May 25th, 2018
Broadcast RF have various solutions for a number of 3D camera systems all designed in house by our development team.
With 3D taking the broadcast industry by storm we decided to design solutions for all the major 3D rigs being used rather than concentrate on one particular solution. Our in-house development team has designed data systems which allow stereographers and vision engineers to control all significant paint and 3D parameters remotely from the OB vehicle. This includes Convergence and Interaxial controls along with all standard functions such as iris, pedestal and paint. Combining this with high quality dual left eye/right eye encoding we can provide a complete wireless system to compliment your 3D rig. We are also able to adapt and develop further our solutions to cope with the changing technology.
Broadcast RF were the first company to provide a complete solution for the Sony TD300 compact hand held 3D camera. This system adds a second video enconder and a Broadcast RF designed data system to a Link L1500, all built into a single unit which can be docked onto the V-Loc battery plate. Full Sony RCP remote control is provided along with convergence control.
Various receive options are available to suit any application.
More information will be available on our new website shortly but for now please contact our sales office for pricing and more information.
|Wireless camera system to support all major 3D rigs/cameras
Includes Broadcast RF data system for paint and 3D controls
|2.5 GHz £1,650 per day
7.2 GHz £1,750 per day
|Sony TD300 3D Camcorder||£500 per day|
|Other 3D rigs/cameras available upon request|
HD wireless video system for use in a wide range of applications including roving cameras, point to point links, bikes and airborne.
Small, lightweight MPEG4 H.264 HD video transmission system for use in a variety of situations.
Broadcast RF’s development team designs and builds a multitude of interfaces and control systems, which allows us to supply tailor-made solutions and satisfy the most versatile requirements.