Low Resistance Ground System
Low Resistance Ground System
(OP)
Can anyone think of a reference as to how low the earth resistance should be on a ground system. The NEC Code indirectly recomends 25 ohms with a provision for getting out of actually having to obtain that level. The Mil Spec 98 is a little more stringent. The Green and Emerald books both support this idea I believe, although I can't find it directly written. I am having a problem convincing the project team that lower is better.
It goes without saying that any improvement beyond 25 ohms will have to be weighed against the cost but what is the real benefit. 25 ohms is a target that is personnel protection related (1/3 the average human body resistance).
In a remedial situation, what level should be the goal to protect instrumentation communicating on an RS-485 network across large areas. We have had repeated damage and we know our earth ground resistance is extremely high.
I do realize that there are many other factors involved like proper installation techniques, bonding, isolation, TVSS, etc. We have gone all through these areas and made corrections and improvements but are still getting failures.
I am being challenged that for equipment protection, there is no benefit to pursue a level of earth ground resistance any lower than 25 ohms. It has also been stipulated that any improvement would be detrimental because it would make us a better target. I don't agree. Thanks.
It goes without saying that any improvement beyond 25 ohms will have to be weighed against the cost but what is the real benefit. 25 ohms is a target that is personnel protection related (1/3 the average human body resistance).
In a remedial situation, what level should be the goal to protect instrumentation communicating on an RS-485 network across large areas. We have had repeated damage and we know our earth ground resistance is extremely high.
I do realize that there are many other factors involved like proper installation techniques, bonding, isolation, TVSS, etc. We have gone all through these areas and made corrections and improvements but are still getting failures.
I am being challenged that for equipment protection, there is no benefit to pursue a level of earth ground resistance any lower than 25 ohms. It has also been stipulated that any improvement would be detrimental because it would make us a better target. I don't agree. Thanks.






RE: Low Resistance Ground System
First of all, I am not 100% familiar with the NEC as I am used to working according to IEC364 specifications.
IEC recognises two different grounding systems where the star point of the LV transformer is connected to ground :
- the TT system : where the loads are connected to a different earthing electrode than the transformer's,
- the TN system : where the loads are connected to a PE (or CPC=distributed Earth) cable.
To which earthing system are you refering ?
In any case one can say the following :
- in TT, the object of the game is to get an electrode impedance as low as possible. The figure of 5 to 10 Ohms per electrode (there are two: one for the transformer, one for the network) is often mentioned. The lower this impedance the higher the potential earth leakage current, and the easier it is to implement earth leakage discrimination with RCD units, all the while offering protection against indirect contact and against fire, etc...
Ex :on 400/230V network, for an electrode impedance of 10 Ohms, one would get an Id of 11,5 Amps.
One should remember that the resistivity of the earthing electrode can change with time. It is said that this change can be in a ratio from 1 to 3, and it can depend on the humidity of the soil, frosted soil, age of the electrode, ... so the best is to start with an electrode with an impedance as low as possible to cater for any deterioration or fluctuation in the impedance of the electrode.
- in TN systems, the problem is different as the earth fault current returns through the PE conductor, and is generally quite high (in kA this time). Usually, the breakers should be set to trip instantaneously on this current (the earth electrode is not part of the return current). The earth electrode impedance will usually only come into play during HV faults, ...
Regarding your comms equipment, try to keep it away for all the power conductors, shield it, and earth the shielding as often as possible (at least at both extremities). TN systems intefere a lot more with comms installations than TT systems (due to the high fault currents, in kA). In TNC (Neutral and Earth common) installations, load imbalance and triplen harmonics create currents on the PE conductor. This in turn can cause EM interference, differential voltage in cable shielding, etc... Reducing the electrode impedance will not improve the installation here, you have to reduce these currents in the PEN conductor (switching to TNS maybe ?).
Good luck !
RE: Low Resistance Ground System
RE: Low Resistance Ground System
When it comes to electronic installations (communication towers for instance), I have seen required resistances as low as 1/2 ohm - difficult to achieve in many cases.
Some electrical substations installations have specified 5 ohms max.
It all depends!
RE: Low Resistance Ground System