ProStar MPPT Operator's Manual

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Operation

ProStar MPPT Operator’s Manual

4.0

High Voltage Strings and Grid-tie Modules

Another beneﬁt of TrakStar MPPT technology is the ability

to charge 12 or 24 volt batteries with solar arrays of higher

nominal voltages. A 12 volt battery bank can be charged

with a 12, 24, 36 or 48V nominal off-grid solar array. Certain

grid-tie solar modules may also be used as long as the solar

array open circuit voltage (V

) rating will not exceed the

ProStar MPPT 120V maximum input voltage rating at worst-

case (lowest) module temperature. The solar module docu-

mentation should provide V

vs. temperature data.

Higher solar input voltage results in lower solar input cur-

rent for a given input power. High voltage solar input strings

allow for smaller gauge solar wiring. This is especially help-

ful for systems with long wiring runs between the solar array

and the ProStar MPPT.

An Advantage Over Traditional Controllers

Traditional controllers connect the solar module directly

to the battery when recharging. This requires that the so-

lar module operate in a voltage range that is below the

module’s V

. In a 12V system, for example, the battery

voltage may range from 10 - 15 Vdc but the module’s V

typically around 17V. Figure 4.1 shows a typical current vs.

voltage output curve for a nominal 12V off-grid module.

Figure 4.1. Nominal 12 volt solar module I-V curve and output power

graph

POWER

VOLTAGE

10 15 17

TrackStar

Maximum

Power

Point

Traditional

Controller

Operating Range

CURRENT

VOLTAGE

10 15 17

Maximum

Power

Point

Typical Battery

Voltage Range

12 Volt Module

Current vs. Voltage

12 Volt Module

Output Power

4.2 Battery Charging

4-Stage Charging

The ProStar MPPT has a 4-stage battery charging algorithm

for rapid, efﬁcient, and safe battery charging. Figure 4-2

shows the sequence of stages.

NIGHT

BULK

CHARGE

ABSORPTION

FLOAT

EQUALIZE

VOLTAGE

TIME

Figure 4.2. ProStar MPPT Charging Algorithm

Bulk Charge Stage

During Bulk charging, the battery is not at 100% state of

charge and battery voltage has not yet charged to the Ab-

sorption voltage set-point. The controller will deliver 100%

of available solar power to recharge the battery.

Absorption Stage

When the battery has recharged to the Absorption voltage

set-point, constant-voltage regulation is used to maintain

battery voltage at the Absorption set-point. This prevents

heating and excessive battery gasing. The battery is

allowed to come to full state of charge at the Absorption

voltage set-point. The green SOC LED will blink once per

second during Absorption charging.