Recent Developments of Modulation and Control for High-Power Current-Source-Converters Fed Electric Machine Systems

The pulse-width-modulated(PWM)current-source converters(CSCs)fed electric machine systems can be considered as a type of high reliability energy conversion systems,since they work with the long-life DC-link inductor and offer high fault-tolerant capability for short-circuit faults.Besides,they provide motor friendly waveforms and four-quadrant operation ability.Therefore,they are suitable for high-power applications of fans,pumps,compressors and wind power generation.The purpose of this paper is to comprehensively review recent developments of key technologies on modulation and control of high-power(HP)PWM-CSC fed electric machines systems,including reduction of low-order current harmonics,suppression of inductor–capacitor(LC)resonance,mitigation of common-mode voltage(CMV)and control of modular PWM-CSC fed systems.In particular,recent work on the overlapping effects during commutation,LC resonance suppression under fault-tolerant operation and collaboration of modular PMW-CSCs are described.Both theoretical analysis and some results in simulations and experiments are presented.Finally,a brief discussion regarding the future trend of the HP CSC fed electric machines systems is presented.

A Novel Half-Bridge Power Supply for High Speed Drilling Electrical Discharge Machining

High Speed Drilling Electrical Discharge Machining (HSDEDM) uses controlled electric sparks to erode the metal in a work-piece. Through the years, HSDEDM process has widely been used in high speed drilling and in manufacturing large aspect ratio holes for hard-to-machine material. The power supplies of HSDEDM providing high power applica-tions can have different topologies. In this paper, a novel Pulsed-Width-Modulated (PWM) half-bridge HSDEDM power supply that achieves Zero-Voltage-Switching (ZVS) for switches and Zero-Current-Switching (ZCS) for the dis-charge gap has been developed. This power supply has excellent features that include minimal component count and inherent protection under short circuit conditions. This topology has an energy conservation feature and removes the need for output bulk capacitors and resistances. Energy used in the erosion process will be controlled by the switched IGBTs in the half-bridge network and be transferred to the gap between the tool and work-piece. The relative tool wear and machining speed of our proposed topology have been compared with that of a normal power supply with current limiting resistances.

Analysis of Condition-Based Maintenance for High-Valtage Electric Power

The development process of high-voltage electric power equipment maintenance was introduced. It is pointed out that the trend of high-voltage electric power equipment maintenance is so called condition-based maintenance. With the development of computer technology and sensors, on-line monitoring of high-voltage electric power equipment has developed rapidly. By introducing the main principle of Schering bridge to measure tanδ, the way of on-line monitoring of high-voltage electric power equipment was explained. Difference methods of on-line monitoring of insulation parameters for 35 kV substation were discussed. Finally, the shortcomings as well as its tendency of on-line monitoring were analyzed.

Design of Power Supply for On-line Monitoring System of Transmission Lines

This paper uses CT to gain the energy directly from the high-voltage transmission line, to address the problem of power supply for monitoring system in high voltage side of transmission line. The draw-out power coil can induce voltage from the transmission line, using single-chip microcomputer to analog and output PMW wave to control the charging module, provides a stable 3.4 V DC voltage to the load, and solve the problem of easy saturating of core. The power supply based on this kind of draw-out power coil has undergone the overall testing, and it is verified-showing that it can properly work in a non-saturated status within the current range of 50 - 1000 A, and provide a stable output. The equipment also design protection circuit to improve the reliability to avid the impacts of the impulse current or short-circuit current. It effectively solves the problem of power supply for On-line Monitoring System of Transmission.

高压大功率SiC MOSFETs短路保护方法

碳化硅(SiC)MOSFETs短路承受能力弱,研究其短路保护方法成为保障电力电子设备安全运行的重要课题。现有方法大多围绕低压小功率SiC MOSFETs,然而随着电压和功率等级的提升,器件特性有所差异,直接套用以往设计难以实现高压大功率SiC MOSFETs的快速、可靠保护。该文首先详细研究了几种常用短路检测方法;其次基于高压大功率SiC MOSFETs器件特性,深入对比分析了不同短路检测方法的适用性,提出一种阻容式漏源极电压检测和栅极电荷检测相结合的短路保护方法;最后搭建了实验平台验证所提方法的可行性。结果表明,提出的方法在硬开关短路故障(hard switching fault,HSF)下,保护响应时间缩短了1.4μs,短路能量降低了62.5%;且能可靠识别负载短路故障(fault under load,FUL)。

基于限流电抗器两侧特定频段暂态能量比的MTDC电网单端量保护方案

柔性直流输电技术有利于未来大量分布式能源接入电网,而配置快速、可靠的保护方案是柔性直流技术发展的关键。基于直流电网等效模型,提出一种基于限流电抗器两侧电压特定频段暂态能量比差异性的单端量故障区域识别方法。该方法依据贝瑞隆等效模型计算出限流电抗器两侧电压比,通过广义S变换提取限流电抗器两侧特定频段电压,根据故障时正负极限流电抗器的电压幅值差的差异性实现故障选极。最后在PSCAD/EMTDC平台搭建仿真模型,分析出发生区内外故障时差异性明显,具备较强的耐过渡电阻与抗噪声干扰能力。

An Analysis of Magnetic Field Environment Near High-Voltage Power Lines and Contact Wires of Electric Railways

Image method is used in this paper to calculate the value of magnetic field near high-voltage transmission lines and electric railways. Areas in which the magnetic field is less than 0.002 Gauss are given and the magnetic pollution of high-voltage power transmission lines and electric railways is discussed

基于垂直中继的U型高压线路无线供电系统设计

为解决110 kV输电线路杆塔侧在线监测设备的供电问题,文中提出一种基于垂直中继的U型高压线路无线供电系统。首先结合互感耦合理论与有限元仿真,提出U型无线供电系统的整体设计方案,实现杆塔侧在线监测设备长距离、大功率、高效率、宽频带的无线供电。在此基础上建立系统级仿真模型,对U型无线供电系统的距离特性、频率特性、负载特性及电磁分布特性进行分析,验证了设计方案的可行性和电磁兼容性。最后搭建实验平台,在600 kHz的工作频率和1.2 m的传输距离下,系统输出功率达到73.58 W,能够满足杆塔侧在线监测设备的实际功率需求,为无线电能传输技术在高压设备供电领域的应用提供了参考依据。

基于平行双线结构的低频场发生器设计

针对电磁辐射抗扰度测试天线在低频时辐射效率低、体积大、难以生成高电场强度的问题,设计了一款平行双线传输线电场发生器。该场发生器输入端使用阻抗比为1∶4的传输线变压器巴伦,实现了输入端与负载的阻抗匹配,以及非平衡端转化为平衡端;为保证场发生器电气性能的稳定性和可靠性,平行双线传输线采用直径为100 mm的铜管,负载采用耐大功率的无感陶磁电阻,能够承受2 500 W的连续波输入功率。实验结果显示该场发生器在10 kHz~100 MHz的频率范围内电压驻波比均小于1.9,在距场发生器中心0.5 m远处可产生高达200 V/m的电场强度,在1 m远处可产生50~100 V/m的场强。该电场发生器可旋转改变电极化方向,具有覆盖范围广、场强分布均匀、场强幅度高的特点,广泛应用于低频辐射抗扰度测试。

基于“边端协同”架构的台区短路故障定位技术

针对新型电力系统低压台区故障准确定位要求,开发了一种基于“边端协同”架构的低压台区短路故障定位技术。提出多层级短路故障定位的台区物联网架构体系,研究采用二阶最小二乘拟合算法的台区各层级物联终端短路故障检测方法;设计基于高速电力线宽带载波通信的故障定位通信协议,面向智能配变终端,提出基于台区拓扑结构的短路故障定位策略,并开展边缘计算及其硬件化技术实现。在此基础上,通过真型低压交流系统短路故障测试实验,验证了“边端协同”物联台区短路故障定位技术的有效性。

中压输电线路1 kHz高频融冰优化分析

中压输电线路冬季覆冰范围广,由于线路长度较短,采用直流和工频交流融冰困难,导致断线、倒杆和冰闪跳闸事故频发。本文提出在中压输电线路采用1 kHz高频融冰的方法,分析了不同高频融冰接线方式、线路分布参数以及无功补偿对融冰效果的影响及其可行性。以LGJ-240/30导线为例,在频率1 kHz电流762 A作用下,融冰仿真实验结果表明,对于较短线路,在线路长度不超过36.3 km时,融冰时间受分布参数的影响产生的差值小于1%,可以忽略不计;结合10 kV线路绝缘耐压水平,采用频率1 kHz的交流融冰适合于供电半径小于5 km的短线路,且应采用三相短路的融冰接线方式和分段串联电容补偿措施,可满足线路绝缘水平,有效降低融冰电压和融冰电源的容量。

燃料电池在无人机高压输电线路验电系统中的应用展望

随着无人机技术的不断发展,其在高压输电线路验电领域中的应用也日益广泛。燃料电池作为无人机飞行器的主要动力供能装置,具有续航能力强、能量密度高等多项应用优势。基于上述背景,针对燃料电池在无人机高压输电线路验电系统中的应用进行研究。分析燃料电池组成及其工作原理,并分别探讨其正、负极材料的储能特性,深入研究燃料电池结构模型。在此基础上,分别从效率高、污染性小两方面,分析燃料电池在无人机高压输电线路验电系统中的实际应用情况。

光伏火灾带电扑救触电安全性分析研究

由于光伏发电系统在有光照条件下会持续发电,故无法切断其电源,而使用传统的灭火剂扑救光伏火灾时会发生触电事故。为研究传统灭火剂在带电状态下扑救光伏发电系统直流侧高压的触电风险,提出了光伏火灾带电扑救试验平台和试验方法。通过试验发现:泡沫、水基灭火剂、二氧化碳等灭火剂在扑救直流侧300~1 500 V高压光伏火灾时,由于灭火剂的绝缘性而无法形成回路,从而不具备导电性;消火栓水枪和多功能水枪带电扑救过程中枪头带有直流电,枪头电压随流量和距离的变化而变化,由于多功能水枪水柱中心为空气,显著降低了水柱的电导率,因此,多功能水枪比消火栓水枪更适合扑救光伏发电系统带电火灾。通过拟合得到了多功能水枪带电扑救过程中水电导率的计算方法,计算确定了水枪一级和二级带电扑救的安全距离。带电扑救过程中的扑救距离要严格大于一级安全扑救距离,二级扑救距离范围内要采取相应的防护措施,以防止触电事故的发生。

考虑保护启动信息的电网故障诊断解析模型及告警方法

当高压电网发生故障时,在关键保护或断路器元件出现误动或信息误报、漏报时,现有故障诊断解析模型会出现误判。为解决这一问题,提出考虑保护启动信息的电网故障诊断解析模型及告警方法。首先,在传统故障诊断解析模型的基础上,增加了保护期望启动状态与实际状态差异值,构建了考虑保护启动信息的电网故障诊断适应度函数,并基于粒子群算法进行寻优计算,得到故障元件,解决了关键保护或断路器元件出现误动作或信息误报、漏报时诊断错误的问题。然后,基于所得到的故障元件,利用保护启动信息生成保护启动层级图,对启动异常的保护进行告警。最后,利用推理链的方法对整个故障过程进行完整解析。新解析模型的灵敏度和准确度与传统方法相比有较大提升,且考虑保护启动信息的保护告警方法能对启动信息异常的保护进行提前告警,具有良好的应用前景。

±800 kV直流线路工程邻近带电体架线施工防护研究

考虑直流输电线路邻近带电体架线施工风险,利用表面电荷法得到导线表面电场强度数学模型,应用有限元计算了邻近±800 kV直流输电线路和T型塔的空间电场分布情况,给出了架线施工时邻近线路和T型塔的最小关注距离。研制了直流电场安全监控报警装置并用于验证有限元仿真结果;依托昌吉–古泉±1000 kV特高压直流工程甘3标段完成了装置功能验证,结合验证结果给出了邻近带电体施工管控措施。研究结果可为邻近带电体架线安全施工提供技术参考。

高压大功率DC/DC的快速过压保护设计

新能源车为提升电能容量和充电速率,抬升平台工作电压为其重要手段。这将使得车载零部件内部的功率半导体的工作电压越来越靠近其极限电压,其工作电压裕量越来越少。故在新能源车用零部件的设计中,需要一种实时的电压保护设计,其能够快速地检测过电压的工作状态,实时保护半导体器件,使其工作在过压的条件下能够快速地切换到安全的工作模式,避免功率半导体器件的损坏。

高海拔宇宙线观测站(LHAASO)电涌保护器选型简析

结合国家重大科技基础设施高海拔宇宙线观测站(LHAASO)项目工艺配电系统设计中的电涌保护器(SPD)选型设计实例,详细介绍在高原环境中低压配电系统SPD产品选型、主要参数校验的具体方法。

超高压输电线路防雷技术的研究

为全面优化超高压输电线路安全控制水平,要结合实际应用运行环境,落实规范化防雷技术手段,搭建完整且可控的技术管理模式,维持超高压输电线路安全作业,更好地避免雷电造成的安全隐患。文章简要分析了超高压输电线路防雷技术应用的重点,并对具体的技术措施展开讨论。

浅谈施工现场高压输电线路实际工作中的防护

输电线路施工涉及多个领域,具有较强的专业性,再加上外界因素对输电线路施工造成的干扰,导致其管理难度增加。现如今,我国在不断扩大电力系统规模的同时,输电线路施工也逐渐暴露出各种各样的问题,这些问题严重影响了人们的生活和工作。想要顺利地开展输电线路施工,必须加强现场管理。对此,本文介绍了输电线路施工的特点及相关管理原则,结合实例分析了输电线路施工防护要点,并探讨了如何做好防护措施这一问题。