Hi Jeff and Jim,
I happily defer to your greater knowledge of electrical codes, about
which I know very little. I also understand that amateur equipment
powered off 240VAC should have four conductor power cords and internal
circuitry that separates chassis ground from Neutral. In that
circumstance, AC imbalance currents then return safely through the
neutral wire, while no load current flows into the ground connection.
No question that is the ideal setup, to which we should all aspire.
Unfortunately, the practicalities are quite different. Like it or not,
there are thousands of ham amplifiers in active use around the world
which violate this ideal by commingling chassis ground and Neutral. My
Drake L4B amplifier, for example, is serial number 1670, and dates
from about 1980. The schematic diagram for the L4B power supply shows
a three-wire power cord, with the wires labeled L1, L2, and Ground.
The Ground terminal is shown as a hex nut on the power supply
enclosure, helpfully labeled “Power Line Ground.” Nowhere is there any
mention of a Neutral connection. I’m guessing that the majority of
these 40 year-old amplifiers are still operational.( At least they
command a premium price on the used market.) Plus the thousands of
30S1s, 30L1s, KWS1s, Viking 500s and, National NC2000s, and multitude
of other vintage amps and transmitters,
Realistically, few amateurs are going to attempt to rewire their
vintage gear to conform to modern 4-wire code standards. In many
cases, that would be near-impossible. Instead, they have a simple
question: Is it better to hook the third wire of, say, their Drake
power cord to power line Ground, or possibly to a water pipe or ground
rod, or maybe connect it to the neutral wire of their three-conductor
dryer outlet. Or, if they have a newish home, should they hook it to
the Ground terminal of their new dryer outlet with its green
conductor, or to the Neutral terminal with its white conductor?
Frankly, most hams, myself included, don’t know or care much about the
electrical code. They want to hook up their radios as easily as
possible and as safely as possible. They are less concerned about
whether something is “permissible” or not. They won’t answer the
doorbell when the electrical inspector comes knocking.
So, gentlemen, what do recommend they do, given these choices: (A)
hook the third wire to Neutral on the outlet box. (B) hook the third
wire to Ground on the outlet box, if that terminal exists. (C) hook
the third wire to Neutral and ground the amp chassis to a ground rod
outside the shack window.
My pick, given these choices, is (C). I base my choice on
understanding the current flow, which I’ve already described, not on
some hypothetical code violation. I realize that choice (C) is not
perfect. But then, it won’t kill me or cause the house to burn down,
either. It is, I believe, the lesser of evils.
73,
Jim W8ZR
Sent from my iPad
> On May 4, 2021, at 7:49 PM, Jeff DePolo <jd0@broadsci.com> wrote:
>
>>
>> This is an interesting discussion of a topic that recurs frequently. I
>> agree with Jim K9YC that house wiring should preferably bond the Neutral
>> circuit to Ground at the service entrance, and nowhere else.
>
> The main bonding jumper is installed at the service disconnect. It is not
> "perferrably" done there, it is required that it be done there, and only
> there. In residential services, it is fairly common to have a "mains"
> breaker in the panel as the service disconnect means, but that is not always
> the case. For example, if you have a breaker or fused disconnect at the
> meter, then that would be where the main bonding jumper is installed, not in
> the panel, even if the panel has a "mains" breaker.
>
>> Our point of disagreement is whether
>> we should connect the "third wire" in the amplifier power cord to N (my
>> opinion) or to G (K9YC's opinion).
>
> Code is pretty clear - you can't bond neutral to the frame with a few
> exceptions associated with dedicated legacy circuits for certain appliances,
> none of which apply in this case. I you have 120 volt loads within "240
> volt" equipment, you need either a 4-wire circuit, or provide the necessary
> voltage conversion within the equipment via a transformer or otherwise. In
> either case, you can't use the neutral as a substitute for the equipment
> grounding conductor (EGC), and likewise, youc can't bond it to the frame.
>
>> If everything is working properly,
>> the amplifier will work either way, and many users might not notice the
>> difference. That said, there are significant safety issues in favor of
>> connecting the amp to N and not to G.
>
>> The 120/240V circuit feeding the amplifier is a multiwire branch circuit,
>> with both neutral and ground required; you don't get to choose between the
>> two, you need both.
>
>> Now consider a typical 240VAC circuit. In the breaker box, there will be
>> an L1 conductor (black), an identical L2 conductor (typically red), an
>> identical insulated (white) wire, and a fourth bare ground wire that is
>> often a lighter gauge.
>
> By "lighter gauge", I think you are speaking of the grounding electrode
> conductor, i.e. the wire that connects the bus bar to the electrode(s) such
> as ground rods, water pipes, ufer, etc.. The sizing of that conductor is
> permitted to be smaller than the service conductors (table 250.66 in NEC if
> you're interested). But for the branch circuit to the amplifier, the
> equipment grounding conductor is going the same as the current-carrying
> conductors, i.e. 14 AWG for a 15A circuit, 12 AWG for a 20A circuit, and 10
> AWG for a 25A or 30A circuit.
>
>> In our
>> hypothetical amplifier, however, which has 120V components (e.g.,
>> filament xfmrs, blowers) and 240 V components (plate xfmrs), there can
>> be significant imbalance. In that case, the neutral wire carries the
>> imbalance current, but no current ever flows through the ground wire.
>
> That's how it should be. You need the neutral for the 120V components, and
> you also separately need the equipment grounding conductor, so a total of 4
> wires from the panel to a 4-wire receptacle, and a 4-wire cord from the
> receptacle to the amplifier. Inside the amplifier, the EGC gets tied to the
> chassis, the neutral is the return for the 120V loads, and the 240V loads are
> across the two legs.
>
>> The problem is that older appliances and amplifiers have only three
>> wires in their power cords, so do we connect them to L1, L2, N or to L1,
>> L2 G?
>
> Replace the power cord with one having all four required conductors.
>
> If the problem is the receptacle on the wall is only 3-wire, but there exists
> both a neutral and an EGC in the box (quite common), replace the 3-wire
> receptacle with a 4-wire receptacle and use the 4-wire cord above.
>
> If the problem is that the branch circuit wiring to the receptacle has two
> legs and a neutral but no EGC, then you can't use it. You cannot use the
> neutral as a substitute for the equipment ground unless it is being re-used
> for a replacement clothes dryer, range, or oven, and even then, only under a
> specific set of conditions (NEC 250.140 if you're interested).
>
>> It is /always/ better to use L1, L2, N, because we know then that
>> any imbalance current will go back to the breaker box through
>> appropriately sized insulated wire.
>
> That would only apply if it were permissible to let the chassis float. Note
> that grounding the amplifier chassis by some means other than through the
> electrical system is not an acceptable alternative. What IS permissible,
> however, is to connect the ground terminal on the receptacle (and the box as
> well, if it is a metallic box) directly to the grounding electrode system,
> and then use a 4-wire cord from the receptacle to the amp, with the green
> wire connected to the amp chassis. But you can't "skip" grounding the
> receptacle by tying the amp chassis to ground alone - the receptacle gets
> grounded first, and then the amplifier cord plugs into the receptacle.
>
>> Note that if your house wiring uses a green insulated conductor for
>> ground, instead of a bare wire, then then you're probably on safe ground
>> (pun intended) using it instead of a white Neutral wire.
>
> Using the green wire as a return path for neutral current? Aside from the
> obvious code violation, it doesn't solve the fundamental problem of having a
> chassis that is not grounded.
>
>> The reason, of
>> course, is that the green and white wires are basically in parallel, all
>> the way from the electrical outlet to the breaker box, so it doesn't
>> make any difference which one you connect to.
>
> It certainly does. Neutral and ground are only equipotential at the point
> where the two are bonded together. Anywhere beyond that point, there will be
> potential on the neutral as a function of conductor resistance and the
> current through it. Also consider the case where a neutral goes open - you
> will have 120 volts on the neutral as soon as a 120V device is plugged in.
>
> EGC should never carry current except under fault conditions. Never ever
> ever. And, with the exception of legacy 3-wire (L1, L2, N) fixed appliance
> circuits noted previously, neutral cannot be used as a replacement or
> substitute for EGC.
>
> --- Jeff WN3A
>
>
>
>
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