ADVANTAGES AND APPLICATIONS
The DURACELL zinc/potassium hydroxide/manganese dioxide battery system,
commonly referred to as alkaline or Alkaline Manganese Dioxide, is now recognized
as the premium primary zinc anode battery system. It has been selected for
consumer, industrial and military applications where an economical and reliable
battery is required.
Its major advantages (compared to the zinc-carbon battery system) are a
high energy density; the ability to operate continuously at relatively high
discharge rates over a wide temperature range (due to its lower internal
resistance); and a shelf life in excess of four years. The cost of the alkaline
battery, on a service life basis, is lowest in medium to high drain applications.
CHEMISTRY
The components of the alkaline-manganese battery are a zinc anode, a manganese
dioxide cathode, and a highly conductive potassium hydroxide electrolyte.
CONSTRUCTION
The DURACELL alkaline cell is cylindrical in design. A cutaway view of a
representative battery is shown above.
RATED CAPACITY
The DURACELL alkaline battery system is available in standard cylindrical
and multicell configurations (34 mAh to 15,000 mAh).
PERFORMANCE CHARACTERISTICS
Voltage
The open circuit voltage ranges from 1.5 to 1 .6V, depending on cathode
formulation. Typical median operating voltage ranges from 1.3 to 1.1V under
moderate discharge conditions.
Discharge Characteristics
Moderately sloping discharge curve.
Energy Density
75 Wh/lb. (163 Wh/kg); 6.5 Wh/in.3 (398 Wh/l).
Effect of Discharge Load and Temperature
Capable of performance at high discharge rates; typical temperature range:
-4°F to 130°F (-20°C to 54°C).
Shelf Life
Up to 85% capacity remaining after 4 years of storage at 70°F (21°C).
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