3.6        PRINCIPLES OF OPERATION


































                 FIGURE  3.4  Discharge  profiles   FIGURE  3.5  Discharge  profiles   FIGURE 3.6  Discharge profiles under
                 under  different  discharge  modes;   under  different  discharge  modes;   different discharge modes: same power
                 same current and power at start of   same discharge time (a) Current pro-  at end of discharge. (a) current profile
                 discharge.  (a)  Current  profile  dur-  file  during  discharge.  (b)  Voltage   during  discharge.  (b)  Voltage  profile
                 ing  discharge.  (b)  Voltage  profile   profile  during  discharge.  (c)  Power   during discharge. (c) Power profile dur-
                 during discharge. (c) Power profile   profile during discharge.  ing discharge.
                 during discharge.



                                In the case of a constant-current discharge, the current remains the same throughout the dis-
                             charge. However, the discharge time or service life is lower than for the constant-resistance case
                             because the average current is higher. Finally, in the constant-power mode, the current increases with
                             decreasing voltage according to the relationship

                                                               I = P/V
                             The average current is now even higher and the discharge time still lower.
                                Figure 3.4c is a plot of the power level for each mode of discharge.
                             Case 2: “Hours of discharge” is the same for each mode of discharge.
                                Figure 3.5 shows the same relationships but with the respective discharge loads selected so that
                             the discharge time or “hours of service” (to a given end voltage) is the same for all three modes of
                             discharge. As expected, the discharge curves vary depending on the mode of discharge.
                             Case 3: Power level is the same for each mode of discharge at the end of the discharge.
                                From an application point of view, the most realistic case is the assumption that the power under
                             all three modes of operation is the same at the end of the discharge (Fig. 3.6). Electric and electronic
                             devices require a minimum input power to operate at a specified performance level. In each case,
                             the discharge loads are selected so that at the end of the discharge (when the cell reaches the cutoff