 |
Container and cover: impact resistant polypropylene, with FR to UL
94 V0 optional |
|
Terminals per cell:
 |
CV 210-735; 2 terminals per
cell |
|
CV 840-1365: 4 terminals per
cell |
|
CV 1470-1680: 6 terminals per
cell |
|
|
Post Seals: part
epoxy, 2 stage application |
|
Jar to cover seal: heat
bonding method (Hardigg Machine) |
|
Leak test method: 100% of
cells, with pressurized hydrogen |
|
Safety Valve: opens at 2.5 psi,
closes at 2 psi, with flame arrestor in each valve. The Bunsen design
is used. |
|
Patented catalyst in each
cell: improves life by lowering float current, reducing grid corrosion
and reducing water loss. Its effects are even more apparent in higher
temperatures. |
|
Separators: micro-porous glass
mat, H&V is standard. |
|
Plate protection: plate growth
without damage is allowed by a collapsible bridge installed in the
bottom of the container. |
|
Electrolyte: sulphuric acid
solution, 1.300s.g, when fully charged |
|
Float voltage: 2.25 volts
per cell at 77°F
(25°C) |
|
Self-discharge rate: 2%
per month at
77°F
(25°C) |
|
Inter-cell connectors:
plated copper bussbars |
|
Internal air passages aid
heat dissipation, and ensure consistent cell temperatures |
|
Modules:
|
Stackable to 8 high
while certified to UBC seismic zone 4 |
|
Welded steel
construction |
|
Internal air passagers
aid heat dissipation, ensure consistent cell temperatures. |
|
Coated with an acid
resistant powdered epoxy |
|
|
Cell fronts are protected
with a transparent, FR plastic cover. |
