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050506
- 电力设计中短路电流的计算机算法:在电力设计中,电气设备和载流导体的选择必须进行短路电流的计算。针对通常计算短路电流是以手 工形式进行的问题,提出了短路电流的计算机算法-electrical short-circuit current design of a computer algorithm : the power design, Electrical equipment and current carrying conductor must choose short-circuit cu
BCEM14005
- 红外感应控制的指挥家功能描述深圳尚芯科技出品-Infrared sensor-controlled conductor functional descr iption is still the core of Shenzhen Science and Technology Chupin
user_manual_lpc2119_2129_2194_2292_2294
- all the gases are including air as a bad conductor of electricity and they are not in the vicinity of the
Current-Carrying-Charts-(10C)
- This chart describes the current carrying abilities of various PCB conductor thicknesses and widths.
A
- 目前, 国内公交车报站的方式已经有了很大的改善,由以前的售票员喊话报站改变为驾驶员使用报站器手动报站,报站器的广泛使用,在相当大的程度上免除了乘务人员沿途报站的麻烦,给许多不熟悉公交线路的乘客带来了方便。-At present,the announce way of the domestic bus stops has greatly improved from previous conductor propagandaing to drivers using Automatic bus-st
huocheshoupiaoxitong
- 本铁路售票系统采用的开发工具是Microsoft公司的Visual Basic 6.0,后台数据库采用的是Microsoft公司的SQL Server 2000。本系统可以实现的主要功能有查询、售票、退票、车次管理、用户管理等。本系统将售票退票部分和数据设置部分分开,分别由售票员和数据维护员来完成,各司其职。这样可方便铁路系统对内部人员的管理,以免引起混乱-The railway ticketing system used is Microsoft s development tools, Vi
dianziyuanqijian
- 电阻的基本单位是欧姆,用希腊字母“Ω”表示,有这样的定义:导体上加上一伏特电压时,产生一安培电流所对应的阻值。-The basic unit of resistance is the ohm, the Greek letter "Ω", such a definition: plus one volt, the conductor produce a current of one ampere corresponding resistance.
daoxianwudongjianmo
- 实现对输电线路导线舞动的实时检测。并且可对导线舞动的轨迹进行建模。-Galloping on the transmission line to achieve real-time detection. And conductor galloping track can be modeled.
cir4_trasformer
- Three-phase electric power is a common method of alternating-current electric power generation, transmission, and distribution.[1] It is a type of polyphase system and is the most common method used by electrical grids worldwide to transfer power. It
Radar-RCS-computation
- 复杂目标雷达RCS计算方面的一篇值得借鉴的硕士论文,对理想导体构成电大复杂目标的单站雷达散射截面进行计-RCS target radar complex computational aspects worth learning a master' s thesis, single station radar cross section of the conductor ideal goal is counted Large Complex
GND
- 接地技术最早是应用在强电系统(电力系统、输变电设备、电气设备)中,为了设备和人身的安全,将接地线直接接在大地上。由于大地的电容非常大,一般情况下可以将大地的电位视为零电位。后来,接地技术延伸应用到弱电系统中。对于电力电子设备将接地线直接接在大地上或者接在一个作为参考电位的导体上,当电流通过该参考电位时,不应产生电压降。然而由于不合理的接地,反而会引入了电磁干扰,比如共地线干扰、地环路干扰等,从而导致电力电子设备工作不正常。可见,接地技术是电力电子设备电磁兼容技术的重要内容之一,有必要对接地技术进