• 本课程为精品课,您可以登录eeworld继续观看:
  • FIELD-APPLIED MARKINGS - 110.21(B)
  • 登录
课程介绍
相关标签: 电子系统
James Stallcup, Sr. has reinvented Designing Electrical Systems that catapulted him to the forefront of the electrical industry as a prominent author,  effective instructor, and respected authority on the application of the National Electrical Code®.

Everyone from engineers, electrical contractors, inspectors, electricians, and instructors of the Code have anticipated the arrival of this book.  The large workbook format allows a masterful blending of valuable Design Tips, NEC Loops, Examples, Quick Calcs,  and effective illustrations with authoritative Code references. Because of the abundant amount of detailed information included, it is the most comprehensive design book of its kind.    

Stallcup’s® Designing Electrical Systems explains the purpose of the National Electrical Code (NEC) and more particularly, its use as it applies to the design and installation of electrical wiring systems and equipment.

While the substance of design is found in the National Electrical Code, the art of the design is found in the applicability of that same National Electrical Code. With the advancement of today’s technology and ever-increasing liabilities, effective electrical design must now, more than ever, consider the use of certified products, energy conservation, economy vs. quality, anticipated load growth, local codes, special applications of electrical equipment, and the use and interpretation of the National Fire Protection Association (NFPA) and the Institute of Electrical and Electronics Engineers (IEEE) standards that relate to special areas, etc. For better understanding and interpretation of these advancements, considerable effort has been made by the author to condense the more complicated rules pertaining to the design, installation, and selection of wiring methods and equipment.

For the convenience of the reader, Designing Electrical Systems not only contains discussions and explanations of Code rules, but also includes detailed illustrations and sample calculations that will help tremendously in understanding and becoming proficient in the application of the National Electrical Code. Designing Electrical Systems also points out common industry problems and shows in detail the proper procedures and techniques to use in order to ensure proper code compliance. Design Tips, Calculation Tips, and guidelines for "rule of thumb" methods for instances where a fast and approximate design answer is needed are also provided. 

In order for the reader to measure his or her design skills or to prepare for a maintenance, journeyman or master electrician examination or for inspector certification, an ample number of quizzes, tests, and final examinations have been included.

With the wealth of information found in this book, it will make a valuable addition to the library of any consultant, serve as an excellent reference to the seasoned professional, and also provide valuable introductory material to the beginner.
显示全部 ↓
推荐视频

    猜您喜欢

    推荐帖子

    VFS: Cannot open root device "mtdblock2" or unknown-block(0,0)
    在网上看到好多人遇到下面的问题,大部分人都是猜测问题的出错原因,没有真正的试过,本人遇到该问题后,亲身测试通过,希望本文给大家带来帮助。问题:(启动后出现的错误信息)VFS: Cannot open root device "mtdblock2" or unknown-block(0,0)Please append a correct "root=" boot option; here are t
    bjwang Linux开发
    MSP430G2553电容触摸按键编程问题
    [size=5]官方给的电容触摸按键的例程中用到了看门狗定时器和TIMER A0定时器,,,当我再加一个[/size][size=5]TIMER A1定时器,发现会干扰触摸按键,导致触摸按键误判,请问有什么解决方法?(不加[/size][size=5]TIMER A1定时器[/size][size=5] 时,触摸按键工作良好,加了自己的定时器,触摸按键产生误判[/size][size=5])[/s
    hjl240 微控制器 MCU
    新手求助:定时器可以在中断过程中修改中断时间吗??
    我想用timeB中断,开始的时候中断时间控制在1024,下一个中断时间控制在2048,然后不断的反复。我试着在中断中修改中断时间,#pragma vector = TIMERB0_VECTOR__interrupt void Timer_B (void){P3OUT ^= 0x10; if( c(外部定义的)%2==0) TBCCR0 = 1000;else TBCCR0 = 4000;}但是好像
    aahellaa 微控制器 MCU
    30多岁男人的黄金年龄,怎样用好这段岁月,是我们每个人值得人之思考的问题?
    如果安于现状,或许就此淹没于大众;激流勇退,或许就此消沉;迎难而上,或许迎来人生的高峰
    eeleader 工作这点儿事
    嵌入式Linux软件工程师—就业培训班
    嵌入式Linux软件工程师—就业培训班>>> 课程目标◆ 熟练运用C语言进行应用程序设计;熟练掌握Linux操作系统具体操作; ◆ 熟练编译、裁剪、定制Linux内核; ◆ 熟悉嵌入式Linux系统开发的整体流程及项目开发方法; ◆ 熟悉ARM体系结构、汇编指令及ADS开发环境使用; ◆ 熟练运用Linux API接口进行应用程序编写, 包括文件、串口操作、网络、进程间通信等 ◆能够熟练运行QT库
    ustclkl Linux开发
    请教高手:关于自制MSP430-FET430UIF的USB驱动的问题
    根据论坛上资料,小弟自制了一个MSP430-FET430UIF仿真器。但是根据TI的文档驱动在IAR的文件下,但是我安装驱动的时候在该文件下并未发现该驱动。在TI的官网上下了 TUSB3410芯片的驱动,安装完毕后电脑可以识别出TUSB3410,但是显示的和文档上不一致。而且后来测试,USB上波形都没有出现(已经将IAR的设置中的 connetion 改成了 TI USB FET)。不知有哪位大侠
    lydzyw 微控制器 MCU

    推荐内容

    热门视频更多

    可能感兴趣器件

    完成课时学习+分/次

     
    EEWorld订阅号

     
    EEWorld服务号

     
    汽车开发圈

     
    机器人开发圈

    About Us 关于我们 客户服务 联系方式 器件索引 网站地图 最新更新 手机版 版权声明

    站点相关: 汽车电子 智能硬件

    北京市海淀区中关村大街18号B座15层1530室 电话:(010)82350740 邮编:100190

    电子工程世界版权所有 京B2-20211791 京ICP备10001474号-1 电信业务审批[2006]字第258号函 京公网安备 11010802033920号 Copyright © 2005-2025 EEWORLD.com.cn, Inc. All rights reserved