Ni-mh rechargeable batteries, Performance characteristics (cont.), 5 constant power discharge characteristics – Duracell Ni-MH User Manual

Figure 5.4.1 compares the

gravimetric

and

volumetric

energy density

of nickel-metal hydride

and nickel-cadmium cells. As indicated, nickel-metal
hydride cells deliver more energy per weight or
volume than nickel-cadmium cells.

5.5 Constant Power Discharge Characteristics

The output energy characteristic of nickel-metal

hydride batteries under the constant power mode at
different power levels is shown in Figure 5.5.1.
As illustrated, the energy delivered does not vary
significantly with increasing power. The power levels
are shown on the basis of

E-Rate

. The E-Rate is

calculated in a manner similar to calculating the

C-Rate

.

For example, at the E/10 power level, the power
for a battery rated at 17.3 watt-hours is 1.73 watts.

5.6 Polarity Reversal During Overdischarge

When cells are connected in

series

, the cell

with the lowest capacity will reach a lower point of
discharge than the others. The more cells that are
connected in series, the greater the possibility of a cell
being fully discharged and driven into overdischarge
and

polarity

reversal. During reversal, hydrogen gas

evolves from the positive electrode. Hydrogen gas
will be reabsorbed by the negative electrode and
eventually oxygen gas will evolve from the negative
electrode. Extended overdischarge will lead to elevated
cell pressure and opening of the safety vent within
the nickel-metal hydride cells.

To minimize the occurrence of polarity reversal,

the cells in DURACELL rechargeable batteries have
capacities that are “matched” to each other. Device
designers can help prevent overdischarge by designing a
cutoff voltage for device operation of 1.0 volt per cell.

Ni-MH Rechargeable Batteries

8

FIGURE 5.4.1

0

50

100

150

200

Ni-Cd

Ni-MH

Wh/kg

Gravimetric and volumetric energy density of Ni-Cd
and Ni-MH cells.

Wh/kg

Wh/L

Wh/L

0

5

10

20

E/10 (1.7)

E (17.3)

E/3 (5.8)

FIGURE 5.5.1

Energy (Wh)

Typical energy of DURACELL DR30 batteries under
constant power discharges.

[Conditions: Charge: 1C to -

∆

V = 60mV; Discharge to 6.0V;

Temperature: 21

°

C (70

°

F)]

Power (W)

15

Performance Characteristics (cont.)