TORQ TCM-1022 Full CNC Case Metal Gear Coreless Servo

TORQ TCM-1022 High Torque Micro Servo - RED

The TORQ TCM-1022 High Torque Micro Servo is expertly engineered to cater to the needs of small-scale crawlers.

Key features include rear exit wires, further ensuring that suspension travel remains unhindered. This servo is designed for ultimate clearance all around, making it a standout choice for crawler enthusiasts. 

Features

-          High Torque Output: Delivers powerful performance for small-scale crawlers.

-          Rear Exit Wires: Ensures suspension travel is unhindered for optimal performance.

-          Simplified Installation: Easy to mount due to its unique design.

-          Enhanced Clearance: Designed for ultimate clearance around the servo.

Specifications

-          Dead Bandwidth: 3μs

-          Working Frequency: 1520μs / 330Hz

-          Operating Voltage: 5.0V - 8.4V

-          Motor Type: Coreless Motor

-          Operating Speed:

·       At 5.0V: 0.10 sec/60°

·       At 6.0V: 0.09 sec/60°

·       At 7.4V: 0.07 sec/60°

·       At 8.4V: 0.055 sec/60°

-          Stall Torque:

·       At 5.0V: 9 kg-cm (125 oz-in)

·       At 6.0V: 11.5 kg-cm (160 oz-in)

·       At 7.4V: 12.8 kg-cm (177 oz-in)

·       At 8.4V: 14.5 kg-cm (200 oz-in)

-          Dimensions: 23 x 12 x 27.5 mm (0.91 x 0.47 x 1.08 inches)

-          Weight: 22.0 g (0.78 oz)

-          Connector Wire Length: JR 170 mm (6.7 inches)

-          Output Gear Spline: 25T

Benefits

-         Space Efficiency: Compact design fits seamlessly within small-scale crawler setups.

-     Cost Savings: No need to purchase additional CNC servo mounts and CNC servo arms.

-   Performance Enhancement: Unhindered suspension movement leads to better crawler performance.

-       Ease of Installation: Simplifies the mounting process, saving time and effort.

The TORQ MLS-1022 High Torque Micro Servo - RED is an excellent choice for crawler enthusiasts looking for a high-performance, easy-to-install, and cost-effective servo solution.