JBinCA
Electrical
- Jun 25, 2005
- 98
Greetings All,
I'm consulting on an 480V 3ph 4W ~1.5 MVA system that powers a building and small data center on a university campus in the U.S.
There are three power sources to this system, each with an independent bonding jumper. Each on a different SWBD. The system wasn't designed that way, but rather had additional sources added over the years. Different eras, different manufacturers, and as some of you might have guessed, no one took into account the bonding at the existing sources when they went to add a new one. Switching is accomplished via 3 pole ATS's that are open transition only. So the bottom line is that I have multiple bonding jumpers in the system at all times.
I am aware of the need for a Modified Differential Ground Fault (MDGF) / Multi-Source Ground Fault (MSGF) scheme to properly resolve neutral currents flowing in the ground path and ground currents flowing in the neutral path. I am also aware that if this system were installed new, all at once, and from the same MFG, it could be accomplished with LV BKR 4 Wire protection, and looping the neutral sensor circuits. All 3 of the main source BKRs have or can be fitted with shunt trips.
I understand how to analyze the problem (and the solution), but I'm not sure what limits there might be on the devices I can use to solve this problem. Can I use a scheme that would employ split-core CTs paralleled into a single phase digital TOC relay with a definite time curve as the protective device? Is there a standard or code reference that would prohibit me from going down this path.
I'm hoping some of you SWGR / SWBD gurus can give me some guidance on that. I've got UL 1053 coming my way, but I have not idea what's in there.
Thanks and Regards,
JB
I'm consulting on an 480V 3ph 4W ~1.5 MVA system that powers a building and small data center on a university campus in the U.S.
There are three power sources to this system, each with an independent bonding jumper. Each on a different SWBD. The system wasn't designed that way, but rather had additional sources added over the years. Different eras, different manufacturers, and as some of you might have guessed, no one took into account the bonding at the existing sources when they went to add a new one. Switching is accomplished via 3 pole ATS's that are open transition only. So the bottom line is that I have multiple bonding jumpers in the system at all times.
I am aware of the need for a Modified Differential Ground Fault (MDGF) / Multi-Source Ground Fault (MSGF) scheme to properly resolve neutral currents flowing in the ground path and ground currents flowing in the neutral path. I am also aware that if this system were installed new, all at once, and from the same MFG, it could be accomplished with LV BKR 4 Wire protection, and looping the neutral sensor circuits. All 3 of the main source BKRs have or can be fitted with shunt trips.
I understand how to analyze the problem (and the solution), but I'm not sure what limits there might be on the devices I can use to solve this problem. Can I use a scheme that would employ split-core CTs paralleled into a single phase digital TOC relay with a definite time curve as the protective device? Is there a standard or code reference that would prohibit me from going down this path.
I'm hoping some of you SWGR / SWBD gurus can give me some guidance on that. I've got UL 1053 coming my way, but I have not idea what's in there.
Thanks and Regards,
JB