Enerdrive – DC 2 DC 40+amp Battery Charger/ MPPT Regulator Non-Isolated EN3DC40+
Fully automatic, the multistage and multi input Enerdrive DC2DC chargers are robust and feature full with inbuilt dedicated MPPT Solar Regulator. The ultimate solution when you need to choose to charge from the engine when running or solar panels when stationary in sunny conditions.
Once set, selecting the charge source is fully automatic and controlled from within the unit without the need for external relays. Under normal charging conditions, the ePower DC2DC will do a full charge to float stage on the house battery and you can choose either GEL, AGM, Flooded, Custom Programmable or Lithium, with all the relevant information visible on the LCD display.
Employing three stage charging, once the float stage is reached, the unit will shift to power supply mode to support the on-board DC loads and/or hold a constant and safe permanent charge level. This means the charger can be permanently connected to your battery systems safeguarding the health recommendations of deep cycle batteries.
- Two totally independent DC Inputs for both engine and solar regulation charging one house battery bank output
- DC M6 screw terminals that will allow for large battery cable connection between all sources
- A dedicated Maximum Power Point (MPPT) solar regulator
- The same battery algorithms as included in Enerdrives AC mains ePOWER battery charger. GEL, AGM, Flooded, Lithium and the ability to create a full custom profile
- Vehicle input allows for either 12v or 24v and a maximum solar input of 45V/800W
- 40A+ output up to 40+°C with thermo controlled fan cooling
- Fully programmable LCD display to show which source is charging the battery along with charger status, voltage and amperage
- Temperature sensor included with charger for more accurate battery charging
Three Stage Charging Process
The ePOWER DC2DC+ Battery Charger is a fully automatic, set and forget charger. It is designed to quickly and accurately recharge your deep cycle batteries utilising charger algorithms that help to maximise the life of your specialised deep cycle batteries,
The ePOWER DC2DC+ Battery Charger features multistage smart charging technology that enables the charger to be connected to your battery bank permanently. With the input of multiple sources, you can be assured of charging your batteries whenever underway; or when the sun is shining on your solar array.
As dictated by battery manufacturer’s recommendations, deep cycle batteries require a multistage charge sequence for perfect, fast and accurate charging. The Enerdrive ePOWER DC2DC+ smart charger delivers three primary charge stages.
Stage 1 – Bulk or Boost charge; The battery is charged at full rated output current of the charger until the battery reaches its final charging voltage, known as its absorption voltage. In this step, around 80% of the battery is recovered as fast as possible.
Stage 2 – Absorption Charge; With the charger voltage held steady, the remaining 20% is replaced with the charger allowing the current to taper off as the battery approaches full charge.
Stage 3 – Float; Finally, in the float stage the charger voltage is lowered and held at a constant and safe predetermined level. This prevents the battery from being overcharged, yet allows the charger to supply enough current to make up for the self-discharge losses of the battery, while supporting any additional loads connected to the battery (such as DC lighting and refrigerators). This stage allows for the charger to be used as a DC power supply.
Smart Charging Feature
The ePOWER DC2DC+ Battery Charger will regulate its output based on the loads connected to your battery bank. This function is important to maintain the life of your battery bank as some battery chargers mistake loads for discharge and continue to keep the batteries in the bulk or absorption stage for extended periods of time, which will damage the battery bank. The ePOWER DC2DC+ Battery Charger has two methods of load based regulation to ensure your battery charger transitions to float when it should do so.