Renowned S6240 Performance with built in high speed 2 Channel DSMR Receiver
Save Weight, Save Space, Save money (from separately from buying S6240 servo and SR2010 receiver)
Fits in many of the popular 1/10th 2WD Class chassis from TLR , Kyosho, and Team Associated
The ingenious S6240RX saves weight and space by combining a digital high-speed metal geared servo with a 2-channel DSMR receiver in a single unit. The servo itself features the durability of metal gears and is capable of delivering lightning-fast transit times along with 208 oz-in of torque.
The built-in SR2010 receiver is just as impressive. It gives racers a sense of response that feels almost instantaneous, especially when used with a DSMR radio capable of 5.5ms transmission. As if that weren't enough, the S6240RX packs all this capability into a servo case that is shorter than many standard 1/10-scale servos.
This is a great match for the TLR 22 2wd series of vehicles that will allow racers to shave even more weight and off their builds than ever before.
†Requires a DSMR transmitter capable of a 5.5ms frame rate.
‡For complete details on waterproof standards, please refer to the product instruction manual.
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Attention: Horizon Hobby has confirmed that all Spektrum Products being sold by KoKo Technology are counterfeit. We consider it a danger to use these products, waive all liability and will not support any warranty or service in regards to them.
Digital and analog servos have very similar construction and components. They both use the same type of motors, gears, cases, and have a potentiometer. A digital servo is different in the way it processes the incoming signal and converts that signal into servo movement.
An analog servo when it receives a command to move, takes that signal and sends pulses to the servo motor at about 50 cycles per second, which in turn moves the motor to its required position determined by the potentiometer.
A digital servo has a micro-processor that receives the signal and then adjusts the pulse length and amount of power to the servo motor to achieve optimum servo performance and precision. A digital servo sends these pulses to the motor at a much higher frequency which is around 300 cycles per second. This helps eliminate deadband, provides a faster response to the servo motor, smoother motor movement, and has higher resolution and holding power than an analog servo.
There are some disadvantages to digital servos, but the disadvantages are not in any way close to out weighing the advantages. A digital servo will have a higher power consumption (Around 10 to 15 mAh per servo at idle) than an analog servo due to its higher pulse frequency, so larger capacity battery packs are recommended. Digital servos also are more expensive than analog servos which can get very costly in applications that require many servos.