Introduction to the Solar Charge Maximizing Controller & Its System

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A conventional MPPT Solar Charge Controller System would be set up to have a solar array and MPPT Solar Charge Controller to charge a battery or a battery bank. The power capacity is generally limited due to the current capacity limit of the MPPT sA conventional MPPT Solar Charge Controller System would be set up to have a solar array and MPPT Solar Charge Controller to charge a battery or a battery bank. The power capacity is generally limited due to the current capacity limit of the MPPT solar charge controller itself. 

A Solar Charge Maximizing Controller System has all the benefits of a MTTP Solar Charge Controller. To overcome the capacity limit due to the electronic components overheating inside the MPPT Solar Charge Controller itself, the Solar Charge Maximizing Controller provides a high current capacity mechanical switch to allow the solar array to power the DC load directly without overheating the controller itself. 

In Solar Charge Maximizing Controller System, the current may flow to the DC load directly without consuming the LiFePo4 battery's charging cycles, and further extend the service life of the LiFePo4 battery. In a SCMC system, the LFP (LiFePo4) battery works as a reservoir to allow the high current flowing past the battery to power the DC load. The system utilizes the characteristics of the LFP battery to achieve that goal. 

The most important feature of the LiFePo4 battery is that the battery cells can hold 60% of the total LFP battery capacity while maintaining the voltage range of 25.6 V and 26.5 V, in the case of the 24VDC LFP battery.

Following YouTube Videos will provide further explaination.
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The Founder of WH Mechanical Engineering Inc.
(o/a WH Engineering & ENERPAK)

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