuit:吸收电路,吸收回路
absorption characteristic 吸收特性 | absorption circuit 吸收电路,吸收回路 | absorption coefficient 吸收系数;吸水系数
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absorption circuit:吸收电路=>吸収回路
absorption chromatography ==> 吸收色谱法 | absorption circuit ==> 吸收电路=>吸収回路 | absorption coefficient ==> 吸收系数=>吸収係数
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absorption current:吸收电流
吸收电路 absorbing circuit | 吸收电流 absorption current | 吸收率 absorption factor