Steca SCCs utilize a shunt controller which is a distinctive method of PV output regulation: this means that the PV array is shorted whenever the battery bank is fully charged. Most of the other SCCs make use of series controllers.
Solar Charge Controller
Installed: Steca Power-Taron 2140
http://www.steca-solar.com/en/art/uid_kategorien/0000581/id_matchcode/up_telekom_laderegler/id_artikel/0000012/bop/0/chksum/9658bc671972d27483dc3be077da8737/beetools.html
Product Specifications
Nominal system voltage: 12/24V
Max module current: 140A
Max load current: 70A
Overvoltage protection: >65V
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The Power-Tarom would be compared to the Apollo T-80 in terms of PV output, battery charging efficiency and management of overloading. As such, we would be connecting identical battery banks, inverters and loads on these SCCs in future.For today, the Power-Tarom would be wired up to top-up the battery bank. No loads would added at this point in time.
Inverter
Installed: SunTechnics STW 700
http://www.conergy.de/en/PortalData/2/Resources/products/photovoltaics/pdf/MIC-TD-ENG-0702.pdf
Product Specifications
Nominal system voltage: 24V
Continuous output power: 700VA
Max output power: 800VA
Peak output power (for 500ms): 1400VA
Power consumption under no load conditions: 13W
Maximum input current: 45A
When placed along-side the Conergy MIC 700W inverter:
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The STW inverter from the Thailand office is based on the same design as the Conergy MIC, hence the similarity in appearance and technical specifications. Two STW inverters would be used as loads to compare the performance of the T-80 and the PT2140.
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