Renkus-Heinz utilise both in-house and 3rd party software to get the most out of its range of loudspeakers.
RHAON II is its in-house software that has been completely redesigned from the ground up, using highly structured modular code for greater stability and expandability. The software is easy to program, easy to use, and fully compatible with both Gen5 and legacy products.
EASE, created by AFMG, is the 3rd party software Renkus-Heinz has built a close partnership with. EASE is the industry standard tool for acoustic modelling and system design, and provides fast and efficient predictions of its line array products.
RHAON II System Manager has been completely redesigned from the ground up, using highly structured modular code for greater stability and expandability.
RHAON II is easy to program, easy to use, and fully compatible with both Gen5 and legacy Renkus-Heinz products.
Its new, network agnostic interface has been designed to work with tomorrow’s networking protocols, as well as todays. Currently supporting AVDECC IEEE1722.1, Cobranet, and AVB, RHAON II has been structured to allow easy implementation of new and emerging protocols, i.e. Dante and AES67.
BeamWare III, the latest iteration of Renkus-Heinz’ beam steering calculation and simulation program, and UniBeam, which makes it possible to achieve ideal ‘Half Horn’ coverage with ICONYX, are both available within RHAON II.
EASE is the industry standard tool for acoustic modelling and system design and Renkus-Heinz have been close partners with its creators, AFMG, since its introduction.
Renkus-Heinz EASE data is measured in high resolution in its engineering measurement facility, using a purpose designed and built robot that can pickup, rotate and measure all of the loudspeakers they offer today.
EASE Focus and EASE Focus II are Renkus-Heinz primary tools for fast and efficient predictions of its line array products.
They maintain an extensive library of EASE data for all their products, including ICONYX steerable arrays, allowing them to be accurately modeled in EASE.