Equipotential bonding and voltage

I have some questions about protective equipotential bonding.

main protective bonding .
I understand the principle, that with no potential difference no current will flow

I'm wondering about volt drop.
You will get volt drop if you have a flow of current.

So if you have two extraneous CPs and you are in between them.
One has 230V on it, and the bonding raises the potential of the other, Ext CP to 230V so no difference

Now if an insulating section was put in between one of the Ext parts  as in the example 600Ω

I am wondering what would be the outcome.

This is a standing voltage, and current would not flow between the equal potentials ?
(If there was no other path.)

But would it flow between the 230v and 70v example.
Would you actually get this volt drop?



Picture might say it better.

Parents
  • Thanks for taking time to answer my qeestions.
    I'm having trouble actually describing what Im considering.

    basically its 701.415. 2 and being effectively connected to the met.
    If plastic plumbing was inserted into pipe work, and had a resistance of say 600Ω.mainly dues to the water in the pipe work.

    What would happen to any touch voltages.  And what possible dangers it could create.
    I was wondering if just the person bridging the two voltages would create a situation where current might move and receive a shock.

    If you had some connection to the mass of earth via your feet, that would cause current to move 
    But that would be the case for both.
    Basically could an high resistance section add more shock risk.

    I understand high resistance in CPCs will cause longer disconnection times.
    Im just wondering about high resistance in bonding and possible negative effects
    Thank you

  • I concur that this situation warrants consideration. Although, Would it not be detected during an R2 trailing lead test? One would certainly inspect the pipes leading into a bathroom to ascertain whether they exhibit extraneous conductive properties.

    Andrew

  • Realise also that the MET comes up to meet the live when fault current flows into it, much as the line voltage drops under load . Although in TN type systems the effect is small, in TT systems, and indeed on any external parts when the  current flows into the ground rather than via copper, then the voltages at places that you think of as grounded are elevated during fault conditions.

    600 ohms is quite a short interruption, in plumbing perhaps one plastic joint in a heating system with a conductive corrosion inhibitor, but quite credible, and in the awkward range of impedance.

    M.

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  • Realise also that the MET comes up to meet the live when fault current flows into it, much as the line voltage drops under load . Although in TN type systems the effect is small, in TT systems, and indeed on any external parts when the  current flows into the ground rather than via copper, then the voltages at places that you think of as grounded are elevated during fault conditions.

    600 ohms is quite a short interruption, in plumbing perhaps one plastic joint in a heating system with a conductive corrosion inhibitor, but quite credible, and in the awkward range of impedance.

    M.

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