Home | Bussmann
Effective Selective Coordination Set-ups - Pt. 2Author: Chris B Posted Date: 3/12/2010 7:49:38 AM
As I mentioned in my last entry about SC, there are a couple of methods that are most common for figuring out proper selective coordination. With any of these, the results should be interpreted correctly by a qualified individual.
1. Short-circuit current calculation study: This method is appropriate if circuit breakers are being used. It involves plotting time-current characteristic curves and then interpreting that data properly. An engineer can look at this information and determine whether or not selective coordination has been achieved.
2. Adhering to selectivity ratios: You'll go this route if fuses are being used. Just use fuse types and ampere ratings that adhere to the particular manufacturer's selectivity ratios. This is the easier method of the two.
Cooper Bussmann, however, makes it even easier to design and install systems with proper selective coordination. They publish Fuse Selectivity Ratio Tables for people to refer to. All that's required is that you make sure all fuse types and ampere rating ratios for the mains, feeders and branch circuits meet or exceed these listed selectivity ratios. You then can leave fuses where they are or adjust things accordingly. There's nothing else to analyze, and no other settings to tweak with!
If you'd like to get an even better grasp on Bussmann's method for meeting SC, you can read more detailed information here:
Comments (0) | Leave Comments |  Permalink cooper bussmann, fuses, circuit breakers, selective corrdination, calculation, selectivity ratios, electrical distribution, quality, power, blackouts, faults, nec 2008
Effective Selective Coordination Set-ups - Pt. 1Author: Chris B Posted Date: 3/11/2010 10:19:06 AM
It doesn't matter much what kind of building you're talking about; an office building, plant, high-rise apartment complex, hospital, or a theater. You need a quality electrical distribution system in all of these. There's nothing more effective than a power failure in stirring up anxiety, wreaking havoc, and causing overall panic because of its unexpectedness. It's exactly why the NEC has called for Selective Coordination for such a long time.
Without properly isolated faulted circuit from all of the other components in an electrical system, you're setting yourself up for many guaranteed power blackouts. Here's a pretty clear illustration of what effective selective coordination is able to do:
The system on the right is obviously 100% more desirable. You have only one circuit (the one with the fault) being affected. The rest of the power system isn't even touched - nothing, nada, zip. There's absolutely no interruption in the rest of the system. And that, in turn, means no unneeded risk of a blackout.
Next time, I'm going to cover some of the popular methods used in determining selective coordination quality in an existing system. Stick around for that because I'll be giving some thoughts on what's really the best way. Comments (0) | Leave Comments | Permalink buldings, selective corrdination, electrical distribution, quality, power, blackouts, faults, nec 2008
9/6/2010 7:29:24 PM
|
