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The ProTek R/C "Prodigy 66 Duo AC/DC" LiHV/LiPo/LiFe/NiMH AC/DC Battery Charger is a dual port AC/DC charger that can handle 6S packs, is capable of up to a 6 amp charge rate, worldwide 100V/220V voltage versatility, with two 50 Watts of power... the next generation of Prodigy has arrived.
Two Independent Outputs The Prodigy 66 DUO AC/DC features dual inputs to simultaneously charge two independent battery packs. This provides the flexibility to set charging parameters independently for each channel to accommodate for nearly any need.
Hi-Voltage Capable This charger features a Hi-Voltage LiHV mode that allows you to safely charge Hi-Voltage LiHV capable batteries. You can adjust the charging end voltage of this mode up to 4.40V per cell, which is considerably higher than 4.20V per cell of an ordinary LiPo battery. Charging at this higher end voltage requires a Hi-Voltage LiHV capable battery, but the power gains are significant to the overall punch and power for the R/C model. But please note: battery voltages exceeding 4.20V per cell is prohibited from sanctioned racing rules, such as ROAR, IFMAR, etc.
Dual Power Input The power source can be 11-18V DC input or a 100-240V AC source. With a builtin power supply, users can directly connect the AC power cord to the main AC input. The power supply can accept AC power from all over the world without the worry of damage.
Features:
Specifications: AC Input Voltage: 100V-240V DC Input Voltage: 11V-18V Chemistry: LiPo, Li-Ion, LiFe, LiHV, NiMH, NiCd, Pb Cell Count: LiPo/Li-Ion/LiFe/LiHV: 1-6S; NiMH/NiCd: 1-15 cells; Pb: 2-24V Voltage Cutoff (per cell): LiPo: 4.18-4.22V; Li-Ion: 4.18-4.20V; LiFe: 3.68-3.8V; LiHV: 4.30-4.40V Display: LCD; blue back light (non-touch) Dimensions: 177x150x55mm Charge Current: 6.0A x2 Charge Power: 50W max. x2 Balance Current: 400mA/cell Cooling System: Fan Weight: 930g Safety Timer: 1-720min or off Discharge Current: 2.0A x2 Discharge Power: 5W x2 max. Memory: 10 different profiles
Includes:
How To Calculate Your Charging Needs To determine if this charger is suitable for your application, you must perform this calculation to determine the maximum amp rate the charger can supply. Divide the Watts of the charger by the Voltage of the battery pack. This will tell you the maximum amp rate the charger can deliver (Watts / Voltage = Amps). For example, if using the Touch 625 AC and a 6S LiPo battery, you would divide 200 Watts by 22.2 Volts to realize a 9 Amp charge rate. This means that the charger can supply a maximum of 9 amps to a 22.2 Volt 6S battery. This amp rate will gradually reduce as the battery voltage increases during the charge cycle.
LiPo Battery & Charger Warnings: