Battery Selection for Team Associated RC Platforms
Team Associated RC cars cover a wide range of racing categories, from classic RC10 buggies to modern competition-focused 2WD and 4WD platforms. While many AE vehicles share similar voltage requirements, differences in chassis layout, battery tray design, and racing surface make model-specific battery selection important.
Common Battery Voltage and Capacity Ranges for Team Associated RC Cars
| Voltage | Capacity Range | Typical AE Applications | Why Racers Choose This Range |
|---|---|---|---|
| 2S (7.4V / 7.6V LiHV) | 4000–5000mAh | 2WD Buggy (RC10, RC10B7.1, RC10B7.1D) | Lighter weight and quicker rotation, favored for high-grip tracks and short mains. |
| 2S (7.4V / 7.6V LiHV) | 5000–5600mAh | 2WD Buggy & Stadium Truck | Balanced option offering consistent voltage and manageable weight for most club racing. |
| 2S (7.4V / 7.6V LiHV) | 6000–6400mAh | Stadium Truck, RC10DR, long mains | Improved runtime stability and planted feel, especially on rough or low-grip tracks. |
RC10 Buggy Platforms
The RC10 name is most closely associated with 1/10 scale off-road buggies. Modern RC10-based race kits typically use shorty LiPo batteries to allow flexible weight placement and fine-tuning of balance. Battery choice on these platforms often affects steering response, jump attitude, and overall consistency during a race.
Batteries for RC10B7.1 & RC10B7.1D
RC10T and Stadium Truck Platforms
Team Associated stadium trucks place slightly different demands on batteries compared to buggies. Weight and runtime consistency often matter more than extreme punch, especially on rough outdoor tracks or longer club-level mains.
Choosing the Right Battery for Your AE RC Car
When selecting a battery for a Team Associated RC car, racers typically consider more than voltage and capacity alone. Battery dimensions, connector type, and how the pack fits within the chassis can all influence handling and reliability. For this reason, navigating to the correct model-specific collection is often the most efficient way to find a suitable battery setup.