BOP HIPWR 091719
3-25
3.3.7.1
BATTERY CHARGING/DISCHARGING USING THE BOP
The BOP can charge/discharge batteries using either voltage mode or current mode. The rec-
ommended configuration is to use voltage mode with remote sense connections.
3.3.7.1.1 BATTERY OPERATIONS USING VOLTAGE MODE
Using voltage mode with remote sensing connections provides more accurate voltage control of
the battery, avoiding the effects of both parasitic voltage drops on the connection wiring and the
battery’s internal resistance.
The BOP output voltage is set to the desired battery voltage and current limit is set to the
required charging current value. The BOP will go into current limit, charging the battery with a
constant current. As the battery's voltage nears the BOP voltage setpoint, the BOP will switch to
voltage mode when the battery voltage reaches the “capture” range of the BOP voltage loop.
The voltage loop has a resolution of 14 bits (either local or digital control) versus 12-bit resolu-
tion for the voltage-limit loop. Consequently, the voltage loop accuracy (0.03% of rated output) is
ten times better than voltage-limit loop accuracy.
The charging process continues as long as the voltage remains within the “capture” range of the
voltage mode. Charging current decreases gradually towards the battery's leakage value. This
configuration eliminates the dithering (alternating between current and voltage limit mode)
induced by the battery's internal resistance. The only drawback to using voltage mode is that the
charging current limit resolution/ accuracy is 12-bit/ 0.5%, versus 14-bit/ 0.1% for current mode.
A similar process will take place when discharging the battery. By setting the BOP voltage to a
lower level than the battery's voltage value, the battery discharge current will be established by
the negative current limit setpoint. The discharging value can be different than for charging by
using independent limits to set different values for positive and negative current limit.
3.3.7.1.2 BATTERY OPERATIONS USING CURRENT MODE
The following description explains the drawbacks of using current mode for battery operations.
In voltage mode the voltage feedback comes from the remote sense terminals (OUT_S,
COM_S). However In current mode the voltage limit feedback comes from the local output mon-
itoring terminals (OUT_MON & COM_MON). This protects the load against excessive voltage if
a sensing connection is lost while in current mode.
The result is that if current mode is used to charge a battery (with or without local sensing), the
charging process will stop (putting the BOP into voltage limit mode) at a voltage lower than the
voltage limit set value. This is due to a) the parasitic voltage drop on the connecting wiring and
b) the internal battery's resistance. The BOP, now in voltage-limit mode, senses that battery volt-
age is lower than the voltage-limit set value and switches back to current mode. From this point,
the BOP will change between current mode and voltage-limit mode (dither). The dithering rate
will depend on the battery's internal impedance, the charging set current, the parasitic connec-
tion's resistance and the time it takes the BOP to switch between modes. In some cases, for a
Содержание BOP-ME 1KW
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Страница 64: ...2 22 BOP HIPWR 091719 FIGURE 2 11 PARALLEL CONFIGURATION LOCAL SENSING TYPICAL...
Страница 65: ...BOP HIPWR 091719 2 23 FIGURE 2 12 PARALLEL CONFIGURATION REMOTE SENSING TYPICAL...
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Страница 161: ...BOP HIPWR 091719 3 85 FIGURE 3 29 STATUS REPORTING STRUCTURE...
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