高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
1期
229-235
,共7页
王淦平%向飞%谭杰%罗敏%康强%李名加
王淦平%嚮飛%譚傑%囉敏%康彊%李名加
왕감평%향비%담걸%라민%강강%리명가
脉冲形成网络%直线变压器驱动源%去磁%对称输入%脉冲功率%磁感应
脈遲形成網絡%直線變壓器驅動源%去磁%對稱輸入%脈遲功率%磁感應
맥충형성망락%직선변압기구동원%거자%대칭수입%맥충공솔%자감응
pulse forming network%linear transformer driver%demagnetization%symmetrical input%pulse power%magnetic induction
为开展脉冲功率系统小型化研究,介绍了直线变压器驱动源的工作原理,阐述了其设计思想和关键技术,研制了以脉冲形成网络为初级脉冲形成单元、采用双边对称输入方式的4模块直线变压器驱动源。通过对单模块的试验研究,分析了充电位置对输出电压波形的影响,并进行了优化设计。研究了充电过程中充电电流对磁芯的去磁作用,并根据设计参数进行了模拟计算,结果表明充电电流可使磁芯完全去磁。最后开展了4模块直线变压器驱动源的试验研究,其输出电压幅值约600kV、脉宽约200ns、前沿约52ns(10%~90%),输出功率达数GW,在重频25Hz下工作稳定。与相同输出参数的基于水介质脉冲形成线的直线变压器驱动源相比其尺寸明显减小,说明此直线变压器驱动源的研制促进了脉冲功率源小型化发展。
為開展脈遲功率繫統小型化研究,介紹瞭直線變壓器驅動源的工作原理,闡述瞭其設計思想和關鍵技術,研製瞭以脈遲形成網絡為初級脈遲形成單元、採用雙邊對稱輸入方式的4模塊直線變壓器驅動源。通過對單模塊的試驗研究,分析瞭充電位置對輸齣電壓波形的影響,併進行瞭優化設計。研究瞭充電過程中充電電流對磁芯的去磁作用,併根據設計參數進行瞭模擬計算,結果錶明充電電流可使磁芯完全去磁。最後開展瞭4模塊直線變壓器驅動源的試驗研究,其輸齣電壓幅值約600kV、脈寬約200ns、前沿約52ns(10%~90%),輸齣功率達數GW,在重頻25Hz下工作穩定。與相同輸齣參數的基于水介質脈遲形成線的直線變壓器驅動源相比其呎吋明顯減小,說明此直線變壓器驅動源的研製促進瞭脈遲功率源小型化髮展。
위개전맥충공솔계통소형화연구,개소료직선변압기구동원적공작원리,천술료기설계사상화관건기술,연제료이맥충형성망락위초급맥충형성단원、채용쌍변대칭수입방식적4모괴직선변압기구동원。통과대단모괴적시험연구,분석료충전위치대수출전압파형적영향,병진행료우화설계。연구료충전과정중충전전류대자심적거자작용,병근거설계삼수진행료모의계산,결과표명충전전류가사자심완전거자。최후개전료4모괴직선변압기구동원적시험연구,기수출전압폭치약600kV、맥관약200ns、전연약52ns(10%~90%),수출공솔체수GW,재중빈25Hz하공작은정。여상동수출삼수적기우수개질맥충형성선적직선변압기구동원상비기척촌명현감소,설명차직선변압기구동원적연제촉진료맥충공솔원소형화발전。
For the miniaturization design of pulse power system,we designed a linear transformer driver(LTD) with bilateral symmetrical input mode using pulse forming network as its primary pulse forming unit,introduced the basic theory and method,and put forward some key technologies in design.Then,we analyzed the influence of charging position of pulse forming line on the output waveform,developed an optimized design,and simulated the charging process by Pspice on the basis of parameters of LTD with four stages.The simulated results showed that the cores were fully demagnetized during the charging procedure,guaranteeing enough volt-second products for the output voltage with high repetition.Finally,we developed a LTD system with four stages which could work steadily at 25 Hz with rising time of 52 ns,voltage of 600 kV,width of 220 ns and power of several GW.Comparison of the former LTD with water-dielectric helix line reveals that the new device was smaller,which could promote the development of pulse power equipment.
