In a previous article I discussed the importance of coordination curves. Here I provide some home-made examples. Yep, you got it. Fashioned in the fires of Microsoft Powerpoint . . . . Continue reading “Three fault regions of a time-current plot”
Coordination curves
Sometimes you’ll need to use more exact methods for sizing your breakers than the rules given by the NEC . . . . Continue reading “Coordination curves”
Circuit breaker withstand ratings and overload conditions
These are two elementary characteristics inherent to any circuit breaker. If you get the trip rating right, but neglect one of these, you’ll be all washed up . . . . Continue reading “Circuit breaker withstand ratings and overload conditions”
A breaker’s primary function and electromagnetic forces
There’s a crucial link between circuit breakers and electromagnetics. There is good and bad . . . . Continue reading “A breaker’s primary function and electromagnetic forces”
Some basic protective-device principles
When you hear “protective device,” think “breakers” and “fuses.” It’s one thing to know how to size them correctly. It’s another thing to know why. But it can be expensive to learn the “why” . . . . Continue reading “Some basic protective-device principles”
Breaker sizing and short-circuits
Breaker sizing is another basic skill required for electrical engineers in the nuclear power industry. Here’s the short of it . . . . Continue reading “Breaker sizing and short-circuits”
If your voltage-drop calculation fails
What do you do if, after sizing your cable and calculating voltage drop, your voltage drop exceeds what’s allowable? Continue reading “If your voltage-drop calculation fails”
The importance of limiting voltage drop
You may not know that the National Electric Code doesn’t make complying with its voltage drop criteria mandatory. But there are still some important design factors that you need to keep in mind . . . . Continue reading “The importance of limiting voltage drop”