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TLCODE方法在多路传输线并联电路中的应用 被引量:2
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作者 宋盛义 顾元朝 +1 位作者 关永超 邹文康 《强激光与粒子束》 EI CAS CSCD 北大核心 2006年第12期2109-2112,共4页
介绍了TLCODE方法对多路传输线并联电路的模拟情况。根据TLCODE方法的要求,在引入接地电阻的条件下推导了多路传输线并联时的界面电压公式,同时构建了一个多路传输线并联的PSPICE电路模型,将该模型计算得到的传输线输入端电压作为TLCOD... 介绍了TLCODE方法对多路传输线并联电路的模拟情况。根据TLCODE方法的要求,在引入接地电阻的条件下推导了多路传输线并联时的界面电压公式,同时构建了一个多路传输线并联的PSPICE电路模型,将该模型计算得到的传输线输入端电压作为TLCODE方法的输入电压,通过比较发现两种方法计算的传输线任意处的电流、电压波形完全符合。这表明利用TLCODE方法模拟多路传输线并联问题取得了成功,标志着开发多路并联磁绝缘传输线电路模型取得了重要进展。 展开更多
关键词 tlcode方法 并联电路 PSPICE电路模拟 界面电压 磁绝缘传输线
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磁绝缘传输线电流损失的计算方法 被引量:8
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作者 宋盛义 顾元朝 +1 位作者 关永超 邹文康 《强激光与粒子束》 EI CAS CSCD 北大核心 2008年第3期482-486,共5页
磁绝缘传输线电流损失的计算方法是丝阵Z箍缩电路模拟的关键问题之一。以传输线模拟方法TLCODE为基础,将磁绝缘传输线分成若干段有损传输线单元,每个单元由一段无损传输线及一个对地损失电阻组成,根据磁绝缘准则判断单元的磁绝缘状况,... 磁绝缘传输线电流损失的计算方法是丝阵Z箍缩电路模拟的关键问题之一。以传输线模拟方法TLCODE为基础,将磁绝缘传输线分成若干段有损传输线单元,每个单元由一段无损传输线及一个对地损失电阻组成,根据磁绝缘准则判断单元的磁绝缘状况,磁绝缘形成之前损失电流由空间电荷限制流与传导电流的定量关系来计算,磁绝缘形成之后则根据阻抗匹配关系及流动阻抗模型来计算;同时将丝阵负载内爆动力学方程与TLCODE表达式、流动阻抗方程进行耦合,可求解磁绝缘传输线、丝阵负载在电压脉冲作用下全时空域的动态响应特性。 展开更多
关键词 磁绝缘传输线 丝阵 电路模拟 tlcode方法 空间电荷限制流 流动阻抗
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磁绝缘传输线的有损线模型 被引量:7
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作者 宋盛义 仇旭 +1 位作者 王文斗 谢卫平 《强激光与粒子束》 EI CAS CSCD 北大核心 2005年第5期746-750,共5页
开发了一种磁绝缘传输线(MITL)的电路模拟方法。以传输线模拟方法TLCODE为基础,将MITL分成若干段有损传输线单元,每个单元由一段无损传输线及一个对地损失电阻组成。根据磁绝缘准则判断单元的磁绝缘状况并计算相关参量,推导丝阵负载条件... 开发了一种磁绝缘传输线(MITL)的电路模拟方法。以传输线模拟方法TLCODE为基础,将MITL分成若干段有损传输线单元,每个单元由一段无损传输线及一个对地损失电阻组成。根据磁绝缘准则判断单元的磁绝缘状况并计算相关参量,推导丝阵负载条件下MITL末端界面电压的表达式,阐述模型的求解方法及步骤;用有损线模型计算阳加速器MITL得到的结果与实验结果基本吻合,表明模型正确有效。 展开更多
关键词 磁绝缘传输线 电路模拟 tlcode方法 阳加速器
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Modeling Methods for the Main Switch of High Pulsed-Power Facilities Based on Transmission Line Code
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作者 呼义翔 曾江涛 +4 位作者 孙凤举 魏浩 尹佳辉 丛培天 邱爱慈 《Plasma Science and Technology》 SCIE EI CAS CSCD 2014年第9期873-877,共5页
Based on the transmission line code (TLCODE), a circuit model is developed here for analyses of main switches in the high pulsed-power facilities. With the structure of the ZR main switch as an example, a circuit mo... Based on the transmission line code (TLCODE), a circuit model is developed here for analyses of main switches in the high pulsed-power facilities. With the structure of the ZR main switch as an example, a circuit model topology of the switch is proposed, and in particular, calculation methods of the dynamic inductance and resistance of the switching arc are described. Moreover, a set of closed equations used for calculations of various node voltages are theoretically derived and numericMly discretized. Based on these discrete equations and the Matlab program, a simulation procedure is established for analyses of the ZR main switch. Voltages and currents at different key points are obtained, and comparisons are made with those of a PSpice L-C model. The comparison results show that these two models are perfectly in accord with each other with discrepancy less than 0.1%, which verifies the effectiveness of the TLCODE model to a certain extent. 展开更多
关键词 transmission line code tlcode main switch dynamic inductance dy-namic resistance
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Simulation Analysis of Transmission-Line Impedance Transformers for Petawatt-Class Pulsed Power Accelerators
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作者 呼义翔 孙风举 +7 位作者 黄涛 邱爱慈 丛培天 王亮平 曾江涛 李岩 张信军 雷天时 《Plasma Science and Technology》 SCIE EI CAS CSCD 2011年第4期490-496,共7页
Based on the transmission line code TLCODE, a 1D circuit model for a transmission- line impedance transformer was developed and the simulation results were compared with those in the literature. The model was used to ... Based on the transmission line code TLCODE, a 1D circuit model for a transmission- line impedance transformer was developed and the simulation results were compared with those in the literature. The model was used to quantify the efficiencies of voltage-transport, energy- transport and power-transport for a transmission-line impedance transformer as functions of ψ (the ratio of the output impedance to the input impedance of the transformer) and Г (the ratio of the pulse width to the one-way transit time of the transformer) under a large scale of m (the coefficient of the generalized exponential impedance profile). Simulation results suggest that with the increase in Г, from 0 to ∞, the power transport efficiency first increases and then decreases. The maximum power transport efficiency can reach 90% or even higher for an exponential impedance profile (m = 1). With a consideration of dissipative loss in the dielectric and electrodes of the transformer, two representative designs of the water-insulated transformer are investigated for the next generation of petawatt-class z-pinch drivers. It is found that the dissipative losses in the electrodes are negligibly small, below 0.1%, but the dissipative loss in the water dielectric is about 1% to 4%. 展开更多
关键词 dissipative loss transmission line code tlcode transport efficiency transmission line impedance transformer
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