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85 kg·cm (8 Nm) Brushless RC Servo Motor, 12V

85 kg·cm (8 Nm) Brushless RC Servo Motor, 12V
85 kg·cm (8 Nm) Brushless RC Servo Motor, 12V
85 kg·cm (8 Nm) Brushless RC Servo Motor, 12V
85 kg·cm (8 Nm) Brushless RC Servo Motor, 12V
85 kg·cm (8 Nm) Brushless RC Servo Motor, 12V
85 kg·cm (8 Nm) Brushless RC Servo Motor, 12V
85 kg·cm (8 Nm) Brushless RC Servo Motor, 12V
from
$379.99
Ex Tax: $379.99
  • Stock: In Stock
  • Model: SCJ009221
  • SKU: SCJ009221
Products Sold: 0
Product Views: 450
  • Description

85 kg·cm (8 Nm) Brushless RC Servo Motor, 12V

Brief

Brushless high torque RC servo motor, 85kg·cm stall torque, 12V operating voltage, is used for steering, vehicle, robot joints and arms, etc., and can control continuous rotation in forward and reverse directions at constant speed. It is a core motor with steel gear, small size and high precision.

Description

Micro radio control servo adopts high precision brushless motor with custom variable speed control function, which can reduce the instantaneous bite strength of gear, and improve the life span.

Features

  • Magnetic encoder sensor: use 12-bit high-precision sensor to measure position.
  • High resolution: non-contact absolute value 12-bit encoder (360 degrees 0.088 degrees).
  • Serial bus type: Support serial bus daisy chain, 254 ID addresses are optional.
  • Position servo control mode: can rotate 0 ~ 360°and multi-turn any absolute angle.
  • Speed control mode: It can control continuous rotation in forward and reverse directions at constant speed, wide speed range.
  • One key to set the middle position: The current position can be freely defined as the initial position or the middle point.

Applications

  • Logistics: transport equipment, shuttles, etc.
  • Medical equipment: cell sorter, mechanical surgical hand, etc.
  • Smart home: turning the camera, automatic opening and closing curtains, etc.
  • Robotics: robot joints, robotic arms, etc.
  • Military field: detection vehicle, gun target steering, etc.
  • Intelligent manufacturing field: can replace partial servo motor, with in a place where space is compact.

Specification

ModelSCJ009221
Electrical SpecificationOperating Voltage12V
No Load Speed0.27sec/60°
Idle Current (at Stopped)40mA
Running Current (No Load)200mA
Stall Torque85 kg·cm (8 Nm)
Stall Current (at Locked)3200mA
Mechanical SpecificationSize62*34*47mm
Limit AngleNo Limit
Case MaterialAluminum
Gear MaterialSteel Gear
Bearing Type2 Ball Bearings
Weight140g
Horn Type15T (7.6mm)
Connector Wire150mm ± 5mm
MotorCore Motor
Storage Temperature Range-30℃ ~ 80℃
Operating Temperature Range-20℃ ~ 70℃
Temperature Range25℃ ± 5 ℃
Humidity Range65% ± 10%
CertificateEMC, ROHS
Control SpecificationCommand SignalBus Packet Communication RS485
Amplifier TypeHalf Duplex Asynchronous Serial Communication
Pulse Width Range0-253
Neutral Position38400bps ~ 1 Mbps
Running Degree360° (when 0 ~ 4096)
FeedbackLoad, Speed, Input Voltage
Position Sensor (Resolution)12 Bits Magnetic Coding (360° / 4096)

Dimensions (Units: mm)

85 kg·cm (8 Nm) RC Servo Motor, 12V

Details

85 kg·cm (8 Nm) RC Servo Motor, 12V

Tips

The RC servo motor is widely used in automatic control occasions. Its output torque, rotation speed, command update frequency, etc. standardize the working performance of the radio control servo motor. Normally, the operation of the RC servo motor depends on the unique pulse command high-level time width of it, and has nothing to do with the frequency of the pulse command. Therefore, the function of the pulse waveform that controls the RC servo motor and the PWM waveform that controls the operation of the motor are different. There is a drive circuit board inside the RC servo motor to ensure a proportional relationship between the output angle and the width of the pulse command. The output angular speed of RC servo motor depends on various factors such as the internal mechanical structure of it, the performance of the motor, and the working voltage. Since the speed of the RC servo motor has nothing to do with the command, in essence, it is not a linear model. When it rotates at a larger angle, its dynamic nonlinearity is more obvious.

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