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  • Shortcomings of automatic boost timers (Method C) and current‐sensing automatic systems (Method D)

    Shortcomings of automatic boost timers (Method C) and current‐sensing automatic systems (Method D)

    Nov , 27 2021
    In the automatic timer control scheme, the duration of the boost charger is pre‐programmed into the charger’s control system. Chargers equipped with automatic boost timers may, under very specific circumstances, provide just the right duration of boost charging. Under all other circumstances, however, such as a different depth of discharge, or when the connected DC load changes, the pre‐programmed...
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  • What is Dynamic Boost and how does it works?

    What is Dynamic Boost and how does it works?

    Dec , 03 2021
    As with the current‐controlled automatic boost system, Dynamic Boost includes no pre‐programmed boost timer. Unlike the current‐controlled automatic boost system, however, Dynamic Boost automatically adjusts boost duration to take into account differing parasitic DC loads and other variables discussed above. The principle behind Dynamic Boost is simple and straightforward. Refer back to Figure 1. ...
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  • Why Boost Charging is Necessary?

    Why Boost Charging is Necessary?

    Dec , 06 2021
    Boost charging is a very necessary activity during the operation of a VRLA battery in their life time. In this article we are going to discuss about the necessity of Boost charging in details. The following example helps illustrate two facts about reducing battery recharge time: Cutting recharge time in half is more complex than using a charger that delivers twice as many amperes. Multi‐rate charg...
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  • Why flooded SLI batteries in GENSET applications fail sooner and more suddenly than in vehicle applications?

    Why flooded SLI batteries in GENSET applications fail sooner and more suddenly than in vehicle applications?

    Dec , 06 2021
    Even though the batteries perform the identical job of delivering high-rates of current to crank internal combustion engines, the “use model” of batteries employed in gensets is different in one key respect from those employed in vehicles. Batteries used on gensets are charged around the clock, whereas vehicle batteries are charged only intermittently. Flooded SLI batteries used in genset applicat...
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  • Why flooded SLI batteries in GENSET applications fail sooner and more suddenly than in vehicle applications?

    Why flooded SLI batteries in GENSET applications fail sooner and more suddenly than in vehicle applications?

    Dec , 06 2021
    Continuous float charging flooded SLI batteries accelerates the deterioration of polyethylene plate separators to a life shorter than that which battery designers intended. When subjected to continuous float charging, the dominant and earliest failure mode tends to be premature failure of the polyethylene separator. Separator failure typically results in short circuits that prevent the battery fro...
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  • How a new intermittent charging algorithm addresses premature SLI battery failure?

    How a new intermittent charging algorithm addresses premature SLI battery failure?

    Dec , 06 2021
    A new charging algorithm addresses the problems of short genset battery life and sudden battery failure discussed above, while meeting the regulatory needs to deliver non-stop DC power to critical applications. The principle is simple and straightforward. Emulate the beneficial intermittent vehicle charging regime for which SLI batteries were originally designed, but continue charger operation to ...
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  • Suitability of competing charging solutions in Genset applications

    Suitability of competing charging solutions in Genset applications

    Dec , 10 2021
    Instead of polyethylene, AGM type SLI batteries typically employ separators made of fiberglass. Because fiberglass does not oxidize like organic polyethylene, float charging at the battery manufacturer’s recommended float voltage is not inherently harmful to AGM type SLI batteries. Therefore, the intermittent charging method discussed is unlikely to increase the life of AGM type batteries. The dif...
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  • NiCd versus Lead Acid Starter Batteries for Generator Systems

    NiCd versus Lead Acid Starter Batteries for Generator Systems

    Dec , 10 2021
    Apart from a few special applications that use mechanical cranking, such as spring starters, the greatest percentage of generator set systems utilize 12-volt or 24-volt starter motors. For prime power and standby applications, the two most commonly used battery types are lead acid or nickel cadmium (NiCd). This article discusses the differences between NiCd and Lead Acid starter batteries for gene...
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  • Characteristics of Lead Acid and Nickel Cadmium Batteries for Generator starting application

    Characteristics of Lead Acid and Nickel Cadmium Batteries for Generator starting application

    Dec , 10 2021
    The charger strips electrons from the cathode leaving it with a net positive charge and forces those electrons onto the anode giving it a negative charge. The energy pumped into the cell transforms the active chemicals back to their original state. The generator set industry primarily uses an automatic type battery charger for standby applications. The system designer selects the battery type on i...
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  • What is the Life Expectancy of a Lithium Battery for a stationary application?

    What is the Life Expectancy of a Lithium Battery for a stationary application?

    Dec , 10 2021
    One of the key attractions for moving to lithium batteries is the battery life being multiples of what is possible with lead-acid batteries. Yet, with limited operating data in UPS applications available today, it’s natural for potential users to question how long lithium batteries will actually last. To address this question, it’s necessary to first understand how lithium battery packs degrade un...
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  • Seven good reason for installing a Battery monitoring system

    Seven good reason for installing a Battery monitoring system

    Dec , 17 2021
    A battery management system allows users to monitor individual cells within a battery pack. As cells work together to release energy to the load, it is crucial to maintain stability throughout the whole pack. This is where a battery management system (BMS) comes into play. A BMS allows for constant monitoring, gathering, and communicating information to an external interface where users can observ...
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  • What is a portable power station?

    What is a portable power station?

    Dec , 24 2021
    A portable power station provides an individual with an easy source of energy to use wherever they are. If you spend a lot of time outdoors and you’d like to have some energy available to use while you do, then purchasing one of these devices could be a great decision. A portable power station is like a generator that’s easier to use and maintain. These devices include rechargeable batteries ...
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