NEXT GENERATION BATTERIES Protecting Your MHE Fleet Protecting Your Warehouse Floors Protecting Your Vehicle Operators Protecting Your Bottom Line Contact Us Today! Protector Video Demonstration Contact Us Directly Product Specs The Battery Watering System Single point watering systems have become the norm in flooded applications thanks to reducing maintenance time spent watering batteries dramatically. Although they have reduced the time required to water batteries, they have done little to prevent batteries from being watered in a discharged state. This leads to overflow of electrolyte during subsequent recharge. Protector batteries unique overflow resistant watering configuration dramatically reduces the risk of battery overflow. Protector batteries provide an increase in air reservoir within battery cells above the watering system shutoff height. This added room results in a safeguard against acid overflows caused by watering before the battery reaches 100% state of charge. Standard With limited air reservoir above the watering system shutoff height, traditional flooded lead acid batteries provide no margin for error in the battery state of charge at which water is added. PROTECTOR Technical Advantages Click and learn more about each technical advantage of the cutting-edge PROTECTOR Battery System. Chemical Protector batteries tubular plate maximizes the lead surface area for electrolyte to react with. This increased chemical reaction surface unlocks a greater energy storage capacity per pound of lead, helping to maximize vehicle run times. Electrical Traditional burned on lead intercell connectors represent a source of heating and lost efficiency within a battery. Protector batteries flexible high strand count copper cabling has a lower resistance resulting in superior electrical conductivity. Mechanical The mechanical advantages of Protector batteries go beyond their unique watering configuration. The European style fully-insulated bolt heads and flexible copper cable connectors protect against possible short circuits across exposed intercell connections.