UNINTERRUPTIBLE POWER SUPPLIES     455

                 However, batteries are best kept ‘working’ otherwise chemical degrading occurs internally and
           the battery loses performance. Batteries in these conditions should be heavily discharged periodically
           and immediately charged up quickly with a boost charge, if permissible, followed by a float type
           charge. When fully charged the mode is changed back to trickle charging.
                 NiCd cells should not be trickle charged, and they should be given a heavy discharge-charge
           cycle occasionally to ensure that their internal condition remains in good order.
                 NiCd cells tend to require less attention and maintenance than Pb cells.


           17.2.2 Batteries


           Batteries are used to store DC energy which is later used to supply a block of energy to a load,
           often in the form of a high current for a short time e.g. rewinding mechanism springs in switchgear,
           emergency lighting, emergency instrumentation power for control panels and control devices, starter
           motors on engines and gas turbines.
           Batteries used for heavy current industrial applications are invariable of two kinds:-


           • Lead-acid (Pb).
           • Nickel-cadmium (NiCd).

                 A battery consists of a number of cells connected in series. The series connection is necessary
           to create sufficient load voltage. Each cell has a low voltage which is peculiar to the type of cell and
           independent of the current and rating of the cell. The cell voltages are shown in Table 17.1.
                 The maximum cell voltages during charging should not exceed 2.7 volts per cell for Pb cells
           and 1.85 volts per cell for NiCd cells.
                 Suppose a nominal voltage of 110 DC is required then at least 54 Pb cells or 89 NiCd cells
           would be required.
                 The size of a battery is defined as its ampere-hour capacity, since capacity is related to charge
           (Q) which equals current (I) × time (T ). Hence a battery can supply a large current for a short time,
           or a small current for a large time.
                 Therefore the engineer needs to determine the nature of the load current as a function of time
           over a typical operating period. For example a switchgear battery may be needed to supply instrument
           lamps on a continuous basis and spring charging current on an occasional basis.


                                           Table 17.1. Cell voltages
                            Cell        Open           Load          Minimum
                            type    circuit voltage  voltage during  recommended
                                     fully charged    discharge      discharged
                                       (volts)         (volts)      voltage (volts)
                            Pb          2.05            2.0            1.85
                            NiCd        1.28            1.2            1.0