Stabilised Systems
High-Performance PTZ Solutions for Broadcast, Marine, and Industrial Use
The DS-180 and GS200 PTZ cameras offer high-performance, professional-grade imaging for broadcast, marine, and industrial applications.
The DS-180 combines a dual sensor HD/thermal system with 30x optical zoom, 3-axis mechanical and 3-axis digital stabilisation, and direct-drive motors for precise, reliable operation. Being direct drive gives improved reliability as there are no mechanical gears or linkages to fail. Advanced object and radar tracking, continuous rotation via slip-rings, onboard NMEA data overlay, and pre-record functionality make it ideal for marine vessels, UAVs, and fixed installations such as port or coastal monitoring. Its lightweight, rugged carbon-composite housing ensures durability in demanding environments.
The GS200 delivers fully stabilised HD or 4K imaging in a weatherproof, carbon-fibre enclosure designed for plug-and-play operation. With 3-axis stabilisation, 18x optical zoom, and full CCU paint control via radio, fibre or cable, it ideal for live action television applications. It has metadata support for VR/AR workflows and integrates seamlessly into broadcast or professional production systems. The aerodynamic housing reduces wind and weather buffeting, providing inherently stable operation for live events, studios, or mobile production platforms.
Together, the DS-180 and GS200 provide scalable, reliable PTZ solutions, combining precision, stability, and operational flexibility for mission-critical applications.
If you would like more information about the GS200 and the DS-180, please email admin@br-remote.com or call us on +44 (0) 1590 622 440.
DS-180
The DS-180 PTZ camera combines HD/thermal imaging, 30x optical zoom, 3-axis stabilisation, and advanced object tracking in a rugged, lightweight housing for marine, UAV, and fixed installations.
GS200 - Stabilised Gimbal
GS200 is a fully weatherproof, truly ‘plug-and-play’ HD or 4K PTZ camera, affordable in both price and performance. Inherently more stable than ‘open-frame’ systems.