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G8MNY  > TECH     19.11.24 08:50l 99 Lines 3889 Bytes #999 (0) @ WW
BID : 20226_GB7CIP
Read: GUEST
Subj: Earths
Path: IW8PGT<IZ3LSV<ED1ZAC<GB7CIP
Sent: 241119/0749Z @:GB7CIP.#32.GBR.EURO #:20226 [Caterham Surrey GBR]
From: G8MNY@GB7CIP.#32.GBR.EURO
To  : TECH@WW

By G8MNY                                        (Updated Apr 23)
(8 Bit ASCII graphics use code page 437 or 850, Terminal Font)

Z VALUES
To quickly blow a 13A fuse, a current > 26A must flow. So @ 220V that needs a
total loop resistance < 9R. However with high current main ring circuits of 30A
to blow a ring fuse quickly needs a current > 60A, which needs loop resistance
< 3ê. These are much lower values than you can easily get with external earths.

AC TESTING A TOWER EARTH SYSTEM (Mains with No ELCB/RCDs only!)
I once tested a large unused radio tower & earth system with a simple if
dangerous electric kettle test (no kit on tower!). I was horrified to find it was
originally about 14ê!

Note do not attempt this method if there are ELCB trips.

 Test
LÄo\ÄÄÄÂÄÄÄÄÄÄÄÄÄ¿
       ³         ³          This high current & voltage test overcomes some
     2kW      AC Volt       of the errors of low current & voltage testing
EÄÄÄ´Kettle    meter        due to corrosion etc. As direct mains is involved
       ³         ³          some basic safety needs to be considered. And if
       ÃÄÄÄÄÄÄÄÄÄÙ          you have just filled the kettle are U wet!
       /
NÄÄÄÄo/  oÄÄTest Earth (Z)

CALCULATIONS
Assuming the mains is good!
  
                  Vm - Vt
    Unknown  Z  = ------- x R
                     Vt

Where Vm is On load mains voltage across the kettle.
      Vt is voltage across the kettle with test Earth.
      R  is Resistance of Kettle (e.g. 24ê)


MEASUREMENTS from old GB3HV mast..
                                    Z  CALCULATION
Live to Neutral 240V on load                  0 R  reference

                                              240-150
Mast to live 150v.                       Rm = ------- x 24 = 14.4 R
                                               150

                                              240-169
New Stake to live 169v.                  Rs = ------- x 24 = 9.9 R
                                               169

                                           4.95 x 14.4
Theoretical total with 2 earth stakes  Rt  ----------- = 3.7 R
                                           4.95 + 14.4

Mains Earth tested at 0 R.


P.M.E.
With UK's Permanent Multiple Earthing system on modern housing, a mast or
outside earth can be considered "dangerous". This is because there is no safety
earth provided, just "neutral" called earth in the house, so all appliances you
can touch are at this potential so you are safe (?). This is a cost cutting
scheme introduced by the electric supply companies & they effectively deemed it
safe!

Substation       Supply    Shack
L-----------------LÄÄÄÄLÄÄÄ        DC    ÚÄÄÄ Ant
NÂ----------------NÄÂÄÄNÄÄÄ PSU :::::::RIG
_|_                 ÀÄÄEÄÄÄ etc Ù        ÀÄÄ¿ RF Earth
Substation                                 _³_Outside
Earth

Now suppose the Neutral is not at ground, say 100V off ground due to unbalanced
load 3 phase loads, or someone is blowing a fuse. The 100V now sees your path
to earth as an alternate route to the substation. How many amps can your rig
take from aerial to PSU & PSU mains lead? 500A? None of this is fused all can
just burn out/catch fire!

Solutions.
   1/ Connect a heavy 100A lead between the external earth & the mains earth
      point, this may save your kit, but ensure the RF earth is now noisy!
   2/ Fuse the external earth. This will protect your kit, but if it blows will
      you know?
   3/ Use an isolation transformer to feed the sack. This overcomes many of the
      problems, but it does introduce non earthed safety issues.
   4/ Ask your supplier to provide a suitable proper earth system.


See my bul on "Constant Voltage Transformers", "Edgcume Peebles Earth Loop Z",
"Maplin Mains Meter 2000MU-UK", & also "Mains Power Protection".


Why don't U send an interesting bul?

73 de John G8MNY @ GB7CIP


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