ETI's
Battery Technology
Energy
Technologies, Inc. (ETI) manufactures its UPS
Internal and External Battery Modules using the
safest and highest reliability designs. The following
describes several of the features of this design.
Suitable
for All Forms of Transport – Non-Hazardous
One
of the typical areas of concern is the transportation
of batteries. Many types of lead acid batteries
are considered Hazardous Materials. As such those
standard batteries must be specially marked and
receive special handling. ETI utilizes batteries
that meet Department
of Transportation CFR
49, Section
173.159 paragraph d and IATA (International
Air Transportation Association), Dangerous
Goods Regulations, and United Nations recommendations
UN2800. As such they are not classified as dangerous
goods and are suitable for all forms of shipment
without special markings or special handling.
This includes commercial motor vehicle, both
passenger and cargo vessels (ships) and both
passenger and cargo aircraft. This includes those
UPS units that have internal batteries as well
as those having external modules.
Sealed,
Valve Regulated – No Escaping Gases
One
of the hazardous issues with standard battery
designs is the evolution of hydrogen gas during
battery charging. In normal lead acid batteries,
this gas is released to the atmosphere through
vents. In the designs used by ETI, the battery
is totally sealed with only a self-resealing
pressure relief valve for safety. The battery
starts out at a negative pressure with a nitrogen
purge. All gases and vapors are retained within
the battery case. In addition, ETI’s charger
designs avoid overcharging the battery to avoid
out-gassing and to maintain maximum battery life.
Absorbed
Electrolyte – No Free Liquid
Another
area that causes concern with lead acid batteries
is the potential for them to leak electrolyte
or acid. The technology used by ETI incorporates
plate separators that are micro-porous glass
fiber that also serves to retain the electrolyte
in suspension. This results in no free liquid
within the battery case. If the battery case
ever became ruptured, no battery acid would leak.
In fact if you cut the battery in half, it still
would not leak. In addition, this design is superior
to the previous ‘gel cell’ technology that has
proven to be less reliable.
Maintenance
Free, Recombinant Technology – No Need to Add
Water
The
charging and discharging processes are chemical
reactions releasing water in one cycle or producing
hydrogen and oxygen in the other. Traditional
lead acid batteries have required the addition
of distilled water periodically to make up for
lost water or gases through this process. This
is true even for the so-called ‘maintenance free’
batteries that we buy for our cars and trucks.
The battery technology utilized by ETI incorporates
a built-in design that controls the generation
of gases and induces recombination of more than
99% of the gases generated. Combined with the
truly sealed case design, this results in no
maintenance required.
Flame
Retardant – Does Not Support Combustion
Most
battery cases manufactured today are made of
high-impact ABS plastic resin materials. If a
fire or other source of ignition were in contact
with a battery case, the plastic resins would
ignite and support combustion on their own. The
melting plastic can carry the fire to other equipment
via the ‘dripping flame.’ Also as part of the
combustion process, the burning plastic releases
toxic fumes into the atmosphere. As remote as
this may be, ETI considers this unacceptable.
The battery cases ETI incorporates in its products
are constructed of flame retardant materials
that meet UL94-V0, with an oxygen index of greater
than 28. This means that the battery case will
retard combustion from external sources and will
not burn on its own.
Shock
and Vibration – Survives the Rugged Real World
The
ETI Battery Modules are specially constructed
to survive harsh environments such as found on
board ships, submarines, aircraft, transport
vehicles and field deployed equipment. Batteries
have traditionally been a problem for equipment
subjected to shock and vibration. Since batteries
are primarily lead, they have a concentrated
mass that requires rugged designs to contain
them in place. Without it, the batteries break
free and destroy themselves and any equipment
in the same enclosure. ETI designs all of its
battery modules to withstand the rigors of Mil
Std 901 and 167 for shock and vibration. This
includes putting a metal shroud around the batteries,
providing shock absorbing materials between the
batteries to prevent case abrasion, using fully
insulated terminals and stainless steel hardware.
This design has been proven out in numerous formal
shock and vibration tests as well as the real
life tests of thousand of deployed systems aboard
Navy ships and aircraft, Marine vehicles, and
Army/NATO field deployed systems.
Safe
Handling – No Need for a Crane to Install
As
we all know, batteries are heavy and awkward
to handle. We also know that the bigger your
load or the longer your backup time, the more
batteries you need. ETI’s standard designs take
the human aspect into consideration. The size
of each battery module considers the type on
installation and how they will be installed.
To this extent, the internal battery modules
and the rackmount battery extension modules are
kept to a weight limitation that can be handled
by one or two persons. To further aid in this
installation, handles or handholds are installed
to facilitate safe and secure installations.
Also all terminals are fully insulated to prevent
electrical contact and all metal corners are
rounded to avoid cuts to the installer.
Orient
in Any Direction - No Need to Mount in One Direction
All
of the ETI battery modules feature the unique
sealed-construction design that permits them
to be stored, charged or discharged in any position
with no danger of leakage. This means that the
user has more choices in his installation design
for this equipment. For example, the same module
can be mounted horizontally in a rack, on a table
or on the floor; or vertically on the floor,
deck, wall or bulkhead.
Modularity
– Interchangeability
ETI
designs all of its products with the concept
of modularity and interchangeability between
products. This includes the battery modules.
For example, the standard internal battery module
is used in numerous UPS products. The external
battery modules can be used with multiple versions
of UPS as well.
MSDS
- Material Safety Data Sheet
The
MSDS for the batteries used in ETI UPS products
can be found at the following link: MSDS
This
page was last modified on:
January 01, 2009