Ready-to-Run Competition Spec Drift Car: The RDS is a high-performance 1:10 scale brushless electric 2WD competition spec drift car that comes fully assembled and includes essential radio gear and electronics. It's designed for competitive drifting on various track surfaces.
Battery Compatibility: The RDS does not include a battery or charger to cater to individual tuning preferences. It is compatible with competition style 2S shorty LiPo packs, LCG 2S shorty packs, or standard-sized 2S stick packs, allowing users to choose their preferred battery size and weight.
Precision Engineering for Competitive Drifting: Engineered from the ground up for competitive drifting, the RDS excels on surfaces commonly found on RC drift tracks, including carpet, p-tile, and polished concrete. It can also perform on unpolished concrete and asphalt, though its full potential may not be realized on rougher surfaces.
Comprehensive Drift Package: The RDS includes a range of features tailored for drift enthusiasts, such as a 2.4GHz radio system, a powerful 540 3300kv brushless motor, a 60A brushless ESC, a coreless digital Hexfly Drift-Spec steering servo, and a drift-specific gyro for precise control. The included gyro assists with maintaining a smooth drift.
Customizable and Tunable for All Skill Levels: The RDS offers exceptional adjustability, allowing drivers to fine-tune various aspects, including camber, caster, toe, ackerman, roll center, wheelbase, and center of gravity. This level of customization is valuable for both beginners and advanced drivers. The vehicle also accepts LED light kits (sold separately) for added aesthetics.
Description
We've engineered the RDS from the ground up, for a specific purpose, to compete. The RDS is a highly competitive rear wheel drive drift car that excels on surfaces which are found on many prepared RC drift tracks, such as carpet, p-tile, and polished concrete. The RDS can also be used on unpolished concrete and asphalt, though you may not get to experience its full potential on these rougher surfaces.
