降壓變換器 的英文怎麼說
中文拼音 [jiàngyābiànhuànqì]
降壓變換器
英文
buck converter-
Forth, chaos control on buck converter in dc / dc converter is studied
第四,研究了dc / dc功率變換器中降壓buck變換器的控制問題。Then, we present a schematic of buck converter by using sliding mode control and then design a circuit based on it
然後提出了降壓buck變換器的滑動模實現方案,並設計了滑動模控制的buck變換器的電路實現方案。According to the equalization techniques introduced first, the thesis chooses the bidirectional buck - boost converter as the main equalization circuit, with the introduction of equalization strategy followed
首先,通過對均衡技術的研究,選用了基於雙向升降壓變換器作為均衡主電路,並對均衡控制策略進行了探討。Conventional hard switching technology has several flaws below : on and off loss, inductive off, capacitive on and diode recover problems. comparing with it, the loss of on and off decreases markedly, as the switches are on and off in zero voltage or zero current cases. and also the size of converter becomes smaller because of the higher of switching frequency
傳統硬開關技術由於存在開通關斷損耗大、感性關斷、容性開通、二極體反向恢復等問題,與之相比,軟開關技術在零電壓或零電流條件下導通,開關損耗明顯降低,加上開關頻率的提高使得變換器的體積得以減小,這也是軟開關技術受到青睞的原因。The soft switching, phase - shifted pwm and bi - directional dc - dc converter hang together, depress circuit switching loss and noise effectively, which provide condition to increase switch frequency, efficiency and reduce size and weight for the converter ; at the same time, it is proved the converter can achieve zvs in larger load variation, and the converter has the virtue of structure compact, voltage and current stress small such as ordinary hard switch converter
該變換器把軟開關技術和相移控制pwm技術以及雙向dc - dc變換器技術有機結合在一起,有效地降低了電路的開關損耗和開關噪聲,為變換器裝置提高開關頻率、效率以及降低尺寸及重量提供了良好的條件;同時,能拓寬零電壓開關的范圍,使變換器在較寬的負載變化范圍內都能實現軟開關。Impedance - matching balanced traction transformers ( balanced transformers in this paper for short ) are step - down transformers, they transfer symmetrical three phase voltage in primary side to perpendicular two phase voltage in secondary side. they are different from any other transformers, so their short - circuit current analysis and short - circuit test method must be taken into special account
阻抗匹配平衡牽引變壓器(本文中簡稱平衡變壓器)是一種將一次側三相對稱電壓變換為二次側二相垂直電壓的降壓變壓器,它不同於已有的任何一種變壓器,短路電流的分析計算和短路試驗必須予以重新研究。In chapter 4, considering the features of high voltage transformer and the difficulties to make it, a reasonable design scheme with src was proposed, which efficiently reduced negative influence of distributing parameters of transformer on switching power supply and could completely utilize leakage inductance as resonant inductance
第四章中分析了高頻高壓變壓器的特點及難點,提出了合理的串聯諧振變換器的設計方案,能夠完全利用變壓器的漏感作為諧振電感,有效地降低了分佈參數給高壓大功率開關電源所帶來的不利影響。He zero - output commutation strategy for reducing common - mode voltage of matrix converter
可有效降低共模電壓的矩陣變換器調制方法研究System takes intel 16 micro - controller as the core controller and adopts advanced ipm module that replaces the silicon as inverter so that the output waveforms have been heavily improved, which compare with the waveforms after chopping of silicon, which not only reduces the loss of the transformer, but also lengthens the light life - span
系統採用先進的智能功率模塊( ipm )取代以往的可控硅作為功率變換器件,以intel16位單片機為核心控制器採用ac - dc - ac變換技術使輸出的波形較可控硅斬波后的波形有很大的改善,這不僅降低了變壓器的損耗而且延長了燈的壽命,提高了系統的運行質量。Because the switches suffer only the half of the input voltage, the three - level ( tl ) converters have been attracting more and more attentions. this thesis proposes a family of zero - voltage - switching multi - resonant three - level dc / dc converters
三電平變換器可以降低開關管的電壓應力,並且可以減小輸出濾波器(或儲能元件)的大小,近年來逐步成為電力電子技術的一個研究熱點。Using the modified method, 6 kinds of tl topologies of single - switch converter are obtained. the deep research reveals that these tl topologies can have less value of the inductor by using interleaving modulation strategy compared with conventional modulation strategy on the condition that the current ripple of the inductor are the same. some drawbacks such as high voltage stress, difficulty of realizing soft - switching, and magnetic aberration were presented in the conventional push - pull converter
對基本方法進行改進,提出了適合6種單管直流變換器的三電平拓撲變換方法,成功地得到了其三電平拓撲,開關管的電壓應力降為原來的一半;經過對這些三電平拓撲控制策略的深入研究,詳細論述了交錯開關方式可以最大幅度地減小電感的電流脈動,從而可以在電流脈動要求相同的情況下減小電感的設計值。In this paper, the bias - magnetic of ppfc and the parameters effect on the bias - magnetic are all studied. firstly, the bias - magnetic principle of ambipolar converter and some basic relations are analysed under two different conditions ( different von and different ton )
首先在導致偏磁的兩種情況下(管壓降不同和導通時間不同)下,從理論上分析了雙極性變換器變壓器偏磁原理及基本關系。The three - level ( tl ) topology derivation is a method to reduce the voltage stress of each switch in the converter by increasing the number of switches
直流變換器的三電平拓撲變換是一種通過增加開關管的數量來降低變換器中每隻開關管電壓應力的方法。Its main advantages are soft - switching while operating at constant switching frequency and a simple control. in order to be applied under more high voltage, the fb converter can also be converted to tl topology. using the basic tl topology derivation method, fb tl converter can be deduced
應用三電平拓撲變換的基本方法,直接得到了全橋三電平直流變換器的拓撲結構,使其開關管的電壓應力降到輸入電壓的一半,進一步拓寬了全橋直流變換器的應用范圍。The push - pull tl converter can be deduced by using the basic tl topology derivation and by special derivation only used in this topology, in which, the voltage stress of each switches is input voltage
應用三電平拓撲的基本變換方法,經過對該拓撲結構的特殊變換,得到了推挽三電平直流變換器的拓撲,其開關管的電壓應力為輸入電壓,與傳統推挽直流變換器相比,電壓應力降低了一半。The ml converter splits voltage constraints among series - connected switches through the flying capacitors, so keeping the flying capacitor voltages at proper value is very important
該變換器利用飛跨電容使得輸入電壓在串聯的各開關管之間均分,以降低開關管的電壓應力,因此飛跨電容電壓保持在適當值是保證變換器正常工作且具有良好性能的關鍵。In this dissertation, a novel bidirectional dc / dc converter ' s topology was designed, witch used in vehicle power supply systems. the converter is composed of fundamental bidirectional switch cell, using phase - shifted full - bridge zvs pwm dc / dc converter in buck circuit and using push - pull boost converter in boost circuit
文中從雙向dc dc變換基本單元入手,針對某大型車載電源系統設計了一種新型雙向dc dc變換器拓撲電路,降壓變換採用移相全橋式zvs ? pwm功率變換,升壓變換採用推挽式dc dcboost功率變換。Firstly, the basic theory of full - bridge phase - shift zvs pwm converters are expatiated and another three kinds of circuits of full - bridge phase - shift zvs pwm converters are discussed. there are four kinds of problems which are emphasized : how to expand the zvs range ; how to reduce the circulation in the primary side of the transformer in order to minimize the on state losses ; how to decrease the loss of effective duty circle and how to eliminate the parasitic oscillation of the output rectifiers
本文首先分析了基本的全橋移相zvsdc dc變換器的工作原理,為解決滯后橋臂不易實現零電壓開關( zvs )的情況,討論了另外三種全橋移相zvsdc dc變換器的電路拓撲,重點分析並解決了四個方面的問題:如何擴大zvs的負載范圍;減小變壓器原邊環流,降低變換器系統通態損耗;減少變壓器次邊有效占空比丟失;消除輸出整流二極體的寄生振蕩。The converter not only keeps all the characteristics of the basic zvs pwm h - fb tl converter, but also eliminates the voltage oscillation and voltage spike across the rectifier diodes in both three - level mode and two - level mode, leading to a reduced voltage stress of the rectifier diodes
本文在基本zvspwmh - fbtl變換器中引入兩只箝位二極體,無論是在三電平模式還是在兩電平模式,都可以消除輸出整流二極體反向恢復造成的電壓尖峰和振蕩,降低了輸出整流管的電壓應力。Besides the reduction of the voltage stress of the switches, by adopting proper control strategy, some tl converters have the tl waveforms across the filter, so the filter can be significantly reduced
在這些變換器中,如果採用適當的控制方案,除了可以降低變換器開關管電壓應力外,部分變換器還可以在輸出濾波器上得到三電平電壓波形,大大改善了濾波器的工作條件。分享友人