Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
Eveready Carbon Zinc (Zn/MnO²)
Application Manual
Eveready Carbon Zinc batteries are marketed in three basic grades—General Purpose, Heavy Duty and
Super Heavy Duty. Super Heavy Duty is the premium Carbon Zinc, which performs better on moderate to
heavy drains or continuous drains versus the Heavy Duty and General Purpose grades.
Carbon Zinc batteries come in two electrochemical systems: the LeClanche and Zinc Chloride. Most
cylindrical Eveready Carbon Zinc batteries are constructed using the Zinc Chloride system with two
different sealing and jacket constructions namely: Paper Jacket and Metal Jacket. Only a few flat cell or
higher voltage carbon zinc multi-batteries such as those used for 9V batteries currently utilize LeClanche
system.
Eveready Battery Company has aggressively pursued the reduction of heavy metals in all Carbon Zinc
batteries. All Eveready carbon zinc batteries have no added mercury or cadmium.
System Description:
Carbon Zinc: A generic term for primary dry batteries of Zinc Chloride system. This battery has an
anode of zinc, a cathode of manganese dioxide, and a slightly acidic electrolyte.
LeClanche: A Carbon Zinc battery with a slightly acidic electrolyte consisting of ammonium chloride and
zinc chloride in water.
Zinc Chloride: A Carbon Zinc battery with a slightly acidic electrolyte consisting mainly of zinc chloride in
water.
Carbon Zinc batteries provide an economical power source for devices requiring light to moderate drain
because of the use of inexpensive materials and their time proven constructions. All Eveready carbon
zinc cells are primary batteries and therefore are not designed for recharging.
The service capacity of a Carbon Zinc battery is not a fixed number of ampere hours because the battery
functions at different efficiencies depending upon the conditions imposed upon it. The service varies with
current drain, operating schedule, and cutoff voltage. The battery is also affected by the operating
temperature and storage conditions.
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e |1
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
The general characteristics of an Eveready Battery Company Zinc Chloride battery are:
Less expensive than alkaline. Economical in terms of cost per hour on moderate current drains
or use frequency.
Less output capacity decrease than LeClanche as the drain rate increases.
Less sensitive than LeClanche to changes in the discharge rate and/or duty cycle.
Lower internal resistance than LeClanche.
Better low temperature performance than LeClanche.
Energy density of approximately 2 to 2.5 watt hours per cubic inch.
Average service maintenance exceeds 90% after one year storage at 21°C on typical tests.
Higher open circuit and initial closed circuit voltage than LeClanche or alkaline.
Lower unit weight than alkaline.
Available in voltages ranging from 1.5 volts to 12 volts and in a variety of shapes and sizes.
Sloping discharge curve.
Battery Construction:
The carbon zinc battery uses a zinc anode, a manganese dioxide cathode, and an electrolyte of zinc
chloride dissolved in water. Powdered carbon is used in the cathode mix, usually in the form of carbon
black to improve conductivity of the mix and for moisture retention.
Carbon zinc batteries are produced in two general configurations:
Cylindrical--available as unit cells or in assembled multi-cell batteries
Flat--available in multi-cell batteries only
Within the carbon zinc cylindrical battery category are two constructions: Paper Jacket and Metal Jacket.
The Zinc Chloride battery contains proportionately zinc chloride in the electrolyte and therefore requires
different battery design as shown in the following diagram:
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e |2
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
PAPER JACKET CONSTRUCTION
METAL JACKET CONSTRUCTION
TOP COVER
TOP RING (PLASTIC)
NAFM CLOSURE
CARIPHALT SEALANT
MIX HOLD-DOWN COLLAR
(WAX IMP. CHESTNUT BOARD)
CARBON ELECTRODE
CATHODE MIX
PAPER SEPARATOR
(PROPRIETARY COATED
KRAFT PAPER)
EXTRUDED ZINC CAN
SHRINK PLASTIC SLEEVE
LOCK-SEAM METAL JACKET
BOTTOM COVER
BOTTOM CUP (SATURATING
PLAIN KRAFT)
BOTTOM RING (WAX IMP.
WHITE CHIPBOARD)
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e |3
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
Cathodes are a mixture of manganese dioxide, carbon conductor and electrolyte.
Anodes are zinc alloy can. The can also confines the active materials in the battery.
Separators are coated paper selected to prevent migration of solid particles in the battery.
Carbon electrode serves as the cathode current collector.
Top and bottom covers provide contact surfaces of plated steel.
The outside of the battery is either covered with plastic film and metal jacket or Kraft paper and a printed
paper label.
Asphalt or plastic seal acts as the battery seal.
Flat cells used in the construction of 9 volt batteries are of the LeClanche system. The flat cell contains
no voids or carbon rod as does the cylindrical battery. The flat cell, because of its rectangular form,
reduces wasted space in assembled batteries. The energy to volume ratio of a multi-cell battery utilizing
cylindrical cells is decreased by the voids occurring between the cells. These two factors account for
substantially higher energy volume ratio for flat cell batteries when compared to batteries consisting of
cylindrical cells. The cutaway of a typical Eveready flat cell battery is shown here:
Typical Eveready Flat Cell LeClanche Components
Cathodes are a mixture of manganese dioxide, carbon conductor and electrolyte.
Anodes are zinc alloy sheets.
Separators are specially selected to prevent migration of solid particles in the cell.
Plastic envelope confines active cell materials.
Carbon conductive coating on the zinc anode serves as the cathode collector for the adjacent
cell.
Wax coating provides the battery seal.
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e |4
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
Connector strips connect the flat cell stack to the battery terminals.
Lithographed steel jacket is electrically insulated from battery components.
Specialized terminals provide positive and negative external contact surfaces.
Electro-Chemistry:
LeClanche
The performance of a LeClanche battery is the result of an electrochemical reaction between:
A cathode composed of carbon and refined manganese dioxide which may contain some naturally
occurring manganese dioxide. The more pure the cathode material, the better the performance. (The
carbon component of the cathode is usually carbon black and provides increased conductivity and
moisture retention.)
An anode of high purity zinc alloy.
A highly conductive, slightly acidic, electrolyte solution of ammonium chloride and zinc chloride in water.
The chemical equation for this reaction is:
2MnO2 + 2NH4Cl + Zn
ZnCl2 2NH3 + Mn2O3 + H2O
Zinc Chloride
The performance of a Zinc Chloride battery is the result of an electrochemical reaction between:
A cathode composed of carbon and refined manganese dioxide which may contain some naturally
occurring manganese dioxide.
a. The carbon component of the cathode is usually carbon black and provides increased conductivity and
moisture retention.
b. Typically, Zinc Chloride batteries have a higher proportion of carbon to manganese dioxide than
LeClanche.
An anode of high purity zinc alloy.
A highly conductive, slightly acidic, electrolyte solution of zinc chloride in water which may contain a small
amount of ammonium chloride.
a. A Zinc Chloride battery contains a greater volume of electrolyte than the same size LeClanche battery.
b. The electrolyte is slightly more acidic than a LeClanche electrolyte.
The chemical equation of this reaction is:
8MnO2 + 4Zn + ZnCl2 + 9H2O
8MnOOH + ZnCl2 4ZnO 5H2O
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e |5
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
A Zinc Chloride battery is typically over 1.60 volts. The closed circuit voltage declines gradually as a
function of the depth of discharge. The energy output of Zinc Chloride batteries is less sensitive to
variations in the discharge current and duty cycle than comparable size LeClanche batteries. Typical D
size performance to a 0.75 volt cutoff is shown in the following diagrams:
The efficiency of a carbon zinc or alkaline battery improves as the current drain decreases as seen in the
above graph. As a result, an important application guide-line should be considered: "For increased
efficiency, use as large a battery as possible, consistent with the physical limitations of the device." This
has the same effect as lowering the current. As an example, doubling the size of a carbon zinc battery
will more than double the service life at a given drain.
The electrochemical inputs of cylindrical D size batteries typically are in a ratio of 2:3:5 for, Zinc Chloride
and Alkaline respectively. The differences in efficiency and rate sensitivity between the two systems
cause variations in actual output in simulated typical applications as shown in the following table and
graph:
Eveready D Size
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e |6
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
Typical Percent
of Zinc Chloride vs Alkaline Service
Test
Load
(Ohms)
Duty Cycle
Zinc
Chloride
Alkaline
Motor Toy
2.2
1Hpd to 0.8 V
100%
250%
Flashlight
2.2
4 min/hr
8 hr/day to 0.9V
100%
300%
Radio
24
4 hr/day to 0.9 V
100%
260%
Carbon Zinc batteries are more efficient when used in low rate applications as shown in the curve below.
Typical carbon zinc light drain is defined as a current that would discharge the battery after 50 or more
hours of use at room temperature.
As the drain is increased, the service difference between Alkaline and Zinc Chloride. systems increases.
This relationship is shown by the following discharge curves. Typical carbon zinc moderate drain is
defined as a current that would discharge the cell within 10-50 hours of use at room temperature.
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e |7
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
Temperature
Changes in temperature will affect the reactivity of battery chemical components. The typical effect on
service of a D size cylindrical battery to a 0.75 volt cutoff is shown in the following diagram:
Light Drain is defined as a current that would discharge the battery after 50 or more hours of use at room
temperature.
Heavier Drains at low temperature will tend to decrease the percent service from that shown in the
above diagram. Zinc Chloride system is affected moderately, and Alkaline the least as the drain
increases. The service on all drains at high temperatures over time is eventually reduced by an increase
in self discharge.
Eveready Carbon Zinc batteries provide good service maintenance due to time tested construction,
quality control of materials and close monitoring of batteries during assembly.
Service Maintenance (storage at 21°C)
Time of Storage at 21C
Typical % of Fresh Service
Retained
1 year
90 ‐ 100%
2 years
80‐90%
3 years
75‐85%
4 years
65‐80%
The storage of carbon zinc batteries at temperatures below 21°C will increase their service maintenance.
While freezer storage (-20°C) of a carbon zinc battery is not harmful, storage at 5 to 10°C is effective.
Batteries to be stored at low temperature storage should be allowed to reach room temperature in their
packing so as to avoid condensations of moisture which may cause electrical leakage and/or destruction
of the jackets. Storage at high temperatures exceeding 21°C for sustained periods of time will
significantly reduce service maintenance. The typical effects of storage temperature on carbon zinc
service maintenance are shown in the following diagram:
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e |8
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
Internal Resistance:
The internal resistance (Rj) of a battery is its opposition to the flow of current. In all cases, this resistance
increases as the temperature of a battery decreases. While the Rj will vary with load for the battery size,
it will be higher for LeClanche than Zinc Chloride which in turn will also be higher than Alkaline. The Rj of
a cylindrical carbon zinc battery increases gradually until it approaches the end of service life and then
increases rapidly.
Internal resistance is typically measured in one of two ways:
1.
As a reduction in closed circuit voltage when the applied load is increased (voltage drop method).
2.
As a maximum short circuit current (flash amperage).
The voltage drop method in determining the effective internal resistance is also used by ANSI.
The Rj values obtained by either method of measurement are subject to number of variables and operator
techniques. The effective Rj values shown on the data pages were calculated by the voltage drop method
as this more accurately projects the batteries current carrying capability in actual device applications.
This calculation involves placing a battery on a constant background load, allowing it to stabilize and then
pulsing it with a heavier load for one second. The resulting voltage drop is then measured and expressed
in terms of Ohms as shown in the following example.
Determination of Internal Resistance (Rj)
Voltage Drop Method
Rj = Internal Resistance
Rb = Resistance of Background Load
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e |9
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
Eb = Background Voltage
Rp = Resistance at Pulse Load
Ep = Voltage at end of pulse
E = Voltage Change
l = Current Change
lb = Background Current
lp = Current at End of Pulse
Although flash amperage does not indicate battery freshness or potential service, circuit designers should
be aware of the maximum current that a battery could supply if a component failure occurs. The following
are typical maximum flash amperage values for Eveready carbon zinc batteries. These flash amperage
values can vary widely without affecting battery service in actual applications.
Typical Maximum Flash
Amperage for CZ Zinc Chloride
Battery
D
9
C
7
AA
5
AAA
3
9V
----
Applications
Eveready carbon zinc batteries will meet a wide variety of device applications utilizing light to moderate
drains, such as:
Alarm Systems
Barricade Flashers
Boom Boxes
Calculators
Clocks
Communications equipment
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e | 10
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
Electrical fence controllers
Electronic games
Flashlights
Fluorescent lanterns
Garage door openers
Home entertainment remote controls
Kerosene heater igniters
Home security devices
Laboratory instruments
Lanterns
Marine depth finders
Motion displayers
Motor driven devices
Penlights
Personal care devices
Portable tape recorders and players
Radios
Radio controlled toys
Remote control transmitters
Small lighted toys and novelties
Smoke detectors (only when recommended by manufacturer)
Specialty High voltage electronic photo flash
Stereo headsets
Test equipment
Toys
This reference manual contains general information on all Energizer/Eveready batteries within the
Carbon Zinc chemical system in production at the time of preparation of the manual. Since the
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e | 11
Eveready Carbon Zinc Battery
Handbook and Application Manual
Energizer Brands, LLC. | 800-383-7323 | www.energizer.com
characteristics of individual batteries are sometimes modified, persons and businesses that are
considering the use of a particular battery should contact the nearest Energizer Sales Office for current
information. None of the information in the manual constitutes a representation or warranty by Energizer
Brands, LLC. concerning the specific performance or characteristics of any of the batteries or devices.
©2018 Energizer Brands, LLC. – Contents herein does not constitute a warranty of service, features or performance
P a g e | 12