High quality Battery Packs feature more capacity... and a super-low price!
Any racer looking for a competitive edge without a financial compromise will be delighted by Piranha packs . These high-rate packs stand up to the rigors of multiple charging and recharging several times a day, without fear of damage. And with high quality cells and superior assembly, modelers can count on getting significantly more power, performance,and durability for the same price as a regular sport pack!
Piranha battery packs come in many different configurations, to meet a variety of applications:
 Piranha NiMH 7.2V 3000mAh Stick Pack
- Features include high-quality cells and superior assembly.
- Heavy-duty hex welded tabs stand up to the rigors of backyard bashing.
- Run longer — charge less often!
DTXC1960 3000mAh NiMH 7.2V Stick Pack-Std
 Piranha NiMH 7.2V 2500mAh Stick Pack
- Heavy-duty hex welded tabs stand up to the rigors of backyard bashing.
- The highest capacity Piranha pack available, for longest run times!
- The best overall value in DuraTrax Piranha batteries!
DTXC1930 2500mAh NiMH 7.2V Stick Pack-Std
 Piranha 2000mAh NiMH Stick Packs
- Piranha's newest pack features Nickel Metal Hydride chemistry and higher capacity.
- Available with standard connector; 7.2V is also available with a Dean's Ultra connector along with heavy-duty 12-gauge wire for more efficient power.
DTXC1900 2000mAh NiMH 7.2V Stick Pack-Std
DTXC1901 2000mAh NiMH 8.4V Stick Pack-Std
DTXC1902 2000mAh NiMH 8.4V Hump Pack-Std
DTXC1905 2000mAh NiMH 7.2V Stick Pack-Dean's Ultra
 Piranha 1900 Battery Packs
- One of the best values in rechargeable R/C batteries.
- Impressive high capacity, but surprisingly affordable.
DTXC2020 1900mAh 6C Flat Pack
DTXC2021 1900mAh 7C Flat Pack
DTXC2022 1900mAh 7C Hump Pack
Compared to other sport packs, Piranha packs deliver:
- Longer discharge time for even better run times
- Higher peak voltage for increased power output
- Lower internal resistance in cells for holding more charge capacity
- Higher average discharge voltage for maintaining higher output power for duration of run time.
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