Changes

Load is measured in total daily amp-hours (AH), which is simply the average current drawn per hour times 24 hours. Calculating this is a major task subject to much second-guessing. The first step in calculating load is to determine the combined DC and AC AH -DC load for all ‘appliances’. Use a spreadsheet to list each item and its wattage or current draw, depending on which is available. For the DC, make sure you work entirely in either 12 or 24 V. For the AC start with watts and divide by the VDC to approximate the DC AH. See [[ElectricalCapacityDC]] and [[ElectricalCapacityAC]].

This example yields a <i>Daily Charging Period</i> of 0.7 6 hours or 42 36 minutes.A spreadsheet is provided: [[Media:HousebankCalculation.xlsx|MS Excel format]]

<tr> <th>Line</th> <th>Item</th> <th>Amount</th> <th>Calculation</th> <th>Comments</th></tr><tr> <td>A</td> <td> Total Daily Load AC (DC AH)</td> <td> 200</td> <td> &nbsp; </td> <td> Normalize to 12 or 24 VDC (AC watts/DC voltage)</td></tr><tr> <td>B</td> <td> Total Daily Load DC AH</td> <td> 50</td> <td> &nbsp; </td> <td> Normalize to 12 or 24 VDC (DC watts/DC voltage)</td></tr><tr> <td>C</td> <td> Total Daily Load AH</td> <td> 250</td> <td> = A + B</td> <td> </td></tr><tr> <td>D</td> <td> Charging Interval (days) </td> <td> 1</td> <td> &nbsp; </td> <td> </td></tr><tr> <td>E</td> <td> Battery Drain Between Charges AH</td> <td> 250</td> <td> = C * D</td> <td> Amount to recharge</td></tr><tr> <td>F</td> <td> Battery Efficiency Factor</td> <td> 1.1</td> <td> &nbsp; </td> <td> Typically 90%</td></tr><tr> <td>G</td> <td> Charging (Safety) Factor %</td> <td> 400</td> <td> &nbsp; </td> <td> Use 350-400+</td></tr><tr> <td>H</td> <td> House Bank Required AH</td> <td> 1100</td> <td> = E * F * G</td> <td> </td></tr><tr> <td>I</td> <td> Battery AH</td> <td> 275</td> <td> &nbsp; </td> <td> Use the AH rating of selected battery</td></tr><tr> <td>J</td> <td> Number of 8D Batteries</td> <td> 4</td> <td> = H / I</td> <td> </td></tr><tr> <td>K</td> <td> Battery Capacity</td> <td> 1100</td> <td> = I * J</td> <td> Reality check in case H and K are not equal. </td></tr><tr> <td>L</td> <td> Charging Factor %</td> <td> 33</td> <td> &nbsp; </td> <td> 25% is the norm for flooded cell; 40% for gel cell; 50+% for AGM</td></tr><tr> <td>M</td> <td> Basic Charging Rate AH</td> <td> 363</td> <td> = K * L</td> <td> </td></tr><tr> <td>N</td> <td> Fixed DC Load AH</td> <td> 5</td> <td> &nbsp; </td> <td></td></tr><tr> <td>O</td> <td> Fixed AC Load AH</td> <td> 50</td> <td> &nbsp; </td> <td>Normalize to 12 or 24 VDC (AC watts/DC voltage)</td></tr><tr> <td>P</td> <td> Other DC Load AH</td> <td> 0</td> <td> &nbsp; </td> <td> Load while charging</td></tr><tr> <td>Q</td> <td> Required Charging Capacity AH</td> <td> 418</td> <td> = M + N + O + P</td> <td> </td></tr><tr> <td>R</td> <td> Time to Charge Hours</td> <td> 0.76</td> <td> = E / M</td> <td> </td></tr></table>

See [[ACSecondarySystems]] and [[DCPrimarySystem#Charging_Systems]].