260 Custom Disc Motor

Product Overview

The WHEATSTONE 260 Custom Disc Motor is engineered to provide exceptional torque density, precision, and adaptability for specialized motion control applications. With its large-diameter, flat-profile disc design, this motor enables high power output in compact spaces, while offering a wide range of customization options to meet demanding industry requirements. It is ideally suited for robotics, aerospace, medical devices, automation, and defense applications.

Key Features

• Customizable Design – Tailored winding, shaft, feedback systems, and housing options for specific application needs.

• High Torque Density – Delivers powerful torque in a thin, lightweight motor package.

• Low Rotor Inertia – Ensures fast acceleration, deceleration, and superior dynamic performance.

• Precision Control – Optimized for accurate speed and position regulation in closed-loop systems.

• Durable Construction – Advanced insulation and reinforced materials extend service life in harsh environments.

• Scalable Platform – Configurable to meet requirements from high-speed to high-torque applications.

Technical Highlights

• Motor Type: Disc Motor (Flat Motor Design)

• Frame Size: 260 mm series

• Torque Output: High torque with compact dimensions

• Rotor Inertia: Low for rapid dynamic response

• Voltage/Current: Custom windings available per specification

• Cooling Options: Air-cooled, conduction, or optional liquid cooling

• Temperature Range: -10°C to +150°C (custom variants available)

• Protection Class: IP54–IP65 based on configuration

• Applications: Robotics, aerospace platforms, automation equipment, medical instruments, defense systems, and high-precision machinery

• Motor Dimensions

• 

• Electrical Parameters

• Main performance parameters
  Rated Power(KW)	10.5	Insulation Class	F 155℃
  Rated Current(A)	53	Protection Class	IP65
  Rated Speed(RPM)	2500	Operating ambient temperature（℃）	-10~50
  Rated Torque(NM)	40	Weight(KG)
  Maximum Torque(NM)	80

Torque-Speed Characteristics Curve