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Grounding and Lighting Protection
Lightning and related static discharge is the number one
cause of sudden, unexpected failures in PV systems. Lightning
does not have to strike directly to cause damage to sensitive
electronic equipment, such as inverters, controls, radios
and entertainment equipment. It can be km away and invisible,
and still induce high voltage surges in wiring, especially
in long lines. Fortunately, almost all cases of lightning
damage can be prevented by proper system grounding. Owners
of independent power systems do not have grounding supplied
by the utility company, and often overlook it until it is
too late.
Our customers have reported damage to inverters, charge controllers,
DC refrigerators, fluorescent light ballasts, TVs, pumps,
and (rarely) photovoltaic panels. These damages cost many
thousands of $, and ALL reports were from owner-installed
systems that were NOT GROUNDED.
GROUNDING means connecting part of your system structure
and/or wiring electrically to the earth. During lightning
storms, the clouds build up a static electric charge. This
causes accumulation of the opposite charge in objects on the
ground. Objects that are INSULATED from the earth tend to
accumulate the charge more strongly than the surrounding earth.
If the potential difference (voltage) between sky and the
object is great enough, lightning will jump the gap.
Grounding your system does four things: (1) It drains off
accumulated charges so that lightning is NOT HIGHLY ATTRACTED
to your system. (2) If lightning does strike, or if a high
charge does build up, your ground connection provides a safe
path for discharge directly to the earth rather than through
your wiring. (3) It reduces shock hazard from the higher voltage
(AC) parts of your system, and (4) reduces electrical hum
and radio caused by inverters, motors, fluorescent lights
and other devices, and not least . . .
GROUNDING IS REQUIRED by the by the wireing code. Low voltage
systems are NOT exempt from grounding requirements.
To achieve effective grounding FOLLOW
THESE GUIDELINES:
INSTALL A PROPER GROUNDING SYSTEM:
Minimal grounding is provided by a copper-plated ground rod,
usually 8 ft. long, driven into the earth. This is a minimum
proceedure in an area where the ground is moist (electrically
conductive). Where the ground may be dry, especially sandy,
or where lightning may be particularly severe, more rods should
be installed, at least 10 feet apart. Connect or "bond" all
ground rods together via bare copper wire (#6 gauge) and bury
the wire. Use only approved clamps to connect wire to rods.
If your photovoltaic array is some distance from the house,
drive ground rod(s) near it, and bury bare wire in the trench
with the power lines.
Metal water pipes that are buried in the ground are also
good to ground to. Purchase connectors approved for the purpose,
and connect ONLY to cold water pipes, NEVER to hot water or
gas pipes. Beware of plastic fittings -- bypass them with
copper wire. Iron well casings are super ground rods. Drill
and tap a hole in the casing to get a good bolted connection.
If you connect to more than one grounded object (the more
the better) it is essential to electrically bond (wire) them
to each other. Connections made in or near the ground are
prone to corrosion, so use proper bronze or copper connectors.
Your ground system is only as good as its weakest electrical
connections.
If your site is rocky and you cannot drive ground rods deeply,
bury (as much as feasible) at least 30 meters of bare copper
wire. Several pieces radiating outward is best. Try to bury
them in areas that tend to be moist. If you are in a lightning-prone
area, bury several hundred feet if you can. The idea is to
make as much electrical contact with the earth as you can,
over the broadest area feasible, preferably contacting moist
soil.
You can save money by purchasing used copper wire (not aluminum)
from a scrap metal dealer, and stripping off the insulation
(use copper "split bolts" or crimped splices to tie odd pieces
together. If you need to run any power wiring over a distance
of 10 meters or more, and are in a high-lightning, dry or
rocky area, run the wires in metal conduit and bond the conduit
to your grounding system.
WHAT TO CONNECT TO YOUR GROUND SYSTEM:
GROUND THE METALLIC FRAMEWORK of your PV array. (If your
framework is wood, metalically bond the module frames together,
and wire to ground.) Be sure to bolt your ground wires solidly
to the metal so it will not come loose, and inspect it periodically.
Also ground antenna masts and wind generator towers.
GROUND THE NEGATIVE SIDE OF YOUR POWER SYSTEM, but FIRST
make the following test for leakage to ground: Obtain a common
"multi-tester". Set it on the highest "milliamp" scale. Place
the negative probe on battery neg. and the positive probe
on your ground system. No reading? Good. Now switch it down
to the lowest milli- or microamp scale and try again. If you
get only a few microamps, or zero, THEN GROUND YOUR BATTERY
NEGATIVE. If you DID read leakage to ground, check your system
for something on the positive side that may be contacting
earth somehow. (If you read a few microamps to ground, it
is probably your meter detecting radio station signals.)
Connect your DC negative to ground ONLY IN ONE PLACE, at
a negative battery connection or other main negative junction
nearby (at a disconnect switch or inverter, for instance.
Do NOT ground negative at the array or at any other points.
GROUND YOUR AC GENERATOR AND INVERTER FRAMES, and AC neutral
wires and conduits in the manner conventional for all AC systems.
This protects from shock hazard as well as lightning damage.
PV ARRAY WIRING should be done with minimum lengths of wire,
tucked into the metal framework, then run through metal conduit.
Positive and negative wires should be run together wherever
possible, rather than being some distance apart. This will
minimize induction of lightning surges. Bury long outdoor
wire runs instead of running them overhead. Place them in
grounded metal conduit if you feel you need maximum protection.
SURGE PROTECTION DEVICES bypass the high voltages induced
by lightning. They are recommended for additional protection
in lightning-prone areas or where good grounding is not feasible
(such as on a dry rocky mountain top), especially if long
lines are being run to an array, pump, antenna, or between
buildings. Surge protectors must be special for low voltage
systems..
SAFETY FIRST!!! If you are uncertain of your ability to wire
your system properly, HIRE AN ELECTRICIAN!
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