The Citizen RS-771-T is a high-torque DC coreless motor that enhances performance in demanding applications. It is engineered for durability and provides a powerful, efficient solution for various industrial and consumer products.

Applications

• Industrial Automation: Used in automated systems requiring precise and powerful motion control.
• Robotics: Applied in advanced robotic platforms and heavy-duty robotic arms.
• Medical Equipment: Employed in medical devices requiring high torque and reliability.
• Power Tools: Integrated into high-performance cordless tools such as drills and grinders.
• Automotive: Found in automotive systems requiring robust motor performance, like electric vehicle components.

Features

• Coreless Design: Provides exceptional efficiency and rapid acceleration.
• High Torque: Delivers substantial torque for heavy-duty applications.
• Durable Construction: Designed to withstand harsh operating conditions and extended use.
• Long Life: Engineered for an extended operational lifespan with minimal maintenance.
• High Efficiency: Minimizes energy consumption and maximizes power output.

Benefits

• Enhanced Performance: Provides increased power and responsiveness in demanding tasks.
• Reliable Operation: Ensures consistent performance under heavy loads and varying conditions.
• Extended Durability: Reduces downtime and maintenance due to its robust design.
• Energy Efficiency: Minimizes power consumption, extending the operational life of battery-powered devices.
• Versatile Application: Suitable for a wide range of industrial and consumer products requiring high torque.

Technical Specifications

The RS-771-T typically operates within a voltage range of 12 to 36V DC. The no-load speed is around 6,000 RPM at 24V, and the stall torque is approximately 250 g.cm. The motor is constructed from high-quality materials, ensuring durability and reliable performance. It is designed for applications where both power and longevity are essential. Its specifications make it ideal for integration into systems requiring robust and efficient motor capabilities.