Steca Elektronik Catalog PV Off Grid (25|2018)
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HYBRID SYSTEMS<br />
Overview of devices<br />
DC<br />
AC<br />
<strong>Steca</strong> Tarom<br />
Solar charge controller<br />
45 A; 12 / 24 / 48 V<br />
<strong>Steca</strong> Xtender XTS<br />
Hybrid-inverter<br />
700 W - 12.600 W<br />
12 / 24 / 48 V<br />
<strong>Steca</strong> Tarom MPPT 6000-S<br />
<strong>Steca</strong> Tarom MPPT 6000-M<br />
Maximum Power Point Tracker<br />
60 A; 12 / 24 / 48 V<br />
<strong>Steca</strong> Xtender XTM<br />
Hybrid-inverter<br />
1.500 W - 36.000 W<br />
12 / 24 / 48 V<br />
The main feature of a hybrid system is the use of two or more<br />
different electricity sources.<br />
Alongside solar energy, photovoltaic hybrid systems generally employ a diesel<br />
generator, a wind turbine or the public grid as a further electricity source.<br />
The inverters used in hybrid systems, which have integrated battery chargers,<br />
supply the connected AC loads according to demand from the battery bank<br />
of solar energy or the second electricity source. These devices also allow the<br />
batteries to be recharged from the extra energy source.<br />
Photovoltaic hybrid systems offer the advantage that the solar generator<br />
does not have to be significantly oversized for periods of low sunlight. This<br />
avoids substantial costs. When selecting its energy source, the system always<br />
gives priority to the energy provided by the module. In combination with a<br />
controllable second source, the energy supply remains reliable and available<br />
24 hours a day, all year round.<br />
<strong>Steca</strong> Power Tarom<br />
Solar charge controller<br />
55 - 140 A; 12 / 24 / 48 V<br />
<strong>Steca</strong> Solarix PLI<br />
Hybrid inverter<br />
2.400 W - 45.000 W<br />
<strong>Steca</strong> Xtender XTH<br />
Hybrid-inverter<br />
3.000 W - 72.000 W<br />
12 / 24 / 48 V<br />
Important features for single-phase and three-phase<br />
hybrid systems<br />
∙∙Combination of different power sources such as <strong>PV</strong>, wind, diesel generators<br />
∙∙400 V AC three-phase and 230 V AC single-phase available 24 hours a day<br />
∙∙12 V, 24 V or 48 V overall DC bus<br />
∙∙Automatic energy management based on the state of charge calculation<br />
of the battery, including automatic start of controllable power sources like<br />
e.g. diesel generators<br />
∙∙Optimised battery charging algorithm<br />
∙∙Optimised system efficiency through DC and AC bus<br />
Australia<br />
Germany<br />
Marocco<br />
74 75