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What does
the SPIRALCELL design do?
The unique design of the SPIRALCELL Technology provides many features
not available in ordinary batteries. The following is a summary.
SPIRALCELL provides more plate surface, closer plate spacing, ability to
use high purity lead. RESULTING IN:
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Low
internal resistance. This low resistance gives you more power in a
smaller box, ability to recharge much faster, higher, cleaner voltage
characteristics during discharge.
IMMOBILIZED plates (locked in place). RESULTING IN:
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Improved
vibration resistance, no shedding of active paste material, no gradual
loss of power and capacity as the battery ages. This gives you a battery
that lasts longer and performs better throughout its life.
Back to the questions.
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Does
Optima ever gas?
When used with a properly regulated constant voltage charging system
(such as an alternator) the Optima will usually not emit hydrogen gas.
However, gassing can occur when charging at higher voltage levels or in
extreme high temperature conditions. In automotive applications this
typically will not happen if the alternator/regulator stay below 15
volts.
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Does
Optima Deep Cycle have a 'memory'?
Lead-Acid batteries do not suffer from memory effect. Many people think
they have a memory because they experience a reduction in capacity or
run-time as the battery ages. The active paste material in a lead-acid
battery is a consumable item, similar to tread on a tire. Every time you
cycle the battery some of the paste is used up. As the battery ages,
less of the active paste is available to charge and discharge, resulting
in a reduced operating time. This situation can be more apparent in the
case where a high power or SLI battery is used in a deep cycle
application. The plates of an SLI batter y are designed for high
current, short duration discharges. Plates in deep cycle batteries are
better suited to repetitive deep discharge applications.
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Why the
low rate of self-discharge?
Mostly this is due to the purity of the lead in the Optima plates. Some
of the alloys in conventional batteries are more prone to electron
transfer resulting in self discharge than the what is used in the
Optima.
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Can you
trickle charge an Optima? Solar card charger?
Yes, you can use any charger on an Optima as long as the voltage is
regulated properly. If your charger will remain on indefinitely the
voltage should be at 13.8 volts maximum with a one amp maximum current.
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Will my
high-output alternator damage the Optima?
No, as long as the voltage is properly regulated. Because the Optima has
a very low internal resistance it will accept high current more
efficiently than conventional batteries.
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Will it
discharge the battery if left sitting on concrete?
No, today's batteries utilized polypropylene plastic for the case
material. They will not be effected. When possible, always store a
battery in a cool dry location.
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Can I
hook an Optima up in parallel with my other battery?
No, when hooking batteries together in parallel they should be of
identical make, model, and of similar age.
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Can I use
an isolator with an Optima?
Yes, most any type of battery separator or solenoid can be used with an
Optima. The important thing to remember is that the charging voltage
must be within Optima's suggested limits. If you are using an Optima and
a conventional battery, your system must charge each battery
independently. Remember, some isolators cause a voltage drop, make sure
your charging voltage AT THE BATTERY is sufficient. Continua
undercharging of a battery will lead to premature failure and a drop in
capacity.
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Why does
the Optima last longer?
The main reasons for Optima's longer life are:
NO shedding of active paste material. The SPIRALCELL design immobilizes
the plates preventing the active past from working loose, which can
cause plate to plate shorting.
High purity lead-tin grid. Optima's grid material is more resistant to
grid degradation. A type of internal corrosion that affects the plates
inside a battery as it ages.
SEALED design prevents loss of water which can lead to plate dry out and
failure.
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What is
the difference between your deep cycle and starter battery?
The Optima deep cycle battery utilizes a different chemistry for the
active paste material on the plates, and a slightly stronger acid. This
chemistry changes allows for a much longer life in cycling applications,
with only a slight reduction in power.
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What does
deep cycle mean?
Deep cycle means using the battery in an application that will typically
discharge 60% to 70% or more of the batter y capacity. An automotive
battery is an SLI (starting, lighting, ignition) battery. It's plates
are designed to deliver maximum power for a short duration. Starting a
car typically discharges an SLI battery only 1% to 3%. When an SLI
battery is used in a deep cycle application, or in a vehicle with heavy
accessory loads, the battery life will be shortened proportionally to
how deeply it is cycled on a regular basis.
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When
should I consider a deep cycle?
Any time you need the battery to supply all the operating power for a
vehicle or other device. Additionally, deep cycle batteries should be
used in vehicles that have heavy accessory loads where the alternator
cannot maintain the battery in a fully charged condition.
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What is a
Gel Cell Battery?
A gel battery design is typically a modification of the standard lead
acid automotive or marine battery. A gelling agent is added to the
electrolyte to reduce movement inside the battery case. Many gel
batteries also use one way valves in place of open vents, this helps the
normal internal gasses to recombine back into water in the battery,
reducing gassing.
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How does
a Gel Cell compare to your deep cycle?
Most gel batteries have a much higher internal resistance, meaning they
will not be able to deliver and receive current as efficiently. This is
especially apparent at higher amperage levels. For example, most gel
batteries will not work successfully in engine starting applications.
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