Cameo
ORON® H2
IP65 Hybrid Phosphor-Laser Moving Head
All data are preliminary
- 260W Laser Phosphor Engine
- CMY colour mixing
- Linear CTO
- DMX/RDM, ArtNet, sACN, W-DMX, CRMX
- Zoom range from 0,6° to 32°
- 19 fixed gobos + open and 12 rotating gobos + open
- 2 prism layers with 7 effects (prism, multicolor + frost)
- Shock protective touring case insert included
- Only 32 kg
Price on request
Specifications
Description
FUTURE UNLOCKED: With the ORON® H2, modern lighting designers are embracing the future of lighting technology. The world's first IP65 Hybrid Moving Head with Phosphor Laser Engine is a pioneering hybrid fixture for all creative applications. Those who previously thought of laser fixtures saw extremely tight beams, but no effects, mid-air looks, or washlights. With its exceptionally large zoom range of 0.6° to 32° for laser moving heads, the ORON® H2 covers all applications. A true game-changer.
The Cameo ORON® H2 is based on a 260-watt strong Phosphor Laser Engine, which serves as an energy-efficient, durable replacement for discharge lamps in the 480-watt class. This makes the hybrid moving head a future-proof investment. But the ORON® H2 can do much more!
With 19 fixed and 12 rotating gobos, along with two combinable effect wheels featuring six prisms, Beam Ovalizer, and Frost filters, the laser moving head leaves no creative desires unmet in beam design. The CMY color mixing also provides users with the full CMY color space including white, supplemented by linear CTO correction for precise use on stages, in TV broadcasts, and more.
Rental companies expect investment security, while lighting designers appreciate creative diversity. Yet, in production, simple values also matter: The ORON® H2 is lightweight (32 kg), compact, and allows for easy and fast handling. Not only does it possess full IP65 outdoor capability, but it also offers flexible control via all relevant market protocols. For secure transport, Cameo also provides the ORON® H2 with a specifically adapted touring case insert for protection against shocks.