共查询到5条相似文献,搜索用时 3 毫秒
1.
There are the application scope limits for single differential-mode current injection test method, so in order to carry out injection susceptibility test for two-pieces equipment interconnected with both ends of a cable simultaneously, a double differential-mode current in- jection test method (DDMCI) is proposed. The method adopted the equivalence source wave theorem and Baum-Liu-Tesche(BLT) equation as its theory foundation. The equivalent corresponding relation between injection voltage and radiation electric field intensity is derived, and the phase relation between the two injection voltage sources is confirmed. The results indicate that the amplitude and phase of the equivalent injection voltage source is closely related to the S parameter of directional coupling device, the transmission line length, and the source vector in BLT equation, but has nothing to do with the reflection coefficient between the two equipment pieces. Therefore, by choosing the right amplitude and phase of the double injection voltage sources, the DDMCI test is equivalent to the radiation test for two interconnected equipment of a system. 相似文献
2.
As a critical part in the DC filter design,it is very important to quickly and correctly calculate the equivalent disturbing current.A general method for calculating the equivalent disturbing current of high voltage direct current(HVDC) transmission lines is proposed.In this approach,one 12-pulse converter was represented by four 3-pulse harmonic voltage sources in series,the DC network was described by a multi-phase coupled transmission line model,and the harmonic currents of certain frequency were solved based on the basic nodal analysis method.The multi-phase coupled transmission line model was described briefly,which could treat DC transmission lines of any structure,e.g.one or two DC circuits in a tower.The harmonic voltage source calculation steps were outlined,the steps to form the nodal admittance matrix were discussed,and the equations to calculate the equivalent disturbing current of the DC line were given.To verify the general applicability of the suggested approach,two different HVDC projects were studied:a traditional single circuit HVDC project,and a newly constructed HVDC project with double circuits on a same tower.The results show that the proposed method can calculate the equivalent disturbing current of the above two projects effectively,and has obvious advantages such as easy implementation,fast calculation and wide applicability.According to the two cases,the distributions of the equivalent disturbing currents along the line have the same trend,i.e.,the maximum value of the equivalent disturbing currents appears at the line inlet of both sides.Plus there is no fixed relationship between the equivalent disturbing currents and the HVDC line structures,because the equivalent disturbing current depends on many factors,such as background harmonics and converter transformer parameters. 相似文献
3.
Timothy J Person 《高电压技术》2013,(10):2485-2491
Charge accumulation and charge injection have been studied via the pulsed electroacoustic method on model cables prepared with different insulation and semicon materials,during application of high voltage direct current stress of up to electric field strength with 60 kV/mm and various temperatures or thermal gradient conditions.Insulation material technology concepts include crosslinked polyethylene with carbon black or crosslinked polyethylene with a coagent,and the comparative analysis under a variety of conditions provides insight into the benefits and potential limitations of each technology.Semiconductive shields utilized in the study include various carbon black loadings in polar copolymers with ethylene or blends of polar and non-polar polymers.Results with various semiconductive shields indicate that the properties of the semicon dominate the charge injection process regardless of insulation type.A comparison is made with other published work on charge injection and a discussion of charge injection as it relates to electrical stress and temperature is provided. 相似文献
4.
This paper is devoted to explanation of a phenomenon of current channels heads acceleration which bridges a discharge gap.This phenomenon was discovered experimentally during some works at investigating nanosecond streamer gas discharges of atmospheric pressure in the air and neon.Consideration of the bridging process of the discharge gap is presented in the framework of a model of microstructured current channel.In this case,the channel represents itself as a bunch of microchannels(up to 1 000 and more).Such consideration could be stipulated by the discovered earlier phenomenon of the current channels microstructuring that are realized in the nanosecond discharges of atmospheric pressure.The authors have developed the electro-technical model of the discharge gap bridging by the conducting channel.It is shown that the channel length dependence of the velocity is linear;this is similar to that of the model of the continuous(unstructured)channel.We considered and made estimations that stipulate a possibility of gas heating in the microchannels up to the temperatures of associative ionization beginning in the discharge gap bridging phase.In this case,increase of the charged particles concentration and,consequently,decrease of its resistance cause the head acceleration.It is shown that in case of the continuous channel it is impossible to realize the gas heating up to the temperatures of the associative ionization in these conditions.Obtained results reveal the physical reason of the current channels microstructuring as a consequence of the principle of least action manifestation in the area electric breakdown phenomena of the gases. 相似文献
5.
This paper presents a numerical study of the current self-excited oscillations during the opening of high voltage direct current(HVDC) metallic return transfer breaker(MRTB).The switching arc is simulated using the magneto-hydrodynamics(MHD) theory coupled with the electric circuit variation.The simulation is proved accurate in simulating the current oscillation and the commutation process in MRTB by the good agreement between the calculated results and the experimental results,which are obtained on a MRTB prototype designed to break about 5 kA of DC current.Both kinds of the results show that the current oscillation starts at about 16.5 ms and the total arc time is about 24 ms with a commutation capacitor bank of 72 μF and an inductor of 173 μH.With a further analyze on how circuit parameters influence arc current oscillations,this study helps to improve the current interruption capability of MRTB. 相似文献