File:Total Load Calculator.xls: Difference between revisions

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(This spreadsheet is for calculating total load of system components. Currently assumes 24v to 110V inverter, 5 Watt draw per xo, 10% loss in Inverter. Most significant variables: Number of hours each group of laptops is expected to be drawing power (amp/)
 
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Number of hours each group of laptops is expected to be drawing power (amp/hrs)
Number of hours each group of laptops is expected to be drawing power (amp/hrs)
If we can power the laptops via D/C, we don't need to multiply our 192 A/C Amp hour load by 110/24=4.58 when we size our array of batteries and PV panels.
If we can power the laptops via D/C, we don't need to multiply our 192 A/C Amp hour load by 110/24=4.58 when we size our array of batteries and PV panels.
[[Category:Spreadsheet]]

Revision as of 20:52, 22 October 2008

This spreadsheet is for calculating total load of system components. Currently assumes 24v to 110V inverter, 5 Watt draw per xo, 10% loss in Inverter. Most significant variables: Number of hours each group of laptops is expected to be drawing power (amp/hrs) If we can power the laptops via D/C, we don't need to multiply our 192 A/C Amp hour load by 110/24=4.58 when we size our array of batteries and PV panels.

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current21:58, 21 October 2008 (15 KB)Dbennett (talk | contribs)This spreadsheet is for calculating total load of system components. Currently assumes 24v to 110V inverter, 5 Watt draw per xo, 10% loss in Inverter. Most significant variables: Number of hours each group of laptops is expected to be drawing power (amp/

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