生理负荷下电子控制装置的电气特性:简要报告
Electrical characteristics of an electronic control device under a physiologic load: a brief report.
作者信息
Dawes Donald M, Ho Jeffrey D, Kroll Mark W, Miner James R
机构信息
Lompoc Valley Medical Center, Lompoc, California, USA.
出版信息
Pacing Clin Electrophysiol. 2010 Mar;33(3):330-6. doi: 10.1111/j.1540-8159.2009.02612.x. Epub 2009 Dec 10.
BACKGROUND
Law enforcement officers use electronic control devices (ECDs), such as the TASER X26 (TASER International, Inc., Scottsdale, AZ, USA), to control resisting subjects. Some of the debate on the safety of the devices has centered on the electrical characteristics of the devices. The electrical characteristics published by TASER International have historically based on discharges into a 400 Omega resistor. There are no studies that the authors are aware of that report the electrical characteristics under a physiologic load. In this study, we make an initial attempt to determine the electrical characteristics of the TASER X26 during a 5-second exposure in human volunteers.
METHODS
Subjects received an exposure to the dry, bare chest (top probe), and abdomen (bottom probe) with a standard TASER X26 in the probe deployment mode for 5 seconds. There were 10-11 pulse captures during the 5 seconds. Resistance was calculated using the sum of the absolute values of the instantaneous voltage measurements divided by the sum of the absolute values of the instantaneous current measurements (Ohm's Law).
RESULTS
For the eight subjects, the mean spread between top and bottom probes was 12.1 inches (30.7 cm). The mean resistance was 602.3 Omega, with a range of 470.5-691.4 Omega. The resistance decreased slightly over the 5-second discharge with a mean decrease of 8.0%. The mean rectified charge per pulse was 123.0 microC. The mean main phase charge per pulse was 110.5 microC. The mean pulse width was 126.9 micros. The mean voltage per pulse was 580.1 V. The mean current per pulse was 0.97 A. The average peak main phase voltage was 1899.2 V and the average peak main phase current was 3.10 A.
CONCLUSIONS
The mean tissue resistance was 602.3 Omega in this study. There was a decrease in resistance of 8% over the 5-second exposure. This physiologic load is different than the 400 Omega laboratory load used historically by the manufacturer. We recommend future characterization of these devices use a physiologic load for reporting electrical characteristics. We also recommend that all the electrical characteristics be reported.
背景
执法人员使用电子控制设备(ECDs),如泰瑟X26(泰瑟国际公司,美国亚利桑那州斯科茨代尔),来控制抗拒的对象。关于这些设备安全性的一些争论集中在设备的电气特性上。泰瑟国际公司公布的电气特性历来基于向一个400Ω电阻放电的情况。据作者所知,尚无研究报告生理负载下的电气特性。在本研究中,我们初步尝试确定泰瑟X26在人体志愿者身上5秒暴露期间的电气特性。
方法
受试者在探头部署模式下,使用标准泰瑟X26对干燥的裸露胸部(顶部探头)和腹部(底部探头)进行5秒的电击。在这5秒内有10 - 11次脉冲捕捉。电阻通过瞬时电压测量绝对值之和除以瞬时电流测量绝对值之和来计算(欧姆定律)。
结果
对于8名受试者,顶部和底部探头之间的平均间距为12.1英寸(30.7厘米)。平均电阻为602.3Ω,范围为470.5 - 691.4Ω。在5秒放电过程中电阻略有下降,平均下降8.0%。每个脉冲的平均整流电荷量为123.0微库。每个脉冲的平均主相电荷量为110.5微库。平均脉冲宽度为126.9微秒。每个脉冲的平均电压为580.1伏。每个脉冲的平均电流为0.97安。平均主相峰值电压为1899.2伏,平均主相峰值电流为3.10安。
结论
本研究中平均组织电阻为602.3Ω。在5秒暴露期间电阻下降了8%。这种生理负载不同于制造商过去使用的400Ω实验室负载。我们建议未来对这些设备进行特性描述时使用生理负载来报告电气特性。我们还建议报告所有的电气特性。
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