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1.
利用宽带傅立叶分析法对2008年7月30日和8月4日两次雷暴过程中, 距离观测点5~20 km范围内的55次负地闪回击过程, 33次云内闪电过程以及20次双极性窄脉冲事件(NBE)的电磁辐射信号进行了观测分析, 得到地闪回击、 云闪放电初始阶段以及双极性窄脉冲事件在0.1~40 MHz频带宽度下的电磁辐射能量谱密度。结果表明, 这三类闪电放电过程的辐射频谱波形均呈现出随频率增加、 幅值减小的趋势, 但在辐射强度和衰减速率上存在一定的差异。负地闪回击幅频波形在6~28 MHz频段上衰减速率相对缓慢; 云闪初始阶段在全频带上始终遵循f-1.2~f-1.4之间的衰减率递减, 且其频谱幅值与地闪回击的辐射能量谱幅值相差不大; NBE事件在0.1~40 MHz频带中辐射能量谱幅值基本都明显大于其他两类闪电放电过程, 特别是在10 MHz以上的HF、 VHF频带上其差异可达到20 dB。 相似文献
2.
Stacy A. Fleenor Christopher J. Biagi Kenneth L. Cummins E. Philip Krider Xuan-Min Shao 《Atmospheric Research》2009,91(2-4):333-352
In July 2005, a field campaign was conducted in the Central Great Plains to obtain 60-field/s video imagery of lightning in correlation with reports from the U.S. National Lightning Detection Network (NLDN) and broadband electric field waveforms from the Los Alamos Sferic Array (LASA). A total of 342 GPS time-stamped cloud-to-ground (CG) flashes were recorded in 17 different sessions, and 311 (91%) of these were correlated with reports from the NLDN. Only 6 of the 17 recording sessions were dominated by flashes that lowered negative charge to ground, and 11 were dominated by positive CG flashes. A total of 103 flashes recorded on video were correlated with at least one NLDN report of negative CG strokes, 204 video flashes were correlated with one or two positive stroke reports, and 4 had bipolar reports. In this paper, we will give distributions of the estimated peak current, Ip, as reported by the NLDN, of negative and positive first strokes that were recorded on video, the multiplicity of strokes that were recorded on video, and the number of ground contacts per flash that were resolved on video. 41 (40%) of the negative flashes produced just a single-stroke on video, and 62 (60%) showed two or more strokes. The observed multiplicity of negative flashes averaged 2.83, which becomes about 3.14 after correcting for the finite time-resolution of the video camera. 195 (96%) of the positive flashes produced just a single-stroke on video, and 9 (4%) showed two strokes; therefore, the observed multiplicity of positive flashes averaged 1.04. Five out of 9 (56%) of the positive subsequent strokes re-illuminated a previous channel, and 4 out of 9 (44%) created a new ground contact. Simultaneous video, LASA, and NLDN measurements also allowed us to examine the classification of NLDN reports during 3 single-cell storms (one negative and two positive). Based on the LASA waveforms, a total of 204 out of 376 (54%) NLDN reports of CG strokes were determined to be for cloud pulses. The misclassified negative reports had |Ip| values ranging from 3.8 kA to 29.7 kA, but only 58 (24%) of these had |Ip| > 10 kA, and only one misclassified positive report had Ip > 20 kA. Radar analyses showed that most of the negative and positive CG strokes that were recorded on video were produced within or near the convective cores of storms. The radar imagery also showed that single-cell storms tended to produce one polarity of CG flashes at a time, and that such storms could switch rapidly from negative to positive CG flashes when the reflectivity was near maximum. Multiple-cell storms produced both negative and positive flashes over a broad region, but each polarity tended to cluster near regions of high-reflectivity. 相似文献
3.
利用三维(ADTD-2C)和二维(ADTD)闪电定位系统资料, 对比分析了湖北省一次特大暴雨过程中两套系统闪电活动特征, 得出以下结论: (1)本次过程中地闪多于云闪, 二者均以负极性为主。(2)三维系统正地闪在地闪中的占比低于正云闪在云闪中的占比, 高于二维系统正地闪在地闪中的占比。(3)三维系统雷电流幅值集中分布在0~30 kA, 较二维系统(10~50 kA)更集中, 三维系统的雷电流累积概率较湖北省多年统计结果明显偏小, 二维系统的雷电流累积概率略高于统计值。(4)两套系统总地闪和负地闪活跃时段基本一致。(5)两套闪电定位系统地闪密集区基本一致, 且和云闪密集区基本重合, 闪电分布集中程度高, 主要分布在槽前正涡度平流区。三维系统地闪密度大于二维系统, 最大值分别为5.78 fl/(km2·d)和2.39 fl/(km2·d)。三维系统中正、负闪电交错分布, 二维系统中正、负地闪局部存在空间分离现象。(6)云闪密度大小与二维地闪相当、水平分布特征与三维地闪一致。垂直方向上, 云闪主要发生在10 km以下, 其中2~4 km云闪分布密集, 占总云闪的47.24%。 相似文献
4.
一次飑线过程的闪电活动特征 总被引:2,自引:0,他引:2
结合地闪定位资料和TRMM卫星LIS观测的总闪电资料对一次飑线过程闪电活动进行分析,结果如下:这次飑线过程的正地闪超过了负地闪,占地闪的54.7%.在系统发展的初始阶段全部为正地闪;在系统的快速发展阶段地闪频数明显增大,正地闪比例很高,均在75%以上.在系统成熟至减弱阶段,地闪频数开始下降,而正地闪比例下降,负地闪的比例却越来越大,并占据支配地位.正地闪发生在线对流区(即强回波区内或附近),负地闪发生在层状云区.正地闪并不对应于主上升气流区而是紧邻上升气流区的后部.该雷暴云内闪电活动非常频繁,云地闪比例高达26.1:1.降雹和地面大风区位于正地闪密集区内,地闪频数峰值对应于地面大风阶段. 相似文献
5.
北京城区相继多次降雹的一次强雷暴的闪电特征 总被引:2,自引:1,他引:1
受东北冷涡和低层暖湿气流影响,2016年6月10日北京午后爆发了相继5次降冰雹的一次强雷暴天气过程。利用国家“973”项目“雷电重大灾害天气系统的动力—微物理—电过程和成灾机理(雷暴973)”2016年夏季协同观测期间获得的闪电全闪三维定位和多普勒天气雷达等资料,详细分析了此次雹暴的闪电活动和雷达回波特征。此次雹暴过程包括三个孤立的单体相继发展、并合,所分析的4次降雹过程中,总闪电频数在降雹期间都有明显增多,最高可达179 flashes min?1。云闪占全部闪电的80%以上,其中3次降雹前出现正地闪突增,其比例升高,占全部地闪的比例最高达58%。降雹时雷达回波>45 dBZ的面积增大,顶高超过13 km。整个雹暴过程,闪电辐射源主要分布在6~10 km的高度区域,与强回波具有一致性。所分析的4次降雹过程均出现明显的总闪频数跃增,并通过2σ阈值检验,其中3次提前时间为8~18 min,说明总闪频数对于降雹过程有一定的预警能力。 相似文献
6.
Lightning and Doppler radar observations of a squall line system 总被引:2,自引:0,他引:2
A typical squall line with damaging wind and hailstones occurred on 28 April 2006 in Shandong Province, middle eastern China, and caused great economic loss. The characteristics of cloud-to-ground lightning (CG) in the squall line were studied in detail by combining the data from the ground-based CG location network, two Doppler radars and the Lightning Imaging Sensor on the TRMM satellite. Results show that positive CG flashes accounted for 54.7% of the total CG flashes. During the initial developing stage, the CG flash rate was lower than 0.5fl min− 1 and most of the CG flashes were positive. It increased significantly, up to 4.5fl min− 1, along with the rapid development of the squall line, and the percentage of positive CG was more than 75% during this period. The CG flash rate began to decrease but the percentage of negative CG flash increased gradually and exceeded that of positive CG during the mature and dissipating stages. Positive CG flashes tended to occur on the right flank and negative ones on the left flank. Strong wind at the surface occurred in or near the regions with dense positive CG flashes. Almost all positive CG flashes occurred near the strong radar echo regions, in the front parts of the squall line. However, the negative CG flashes almost exclusively occurred in the regions with weak and uniform radar echoes. The total flash rate in the storm was very high, up to 136fl min− 1, and its ratio of intracloud flashes (IC) to CG flashes was 35:1. Dense positive CG flashes corresponded to updraft regions, they did not occur in the core of the updraft, but just behind and close to the main updraft instead. The rear inflow jet, between 3 and 6 km, played an important role in the formation of the bow echo and very strong wind at surface. The CG distribution features in the squall line were obviously different from that of an ordinary MCS. The charge structure could be roughly described as an inverted charge structure. 相似文献
7.
基于2016—2017年广州高建筑物雷电观测站获取的资料对粤港澳闪电定位系统(简称定位系统)的性能进行评估,并根据2014—2018年定位系统历史资料对广州高建筑物区域的雷电活动特征进行初步分析,结果表明:定位系统对闪电的探测效率为93%(214/229),对回击的探测效率为93%(449/481),对下行闪电首次回击、继后回击及上行闪电回击的定位误差的平均值(中值)分别为361 m(188 m)、252 m(167 m)和294 m(173 m);当接地点高度低于200 m(不低于200 m)时,定位系统对下行负极性闪电首次和继后回击的云闪/地闪识别正确率分别为99%(80%)和93%(35%),有83%的上行负地闪回击被定位系统误判为云闪,广州高建筑物区域内绝大部分负云闪定位记录实际是高建筑物地闪;对定位系统得到的孤立高建筑物闪电密度中心进行分析后发现,广州塔(600 m)闪电密度中心200 m半径范围内年均回击次数约为中信广场(390 m)和广发证券大厦(308 m)的5倍,推测广州塔闪电的主要类型为上行闪电,而中信广场和广发证券大厦则为下行闪电。 相似文献
8.
成都地区地闪时空特征分析 总被引:3,自引:0,他引:3
利用XDD03A型闪电定位仪所取得的3年资料,初步研究了成都周边地区地闪特征。地闪中正地闪占绝大多数,其平均强度为6045 A,略高于负地闪的5974 A。地闪强度基本集中在12000 A以下。地闪活动具有明显的日变化,总体呈单峰单谷形式,地闪频次在60以上的峰值时段是18:00~24:00和01:00,频次在10以下的谷值时段是10:00~13:00,夜间闪电活动明显大于日间。正地闪频次日变化趋势和总地闪相同,负地闪频次日变化趋势除一些小波动外,和正地闪、总地闪相同。正负地闪频次的月变化趋势相同,6、7、8月闪电数较多,4、5、9、10月闪电数较少。通过统计分析,发现各月地闪频次和对应的各月降水量有较好的相关性。成都周边地区地闪活动密集,6、7、8月的地闪密度大大超过4、5、9、10月。 相似文献
9.
大兴安岭地区地闪回击辐射场特征 总被引:1,自引:0,他引:1
利用慢电场变化测量仪所获取的观测资料详细分析了大兴安岭地区地闪回击辐射场特征。结果表明,35次正地闪首次回击的慢前沿、10%~90%平均上升时间分别为7.8μs、4.5μs,其中11次正地闪首次回击的过零时间、负反冲深度平均值分别为34μs、23%。76次负地闪首次回击的慢前沿、10%~90%平均上升时间分别为3.5μs、1.9μs,继后回击的慢前沿为1.4μs,其中15次负地闪首次回击的过零时间、负反冲深度平均值分别为51μs、52%。另外,正地闪首次回击的半峰值宽度大于负地闪首次回击,平均值分别为13.6μs、5.6μs。与国内外已有结果的进一步对比发现,大兴安岭地区的地闪回击辐射场特征与瑞典、美国弗罗里达的地闪回击辐射场特征有较好的一致性,但与我国内陆高原的地闪辐射场特征有明显差异。 相似文献
10.
中国内陆高原地区典型雷暴过程的地闪特征及电荷结构反演 总被引:10,自引:4,他引:6
利用2002年夏季在青海省大通县进行的雷暴及闪电综合观测实验中所获取的6站GPS同步闪电电场变化资料,对8月4日一次下部具有大范围正电荷区的典型性雷暴过程的雷电特征进行详细研究。利用点电荷模式对16次负地闪和2次正地闪所包含的共65次回击所中和电荷源进行的非线性最小二乘法拟合研究发现,负地闪所中和的负电荷距离地面的相对高度在3~5 km,而两次正地闪所中和的雷暴云电荷在5~6 km的高度,表明该雷暴云呈三极性电荷结构。负地闪单次回击所中和电荷量平均为1.48 C,而两次正地闪都为单次回击且中和的电荷量分别为1.37 C和2.68 C。 相似文献
11.
一次具有对流合并现象的强飑线系统的闪电活动特征及其与动力场的关系 总被引:7,自引:5,他引:2
受东北冷涡与副热带高压西北部暖湿气流影响,2015年7月27日北京地区爆发了一次具有明显对流单体合并特征的强飑线灾害性强对流天气过程。利用北京闪电定位网(BLNet)总闪定位、多普勒雷达和探空资料等,详细分析了此次飑线过程整个生命史期间不同对流区的总闪活动特征。结果表明,整个飑线过程以云闪为主,地闪活动以负地闪为主;对流单体合并时云闪数量激增,飑线过程后期正地闪比例跃增。93%的闪电主要分布在距对流线10 km范围内,层云区闪电较少;层云区的闪电电荷来源主要是由对流区的电荷经过过渡区输送而来,正地闪更易发生在过渡区和层云区。对流合并过程中有大量的水汽集中,垂直积分液态含水量(VIL)峰值超前闪电峰值24 min。利用变分多普勒雷达分析系统(VDRAS)对这次过程的三维风场进了反演,据此对单体合并期间闪电增强的动力原因进行了研究。根据VDRAS反演的动力场来看,对流云单体合并主要发生在低层辐合区内,合并后上升运动加强,上升气流范围变大,闪电活动显著增强,并主要发生在具有较强垂直风切变的区域,少部分闪电发生在对流区后部开始出现下沉气流的区域。 相似文献
12.
根据2014—2018年粤港澳闪电定位系统(GHMLLS)和广东电网地闪定位系统(GDLLS)两套闪电定位系统的观测资料, 对粤港澳大湾区范围内二者的地闪探测性能进行评估和对比, 结果表明, 在粤港澳大湾区, 对于地闪回击记录, 从各月份记录和空间密度的分布上来看, GDLLS的探测数都多于GHMLLS, 二者的比值为1.24;两套系统总回击、负回击、正回击的月分布和日变化特征基本一致; 两系统地闪回击的匹配记录在大湾区大部分区域内的偏差量都在1.5 km内; 对于匹配后的负、正回击电流峰值, 二者有较强的相关性, 相关系数分别为0.99和0.98, GDLLS的负、正回击电流峰值分别为GHMLLS的1.47倍和1.45倍。 相似文献
13.
广州高建筑物雷电观测站光电同步观测系统于2017年6月16日记录到一次峰值电流达+141 kA的单回击正地闪触发两个并发上行闪电过程。利用高速摄像、普通摄像和电场变化数据分析了触发型上行闪电的始发特征和机理。结果表明:正地闪回击后约0.8 ms内,在距正地闪接地点约3.9 km的广州塔(高600 m)和4.1 km的东塔(高530 m)分别有上行闪电始发。正地闪回击过程中和大量正电荷以及之后可能有云内负先导朝高塔方向快速伸展造成塔顶局部区域的电场发生突变是两个上行闪电激发的原因。两个上行闪电在353 ms内发生7次回击,其中6次在广州塔上,仅1次在东塔上,且广州塔回击峰值电流平均值(-21.4 kA)约为东塔回击峰值电流(-7.3 kA)的3倍,表明广州塔上行闪电通道可能比东塔上行闪电通道伸展至分布范围更广、电荷量(或电荷密度)更大的负电荷区。两个上行闪电先导的二维速率变化范围为9.4×104~1.8×106 m·s-1,平均值为6.9×105 m·s-1。 相似文献
14.
Study of the total lightning activity in a hailstorm 总被引:1,自引:0,他引:1
Joan Montany Serge Soula Nicolau Pineda Oscar van der Velde Pere Clapers Glria Sol Joan Bech D. Romero 《Atmospheric Research》2009,91(2-4):430-437
A thunderstorm that developed over northeastern Spain on 16 June 2006 is analyzed. This severe thunderstorm produced hailstones as large as 40 mm and had a lifetime of 3 h and 30 min. Radar cross-sections show strong vertical development with cloud echo tops reaching an altitude of 13 km. The specific characteristics of the lightning activity of this storm were: (i) a large amount (81%) of negative cloud-to-ground (−CG) flashes with very low peak currents (< 10 kA in absolute value), (ii) a very large proportion of intra-cloud (IC) flashes with an IC/CG ratio reaching about 400, (iii) a large number of “short” IC flashes (with only 1-VHF source according to SAFIR detection), (iv) a large increase of the −CG flash rate and of the CG proportion near the end of the storm. The rate of −CG flashes with a low peak current were observed to evolve similarly to the rates of IC flashes. Most of them have been assumed to be IC flashes misclassified by the Spanish Lightning Detection Network (SLDN). They have been filtered as it is usually done for misclassified +CG flashes. After this filtering, CG flash rates remained very low (< 1 min− 1) with +CG flashes sometimes dominant. All the particular lightning activity characteristics similar to those observed in the Severe Thunderstorm Electrification and Precipitation Study (STEPS) campaigns support the hypothesis that this thunderstorm could have had an inverted-polarity or complex charge structure. The maximum IC flash rate (67 min− 1) peaked 24 min before the presence of reflectivity higher than 60 dBZ. The IC activity abruptly decreased during the period when reflectivity was dramatically increasing. The time of maximum reflectivity observed by radar was consistent with the times of reported hail at the ground. 相似文献
15.
Leandro Z.S. Campos Marcelo M.F. Saba Osmar Pinto Jr. Maurício G. Ballarotti 《Atmospheric Research》2009,91(2-4):416-424
This work analyses the waveshapes of continuing currents and parameters of M-components in positive cloud-to-ground (CG) flashes through high-speed GPS synchronized videos. The dataset is composed of only long continuing currents (with duration longer than 40 ms) and was selected from more than 800 flashes recorded in São José dos Campos (45.864°W, 23.215°S) and Uruguaiana (29.806°W, 57.005°S) in Southeast and South of Brazil, respectively, during 2003 to 2007 summers. The videos are compared with data obtained by the Brazilian Lightning Location System (BrasilDAT) in order to determine the polarity of each flash and select only positive cases. There are only two studies of waveshapes of continuing currents in the literature. One is based on direct current measurements of triggered lightning, in which four different types of waveshapes were observed; and the other is based on measurements of luminosity variations in high-speed videos of CG negative lightning, in which besides the four types above mentioned two additional types were observed. The present work is an extension of the latter, using the same method but now applied to obtain the waveshapes of positive CG lightning. As far as the authors know, this is the first report on M-components in positive continuing currents. We also have used the luminosity-versus-time graphs to observe their occurrence and measure some parameters (duration, elapsed time and time between two successive M-components), whose statistics are presented and compared in detail to the data for negative flashes. We have plotted a histogram of the M-components elapsed time over the total duration of the continuing current for positive flashes, which presented an exponential decay (correlation coefficient: 0.83), similar to what has been observed for negative flashes. 相似文献
16.
山东地区冰雹云的闪电活动特征 总被引:15,自引:6,他引:9
利用山东电力部门提供的雷电定位资料,对10次冰雹过程的地闪活动特征进行了分析。通过分析发现,雹暴中正地闪占总地闪的比例平均为57.39%,远高于当地正地闪比例的气候特征值13.48%。地面降雹区基本出现在正地闪密集(活跃)区或邻近区域。在雹云快速发展阶段,地闪频数存在明显的“跃增”;在减弱消散阶段,地闪频数显著减少,但正地闪比例有所提高。负地闪频数峰值的出现通常提前于降雹0~20 min,正地闪频数峰值的出现一般滞后于降雹发生时间。整个降雹阶段对应于正地闪的活跃阶段。另外,结合对卫星观测的总闪电资料分析,发现冰雹云的云闪与地闪的比值远高于一般的雷雨过程,其云闪密度也远高于雷雨过程。以上这些特征对于冰雹的识别和对冰雹的超短时预报具有指示意义。 相似文献
17.
Charge source of cloud-to-ground lightning and charge structure of a typical thunderstorm in the Chinese Inland Plateau 总被引:1,自引:0,他引:1
Tinglong Zhang Xiushu Qie Tie Yuan Guangshu Zhang Tong Zhang Yang Zhao 《Atmospheric Research》2009,92(4):475-480
GPS-synchronized measurements of electric (E) field changes induced by lightning flashes were recorded at six stations in the northeastern verge of the Tibetan Plateau. The height and magnitude of charge neutralized by 65 return strokes, including 16 negative cloud-to-ground (CG) flashes and 2 positive CG flashes, have been fitted with the nonlinear least-square method based on the E field changes of CG flashes observed in a typical thunderstorm with larger-than-usual lower positive charge center (LPCC). Results show that the height of the charge region neutralized by negative CG flashes ranges from 3 km to 5 km above the ground, corresponding to an ambient temperature between − 2 °C and − 15 °C. For the two positive CG flashes, the neutralized charge regions are located at a height of about 5.5 km and the ambient temperature is about − 18 °C, indicating the existence of upper positive charge in the thunderstorm. 相似文献
18.
Intracloud (IC) and cloud-to-ground (CG) lightning flashes produce transient changes in the electric field (E) above a thundercloud which drive transient currents in the global electric circuit (GEC). Using in-cloud and above-cloud E data from balloons, ground-based E data, and Lightning Mapping Array data, the above-cloud charge transfers due to lightning transients are estimated for five IC and five CG flashes from four thunderstorms that occurred above the mountains in New Mexico, USA, in 1999. For the five CG flashes (which transferred − 4 to − 13 C to the ground), the transient currents moved + 1 to + 5 C of charge upward from cloudtop toward the ionosphere, with an average transient charge transfer of about 35% of the charge transferred to ground. For the five IC flashes (which neutralized 6 to 21 C inside the cloud), the transient currents moved − 0.7 to − 3 C upward, with an average transient charge transfer of about 12% of the lightning charge. Estimates for three thunderstorms indicate that the transient currents made only a small GEC contribution compared to the quasi-stationary Wilson currents because of the offsetting effects of IC and CG flashes in these storms. However, storms with extreme characteristics, such as high flash rates or predominance of one flash type, may make a significant GEC contribution via lightning transients. 相似文献
19.
为进一步研究多回击地闪参数分布特征, 以便为雷电防护工程设计和雷电物理研究提供参考, 根据湖北省雷电定位系统(LLS)2007年1月—2018年12月监测资料, 采用计算机编程处理和数理统计方法, 对多回击地闪次数、多重回击次数和不同类型多回击地闪雷电流幅值等参数进行了统计分析。结果表明: 多回击正地闪、负地闪和总地闪次数占其地闪总数的百分比分别为2.06%、34.76%和32.64%, 多重回击次数分别占其回击总数的0.01%、0.42%和0.40%, 多回击负地闪回击次数占多回击总地闪回击总数的99.69%。首次回击强度大于后续回击强度的多回击正地闪和负地闪分别占多回击地闪总数的82.52%和57.87%;在多回击地闪后续回击中, 正地闪约有9%的后续回击强度大于首次回击强度, 负地闪约有20%的后续回击强度大于首次回击强度。多回击正地闪和负地闪中值电流分别为59.30 kA和35.10 kA, 首次回击分别为90.90 kA和40.00 kA, 后续回击中分别为43.90 kA和33.00 kA。首次回击中, 多回击正地闪和负地闪雷电流幅值大于100 kA的累积概率分别为44.06%和4.64%, 首次回击强度大于后续回击强度的多回击正地闪和负地闪雷电流幅值大于100 kA的累积概率最大分别为52.21%和7.94%;后续回击中, 多回击正地闪和负地闪雷电流幅值小于等于40 kA的累积概率分别为41.80%和69.92%, 首次回击强度大于后续回击强度的多回击负地闪, 雷电流幅值小于等于40 kA的累积概率最大为77.71%。多回击正地闪和负地闪后续回击与首次回击中值电流的比值分别为0.48和0.83。拟合得出的不同类型的多回击正地闪和负地闪雷电流幅值累积概率公式, 拟合效果显著; 拟合公式中a值附近的雷电流幅值累积概率与b值呈显著正相关关系。 相似文献
20.
Behnam Salimi Kamyar Mehranzamir Zulkurnain Abdul-Malek 《Asia-Pacific Journal of Atmospheric Sciences》2014,50(2):133-137
Lightning is an electrical discharge during thunderstorms that can be either within clouds (Inter-Cloud), or between clouds and ground (Cloud-Ground). The Lightning characteristics and their statistical information are the foundation for the design of lightning protection system as well as for the calculation of lightning radiated fields. Nowadays, there are various techniques to detect lightning signals and to determine various parameters produced by a lightning flash. Each technique provides its own claimed performances. In this paper, the characteristics of captured broadband electric fields generated by cloud-to-ground lightning discharges in South of Malaysia are analyzed. A total of 130 cloud-to-ground lightning flashes from 3 separate thunderstorm events (each event lasts for about 4–5 hours) were examined. Statistical analyses of the following signal parameters were presented: preliminary breakdown pulse train time duration, time interval between preliminary breakdowns and return stroke, multiplicity of stroke, and percentages of single stroke only. The BIL model is also introduced to characterize the lightning signature patterns. Observations on the statistical analyses show that about 79% of lightning signals fit well with the BIL model. The maximum and minimum of preliminary breakdown time duration of the observed lightning signals are 84 ms and 560 us, respectively. The findings of the statistical results show that 7.6% of the flashes were single stroke flashes, and the maximum number of strokes recorded was 14 multiple strokes per flash. A preliminary breakdown signature in more than 95% of the flashes can be identified. 相似文献