JR DS6315HV High Torque High Speed Digital Servo with Metal Gears and Heatsink 17.8kg / 0.07sec /80g
164 g
Description
The DS6315HV is part of JR’s range of high voltage digital servos complete with metal case. This high voltage, high torque and high speed servo has been designed for use with large scale aircraft and helicopters.
Battery chemistries such as Li-Po, Li-Ion, and Li-Fe have become very popular within the RC community. They are the standard for powering electric motors and have also gained popularity as receiver battery packs. The issue is the output voltage of these batteries is higher than the previous standard 4 and 5-cell NiCd and NiMH packs, 4.8V and 6V respectively. The higher voltage is not an issue with the receivers but can be for the servos. Many servos will not operate at these higher voltages for very long before burning out the motors or electronics.
To get around this issue modelers have had to use a regulator to drop the voltage to an acceptable operating range for their servos, usually around 5 to 6 volts. The addition of a regulator adds a component that, should it fail, can cause the loss of a model.
JR’s HV servos are designed with motors and electronics that operate off the direct voltage of a 2-cell Li-Po, Li-Ion, or Li-Fe receiver battery pack (6.6V to 7.4V nominal voltage). This eliminates the need for a regulator and lowers the chance for a power failure that can cause a catastrophic failure of your model. Also note that the HV servo specs are shown at the higher voltage (7.4V 2S LiPo) but will still operate on a standard 5-cell 6V NiCd, Ni MH battery with a reduction in performance of approximately 10% in speed and torque.
Specs:
Torque: 17.8Kg.cm (7.4v)
Speed: 0.07s/60° (7.4v)
Weight: 80g
Voltage: 6~8.5v
Dimensions: 38 x 21 x 40.5mm
About Servos Manufactured by JR Propo:
If used on a large control surface - typically aileron, rudder, elevator or flap on an Airplane. Digital Servos (DS / MP / MPH series) may move slightly around centre while on the ground, this is normal and will not occur in flight.