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    Ground Potential Rise

    I came across this article which talks about ground potential rise from having unbonded grounding electrodes. Its very eye opening and I wish Mike Holt would do a new letter or a you Tube video on CATV bonding. I know there are many misconceptions about this. At my own home for example the CATV has its own ground rod...


    http://electrical-engineering-portal...e-in-your-home


    what do others think about this article? Right from an electrical theory standpoint?

    #2
    I have the attention span of a gnat so wading through all that text for about three minutes was about all I could stand.

    If I understood correctly the point of the article is that driving extra ground rods is a bad idea, and you are making things worse if you add extra ground rods that don't tie back to the main service. If that is correct then I agree.
    If Billy Idol is on your playlist go reevaluate your life.

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      #3
      Originally posted by ActionDave View Post
      I have the attention span of a gnat so wading through all that text for about three minutes was about all I could stand.

      If I understood correctly the point of the article is that driving extra ground rods is a bad idea, and you are making things worse if you add extra ground rods that don't tie back to the main service. If that is correct then I agree.
      Yes- nice synopsis

      Comment


        #4
        Originally posted by mbrooke View Post
        Yes- nice synopsis
        Isn’t this the reason for an Inter Systems Bonding Terminal? The one we are required to put in, but no one uses.
        Tom
        TBLO

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          #5
          Originally posted by ptonsparky View Post
          Isn’t this the reason for an Inter Systems Bonding Terminal? The one we are required to put in, but no one uses.
          Yes- but you have seen the reality.

          Comment


            #6
            Originally posted by mbrooke View Post
            I came across this article which talks about ground potential rise from having unbonded grounding electrodes. Its very eye opening and I wish Mike Holt would do a new letter or a you Tube video on CATV bonding. I know there are many misconceptions about this. At my own home for example the CATV has its own ground rod...


            http://electrical-engineering-portal...e-in-your-home


            what do others think about this article? Right from an electrical theory standpoint?
            Theory is mostly accurate.

            NEC does require bonding CATV to electrical system, as well as other systems. Had this requirement even before the intersystem bonding terminal was added.

            You can drive all the rods you want for other systems if that makes you feel good - but they also all need to be bonded together.

            Even when all such systems are bonded, the more direct the lightning strike is the more likely you have temporary rise in voltage in some instances or even certain portions of a premises.
            I live for today, I'm just a day behind.

            Comment


              #7
              Originally posted by kwired View Post
              Theory is mostly accurate.

              NEC does require bonding CATV to electrical system, as well as other systems. Had this requirement even before the intersystem bonding terminal was added.

              You can drive all the rods you want for other systems if that makes you feel good - but they also all need to be bonded together.

              Even when all such systems are bonded, the more direct the lightning strike is the more likely you have temporary rise in voltage in some instances or even certain portions of a premises.
              I'd imagine- I remember mike saying that the frequency pulse of lightning is so high that even a few feet of #6 will exhibit significant impedance.

              Xl=2piFL

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                #8
                Originally posted by mbrooke View Post
                ...At my own home for example the CATV has its own ground rod...
                Around here, they don't even bother with that, let alone connect to the ISBT.

                One of my radio station clients added cable internet in between my usual visits. The CATV tech mounted his first splitter 3 feet from the main ground bar. He left it float, and by the time I discovered it, a surge roared in and took out the cable modem, router and one of the ethernet switches. What a mess.
                Gregg

                I'm just here for the pictures!

                Comment


                  #9
                  Originally posted by grich View Post
                  Around here, they don't even bother with that, let alone connect to the ISBT.

                  One of my radio station clients added cable internet in between my usual visits. The CATV tech mounted his first splitter 3 feet from the main ground bar. He left it float, and by the time I discovered it, a surge roared in and took out the cable modem, router and one of the ethernet switches. What a mess.
                  Bonding is more important than grounding. In fact article 250 is mostly around bonding, not grounding. Grounding has little if anything to do with people and property protection at 600 volts and under.

                  Comment


                    #10
                    Originally posted by mbrooke View Post
                    Grounding has little if anything to do with people and property protection at 600 volts and under.
                    1)Grounding dissipates surge energy lest it should do harm.
                    2)In case of Mv to LV accidental contact, grounding on LV side limits ground potential rise.

                    Comment


                      #11
                      Originally posted by Sahib View Post
                      1)Grounding dissipates surge energy lest it should do harm.
                      2)In case of Mv to LV accidental contact, grounding on LV side limits ground potential rise.
                      Thats a good point- but the ground is only to prevent the voltage of the bonding system as a whole from being overly excessive relative to earth. Ie, reducing the possibility of side flashes and arcing of the bonding system to earth. Even with a good ground it can still rise to thousands of volts when measured to earth just 6 feet away from the ground rod, and as such its the equal potential effect that keeps everything safe.

                      Comment


                        #12
                        Originally posted by Sahib View Post
                        1)Grounding dissipates surge energy lest it should do harm.
                        If that were true why would anybody spend money on surge protectors?

                        2)In case of Mv to LV accidental contact, grounding on LV side limits ground potential rise.
                        How does it do that? I know that grounding stabilizes voltages to ground in a normally operating system, but when the wires cross things still go boom.
                        If Billy Idol is on your playlist go reevaluate your life.

                        Comment


                          #13
                          Originally posted by ActionDave View Post
                          If that were true why would anybody spend money on surge protectors?

                          Answer : Without ground connection, a surge arrestor does not work.


                          How does it do that? I know that grounding stabilizes voltages to ground in a normally operating system, but when the wires cross things still go boom.
                          Answer: Suppose ground resistance is zero. Consider 120V, Singe phase line with neutral grounded. Since ground resistance is zero, no matter how large a current flows through neutral to ground, the ground potential does not rise. Now Suppose a MV line contacts the 120V single phase line. A large short circuit current flows via phase, neutral and ground. But since ground resistance is zero, there is no rise in ground potential and the single phase line remains at 120V. In real situation also, there will be only a little rise above 120V if the ground resistance is close to zero.
                          Last edited by Sahib; 05-23-18, 01:38 PM.

                          Comment


                            #14
                            Originally posted by Sahib View Post
                            Answer: Suppose ground resistance is zero. Consider 120V, Singe phase line with neutral grounded. Since ground resistance is zero, no matter how large a current flows through neutral to ground, the ground potential does not rise. Now Suppose a MV line contacts the 120V single phase line. A large short circuit current flows via phase, neutral and ground. But since ground resistance is zero, there is no rise in ground potential and the single phase line remains at 120V. In real situation also, there will be only a little rise above 120V if the ground resistance is close to zero.
                            Ground is ground AKA the earth. Grounding electrodes always have some resistance, so will the GEC. 120 volts applied to GES with 10 ohm resistance carries 12 amps.

                            7200 volts applied to 10 ohm GES carries 720 amps.

                            Voltage "zones" around the electrode are much larger with 120 volts applied then with 7200 volts applied.

                            Few years ago a local rural POCO had an underground 34.5 kVA that had a failure. They repaired it, for whatever reason their splice method failed when they energized it. It sent a surge down a nearby wire fence, arced across to telephone pedestal(s) near fence. There was damages in many buildings within a couple miles or so - all coming into facilities via telephone lines. Ground rod wasn't going to stop that, AFAIK most the telephone pedestals do ordinarily have a ground rod connected to them. I believe there was a couple grass fires associated with that incident as well.
                            I live for today, I'm just a day behind.

                            Comment


                              #15
                              Originally posted by ActionDave View Post
                              If that were true why would anybody spend money on surge protectors?

                              How does it do that? I know that grounding stabilizes voltages to ground in a normally operating system, but when the wires cross things still go boom.
                              There's a big difference between line-to-line surges and line-to-earth surges.
                              Master Electrician
                              Electrical Contractor
                              Richmond, VA

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