Nautilus

Tether Management System

Our Latest Innovation

The Hybrid Robotics Nautilus Tether Management System (TMS) is a cost-effective, rugged, reliable smart winch for uncrewed surface vessels (USV). 

The Nautilus offers the latest in technology without reducing functionality. It has onboard communication, high-torque electronic motors, a spool tensioner, and integrated braking. Its lightweight design allows for easy integration on any USV platform and adds to mission capability without downtime.

High Performance Mechanics


With a high drum torque (max 120Nm) and substantial spooling pull force (~40kg), the TMS is designed to handle demanding tasks effortlessly.

Compact Design



Despite its powerhouse capabilities, the TMS boasts a minimal footprint (604mm x 246mm x 355mm) and a lightweight build (21.3kg), making it ideal for seamless operations.

Future Ready Technology



The Nautilus’ software will be updated to integrate future technological advancements, enhancing its longevity and adaptability.

Robust Communication 



All system communications are streamlined via LAN network for reliable and secure data transfer. The Nautilus TMS can be controlled through an onboard API as well as web-based interface.

Intelligent Control



The Nautilus TMS utilizes three independent motors for  control, adjusting settings based on tether diameter and maintaining correct positioning during spooling.

Submersible & Versatile



The Nautilus is a versatile submersible designed for different marine environments, adjusting automatically to various tether specifications for optimal performance.

Reliable Memory



The Nautilus TMS remembers its last position, resuming operations smoothly after any interruption without manual intervention. Combined with a sturdy drum brake and leadscrew driven levelwind, it ensures stability and safety during operations.

Advanced Levelwind 



The levelwind system uses motor encoders and redundant sensors for precise positioning, with an additional endstop sensor for safety. Tensioning system with pinch wheels maintains consistent tension for tethers and payloads.


Interested in a Nautilus Tether Management System?

Join us for a virtual demo to experience a Nautilus Tether Management System in action. The Director of Research & Design will guide you through the web interface, explore the backend documentation, and respond to any integration queries.

Request A Demo

Specifications

SOFTWARE
  • Communication Web Interface & API
PHYSICAL
  • Weight (No Tether) 24kg

  • Continuous Motor Torque/Max Torque 48nm /120nm

  • Continuous Pull Force

    40kgf
  • (Varies based on tether diameter and Amount of Tether on Spool)


  • Brake Holding Torque 100nm

  • Max Pull Force 140kg
  • (Drum Stationary With Brake Applied)

  • Max Spool Speed @ Rated Torque  24rpm

  • Typical Current/Peak Current  0.5-10a/20a

  • Compatible Tether Diameter Range 4-11mm
  • (Rev1.4 & Later will be 4-15mm)

  • Slip-Ring Specs  6 @ 24 Vdc, 2 A / 2 @400 Vdc,10 A

  • Housing REV1.3 Depth Rating   50m
  • (Tested)

  • Housing REV1.4 Depth Rating 100m
  • (Target)

Compatible Tether Diameters

The Nautilus can hold tether with diameters from 4mm to 15mm. The length of tether that can be held is determined by the diameter of tether used. The chart shows the relationship between diameter and maximum length.


Integration

Tether Management System + Remote M1 Surface Power Console

Enhance your USV with a remote-controlled M1 Surface Power Console (SPC) to supply power to an ROV payload on the Nautilus. Our M1 Surface Power Console and Tether Management System work seamlessly together, enabling operators to remotely power and deploy loads from shore.

Learn More About Our Surface Power Consoles

Downloads​

Datasheet


User Manual


Software Manual

3D CAD Model

Interested in Learning More?

Send us a message!

Responsive Customer Service

Our team is dedicated to providing top-notch customer service. If you require assistance with your Tether Management System, feel free to schedule a support meeting with our Director of Research and Design by clicking on the link below. 

Schedule Support