Blue Sky Solar Boost 2512iX User Manual

Installation and Operation Manual

4

THREE STAGE CHARGE CONTROL

The 2512 is factory configured for a three stage charging process, Bulk, Acceptance and Float. The three stage charge process provides a somewhat

higher charge voltage to charge the battery quickly and safely. Once the battery is fully charged a somewhat lower voltage is applied to maintain the battery
in a fully charged state without excessive water loss. Three stage charge improves battery performance and life while minimizing battery maintenance.

Bulk Charge

The 2512 will be in Bulk charge when battery voltage is below the Acceptance Charge Voltage setpoint. During Bulk the 2512 delivers as much charge

current as possible to rapidly recharge the battery and drive battery voltage up to the Acceptance Charge Voltage setpoint.

Acceptance Charge

When the battery recovers sufficient charge for battery voltage to rise to the Acceptance Charge Voltage setpoint (factory set to 14.2V) current is reduced as

necessary to hold the battery at the Acceptance Voltage. The 2512 remains in Acceptance until the battery is fully charged as determined by either;

1. The 2512 has remained in Acceptance continuously for the Charge Time period (factory set to 2 hours).

– OR –

2. With the IPN-ProRemote display, net battery charge current while in Acceptance decreases to the Float Transition Current setting (factory

set to 1.5A per 100 amp-hours of battery capacity).

Float Charge

Once the battery is fully charged a somewhat lower Float Voltage (factory set to 13.2V) is applied to maintain the battery in a fully charged state

without excessive water loss. During Float a healthy fully charged lead-acid battery will draw

≈0.1–0.2 amps per 100 amp-hours of battery capacity.

TWO STAGE CHARGE CONTROL

Certain battery types or system configurations may require two stage charge control. The 2512 can be configured for two stage Bulk/Acceptance charge

control by setting the Float charge voltage setting to No Float using the IPN-ProRemote. Refer to the IPN-ProRemote operators manual.

FRONT PANEL INDICATORS

FIGURE 1

EQUALIZATION (Omitted on SB2512i)

¾

WARNING: Not all batteries can be safely equalized. Equalization should be performed only on vented liquid electrolyte

lead-acid batteries. Always follow battery manufacturers recommendations pertaining to equalization. Equalization applies a
relatively high voltage producing significant battery gassing. Disconnect equipment that cannot tolerate the high equalization
voltage which is temperature compensated.

The SB2512iX can perform automatic equalization alone, or manual equalization via the IPN-ProRemote. Equalization is essentially a controlled

overcharge which applies a relatively high voltage to bring all battery cells up to the same specific gravity and eliminates electrolyte stratification by heavily gassing
the battery. While equalization parameters are adjustable with the IPN-ProRemote, factory default parameters of 15.2V for 2 hours every 30 days are suitable for
most applications. A minimum net charge current of approximately 3 amps per 100 amp-hours of battery capacity is required for proper equalization.

The equalization timer is a “time at voltage” time accumulator counting in 3 minute increments. The equalization timer will not count down unless the battery

reaches the equalization voltage setpoint. Unless manually canceled the 2512 will stay in equalize for as long as necessary to accumulate the required time at
voltage. If equalize does not complete by end of the charging day it will resume where it left off the next charging day. If equalize does not complete in a reasonable
period of time due to insufficient current, it should be canceled manually via the IPN-ProRemote or by momentarily removing power to reboot the SB2512iX.

Charge Status Indicator
Shows present charge mode and
approximate battery state of charge.

Auxiliary Output Indicator
Shows when auxiliary output is ON for
load control or auxiliary battery charge.

It is normal for the front panel to be
quite warm to the touch when
operating at high power.