Ni-mh rechargeable batteries, Performance characteristics (cont.), 7 internal impedance – Duracell Ni-MH User Manual

Ni-MH Rechargeable Batteries

5.7 Internal Impedance

DURACELL nickel-metal hydride batteries have low

internal impedance

because they are manufactured using

cells designed with thin plate electrodes which offer large
surface areas and good conductivity. Figure 5.7.1 shows
the change in internal impedance with

depth of discharge

.

As demonstrated, the impedance remains relatively constant
during most of the discharge. Towards the end of the dis-
charge, the impedance increases due to the conversion of
the active materials to a non-conductive form.

5.8 Self-Discharge and Charge Retention

The state-of-charge and capacity of the nickel-

metal hydride battery decrease during storage due to
self-discharge of the cells. Self-discharge results from
the reaction of residual hydrogen in the battery with the
positive electrode, as well as the slow and reversible
decomposition of the positive electrode. The rate of
self-discharge is dependent upon the length of time and
temperature at which the battery is stored — the high-
er the temperature, the greater the rate of self-dis-
charge. As illustrated in Figure 5.8.1, cells stored at
0

°

C (32

°

F) retain more of their capacity than those

stored at 20

°

C and 45

°

C (68

°

F and 113

°

F), particularly

after 30 days.

Generally, long term storage of a nickel-metal

hydride battery in either a charged or discharged condi-
tion has no permanent effect on capacity. Capacity loss
due to self-discharge is reversible and nickel-metal
hydride batteries can recover to full capacity by proper
recharging. For example, full capacity of a nickel-metal
hydride battery that was stored at room temperature
for up to one year can be restored by cycling through
repeated charge/discharge cycles.

As with operation at elevated temperatures,

however, long term storage at high temperatures can
lead to deterioration of seals and separators and should
be avoided. The recommended temperature range for
long term storage of nickel-metal hydride batteries is
10

°

C to 30

°

C (50

°

F to 86

°

F).

9

Performance Characteristics (cont.)

Internal Impedance (m

Ω

)

FIGURE 5.7.1

165

180

170

175

DR30

0 20 40 60 80 100

Discharge Capacity (%)

Internal impedance of DURACELL DR30 Ni-MH
batteries at various discharge capacities.

[Conditions: Charge: C/5 for 7.5 hours; Discharge: C/5;
Temperature: 21

°

C (70

°

F); Measurements at 1000 Hz]

Residual Capacity (%)

0 5 10 15 20 25 30

FIGURE 5.8.1

Storage Time (Days)

100

80

60

40

20

0

45

°

C (113

°

F)

0

°

C (32

°

F)

20

°

C (68

°

F)

Self-discharge characteristic of Ni-MH cells at
various temperatures.

[Conditions: Charge: C/3 for 5 hours; Discharge: C/5 to 1.0V;
Temperature: 21

°

C (70

°

F)]